_ Cornell University Library TJ 140 .S94S637 1868 The life of Georae Stephenson and of his 3 1924 021 408 178 The original of tiiis book is in the Cornell University Library. There are no known copyright restrictions in the United States on the use of the text. http://www.archive.org/cletails/cu31924021408178 / '^«S.' // / / /// ' !■ / /// //■ '/ // ,/ /■! //■, /av/ ,; ;/;,,/ /'! ./, ■//,■/ /,■/,■. NEW YORK, HARBER & BROTHERS, THE LIFE OF GEORGE STEPHENSON AND OF HIS SON ROBERT STEPHENSON; COMPRISING ALSO A HISTORY OF THE INVENTION AND INTRODUCTION OF THE RAILWAY LOCOMOTIVE. By SAMUEL SMILES, AUTHOR OF "SELF-HELP," "THE HUGUENOTS," ETC. Wit]) SPottraftB an! Wumetous fillustratinns. NEW YORK: HARPER & BROTHERS, PUBLISHERS, PKANKLIN SQUARE. 1868. President White , ^ Library PREFACE. The present is a revised edition of the Life of George Stephen- son 'and of his son Eobert Stephenson, to which is prefixed a his- tory of the Eailway and the Locomotive in its earlier stages, uni- form with the early histoiy of the Steam-engine given in vol. iv. of " Lives of the Engineers" containing the memoirs of Boulton and Watt. A memoir of Bichard Trevithick has also been in- cluded in this introductory portion of the book, which will proba- bly be found more complete than any notice which has yet ap- peared of that distinguished mechanical engineer. Since the appearance of this Life in its original form ten years ago, the construction of Railways has continued to make extraor- dinary progress. The length of lines then open in Europe was estimated at about 18,000 miles; it is now more than 50,000 miles. Although Great Britain, first in the field, had then, after about twenty-five years' work, expended nearly 300 millions ster- ling in the construction of 8300 miles of double railway, it has during the last ten years expended about 200 millions more in constructing 5600 additional miles. But the construction of railways has proceeded with equal ra- pidity on the Continent. France has now 9624 miles at work; Germany (including Austria), 13,392 miles ; Spain, 3161 miles ; Sweden, 1100 miles; Belgium, 1073 miles; Switzerland, T95 miles; Holland, 617 miles; besides railways in other states. These have, for the most part, been constructed and opened dur- ing the last ten years, while a considerable length is still under constniction. Austria is actively engaged in carrying new lines PREFACE. across the plains of Hungary to the frontier of Turkey, which Turkey is preparing to meet by Hnes carried up the valley of the Lower Danube ; and Russia, with 2800 miles already at work, is occupied with exteuBive schemes for connecting Petersburg and Moscow with her ports in the Black Sea on the one hand, and with the frontier towns of her Asiatic empire on the other. Italy also is employing her new-bom liberty in vigorously ex- tending railways throughout her dominions. The length of Ital- ian lines in operation in 1866 was 3752 miles, of which not less than 680 were opened in that year. Already has a direct hne of communication been opened between Germany and Italy through the Brenner Pass, by which it is now possible to make the entire journey by railway (excepting only the short sea-passage across the English Channel) from London to Brindisi on the southeast- em extremity of the Itahan peninsula ; and, in the course of a few more years, a still shorter route will be opened through France, when that most formidable of all railway borings, the seven-mile tunnel under Mont Cenis, has been completed. During the last ten years, nearly the whole of the existing In- dian railways have been made. When Edmund Bm-ke in 1783 arraigned the British government for their neglect of India in his speech on Mr. Fox's Bill, he said, " England has built no bridges, made no high roads, cut no navigations, dug out no res- ervoirs Were we to be driven 'Out of India this day, nothing would remain to tell that it had been possessed, during the inglo- rious period of our dominion, by any thing better than the orang- outang or the tiger." But that reproach no longer appHes. Some of the greatest bridges erected in modem times — such as those o-^er the Sone near Patna, and over the Jamna at Allahabad have been erected in connection with the Indian railways, of which there are already 3637 miles at work, and above 2000 more under construction. When these lines have been completed, at an expenditure of about £88,000,000 of British capital guaran- teed by the British govemment, India will be provided with a PREFACE. magnificent system of internal communication, connecting the capitals of the three Presidencies — muting Bombay with Madras on the south, and with Calcutta on the northeast — while a great main line, 2200 miles in extent, passing through the northwestern provinces, and connecting Calcutta with Lucknow, Delhi, Lahore, Moultan, and KmTachee, will unite the mouths of the Hooghly ia the Bay of Bengal with those of the Indus in the Arabian Sea. When the first edition of this work appeared in the beginning of 1857, the Canadian system of railways was but in its infancy. The Grand Trunlc was only begun, and the Victoria Bridge — ^the greatest of all railway structiu-es — was not half erected. Now, that fine colony has more than 2200 miles in active operation along the great valley of the St. Lawrence, connecting Eivi^re du Loup at the mouth of that river, and the harbor of Portland in the State of Maine, via Montreal and Toronto, with Samia on Lake Huron, and vrith Wiadsor, opposite Detroit, in the State of Michigan. The Australian Colonies also have during the same time been actively engaged in providing themselves with rail- ways, many of which are at work, and others are in course of for- mation. Even the Cape of Good Hope has several lines open, and others making. France also has constructed about 400 miles in Algeria, while the Pasha of Egypt is the proprietor of 360 miles in operation across the Egyptian desert. But in no country has railway construction been prosecuted with greater vigor than in the United States. There the railway furnishes not only the means of intercommunication between al- ready established settlements, as in the Old World, but it is re- garded as the pioneer of colonization, and as instrumental in opening up new and fertile territories of vast extent in the west —the food-grounds of future nations. Hence railway construc- tion in that cotintry was scarcely interrupted even by the great Civil War ; at the commencement of which Mr. Seward pubhcly expressed the ' opinion that " physical bonds, such as highways, railroads, rivers, and canals, are vastly more powerful for hold- n PREFACE. ing civil conuniinitiee together than any mere covenants, though written on parchment or engraved on iron." The people of the United States were the first to follow the example of England, after the practicability of steam locomotion had been proved on the Stockton and Darlington and Liverpool and Manchester Eailways. The first sod of the Baltimore and Ohio Railway was cut on the 4th of July, 1828, and the hue was completed and opened for traffic in the following year, when it was worked partly by horse-power, and partly by a loconiotive built at Baltimore, which is still preserved in the Company's workshops. In 1830 the Hudson and Mohawk Railway was be- gun, while other lines were under construction in Pennsylvania, Massachusetts, and New Jersey ; and in the course of ten years, 1843 miles were finished and in operation. In ten more years, 8827 miles were at work ; at the end of 1864, not less than 35,000 miles, mostly single' tracks ; while about 15,000 miles more were under construction. One of the most extensive trunk-lines still unfinished is the Great Pacific Eailroad, connecting the lines in the valleys of the Mississippi and the Missouri with the city of San Francisco on the shores of the Pacific, by which, when com- pleted, it wlU be possible to make the journey from England to Hong Kong, via New York, ia little more than a month. The results of the working of railways have been in many re- spects different from those anticipated by their projectors. One of the most unexpected has been the growth of an immense pas- senger-traffic. The Stockton and DarHngton line was projected as a coal line only, and the Liverpool and Manchester as a mer- chandise hne. Passengers were not taken into account as a source of revenue ; for, at the time of their projection, it was not beUeved that people would trust themselves to be drawn upon a railway by an " explosive machine," as the locomotive was de- scribed to be. Indeed, a writer of eminence declared that he would as soon think of being fired off on a ricochet rocket as PREFACE. vii travel on a railway at twice the speed of the old stage-coaches. So great was the alarm which existed as to the locomotiye, that the Liverpool and Manchester Conunittee pledged themselves in their second prospectus, issued in 1825, " not to require any clause empowering its use ;" and as late as 1829, the Newcastle and Carlisle Act was conceded on the express condition that it should not be worked by locomotives, but by horses only. ISTevertheless, the Liverpool and Manchester Company obtained powers to make and work their railway without any such restric- tion; and when the line was made and opened, a locomotive passenger-train was ordered to be run upon it by way of experi- ment. Greatly to the surprise of the directors, more passengers presented themselves as travelers by the train than could conve- niently be carried. The first arrangements as to passenger-traffic were of a very primitive character, being mainly copied from the old stage-coach system. The passengers were "booked" at the railway office, and their names were entered in a way-bill which was given to the guard when the train started. Though the usual stage-coach bugleman could not conveniently accompany the passengers, the trains were at iirst played out of the terminal stations by a lively tune performed by a trumpeter at the end of the platform, and this continued to be done at the Manchester Station until a com- paratively recent date. But the number of passengers carried by the Liverpool and Manchester line was so unexpectedly great, that it was very soon found necessary to remodel the entire system. Tickets were in- troduced, by which a great saving of time was effected. More roomy and commodious carriages were provided, the original first-class compartments being seated for four passengers only. Every thing was found to have been in the first instance made too Hght and too slight. The prize " Kocket," which weighed only 4f tons when loaded with its coke and water, was found quite unsuited for drawing the increasingly heavy loads of pas- viii PREFACE. sengers. There was also this essential difference between the old stage-coach and the new railway train, that, whereas the former was " full" with six inside and ten outside, the latter must be able to accommodate whatever number of passengers came to be carried. Hence heavier and more powerful engines, and larger and more substantial carriages, were from time to time added to the carrying stock of the railway. The speed of the trains was also increased. The first locomo- tives used in hauling coal-trains ran at from four to six miles an hour. On the Stockton and Darlington line the speed was in- creased to about ten miles an hour ; and on the Liverpool and Manchester line the first passenger-trains were run at the aver- age speed of seventeen miles an hour, which at that time was considered very fast. But this was not enough. When the Lon- don and Birmingham line was opened, the mail-trains were run at twenty-three miles an hour; and gradually the.speed went up, until now the fast trains are run at from fifty to sixty miles an hour — ^the pistons in the cylinders, at sixty miles, traveling at the inconceivable rapidity of 800 feet per minute ! To bear the load of heavy engines run at high speeds, a much stronger and heavier road was found necessary ; and shortly aft- er the opening of the Liverpool and Manchester hne, it was en- tirely relaid with stronger materials. Now that express passen- ger-engines are from thirty to thirty-five tons each, the weight of the rails has been increased from 35 lbs. to Y5 lbs. or 86 lbs. to the yard. Stone blocks have given place to wooden sleepers ; rails with loose ends resting on the chairs, to rails with their ends firmly " fished" together ; and in many places, where the traflBc is unusually heavy, iron rails have been replaced by those of steel. And now see the enormous magnitude to which railway pas- senger-traffic has grown. In the year 1866, 274,293,668 passen- gers were carried by day tickets in Great Britain alone. But this was not all ; for in that year 110,227 periodical tickets were PREFACE. ix issued by the different railways ; and assuming half of them to be annual, one fourth half-yearly, and the remainder quarterly tickets, and that their holders made only five journeys each way weekly, this would give an additional number of 39,405,600 jour- neys, or a total of 313,699,268 passengers carried in Great Brit- ain in one year. It is difficult to grasp the idea of the enormous number of per- sons represented by these figures. The mind is merely bewilder- ed by them, and can form no adequate notion of their magni- tude. To reckon them singly would occupy twenty years, count- ing at the rate of one a second for twelve hours every day. Or take another illustration. Supposing every man, woman, and child in Great Britain to make ten journeys by rail yearly, the number would fall short of the passengers carried in 1866. Mr. Porter, in his " Progress of the Nation," estimated that thirty millions of passengers, or about eighty -two thousand a day, traveled by coaches in Great Britain in 1834, an average distance of twelve miles each, at an average cost of 5s. a passen- ger, or at the rate of id. a mile ; whereas above 313 millions are now carried by railway an average distance of 8f miles each, at an average cost of Is. l^d. per passenger, or about three half- pence per mile, in considerably less than half the time. But, besides the above number of passengers, one hundred and twenty -four million tons of minerals and merchandise were carried by railway in the United Kingdon in 1866, and fifteen millions of cattle, besides mails, parcels, and other traffic. The distance run by passenger and goods trains in the year was 142,807,853 milfes, to accomplish which it is estimated that four miles of railway on an average must be covered by running trains during every second all the year round. To perform this service, there were, in 1866, 8125 locomotives at work in the United Kingdom, consuming about three million tons of coal and coke, and fiashing into the air every minute some thirty tons of water in the form of steam in a high state PREFACE. of elasticity. There were also 19,228 passenger-carriages, 7276 vans and breaks attached to passenger-trains, and 242,947 trucks, wagons, and other vehicles appropriated to merchandise. Buck- led together, buffer to buffer, the locomotives and tenders would extend for a length of about 54 miles, or more than the distance from London to Brighton; while the carrying vehicles, joined together, would form two trains occupying a double line of rail- way extending from London to beyond Livemess. A notable feature in the growth of railway traffic of late years has been the increase in the number of third-class passengers, compared with first and second class. Sixteen years since, the third-class passengers constituted only about one third ; ten years later they were about one half ; whereas now they form nearly two thirds of the whole number carried. Thus George Stephen- son's prediction " that the time would conie when it would be cheaper for a working man to make a journey by railway than to walk on foot" is already realized. The degree of safety with which this great traffic has been conducted is not the least remarkable of its features. Of course, so long as railways are worked by men, they will be liable to the imperfections belonging to all things human. Though their ma- chinery may be perfect, and their organization as complete as skill and forethought can make it, workmen vsdll at times be for- getful and hstless, and a moment's carelessness may lead to the most disastrous results. Yet, taking all circumstances into ac- count, the wonder is that traveling by railway at high speeds should have been rendered comparatively so safe. To be struck by lightning is one of the rarest of all causes of death, yet more persons were killed by lightning in Great Britain, in 1866, than were killed on railways from causes beyond their own control ; the number in the former case having been nine- teen, and in the latter fifteen, or one in every twenty millions of passengers carried. Most persons would consider the probability of their dying by hanging to be extremely remote ; yet, accord- PREFACE. xi ing to the Eegistrar General's returns for 1867, it is thirty times greater than that of betog killed by railway accident. Taldng the mimber of persons who traveled ia Great Britain in 1866 at 313,699,268, of whom fifteen were accidentally killed, it would appear that, even supposing a person to have a permanent exist- ence, and to make a journey by railway daily, the probability of his being killed ia an accident would occur on an average once in above 50,000 years. The remarkable safety with which railway traffic is on the whole conducted, is due to constant watchfulness and highly-ap- plied skill. The men who work the railways are for the most part the picked men of the country, and every railway station may be regarded as a practical school of industry, attention, and punctuality. Where railways fail in these respects, it will usu- ally be found that it is because the men are personally defective, or because better men are not to be had. It must also be added that the onerous and responsible duties which railway workmen are called upon to perform require a degree of consideration on the part of the jjublic which is not very often extended to them. Few are aware of the complicated means and agencies that are in constant operation on railways day and night to insure the safety of the passengers to their journeys' end. The road is un- der a system of continuous inspection, under gangs of men — about twelve to every five miles, under a foreman or "ganger" — whose duty it is to see that the rails and chairs are sound, all their fastenings complete, and the line clear of obstructions. Then, at all the junctions, sidings, and crossings, pointsmen are stationed, with definite instructions as to the duties to be per- formed by them. At these places signals are provided, worked from the station platforms, or from special signal-boxes, for the purpose of protecting the stopping or passing trains. When the first railways were opened the signals were of a very simple kind. The station-men gave them with their arms stretched out in dif- ferent positions ; then flags of different colors were used ; next xii PREFACE. lixed signals, with arms or discs, or of rectangular or triangular shape. These were followed by a complete system of semaphore signals, near and distant, protecting all junctions, sidings, and crossings. When government inspectors were first appointed by the Board of Trade to examine and report upon the working of railways, they wei'e alanned by the number of trains following each other at some stations in what then seemed to be a very rapid succes- sion. A passage from a Report written in 1840 by Sir Frederick Smith, as to the trafBc at " Taylor's Junction," on the York and North Midland Railway, contrasts curiously with the railway life and activity of the present day : " Here," wrote the alarmed in- spector, " the passenger trains from York, as well as Leeds and Selby, meet four times a day. No less than 23 passenger-trains stop at or pass this station in the 24 hours — an amount of trafiic requiring not only the most perfect arrangements on the part of the management, but the utmost vigilance and energy in the servants of the Company employed at this place." Contrast this with the state of things now. On the Metropolitan Line, .667 trains pass a given point in one direction or the other during tlie eighteen hours of the worldng day, or an average of 36 trains an hour. At the Cannon-street Station of the Southeastern Rail- way, 527 trains pass in and out daily, many of them crossing each others' tracks under the protection of the station signals. Forty-five trains run in and out between 9 and 10 A.M., and an equal number between 4 and 5 P.M. Again, at the Clapham Junction, near London, about 700 trains pass or stop daily ; and though to the casual observer the succession of trains coming and going, running and stopping, coupling and shunting, appears a scene of inextricable confusion and danger, the whole is cleai-ly intelligible to the signal-men in their boxes, who work the trains in and out with extraordinary precision and regularity. The inside of a signal-box reminds one of a piano-forte on a large scale, the lever-handles corresponding with the keys of the PREFACE. xui instmment; and, to an uninstmcted person, to work the one would be as difficult as to play a tune on the other. The signal- box outside Cannon-street Station contains 67 lever-handles, by means of which the signal-men are enabled at the same moment to communicate with the drivers of all the engines on the line within an area of 800 yards. They direct by signs, which are quite as intelligible as words, the drivers of the trains starting from inside the station, as well as those of the trains arriving from outside. By pulliiig a lever-handle, a distant signal, per- haps out of sight, is set some hundred yards off, which .the ap- proaching driver — treading it quicHy as he comes along — at once interprets, and stops or advances, as the signal may direct. The precision and accuracy of the signal-machinery employed at important stations and junctions have of late years been much unproved by an ingenious contrivance, by means of which the setting of the signal prepares the road for the coming train. When the signal is set at " Danger," the points are at the same time worked, and the road is "locked" against it; and when at " Safety," the road is open — the signal and the points exactly corresponding. The 'Electric Telegraph has also been found a valuable auxil- iary in insuring the safe working of large railway traffics. Though the locomotive may run at sixty nules an hour, electric- ity, when at its fastest, travels at the rate of 288,000 miles a sec- ond, and is therefore always able to herald the coming train. The electric telegraph may, indeed, be regarded as the nervous system of the railway. By its means the whole Mne is kept throbbing with intelligence. The method of working electric signals varies on different Mnes ; but the usual practice is to di- vide a line into so many lengths, each protected by its signal-sta- tions, the fundamental law of telegraph working being that two engines are not to be allowed to run on the same line between two signal-stations at the same time. When a train passes one of such stations, it is immediately signaled on — usually by elec- xiv PREFACE. trie signal-bells — ^to the station in advance, and that interval of railway is " blocked" nntil the signal has been received from the station in advance that the train has passed it. Thus cm mterval of space is always secured between trains following each other, which are thereby alike protected before and behind. And thus, when a train starts on a journey of it may be hundreds of miles, it is signaled on from station to station, and "lives along the line," until at length it reaches its destination, and the last signal of " train in" is given. By this means an immense number of trains can be worked with regularity and safety. On the South- eastern Railway, where the system has been brought to a state of high efficiency, it is no unusual thing during Easter week to send 570,000 passengers through the London Bridge Station alone ; and on some days as many as 1200 trains a day. While such are the expedients adopted to insure safety, others eijually ingenious are adopted to insure speed. In the case of express and mail trains, the frequent stopping of the engines to take in a fresh supply of water occasions a considerable loss of time on a long journey, each stoppage for this purpose occupy- ing from ten to fifteen minutes. To avoid such stoj^pages larger tenders have been provided, capable of carrying as much as 2000 gallons of water each. But as a considerable time is occupied in filling these, a plan has been contrived by Mr. Eamsbottom, the locomotive engineer of the London and Northwestern Kailway, by which the engines are made to feed themselves while running at full speed ! The plan is as follows : An open trough, about 440 feet long, is laid longitudinally between the rails. Into this trough, which is filled with water, a dip-pipe, or scoop attached to the bottom of the tender of the ruiming train, is lowered, and, at a speed of 50 miles an hour, as much as 1070 gallons of water are scooped up in the course of a few minutes. The first of such troughs was laid down between Chester and Holyhead, to enable the Express Mail to run the distance of 84f miles in two hours and* five minutes without stopping; and similar troughs have PREFACE. XV since been laid down at Bushey, near London; at Castlethorpe, near Wolverton ; and at Parkside, near Liverpool. At these f our troughs about 130,000 gallons of water are scooped up daily. Wherever railways have been made, new towns have sprung up, and old towns and cities been quickened into new hfe. When the first English lines were projected, great were the prophecies of disaster to the inhabitants of the districts through which they were proposed to be forced. Such fears have long since been dispelled in this country. The same prejudices exist- ed in France. When the railway from Paris to Marseilles was projected to pass through Lyons, a local prophet predicted that if the line were made the city would be ruined — " ViUe traversee, villeperdmef^ while a local priest denounced the locomotive and the electric telegraph as heralding the reign of Antichrist. But such nonsense is no longer uttered. Now it is the city without the railway that is regarded as the "city lost;" for it is in a measure shut out from the rest of the world, and left outside the pale of civilization. Perhaps the most striking of all the illustrations that could be offered of the extent to which railways facihtate the locomotion, the industry, and the subsistence of the population of large towns and cities, is afforded by the working of the railway sys- tem in connection with the capital of Great Britain. The extension of railways to London has been of comparative- ly recent date, the whole of the lines connecting it with the prov- inces and terminating at its outskirts having been opened during the last thirty years, while the lines inside London have for the most part been opened within the last ten years. The first London line was the Greenwich Eailway, part of which was opened for traffic to Deptford in February, 1836. The working of this railway was first exhibited as a show, and the usual attractions were employed to make it " draw." A band of musicians in the garb of the Beef -eaters was stationed at the xvi PREFACE. London end, and another band at Deptford. For cheapness' sake, the Deptford band was shortly superseded by a large bar- rel-organ, which played in the passengers ; but when the traffic became established, the barrel-organ, as well as the Beef -eater band at the London end, were both discontinued./ The whole length of the line was lit up at night by a row of lamps on either side Hke a street, as if to enable the locomotives or the passen- gers to see their way in the dark ; but these lamps also were eventually discontinued as unnecessary. As a show, the Greenwich Eailway proved tolerably success- ful. During the first eleven months it carried 456,750 passen- gers, or an average of about 1300 a day. But the railway hav- ing been found more convenient to the public than either the river boats or the omnibuses, the number of passengers rapidly increased. When the Croydon, Brighton, and Southeastern Rail- ways began to pour their streams of traffic over the Greenwich Viaduct, its accommodation was found much too limited, and it was widened from time to time, until now nine lines of railway are laid side by side, over which more than twenty millions of passengers are carried yearly, or an average of about .60,000 a day aU the year round. Since the partial opening of the Greenwich Eailway in 1836, a large extent of railways has been constructed in and about the metropolis, and convenient stations have been established almost in the heart of the city. Sixteen of these stations are within a circle of half a mile radius from the Mansion House, and above three hundred stations are in actual use or in course of construc- tion within about five miles of Charing Cross. The most impor- tant lines recently opened for the accommodation of the London local traffic have been the London, Chatham and Dover Metro- pohtan Extensions (1861), the Metropolitan (1863), the North London Extension to Liverpool Street (1865), the Charing Cross and Cannon - street Extensions of the Southeastern Eailway (1864-6), and the South London Extension of the Brighton PREFACE. xvu Eailway (1866). Of these railways, the London, Chatham and Dover carried 5,228,418 passengers in 1867 ; the Metropolitan, 23,405,282; the North London, 17,535,502; the Southeastern, 17,473,934; and the Brighton, 12,686,417. The total number carried into and out of London, as well as from station to station in London, in the same year, was 104 millions of passengers. To accommodate this vast traffic, not fewer than 3600 local trains are rim in and out daily, besides 340 trains which depart to and arrive from distant places, north, south, east, and west. La the morning hours, between 8 30 and 10 30, when business men are proceeding inward to their offices and counting-houses, and in the afternoon between four and six, when they are return- ing outward to their homes, as many as two thousand stoppages are made in the hour, within the metropolitan district, for the purpose of taking up and setting down passengers, while about two miles of railway are covered by the running trains. One of the remarkable effects of raUways has been to extend the residential area of all large towns and cities. This is espe- cially notable in the case of London. Before the introduction of railways, the residential area of the metropolis was limited by the time occupied by business men in making the journey out- ward and inward daily; and it was for the most part boimded by Bow on the east, by Hampstead and Highgate on the north, by Paddington and Kensington on the west, and by Clapham and Brixton on the south. But now that stations have been es- tablished near the centre of the city, and places so distant as Waltham, Bamet, Watford, HanweU, Kichmond, Epsom, Croydon, Eeigate, and Erith can be more quickly reached by rail than the old suburban quarters were by onmibus, the metropolis has be- come extended in all directions along its railway lines, and the population of London, instead of living in the city or its imme- diate vicinity as formerly, have come to occupy a residential area of not less than six hundred square miles ! The number of new towns which have consequently sprung B xviii PREFACE. into existence near London within the last twenty years has been very great; towns numbering from ten to twenty thousand in- habitants, which before were but villages, if, indeed, they existed. This has especially been the case along the lines south of the Thames, principally iu consequence of the termini of those lines being more conveniently situated for city men of business. Hence the rapid growth of the suburban towns up and down the river, from Richmond and Staines on the west, to Erith and Gravesend on the east, and the hives of population which have settled on the high grounds south of the Thames, in the neighborhood of Nor- wood and the Crystal Palace, rapidly spreading over the Surrey Downs, from Wimbledon to Guildford, and from Bromley to Croydon, Epsom, and Dorking. And now that the towns on the south and southeast coast can be reached by city men in little more time than it takes to travel to Clapham or Bayswater by omnibus, such places have become, as it were, parts of the great metropolis, and Brighton and Hastings are but marine suburbs of London. The improved state of the commimications of the city with the country has had a marked effect upon its population. While the action of the railways has been to add largely to the number of persons living in London, it has also been accompanied by their dispersion over a much larger area. Thus the population of the central parts of London is constantly decreasing, whereas that of the suburban districts is as constantly increasing. The popula- tion of the city fell off more than 10,000 between 1851 and 1861 ; and during the same period, that of Holbom, the Strand, St. Mar- tin's-ia-the-Fields, St. James's, Westminster, East and West Lon- don, showed a considerable decrease. But, as regards the whole mass of the metropolitan population, the increase has been enor- mous, especially since the introduction of railways. Thus, start- ing from 1801, when the population of London was 958,863, we find it increasing in each decennial period at the rate of between two and three hundred thousand, until the year 1841, when it PREFACE. yiY amounted to 1,948,369. Railways had by that time reached London, after which its population increased at nearly double the former ratio. In the ten years ending 1851, the increase was 413,867 ; and in the ten years ending 1861, 441,753 ; until now, to quote the words of the Eegistrar General in his last annual Eeport, " the population within the registration limits is by esti- mate 2,993,513 ; but beyond this central mass there is a ring of life growing rapidly, and extending along railway lines over a circle of fifteen miles from diaring Cross. The population within that circle, patrolled by the metropohtan police, is about 3,463,771 !" The aggregation of so vast a number of persons within so com- paratively limited an area — the immense quantity of food re- quired for their daily sustenance, as well as of fuel, clothing, and other necessaries — would be attended with no small inconven- ience and danger but for the facilities again provided by the railways. The provisioning of a garrison of even four thousand men is considered a formidable affair; how much more so the provisioning of nearly four milhons of people ! The whole mystery is explained by the admirable organization of the railway service, and the regularity and dispatch with which it is conducted. We are enabled by the courtesy of the general managers of the London railways to bring together the following brief summary of facts relating to the food supply of London, which will probably be regarded by most readers as of a very re- markable character. Generally speaking, the railways to the south of the Thames contribute comparatively little toward the feeding of London. They are, for the most part, passenger and residential lines, trav- ersing a limited and not very fertile district bounded by the sea- coast, and, excepting in fruit and vegetables, milk and hops, they probably carry more food from London than they bring to it. The principal supplies of grain, flour, potatoes, and fish are brought by railway from the eastern counties of England and XX PREFACE. Scotland ; and of cattle and sheep, beef and mutton, from the grazing coimties of the west and northwest of Britain, as far as from the Highlands of Scotland, which, through the instrumen- tality of railways, have become part of the great grazing-grounds of the metropolis. Take first " the staff of lif e"^-bread and its constituents. Of wheat, not less than 232,080 quarters were brought into London by railway in 1867, besides what was brought by sea ; of oats, 151,757 quarters ; of barley, 70,282 quarters ; of beans and peas, 51,448 quarters. Of the wheat and barley, by far the largest proportion was brought by the Great Eastern Eailway, which de- livered in London last year 155,000 quarters of wheat and 45,500 quarters of barley, besides 600,4:29 quarters more in the form of malt. The largest quantity of oats was brought by the Great Northern Railway, principally from the north of England and the east of Scotland — ^the quantity delivered by that company in 1867 having been 97,500 quarters, besides 24,664 quarters of wheat, 5560 quarters of barley, and 103,917 quarters of malt. Again, of 1,250,566 sacks of flour and meal delivered in London last year, the Great Eastern brought 654,000 sacks, the Great Northern 232,022 sacks, and the Great Western 136,312 sacks; the principal contribution of the London and Northwestern Eail- way toward the London bread -stores being 100,760 boxes of American flour, besides 24,300 sacks of English. The total quantity of malt delivered at the London railway stations in 1867 was thirteen hundred thousand sacks. Next, as to flesh meat. Last year not fewer than 172,300 head of cattle were brought into London by railway, though this was considerably less than the number carried before the cattle plague, the Great Eastern Eailway alone having carried 44,672 less than in 1864. But this loss has since been more than made up by the increased quantities of fresh beef, mutton, and other kinds of meat imported in lieu of the live animals. The princi- pal supplies of cattle are brought, as we have said, by the west- PREFACE. xxi em, northern, and eastern lines : by the Great Western from the western counties and Ireland ; by the London and Northwestern, the Midland, and the Great Northern, from the northern counties and from Scotland ; and by the Great Eastern from the eastern counties, and from the ports of Harwich and Lowestoft. Last year also, 1,147,609 sheep were brought to London by rail- way, of which the Great Eastern delivered not less than 265,371 head. The London and Northwestern and Great Northern be- tween them brought 390,000 head from the northern English counties, with a large proportion from the Scotch Highlands; while the Great Western brought up 130,000 head from the Welsh mountains, and from the rich grazing districts of Wilte, Gloucester, Somerset, and Devon. Another important freight of the London and Northwestern Eailway consists of pigs, of which they delivered 54,700 ia London last year, principally Lish ; while the Great Eastern brought up 27,500 of the same animal, partly foreign. While the cattle plague has had the effect of greatly reducing the number of live-stock brought into London yearly, it has given a considerable impetus to the Fresh Meat traffic. Thus, in ad- dition to the above large numbers of cattle and sheep delivered in London last year, the railways brought 76,175 tons of meat, which — taking the meat of an average beast at 800 lbs., and of an average sheep at 64 lbs. — would be equivalent to about 112,000 more cattle, and 1,267,500 more sheep. The Great Northern brought the largest quantity ; next, the London and Northwest- em — these two companies having brought up between them, from distances as remote as Aberdeen and Livemess, about 42,000 tons of fresh meat in 1867, at an average freight of about ^. a lb. Again, as regards Eish, of which six tenths of the whole quan- tity consumed in London is now brought by rail. The Great Eastern and the Great Northern are by far the largest importers of this article, and justify their claim to be regarded as the great food lines of London. Of the 61,358 tons of fish brought by rail- xxii PREFACE. way in 1867, not less than 24,500 tons were delivered by the for- mer, and 22,000 tons, brought from much longer distances, by the latter company. The London and Northwestern brought about 6000 tons lg,st year, the principal part of which was salmon from Scotland and Ireland. The Great Western also brought about 4000 tons, partly salmon, but the greater part mackerel fi-om the southwest coast. During the mackerel season, as much as a hun- dred tons at a time are brought into the Paddington Station by express fish-train from Cornwall. The Great Eastern and Great Northern Companies are also the principal carriers of turkeys, geese, fowls, and game, the quantity delivered in London last year by the former company having been 5042 tons. In Christmas week no fewer than 30,000 turkeys and geese were delivered at the Bishopsgate Station, besides about 300 tons of poultry, 10,000 barrels of beer, and immense quanti- ties of fish, oysters, and other kinds of food. As much as 1600 tons of poultry and game were brought last year by the South- western Railway ; 600 tons by the Great Northern Eailway ; and 130 tons of turkeys, geese, and fowls by the London, Chatham and Dover line, principally from France. Of miscellaneous articles, the Great Northern and Midland each brought about 3000 tons of cheese, the Southwestern 2600 tons, and the London and Northwestern 10,034 cheeses in num- ber ; while the Southwestern and Brighton lines brought a splen- did contribution to the London breakfast-table in the shape of 11,259 tons of French eggs ; these two companies delivering be- tween them an average of more than three miUions of eggs a week all the year round ! The same companies last year deliv- ered in London 14,819 tons of butter, for the most part the pro- duce of the farms of Normandy, the greater cleanness and neat- ness with which the Normandy butter is prepared for market rendering it a favorite both with dealers and consumers of late years compared with Irish butter. The London, Chatham and Dover Company also brought from Calais 96 tons of eggs. PREFACE. yiriii Next, as to the potatoes, vegetables, and fruit brougM by rail. Forty years since, the inhabitants of London relied for their sup- ply of vegetables on the garden-grounds in the immediate neigh- borhood of the metropolis, and the consequence was that they were both very dear and limited ia quantity. But railways, while they have extended the grazing-grounds of London as far as the Highlands, have at the same time extended the garden- grounds of London into all the adjoining counties — into East Kent, Essex, Suffolk, and Norfolk, the vale of Gloucester, and even as far as Penzance in Cornwall. The London, Chatham and Dover, one of the youngest of our main lines, brought up from East Kent last year 52Y9 tons of potatoes, 1046 tons of veg- etables, and 5386 tons of fruit, besides 542 tons of vegetables from Erance. The Southeastern brought 25,163 tons of the same produce. The Great Eastern brought from the eastern counties 21,315 tons of potatoes, and 3596 tons of vegetables and fruit; while the Great Northern brought no less than 78,505 tons of potatoes — a large part of them from the east of Scotland — and 3Y68 tons of vegetables and fruit. About 6000 tons of early potatoes were last year brought from Cornwall, with about 5000 tons of brocoli, and the quantities are steadily increasing. " Truly London hath a large beUy," said old Fuller two hundred years since. But how much more capacious is it now ! One of the most striking illustrations of the utility of railways ia contributing to the supply of wholesome articles of food to the population of large cities is to be found ia the rapid growth of the traffic ia Milk. Eeaders of newspapers may remember the descriptions published some years siace of the horrid dens ia which London cows are penned, and of the odious compound sold by the name of milk, of which the least deleterious iagre- dient ia it was supplied by the " cow with the iron tail." That state of affairs is now completely changed. What with the greatly improved state of the London dairies and the better quality of the milk supplied by them, together with the large xxiv PREFACE. quantities brouglit by railway from a range of a hundred miles and more all round London, even the poorest classes in the me- tropolis are now enabled to obtain as wholesome a supply of the article as the inhabitants of most country towns. The milk traffic has in some cases been rapid, almost sudden, in its growth. Though the Great Western is at present the greatest of the milk lines, it brought very little into London prior to the year 1865. In the month of August ia that year it brought 23,474 gallons, and in the month of October following the quantity had increased to 103,214 gallons. Last year the total quantity dehvered in London by this single rail-fray was 1,514,836 gallons, or an average of 30,000 gallons a week. The largest proportion of this milk was brought from beyond Swin- don in Wiltshire, about 100 miles from London ; but consider- able quantities were also brought from the vale of Grloucester and from Somerset. The London and Southwestern also is a great milk-carrying line, having brought as much as 1,480,272 gallons to London, last year, or an average of 28,000 gallons a week. The Great Eastern brought nearly the same quantity, 1,822,429 gallons, or an average of about 25,400 gallons a week. The London and Northwestern ranks next, having brought 643,432 gallons in 1867; then the Great Northern, 455,916 gallons; the Southeastern, 435,668 gallons; and the Brighton, 419,254 gallons. The total quantity of milk dehver- ed in London by railway last year was 6,309,446 gallons, or above 120,000 gallons a week. Yet this traffic, large though it may appear, is as yet but in its infancy, and in the course of a few more years it will be found very largely increased, according as facihties are provided for its accommodation and transit. These great streams of food, which we have thus so summarily described, flow into London so continuously and uninterruptedly, that comparatively few persons are aware of the magnitude and importance of the process thus daily going forward. Though gathered from an immense extent of country — embracing En- PREFACE. XXV gland, Scotland, Wales, and Ireland — the influx is so nnintermit- ted that it is relied upon with as much certainty as if it only came from the counties immediately adjoining London. The express meat-traia from Aberdeen arrives in town as punctually as the Clapham omnibus, and the express milk-train from Ayles- bury is as regular in its delivery as the penny post. Indeed, London now depends so much upon railways for its subsistence, that it may be said to be fed by them from day to day, having never more than a few days' food in stock. And the supply is so regular and continuous, that the possibihty of its being inter- rupted never for a moment occurs to any one. Yet, iu these days of strikes among workmen, such a contingency is quite within the limits of possibihty. Another contingency, arising ia a state of war, is probably stiU more remote. But, were it pos- sible for a war to occur between England and a combination of foreign powers possessed of stronger iron-clads than ours, and that they were able to ram our ships back into port and land an enemy of overpowering force on the Essex coast, it would be suf- ficient for them to occupy or cut the railways leading from the north, to starve London into submission in less than a fortnight. Besides supplying London with food, railways have also been instrumental in insuring the more regular and economical supply of fuel — a matter of ahnost as vital importance to the population in a climate such as that of England. So long as the market was supplied with coal brought by sea in sailing ships, fuel in winter often rose to a famine price, especially during long-con- tinued easterly winds. But, now that railways are in full work, the price is almost as steady in winter as in summer, and the sup- ply is more regular at all seasons. The following statement of the coals brought into London by sea and by railway, at decennial periods since 1827, as supphed by Mr. J. K. Scott, Eegistrar of the Coal Exchange, shows the effect of railways in increasing the supply of fuel, at the same time that they have lowered the price to the consumer : XXVI PREFACE. Tears. • Sea-borne Coal. Coals bronght by Bail- way. Price per Ton. 1827 1847 1857 1867 Tons. 1,882,321 3,280,420 3,133,459 3,016,416 Tons.' ml 19,336 1,206,775 3,295,652 8. d. 28 6 20 10 18 8 20 8 Thus the price of coal has been reduced Is. lOd. a ton since 1827, while the quantity delivered has been enormously increased, the total saving on the quantity consumed in the metropolis in 1867, compared with 1827, being equal to £2,388,000. But the carriage of food and fuel to London forms but a small part of the merchandise traffic carried by railway. Above 600,000 tons of goods of various kinds yearly pass through one station only, that of the London and Northwestern Company, at Camden Town ; and sometimes as many as 20,000 parcels daily. Every other metropolitan station is similarly alive with traffic in- ward and outward, London having since the iatroduction of rail- ways become more than ever a great distributive centre, to which merchandise of all kinds converges, and from which it is distrib- uted to aU parts of the country. Mr. Bazley, M.P., stated at a late public meeting at Manchester that it would probably require ten millions of horses to convey by road the merchandise traffic which is now annually carried by railway. Railways have also proved of great value in connection with the Cheap Postage system. By their means it has become possi- ble to carry letters, newspapers, books, and post parcels in any quantity, expeditiously and cheaply. The Liverpool and Man- chester line was no sooner opened in 1830 than the Post-office authorities recognized its utility, and used it for carrying the mails between the two towns. When the London and Birming- ham line was opened eight years later, mail trains were at once put on, the directors undertaking to perform the distance of 113 miles within 5 hours by day and 5^ hours by night. As addi- tional lines were opened, the old four-horse mail-coaches were gradually discontinued, until, in 1858, the last of them, the " Der- PREFACE. xxvii by Dilly," which ran between Manchester and Derby,.was taken off on the opening of the Midland Hne to Eowsley. The increased accommodation provided by railways was found of essential importance, more particularly after the adoption of the Cheap Postage system ; and that such accommodation was needed will be obvious from the extraordinary iucrease which has taken place in the number of letters and packets sent by post. Thus, in 1839, the number of chargeable letters carried was only 76 minions, and of newspapers MJ millions ; whereas, in 1865, the number of letters had increased to 720 millions, and in 1867 to 775 millions, or more than tenfold, while the number of news- papers, books, samples, and patterns (a new branch of postal bus- iness begun ia 1864) had increased, ia 1865, to 98^ millions. To accommodate this largely-increasing traffic, the bulk of which is carried by railway, the nuleage run by mail trains in the United Kingdom has increased from 25,000 miles a day in 1854 (the first year of which we have any return of the mileage run) to 60,000 miles a day in 1867, or an increase of 240 per cent. The Post-office expenditure on railway service has also increased, but not in like proportion, having been £364,000 in the former year, and £559,575 in the latter, or an increase of 154 per cent. The revenue, gross and net, has increased stUl more rapidly. In 1841, the first complete year of the Cheap Postage system, the gross revenue was £1,359,466, and the net revenue £500,789 ; in 1854, the gross revenue was £2,574,407, and the net revenue £1,173,723 ; and in 1867, the gross revenue was £4,548,129, and the net reve- nue £2,127,125, being an increase of 420 per cent, compared with 1841, and of 180 per cent, compared with 1854: How much of this net increase might fairly be credited to the Kailway Postal service we shall not pretend to say, but assuredly the proportion must be very considerable. One of the great advantages of railways in connection with the postal service is the greatly increased frequency of communi- cation which they provide between aU the large towns. Thus xxviii PREFACE. Liverpool has now six deliveries of Manchester letters daily, while every large town in the kingdom has two or more deliveries of London letters daily. In 1863, 393 towns had two mails daily from London ; 50 had three mails daily ; 7 had four mails a day from London, and 15 had foxir mails a day to London ; while 3 towns had five mails a A&jfrom London, and 6 had five mails a day to London. Another feature of the railway mail train, as of the passenger train, is its capacity to carry any quantity of letters and post par- cels that may require to be carried. In 1838, the aggregate weight of all the evening mails dispatched from London by twen- ty-eight mail-coaches was 4 tons 6 cwt., or an average of about 3J cwt. each, though the maximum contract weight was 15 cwt. The mails now are necessarily much heavier, the number of let- ters and packets having, as we have seen, increased more than tenfold since 1839. But it is not the ordinary so much as the extraordinary mails that are of considerable weight, more partic- ularly the American, the Continental, and the Australian mails. It is no unusual thing, we are inf ormedj for the last-mentioned mail to weigh as much as 40 tons. How many of the old mail- coaches it would take to carry such a mail the 79 miles' jomney to Southampton, with a relay of four horses every five or seven miles, is a problem for the arithmetician to solve. Bu:t even sup- posing each coach to be loaded to the maximum weight of 15 cwt. per coach, it would require about sijrty vehicles and about 1700 horses to carry the 40 tons, besides the coachmen and guards. A few words, in conclusion, as to the number of men employed in working and maintaining railways. According to Mr. Mills,* 166,047 men and officers were employed in the working of 13,289 miles open in the IJnited Eangdom in 1865, besides 53,923 em- ployed on lines then imder construction. The most numerous * "The Railway Service, its Exigencies, Provisions, and Requirements.'" By W. F. MiUs. London, 1867. PREFACE. xxix body of workmen is that of the laborers (81,284) employed in the maintenance of the permanent way. Being mostly picked men from the labeling class of the adjoining districts, they are paid considerably higher wages, and hence one of the direct effects of railways on the laboring population (besides affording them greater facilities for locomotion) has been to raise the standard of wages of ordinary labor at least 2«. a week in all the districts into which tiiey have penetrated. The workmen next in munber is that of the artificers (40,167) employed in constructing and re- pairing the rolling-stock; the porters (25,381), the plate-layers (12,901), guards and brakesmen (5799), firemen (5266), and en- gine-drivers (5171). But, besides the employ^ directly engaged in the working and maintenance of railways, large numbers of workmen are also occupied in the manufacture of locomotives and rolling-stock, and in providing the requisite materials for the permanent way. Thus the consumption of rails alone averages nearly 400,000 tons a year in the TJnited Kingdom alone, while the replacing of decayed sleepers requires about 10,000 acres of forest to be cut down annually and sawn into sleepers. Taking the varions railway workmen into accoimt, with their families, it will be ionnd that they represent a total of about three quarters of a million persons, or about one in fifty of our population, who are dependent on railways for their subsistence. While the practical working of railways has, on the whole^ been so satisfactory, the case has been very different as regards their direction and financial management. The men employed in the working of railways make it their business to learn it, and, being responsible, they are mader the necessity of taking pains to do it well ; whereas the men who govern and direct them are practically irresponsible, and may possess no qualification what- ever for the office excepting only the holding of so much stock. The consequence has been much blundering on the part of these amateurs, and great loss on the part of the public. Indeed, what XXX PREFACE. between the confused, contradictory, and often unjust legislation of Parliament on the one hand, and the carelessness or incompe- tency of directors on the other, many once flourishing concerns have been thrown into a state of utter confusion and muddle, until railway government has become a by-word of reproach. And this state of things will probably continue until the fatal defect of government by Boards — an extremely limited responsi- bihty, or no responsibility at all— has been rectified by the ap- pointment, as in France, of executives consisting of a few men of special ability and trained administrative skill, personally respon- sible to their constituents for the due performance of their re- spective functions. But the discussion of this subject would re- quire a treatise, whereas we are now but writing a preface. Whatever may be said of the financial mismanagement of rail- ways, there can be no doubt as to the great benefits conferred by them on the public wherever made. Even those railways which have exhibited the most " frightful examples" of scheming and financing, so soon as placed in the hands of practical men to work, have been found to prove of unquestionable public conven- ience and utility. And notwithstanding all the faults and im- perfections that are alleged against railways have been admitted, we think that they must, nevertheless, be recognized as by far the most valuable means of communication between men and nations that has yet been given to the world. The author's object in publishing this book in its original form, some ten years since, was to describe, in connection with the " life of George Stephenson," the origin and progress of the rail- way system, and to show by what moral and material agencies its founders were enabled to cany their ideas into effect, and to work out results which even then were of a remarkable charac- ter, though they have since, as above described, become so much more extraordinary. The favor with which successive editions of the book have been received has justified the author in his an- PREFACE. xxxi ticipation that such a narrative would prove of general, if not of permanent- interest, and he has taken pains, in preparing for the press the present, and probably final edition, to render it, by care- ful amendment and revision, more worthy of the public accept- ance. London, May, 1868. PREFACE TO THE EIGHTH EDITION, 1864. The following is a revised and improved edition of " The Life of George Stephenson," with which is incorporated a Memoir of his son Kobert, late President of the Institute of Civil Engineers. Siace its original appearance in 1857, much additional informa- tion has been commnnicated to the author relative to the early history of Railways and the men principally concerned in estab- lishing them, of which he has availed himself iu the present edition. In preparing the original work for publication, the author en- joyed the advantage of the cordial co-operation and assistance of Robert Stephenson, on whom he mainly relied for information as to the various stages through which the Locomotive passed, and especially as to his father's share in its improvement. Through Mr. Stephenson's instrumentahty also, the author was enabled to obtain much valuable information from gentlemen who had been intimately connected -with, his father and himself in their early undertatdngs — among others, from Mr. Edward Pease, of Darlington ; Mr. Dixon, C.E. ; Mr. Sopwitii, F.R.S. ; Mr. Charles Parker ; and Sir Joshua "Walmsley. Most of the facts relating to the early period of George Ste- phenson's career were collected from colliers, brakesmen, engine- men, and others, who had known him intimately, or been f eUow- workmen with him, and were proud to communicate what they remembered of his early life. The information obtained from these old men — most of them illiterate, and some broken down xxxiv PREFACE. by hard work — ^though valuable in many respects, was confused, and sometimes contradictory ; but, to insure as much accuracy and consistency of narrative as possible, the author submitted the MS. to Mr. Stephenson, and had the benefit of his revision of it previous to publication. Mr. Stephenson took a lively interest in the -improvement of the "Life" of his father, and continued to furnish corrections and additions for insertion in the successive editions of the book which were called for by the public. After the first two editions had appeared, he induced several gentlemen, well qualified to supply additional authentic information, to conununicate their recollections of his father, among whom may be mentioned Mr. T. L. Gooch, C.E. ; Mr.Vaughan, of Snibston ; Mr. F. Swanwick, C.E. ; and Mr. Binns, of Clayross, who had officiated as private secretaries to George Stephenson at different periods of his hfe, and afterward held responsible offices either imder him or in con- junction with him. The author states these facts to show that the information con- tained in this book is of an authentic character, and has been ob- tained from the most trustworthy sources. Whether he has used it to the best purpose or not, he leaves others to judge. This much, however, he may himself say — that he has endeavored, to the best of his ability, to set forth the facts communicated to him in a simple, faithful, and straightforward manner ; and, even if he has not wholly succeeded in doing this, he has, at all events, been the means of collecting information on a subject originally unattractive to professional literary men, and thereby rendered its farther prosecution comparatively easy to those who may feel called upon to imdertake it. The author does not pretend to have steered clear of errors in treating a subject so extensive, and, before he undertook the la- bor, comparatively uninvestigated ; but, wherever errors have been pointed out, he has taken the earliest opportunity of cor- recting them. With respect to objections taken to the book be- PJREFA. CE. XXXV cause of the undue share of merit alleged to be therein attrib- uted to the Stephensons in respect of the Eailway and the Loco- motive, there will necessarily be various opinions. There is scarcely an invention or improvement in mechanics but has been the subject of dispute, and it was to be expected that those who had counter claims would put them forward in the present case ; nor has the author any reason to complain of the manner in which this has been done. While George Stephenson is the principal subject in the fol- lowing book, his son Eobert also forms an essential part of it. Father and son were so intimately associated in the early period of their career, that it is difficult, if not impossible, to describe the one apart from the other. The life and achievements of the son were in a great measure the complement of the life and achievements of the father. The care, also, with which the elder Stephenson, while occupying the position of an obsciu'e engine- wright, devoted himself to his son's education, and the gratitude with which the latter repaid the affectionate self-denial of his father, furnish some of the most interesting illustrations of the personal character of both. These views were early adopted by the author and carried out by him in the preparation of the original work, with the concur- rence of Eobert Stephenson, who supplied the necessary particu- lars relating to himself. Such portions of these were accordingly embodied in the narrative as could with propriety be published during his life-time, and the remaining portions are now added with the object of rendering more complete the record of the son's life, as well as the early history of the Eailway System. CONTENTS. P A E T I. CHAPTER I. Schemers Aim Peojectoes. Man's Desire for rapid Transit. — Origin of the Eailway. — ^Early Coal Wagon-ways in the North of England. — Early Attempts to apply the Power of Wind to drive Carriages. — Sailing-coaches. — Sir Isaac Newton's Proposal to employ Steam-pow- er. — ^Dr. Darwin's Speculations on the Subject. — Mr. Edgeworth's Speculations. — Dr. Darwin's Prophecy Page 47 CHAPTER n. Eaelt Locomohve Models. Watt and Robison's proposed Steam-carriage. — Memoir of Joseph Cugnot and his Road-locomotive. — ^Francis Moore. — James Watt's Speciiication of a Locomotive- engine. — William Murdoch's Model. — ^WHliam Symington's model Steam-oarriage. — Oliver Evans's model Locomotive 60 CHAPTER in. The Cornish LocOMOirvE — Memoir op Trevithick. Early Welsh Railway Acts. — Wandsworth, Croydon, and Merstham Railway. — Boyhood of Trevithick. — Becomes an Engineer. — His Career. — Constructs a Steam-carriage. — Its Exhibition in London. — Constructs a Tram-engine. — Its Trial on the Merthyr Railroad. — ^Trevithick's Improvements in the Steam-engine. — ^Attempts to construct a Tunnel under the Thames. — His numerous Inventions and Patents. — ^Engines ordered of him for Pern. — Trevithick a Mining Engineer in South America. — Is ruined by the Pemvian Revolution. — His return Home. — His last Patents. — ^Death and Characteristics., 73 P A E T II. CHAPTER I. The Newcastle Coal-field — George Stephenson's Early Tears. Newcastle in ancient Times. — ^The Coal-trade. — ^Modern Newcastle. — The Colliery Workmen. — ^The Pmnping-engines. — The Pitmen. — The Keelmen. — Wylam Col- liery and Village. — George Stephenson's Birthplace. — The Stephenson Family. — Old Robert Stephenson. — George's Boyhood. — Employed as a Herd-boy. — Makes Clay Engines. — Employed as Corf-bitter. — Drives the Gin-horse. — ^Appointed as- sistant Pireman 97 xxxviii CONTENTS. CHAPTER II. Newburn and Callekton — Geokgb Stephenson learns to be an Engine- man. Stephenson's Life at Newburn. — Appointed Engine-man. — Duties of Plugman. — Study of the Steam-engine. — Experiments in Bird-hatching. — Leai'ns to Read. — His Schoolmasters. — Progress in Arithmetic. — His Dog. — Learns to Brake. — Duties of Brakesman. ^Begins Shoe-mending. — Fight with a Pitman. ..Page 111 CHAPTER IIL Engine-man at Willington Quay and Killingwokth. Sobriety and Studiousness. — Removal to Willington Quay, and Marriage. — Attempts a Perpetual-motion Machine. — William Fairbaim, C.E., and George Stephenson. — Ballast-heaTing. — Cottage Chimney takes fire. — Birth of his son Robert. — Re- moval to West Moor, KiUingworth. — ^Death of his Wife. — Appointed Engine-man at Montrose. — Return to KiUingworth. — Appointed Brakesman at West Moor. — Is drawn for the Militia. — Thinks of Emigrating. — Takes a contract for Brakeing. —Improves the Winding-engine.. — Cures a, Pumping-engine. — Is appointed En- gine-wright of the Colliery 121 CHAPTER IV. The Stephbnsons at Killingwokth— Education and Sele-education. Efforts at Self-improvement. — John Wigham. — Studies in Natural Philosophy. — Education of Robert Stephenson. -nSent to Brace's School, Newcastle. — His boy- ish Tricks. — Stephenson's Cottage, West Moor. — Mechanical Contrivances. — The Sun-dial at West Moor. — Stephenson's various Duties as Collieiy Engineer... 137 CHAPTER V. The Locomotive Engine — George Stephenson begins its Improvement. Slow Progress heretofore made in the Improvement of the Locomotive. — The Wy- 1am Wagon-way. — Mr. Blackett orders a Locomotive. — Mr. Blenkinsop's Leeds Locomotive. — Mr. Blackett's second Engine a Failure. — The improved Wylam Engine. — George Stephenson's Study of the Subject. — His first Locomotive con- structed. — His Improvement of the Engine, as described by his Son. — Invention of the Steam-blast 152 CHAPTER VL Invention op the "Geordt" Safett-lamp. Frequency of Colliery Explosions. — Accidents in the KiUingworth Pit. — Stephen- son's heroic Conduct. — Proposes to invent a Safety-lamp. — His first Lamp and its Trial. — Cottage Experiments with Coal-gas. — His second and third Lamps. — Scene at the Newcastle Institute. — The Stephenson and Davy Controversy. — The Davy and Stephenson Testimonials. — Merits of the "Geordy"Lamp 175 CHAPTER VII. George Stephenson's Farther Improvements in the Locomotive — Robert Stephenson as Viewer's Apprentice and Stcdent. Stephenson's Improvements in the Mine-machinery. — Farther Improvements in the Locomotive and in the Road. — Experiments on Friction. — Early Neglect of the Locomotive. — Stephenson again meditates emigrating to America. — Employed as CONTENTS. xxxix Engineer of the Hetton Railway. — Robert Stephenson put Apprentice to a Coal- viewer. — His Father sends him to Edinburg University. — His Studies there. — Geological Tour in the Highlands Page 198 CHAPTER Vin. George Stephenson Engineer op ihe Stockton and Darlington Railway. Failure of the first public Railways near London. — Want of improved communica- tions in the Bishop Auckland Coal-district. — Various Projects devised. — A Rail- way projected at Darlington. — Edward Pease. — George Stephenson employed as Engineer. — ^Mr. Pease's Visit to Killingworth. — ^A Locomotive Factory begun at Newcastle. — The Stockton and Darlington Line constructed. — The public Open- ing. — The Coal-traffic. — The first Passenger-traffic by Railway. — The Town of Middlesborough-on-Tees created by the Railway 21G CHAPTER rs. The Liverpool and Manchester Railway Projected. Insufficiency of the Communication between Livei-pool and Manchester. — A Tram- road projected by Mr. Sandars. — The Line surveyed by "William James. — The Survey a failure. — George Stephenson appointed Engineer. ^ — A Company formed and a Railroad projected. — The first Prospectus issued. — Opposition to the Sur- vey. — Speculations as to Railway Speed. — George Stephenson's Views thought ex- travagant. — Article in the "Quarterly" 247 CHAPTER X. Parliamentary Contest on the Liverpool and Manchester Bill. The Bin before Parliament. — The Evidence. — George Stephenson in the Witness- box. — Examined as to Speed. — His Cross-examination. — Examined as to the pos- sibility of constructing a Line on Chat Moss. — Mr. Harrison's Speech. — Mr. Giles's Evidence as to Chat Moss. — Mr. Alderson's Speech. — The Bill lost. — Stephen- son's Vexation. — The Bill revived, with the Messrs. Rennie as Engineers. — Sir Isaac Coffin's prophecies of Disaster. — The Act passed 265 CHAPTER XI. Chat Moss — Consiktiction of the Liverpool and Manchester Railway. George Stephenson again appointed Engineer of the Railway. — Chat Moss described. — The resident Engineers of the Line. — George Stephenson's Theory of a Float- ing Road on the Moss. — Operations begun.— -The Tar-barrel Drains. — The Em- bankment sinks in the Moss. — Proposed Abandonment of the Works. — Stephen- son's Perseverance. — The Obstacles conquered. — The Tunnel at Liverpool. — The Olive Mount Cutting. — The Sankey Viaduct. — Stephenson's great Labors. — His daily Life. — Evenings at Home 281 CHAPTER Xn. Robert Stephenson's Residence in Colombia and Retitrn — The "Battle op the Locomotive." Robert Stephenson appointed Mining Engineer in Colombia. — Mule Journey to Bo- gota. — Mariquita. — Silver Mining. — Difficulties with the Comishmen. — His Cot- tage at Santa Anna. — Resigns his Appointment. — ^Meeting with Trevithick. — Voyage to New York, and Shipwreck. — Returns to Newcastle, and takes Charge xl CONTENTS. of the Locomotive Factory. — Discussion as to the Working Power of the Liver- pool and Manchester Railway. — Walker and Rastrick's Report. — ^A Prize oifered for the best Locomotive. — Invention of the Multitubular Boiler. — Henry Booth. — Construction of the "Rocket." — The Locomotive Competition at Rainhill. — Tri- umph of the "Rocket" Page 301 CHAPTER Xm. Opening op the Liveepooi, and Manchester Eailwat, and Extension of THE Railway System. The Railway finished. — Organization of the Working. — The public Opening. — Fatal Accident to Mr. Huskisson. — The Trafiic begun. — Improvements in the Road, Rolling Stock, and Locomotive. — Steam-carriages tried on common Roads. — ^New Railway Projects. — Opposition to Railways in the South of England. — Robert Stephenson appointed Engineer of Leicester and Swannington Railway. — (Jeorge removes to Snibston and sinks for Coal. — His character as a Master 329 CHAPTER XIV. Robert Stephenson consteucts the London and Bikmingham Railway. The London and Bii-mingham Railway projected. — George and Robert Stephenson appointed Engineers. — An Opposition organized. — Public Meetings against the Scheme. — Robert Stephenson's Interview with Sir A. Cooper. — The Survey ob- stmcted. — The Line resurveyed. — The Bill in Parliament. — Thrown out in the Lords. — The Project revived.— The Act obtained. — The Works let in Contracts. — Difficulties of the Undertaking. — The Line described. — Blisworth Cutting. — Primrose Hill Tunnel. — KUsby Timnel. — Its Construction described. — Failures of Contractors. — ^Magnitude of the Works. — The Railway navvies 349 CHAPTER XV. Manchesteh and Leeds, Midland, and other Railways — General Exten- sion OF Railways and their results. Projection of new Lines. — ^Dutton Viaduct on the Grand Junction. — The Manches- ter and Leeds. — Incident in Committee. — Summit Tunnel, Littleborough. — The Midland Railway. — The Works compared with the Simplon Road. — Slip near Ambergate. — BuU Bridge. — The York and North Midland. — The Scarborough Branch. — George Stephenson on Estimates.— Stephenson on liis Surveys. — His quick Observation. — His extensive Labors. — Traveling and Correspondence. — Life at Alton Grange. — Stephenson's London Office. — Journeys to Belgium. — Interviews with the King. — ^Public Openings of English Railways. — Stephenson's Assistants. — Results of Railroads ., 865 CHAPTER XVI. George Stephenson's Coal-mines — Opinions on Railway Speeds — Railway Mania. George Stephenson on Railways and Coal Traffic. — Leases the Claycross Estate. — His Residence at Tapton. — His Appeai-ance at Mechanics' Institutes. — His Views on Railway Speed. — Undulating Lines favored. — Stephenson on Railway Specula- tion. — Atmospheric Railways projected. — Opposed by Stephenson. — The Railway Mania. — Action of Parliament. — Rage for direct Lines. — Stephenson's Letter to Peel. — George Hudson, the " Railway King." — His Fall. — Stephenson again visits Belgium. — Interview with iting Leopold. — Journey into Spain 392 CONTENTS. xK CHAPTER XVn. EoBEKT Stephenson's Career — ^East Coast Route to Scotland — High- Level Bridge, Newcastle. Robert Stephenson's Career. — His extensive Employment as Parliamentary Engi- neer. — His rival, Brunei. — The Great Western Railway. — ^Width of Gauge. — Rob- ert Stephenson's caution as to Investments. — The Newcastle and Berwick Rail- way. — Contest in Parliament. — George Stephenson's Interview with Lord Howick. — The Royal Border Bridge, Berwick. — Progress of Iron Bridge-building. — Rob- ert Stephenson constructs the High-Level Bridge, Newcastle. — Pile-driving by Steam. — Merits of the Structure. — The through Railway to Scotland com- pleted Page 421 CHAPTER XVni. Chester and Holthead Railway — Menai and Conway Bridges. George Stephenson Surveys a line from Chester to Holyhead. — Robert Stephenson afterward appointed Engineer. — The Railway Works under Penmaen Mawr. — The Crossing of the Menai Strait. — Various Plans proposed. — A Tubular Beam determined on. — Strength of wrought-iron Tubes. — Mr. William Pairbaim con- sulted. — His Experiments. — Professor Hodgkinson. — Chains proposed, and event- ually discarded. — The Bridge Works. — The Conway Bridge. — ^Britannia Bridge described. — ^Floating of the Tubes. — Robert Stephenson's great Anxiety. — ^Raising of the Tubes. — The Hydraulic Press bursts. — The Works completed. — Merits of the Britannia Bridge 438 CHAPTER XrX. Closing Years op George Stephenson's Life — Illness and Death. George Stephenson's Life at Tapton. — Experiments in Horticulture. — His Farming Operations. — ^Affection for Animals. — Bee-keeping. — Reading and Conversation. — Rencountei: with Lord Denman. — Hospitality at Tapton. — His Microscope. — A "Crowdie Night." — Visits to London. — Visits Sir Robert Peel at Drayton Manor. — His Conversation. — Encounter with Dr. Buckland. — Coal formed by the Sun's Light. — Opening of the Trent Valley Line and its Celebration. — Meeting with Emerson. — Illness, Death, and Funeral. — Statues of George Stephenson. — Personal Characteristics 460 CHAPTER XX. Robert Stephenson's Victoria Bridge, Lower Canada — ^Illness and Death — The Stephenson Characteristics. Robert Stephenson's gradual Retirement from the profession of Engineer. — His Tu- bular Bridge over the Nile. — Railways in Canada. — ^Proposed Bridge at Montreal. — A Tubular Bridge proposed. — Robert Stephenson appointed Engineer. — Design of the Victoria Bridge. — ^The Piers. — Getting in of the Foundations. — ^Progress of the Works. — Erection of the Tubes. — Scene at the breaking-up of the Ice in 1858. — The Night-work. — Erection of main central Tube. — Completion of the Works. — Robert Stephenson in Parliament. — His Opinion of the Suez Canal. — His Honors. — Launch of the Great Eastern. — Last Illness and Death. — The Ste- phenson Characteristics. — Conclusion '. 474 Index 497 LIST OF ILLUSTRATIONS. PAGE Portrait of George Stephenson to face Title Page. Portrait of Trevithick 4:6 Tyne Coal-staith 49 Plange-rail 50 Cngnot's Steam-carriage 62 Murdock's Model Locomotive 66 Symington's Model Steam-carriage . . 69 Oliver Erans's Model Locomotive. ... 71 Trevithick's Tram-engine ; 81 High-Level Bridge, Newcastle 96 Map of Newcastle District 98 Wylam 103 High-Street House, Wylam 104 Colliery Wagons 110 Newbum Ill CoIliSyGin 120 Stephenson's Cottage at WiUington Quay 121 Stephenson's Signature 123 West Moor Colliery 127 Killingworth High Pit 136 Glebe Farm-house, Benton 137 Eutter's School-house at Long Ben- ton 140 Bruce's School, Newcastle 142 Stephenson's Cottage, West Moor 146 Sun-dial, Killingworth 149 Colliers' Cottages, Long Benton 151 Blenkinsop's Leeds Engine 155 The Wylam Engine 160 Spur-gear 164 Killingworth Locomotive (Section) .. 168 Colliery Whimsey 174 Pit-head, West Moor 177 Davy's and Stephenson's Safety- lamps 187 Literary and Philosophical Institute, Newcastle 189 The Stephenson Tankard 197 Half-lap Joint 200 Old Killingworth Locomotive 201 West Moor Pit, Killingworth 214 Portrait of Edward Pease 223 Map of Stockton and Darlington KaUway 224 PAGE Opening of Stockton and Darlington Eailway 238 The First Railway Coach 241 No. 1 Engine at Darlington 244 Middlesboroagh-on-Tees 246 Map of Liverpool and Manchester Railway 250-1 Surveying on Chat Moss 264 Olive Mount Cutting 291 Sankey Viaduct 292 Baiting-place at Sankey 296 Chat Moss — Works in progi-ess 299 Robert Stephenson's Cottage at San- ta Anna 306 The "Rocket" 321 Locomotive Competition at RainhiU. 324 Railway KcrsM Road 328 Map of Leicester and Swannington Eailway 343 Alton Grange 346 Poi-trait of Robert Stephenson 348 Map of London and Birmingham Eailway 354 Blisworth Cutting 355 Shafts, Kilsby Tunnel 357 Kilsby Tunnel (North end) 368 Dntton Viaduct 366 Littleborough Tunnel (West en- trance) 368 Littleborough Tunnel (Walsden end) 369 Map of Midland Railway 370 Laud-slip, Ambergate 372 BnllBridge 373 Coalville and Snibston CoMiery 391 Tapton House 392 Lime-works, Ambergate 394 Forth-Street Works, Newcastle 396 Claycross Works 420 Newcastle from High-Level Bridge.. 421 Royal Border Bridge, Berwick 430 Elevation and Plan of Arch, High- LevelBridge 436 Eailway at Penmaen Mawr 440 Map of Menai Strait 442 Construction of Britannia Tube on Staging 450 xliv LIST OF ILLUSTRATIONS. PAGE Conway Bridge 151 MenaiBridge 457 Floating First Tube, Conway Bridge 459 View in Tapton Gardens 460 Footpath to Tapton House 465 Trinity Chui-ch, Chestei-field 471 Tablet in Trinity Church 473 FAGE Victoria Bridge, Montreal 474 Elevation of Pier, Victoria Bridge... 478 Works in Progress, Victoria Bridge 480 Erection of the Main Central Tube, Victoria Bridge 483 Stephenson Memorial Schools, Wil- lington 496 EARLY OYENTORS U LOCOMOTION. EARLY INYENTORS IN LOCOMOTIOK CHAPTEE I. SCHEMEES AMD PKOJECTOES. It is easy to understand how rapid transit from place to place should, from the earliest times, have been an object of desire. The marvelous gift of speed conferred by Fortunatus's Wishing Cap was what all must have envied : it conferred power. It also conferred pleasure. " life has not many things better than this," said Samuel Johnson as he rolled along ia the post-chaise. But it also conferred comfort and well-being ; and hence the easy and rapid transit of persons and commodities became in all countaies an object of desire in proportion to their growth ia civilization. We have elsewhere* endeavored to describe the obstructions to the progress of society occasioned by the defective internal communications of Britain in early times, which were to a con- siderable extent removed by the adoption of the canal system, and the improvement of our roads and highways, toward the end of last century. But the progress of industry was so rapid — the invention of new tools, machines, and engines so greatly increased the productive wealth of the nation — ^that some forty years since it was found that these roads and canals, numerous and excellent though they might be, were altogether inadequate for the accom- modation of the traffic of the country, which was increasing in almost a direct ratio with the increased application of steam- power to the purposes of productive industry. The inventive minds of the nation, always on the alert — ^the " schemers" and the " projectors," to whom society has in aU times been so greatly indebted — proceeded to apply themselves to the solution of the problem of how the communications of the coun- try were best to be unproved ; and the result was, that the power * "Lives of the Engineers," vols, i and ii. 48 SCHEMERS AND PROJECTORS. [Part I. of steam itself was applied to remedy the incoiiTeiiieiices whichi it had caused. Like most inventions, that of the Steam Locomotive was very gradually made. The idea of it, bom in one age, was' revived in tiie ages that followed. It was embodied first in one model, then in another — the labors of. one inventor being taken up by his successors — until at length, after many disappointments and many failures, the practicable working locomotive was achieved. The locomotive engine was not, however, sufficient for the pui-poses of cheap and rapid transit. Another expedient was ab- solutely essential to its success- — that of the Hallway : the smooth rail to bear the load, as well as the steam-engine to draw it. Expedients were early adopted for the purpose of diminishing feiction between the wheels of vehicles and the roads along which they were dragged by horse-power. The Romans employed stone blocks with that object; and the streets of the long-bmied city of Pompeii stiU bear the marks of the ancient Roman chariot- wheels, as the stone track for heavy vehicles on our modem Lon- don Bridge shows the wheel-marks of the wagons which cross it. These stone blocks were merely a simple expedient to diminish friction, and were the first steps toward a railroad. The railway proper doubtless originated in the coal districts of the North of England and Wales, where it was found useful in facilitating the transport of coals from the pits to the shipping- places. At an early period the coal was carried to the boats in panniers, or in sacks upon horses' backs. Next carts were used, and tram-ways of flag-stone were laid down, along which they were easily hauled. The carts were then converted into wagons, and mounted on four wheels instead of two. Still farther to facilitate the haulage of the wagons, pieces of planMng were laid parallel upon wooden sleepers, or imbedded in the ordinary track. It is said that these wooden rails were first employed by a Mr. Beaumont, a gentleman from the Soutli, who, about the year 1630, adventured in the northem mines with about thirty thousand pounds, and after introducing many im- provements in the working of the coal, as well as in the methods of transporting it to the staithes on the river, was ruined by his enterprise, and " within a few Tears," to use the words of the ClIAP. I.] COAL WAGON- WA YS. 49 ancient chronicler, " lie consumed all liis Money, and rode Home upon his hght Horse."* COAL BTMIU ON TUB T^NE [Bj P P Lcitch ] The use of wooden rails gradually extended, and they were laid down between most of the collieries on the Tyne and the places at which the coal was shipped. Eoger North, in 1676, found the practice had become extensively adopted, and he sj)eaks of the large sums then paid for way-leave — that is, the permission granted by the o'svTiers of lands lying between the coal-pits and the river-side to lay do'WTi a tram-way for the pm*- pose of connecting the one with the other. A century later, Arthur Young observed that not only had these roads become greatly multiplied, but f onnidable works had been constructed to carry them along upon the same level. " The coal wagon-roads from the pits to the water," he says, " are great works, carried over all sorts of inequalities of ground, so far as the distance of nine or ten miles. The tracks of the wheels are marked with pieces of wood let into the road for the wheels of the wagons to nm on, by which one horse is enabled to draw, and that with ease, fifty or sixty bushels of coals."t Saint Fond, the French traveler, who -visited Newcastle in 1T91, described the colliery wagon-ways in that neighborhood as supe- rior to any thing of the kind he had seen. The wooden rails * Harleian MSS., vol. iii., 2fiP. t "Six Months' Tom-," vol. ill., 9. D 50 SCHEMERS AND PROJECTORS. [Past I. were formed witli a rounded upper surface, like a projecting moulding, and the wagon-wheels being " made of cast iron, and hoUowed ia the manner of a metal pulley," readily fitted the rounded surface of the rails. The economy with which the coal was thus hauled to the shipping-places was m-ged by Saint Fond as an inducement to his own countrymen to adopt a like method of transit.* Similar wagon-roads were early laid down in the coal districts of Wales, Cumberland, and Scotland. At the time of the Scotch rebellion in 1745, a tram-road existed between the Tranent coal- pits and the small harbor of Cockenzie, in East Lothian ; and a portion of the line was selected by General Cope as a position for his cannon at the battle of Prestonpans. In these rude wooden tracks we find the germ of the modem railroad. Improvements were gradually made in them. Thus, at some collieries, thin plates of iron were nailed upon their up- per surface, for the purpose of protecting the parts most exposed to friction. Cast-iron rails were also tried, the wooden rails hav- ing been found liable to rot. The first iron rails are supposed to have been laid down at Whitehaven as early as 1738. This cast- iron road was denominated a " plate-way," from the plate-like form in which the rails were^cast. In 1Y67, as appears from the books of the Coalbrookdale Iron Works, in Shropshire, five or six tons of rails were cast, as an experiment, on the suggestion of Mr. Eeynolds, one of the partners ; and they were shortly after laid down to form a road. In 1Y76, a cast-iron tram-way, nailed to wooden sleepers, was laid down at the Duke of Norfolk's colliery near Sheffield. The person who designed and constructed this coal line was Mr. John Curr, whose son has erroneously claimed for him the invention of the cast-iron railway. He certainly adopted it early, and thereby met the fate of men before their age ; for his plan was opposed by the laboring people of the colliery, who got up a riot, in which they tore up the road and burned the coal-staith, while Mr. Curr * "Travels in England, Scotland, and the Hebrides," vol. 1., U2. Chap. I.] ORIGIN OF THE RAILWAY. 51 fled into a neighboring wood for concealment, and lay there perdu for three days and nights, to escape the fury of the popu- lace.* The plates of these early tram-ways had a ledge cast on their outer edge to guide the wheel along the road, after the man- ner shown in the preceding cut. In 1789, Mr. "William Jessop constructed a railway at Lough- borough, in Leicestershire, and there introduced the cast-iron edge-rail, with flanches cast upon the tire of the wagon-wheels to keep them on the track, instead of having the margin or flanch cast upon the rail itself ; and this plan was shortly after adopted in other places. In 1800, Mr. Benjamin Outram, of Little Eaton, Derbyshire (father of the distinguished General Outram), used stone props instead of timber for supporting the ends or joinings of the rails. Thus the use of railroads, in various forms, gradu- ally extended, until they became generally adopted in the mining districts. Such was the growth of the railroad, which, it vsdll be observed, originated in necessity, and was modified according to experience ; progress in this, as in all departments of mechanics, having been effected by the exertions of many men ; one generation entering upon the labors of that which preceded it, and carrying them on- ward to farther stages of improvement. The invention of the locomotive was in hke manner made by successive steps. It was not the invention of one man, but of a succession of men, each working at the proper hour, and according to the needs of that hour ; one inventor interpreting only the first word of the prob- lem which his successors were to solve after long and laborious efforts and experiments. " The locomotive is not the invention of one man," said Kobert Stephenson at Newcastle, " but of a na- tion of mechanical engineers." Down to the end of last century, and indeed down almost to our ovra time, the only power used in haulage was that of the horse. Along the common roads of the country the poor horses were " tearing their hearts out" in dragging cumbersome vehicles behind them, and the transport of merchandise continued to be slow, dear, and in all respects unsatisfactory. Many expedients were suggested with the view of getting rid of the horse. The * "Eailway Locomotion and Steam Navigation, their Principles and Practice." By John Curr. London, 1847. 52 SCHEMERS AND PROJECTORS. [Paet I. power of wiiid was one of the first expedients proposed. It was cheap, though by no means regular. It impelled ships by sea ; why should it not be used to impel carriages by land ? The first sailing-coach was invented by one Simon Stevinius, or Stevins, a Fleming, toward the end of the sixteenth centurj'. Pierre Gassendi gives an account of its performances as fol- lows: ■"Purposing to visit Grotius, Peireskius went to Scheveling that he might satisfy himself of the carriage and swiftness of a coach a few years before invented, and made with that artifice that with expanded sails it would fly upon the shore as a ship upon the sea. He had formerly heard that Count Maurice, a little after his victory at Meuport [1 600], had put himself thereinto, together with Francis Mendoza, his prisoner, on purpose to make trial thereof, and that, within two hours, they arrived at Putten, which is distant from Scheveling fourteen leagues, or two-and-forty miles. He had, there- fore, a mind to make the experiment himself, and he would often tell us with what admiration he was seized when he was carried with a quick wind and yet perceived it not, the coach's motion be- ing equally quick."* The sailing-coach, however, was only a curiosity. As a practi- cable machine, it proved worthless, for the wind could not be depended upon for land locomotion. The coach could not tack as the ship did. Sometimes the wind did not blow at aU, while at other times it blew a hurricane. After being used for some time as a toy, the sailing-coach was given' up as impracticable, and the project speedily dropped out of sight." But, strange to say, the expedient of driving c6al-wagons by the wind was revived in Wales about a centuiy later. On thk occasion. Sir Humphry Mackworth, an ingenious coal -miner at Neath, was the projector. "Waller, in his " Essay on Mines," pub- lished in 1698, takes the opportunity of eulogizing Sir Humphry's " new sailing-wagons, for the cheap carriage of his coal to lie water-side, whereby one horse does the work of ten at all times ; but when any wind is stirring (which is seldom wanting near the sea), one man and a small sail do the work of twenty."f It does * A curious account of this early project is to be found in the libraiy of the British Museum, under the name " Stevin, 1652." t The writer adds — "I believe he (Sir Humphry Mackworth) is the first gentleman Chap. I.] FRANKLIN, BOULTON, AND DARWIN. 53 not, however, appear that any other coal-owner had the courage to follow Sir Humphry's example, and the sailing-wagon was for- gotten imtil, after the lapse of another century, it was revived by Mr. Edgeworth. The employment of steam-power as a means of land locomo- tion was the subject of much curious speculation long before any practical attempt was made to carry it into effect. The merit of promulgating the first idea with reference to it probably be- longs to no other than the great Sir Isaac Newton. In his " Ex- planation of the Newtonian Philosophy," written in 1680, he fig- ured a spherical generator, supported on wheels, and provided with a seat for a passenger in front, and a long jet-pipe behind, and stated that " the whole is to be mounted on little wheels, so as to move easily on a horizontal plane, and if the hole, or jet-pipe, be opened, the vapor will rush out violently one way, and the wheels and the ball at the same time will be carried the contrary way." This, it wiU be observed, was but a modification of the earliest known steam-engine, or CEolopile, of Hero of Alexandria. It is not believed that Sir Isaac Newton ever made any experi- ment of his proposed method of locomotion, or did more than merely throw out the idea for other minds to work upon. The idea of employing steam in locomotion was revived from time to time, and formed the subject of much curious specula- tion. About the middle of last century we find Benjamin Frank- lin, then agent in London for the United Provinces of America, Matthew Boulton, of Birmingham, and Erasmus Darwin, of Lich- field, engaged in a correspondence relative to steam as a motive power. Boulton had made a model of a fire-engine, which he sent to London for Franklin's inspection ; and though the origi- nal purpose for which the engine had been contrived was the pumping of water, it was believed to be practicable to employ it also as a means of locomotion. Franklin was too much occupied at the time by grave political questions to pursue the subject ; but the sanguine and speculative mind of Erasmus Darwin was inflamed by the idea of a " fiery chariot," and he pressed his in this part of the world that hath set up sailing engines on land, driyen by the wind ; not for any curiosity or vain applause, but for real profit ; whereby he could not fail of Bishop Malkin's blessing on his undertakings, in case he were in a capacity to be- stow it." 54 SCHEMERS AND PROJECTORS. [Pakt I. friend Boulton to prosecute the contrivance of the necessary steam machine.* Erasmus Darwin was in many respects a remarkable man. In his own neighborhood he was highly esteemed as a physician, and by many intelligent readers of his day he was greatly prized as a poet. Horace Walpole said of his " Botanic Garden" that it was " the most delicious poem upon earth," and he declared that he " could read it over and over again forever." The doctor was accustomed to write his poems with a pencil on little scraps of paper while riding about among his patients in his " sulky." The vehicle, which was worn and bespattered outside, had room with- in it for the doctor and his appurtenances only. On one side of him was a pile of books reaching from the floor to nearly the front window of the carriage, while on the other was a hamper containing fruit and sweetmeats, with a store of cream and sug- ar, with which the occupant regaled himself during his journey. Lashed on to the place usually appropriated to the " boot" was a large pail for wateHng the horses, together with a bag of oats and a bundle of hay. Such was the equipage of a fashionable country physician of the last century. Dr. Darwin was a man of large and massive person, bearing a rather striking resemblance to his distinguished townsman, Dr. Johnson, in manner, deportment, and force of character. He was full of anecdote, and his conversation was most original and en- tertaining. He was a very outspoken man, vehemently enun- ciating theories which some thought original and others danger- ous. As he drove through the country in his " sulky," his mind teemed with speculation on all subjects, from zoonomy, botany, and physiology, to physics, aesthetics, and mental philosophy. Though his speculations were not always sound, they were clever and ingenious, and, at all events, they had the effect of setting other minds a-thinking and speculating on science and the meth- ods for its advancement. From his " Loves of the Plants" — aft- erward so cleverly parodied by George Canning in his " Loves of the Triangles" — it would appear that the doctor even enter- tained a theory of managing the winds by a little philosophic artifice; His scheme of a steam locomotive was of a more prac- * See farther, "Lives of the Engineers," vol. iv., Boulton and Watt, p. 182-4. Chap. I.] DR. DARWIN'S "FIERY CHARIOT." 55 tical character. This idea, like so many others, first occurred to him in his " suliy." " As I was riding home yesterday," he wrote to his friend Boul- ton in the year 1 765, " I considered the scheme of the fiery chariot, and the longer I contemplated this favorite idea, the more practica- ble it appeared to me. I shall lay my thoughts, before you, crude and undigested though they may appear to be, telling you as well what I thought would not do as what would do, as by those hints you may be led into various trains of thinking upon this subject, and by that means (if any bints can assist your genius, which, with- out hints, is above all others I am acquainted with) be more likely to improve or disapprove. And as I am quite mad of this scheme, I beg you will not mention it, or show this paper to Wyat or any body. "These things are required: 1st, a rotary motion; 2d, easily al- tering its direction to any other direction ; 3d, to be accelerated, retarded, destroyed, revived instantly and easily ; 4th, the bulk, the weight, and expense of the machine to be as small as possible in proportion to its use."* He then goes on to throw out various suggestions as to the form and arrangement of the machine, the number of wheels on which it was to run, and the mode of applying the power. The text of this letter is illustrated by rough diagrams, showing a vehicle mounted on three wheels, the foremost or guiding wheel being under the control of the driver ; but in a subsequent pas- sage he says, " I think four wheels will be better." " Let there be two cylinders," he proceeds. " Suppose one piston up, and the vacuum made under it by the jet cPeaufroid. That pis- ton can not yet descend because the cock is not yet opened which admits the steam into its antagonist cylinder. Hence the two pis- tons are in equilibrio, being either of them pressed by the atmos- phere. Then I say, if the •cock which admits the steam into the antagonist cylinder be opened gradually and not with a jerk, that the first-mentioned [piston in the] cyUnder will descend gradually and not less forcibly. Hence, by the management of the steam cocks, the motion may be accelerated, retarded, destroyed, revived instantly and easily. And if this answers in practice as it does in theory, the machine can not fail of success ! Eureka ! * Soho MSS. 56 SCHEMERS AND PROJECTORS. [Paet I. "The cooks of the cold water may be moved by the great work, but the steam cocks must be managed by the hand of the chari- oteer, who also directs the rudder-wheel. [Then follow his rough diagrams.] The central wheel ought to have been under the roll- ers, so as it may be out of the way of the boiler."* After farther explaining himself, he goes on to say : "If you could learn the expense of coals to a common fire-engine and the weight of water it draws, some certain estimate may be made if such a scheme as this would answer. Pray don't show Wyat this scheme, for if you think it feasible and will send me a critique upon it, I will certainly, if I can get somebody to bear half the expense with me, endeavor to build a fiery chariot, and, if it answers, get a patent. If you choose to be partner with me in the profit, and expense, and trouble, let me know, as I am determined to execute it if you approve of it. "Please to remember the pulses of the common fire-engines, and say in what manner the piston is so made as to keep out the air in its motion. By what way is the Jef OOK'B MODEL. Chap. II.] MURDOCK'S MODEL ENGINE. 67 small though the engine was, it fairly outran the speed of its in- ventor. It seems that one night, after returning from his duties at the Eedruth mine, Murdock determined to try the working of his model locomotive. For this purpose he had recourse to the walk leading to the church, about a mile from the town. It was rather narrow, and was bounded on each side by high hedges. The night was dark, and Murdock set out alone to try his experi- ment. Having lii his lamp, the water soon boiled, when off start- ed the engine, with the inventor after it. Shortly after he heard distant shouts of terror. It was too dark to perceive objects ; but he found, on following up the machine, that the cries proceeded from the worthy pastor of the parish, who, going toward the town, was met on this lonely road by the hissing and fiery little mon- ster, which he subsequently declared he had taken to be the Evil One m. propria 2>eifsona ! "Watt was by no means pleased when he learned that Murdock was giving his mind to these experiments. He feared that it might have the effect of withdrawing him from the employment of the firm, to which his services had become almost indispensa- ble ; for there was no more active, skillful, or iagenious workman in all their concern. Watt accordingly wrote to Boulton, recom- mending him to advise Murdock to give up his locomotive-engine scheme; but, if he could not succeed in that, then, rather than lose Murdock's services, Watt proposed that he should be allowed an advance of £100 to enable him to prosecute his experiments, and if he succeeded within a year in making an engine capable of drawing a post-chaise carrying two passengers and the driver at four miles an hour, it was suggested that he should be taken as partner into the locomotive business, for which Boulton and Watt were to provide the necessary capital. Two, years later (in September, 1Y86) we find Watt again ex- pressing his regret to Boulton that Murdock was " busying him- self with the steam-carriage." "I have still," said he, " the same opinion concerning it that I had, but to prevent as much as pos- sible more fruitless argument about it, I have one of some size under hand, and am resolved to try if God will work a miracle in favor of these carriages. I shall in some future letter send you the words of my specification on that subject. In the mean time I wish William could be brought to do as we do, to mind 68 EARLY LOCOMOTIVE MODELS. [Part I. the business in hand, and let sucli as Symington and Sadler throw away their time and money in hunting shadows." In a subse- quent letter Watt expressed his gratification at finding "that "Wil- Ham applies to his business." From that time Murdock as well as Watt dropped all farther speculation on the subject, and left it to others to work out the problem of the locomotive engine. Murdoch's model remained but a curious toy, which he himself took pleasure in exhibiting to his intimate friends ; and though he long continued to speculate about road locomotion, and was persuaded of its practicabihty, he refrained from embodying his ideas of it in any more complete working form. Symington and Sadler, the " hunters of shadows" referred to by Watt, did little to advance the question. Of Sadler we know nothing beyond that in 1786 he was making experiments as to the apphcation of steam-power to the driving of wheel-carriages. This cg,me to the knowledge of Boulton and Watt, who gave him notice, on the 4:th of July of the same year, that " the sole privi- lege of making steam-engines by the elastic force of steam act- ing on a piston, with or without condensation, had been granted to Mr. Watt by Act of Parliament, and also that among other improvements and applications of his principle he hath particu- larly specified the application of steam-engines for driving wheel carriages in a patent which he took out in the year 1784." They accordingly cautioned him against proceeding farther in the matter ; and as we hear no more of Sadler's steam-carriage, it is probable that the notice had its effect. The name of William Symington is better known in connec- tion with the history of steam locomotion by sea. He was born at Leadhills, in Scotland, in 1763. His father was a practical mechanic, who superintended the engines and machinery of the Mining Company at Wanlockhead, where one of Boulton and Watt's pumping-engines was at work. Yoimg Symington was of an ingenious turn of mind from his boyhood, and at an early period he seems to have conceived the idea of employing the steam-engine to drive wheel-carriages. His father and he worked together, and by the year 1786, when the son .was only twenty- three years of age, they succeeded in completing a working mod- el of a road locomotive. Mr. Meason, the manager of the mine, was so much pleased with the model, the merit of which princi- Chap. II.] SYMINGTON'S STEAM-CARRIAGE. pally belonged to young Symington, that he sent him t6 Edin- burg for the purpose of exhibiting it before the scientific gentle- men of that city, in the hope that it might lead, in some way, to his future advancement in life. MrfMeason also allowed the model to be exhibited at his own house there, and he invited many gentlemen of distinction to inspect it. ■5^: ^ SYMrNSTOH'S MODEL BTEAM-OAEEIAGB, 1T86. The machine consisted of a carriage and locomotive behind, supported on four wheels. The boiler was cyhndrical, communi- cating by a steam-pipe with the two horizontal cyhnders, one on each side of the engine. When the piston was raised by the ac- tion of the steam, a vacuum was produced by the condensation of the steam in a cold-water tank placed underneath the engine, on which the piston was again forced back by the pressure of the atmosphere. The motion was communicated to the wheels by rack-rods connected with the piston-rod, which worked on each side of a drum fixed on the hind axle, the alternate action of which rods upon the tooth and ratchet wheels with which the drum was provided producing the rotary motion. It will thus be observed that Symington's engine was partly atmospheric and partly condensing, the condensation being effected by a separate vessel and air-pump, as patented by "Watt ; and though the ar- I'angement was ingenious, it is clear that, had it ever been brought into use, the traction by means of such an engine would have been of the very slowest kind. But Symington's engine was not destined to be applied to road locomotion. He was completely diverted from employing it for 70 EAS.LY LOCOMOTIVE MODELS. [Paet I. that purpose by his connection with Mr. Miller, of Dalswinton, then engaged in experimenting on the application of mechanical power to the driving of his double paddle-boat. The power of men was first tried, but tne labor was found too severe ; and when Mr. Miller went to see Symington's model, and informed the in- ventor of his difficulty in obtaining a regular and effective power for driving his boat, Symington — his mind naturally full of his own invention — at once suggested his steam-engine for the pur- pose. The suggestion was adopted, and Mr. MiUer authorized him to proceed with the construction of a steam-engine to be fitted into his double pleasure boat on Dalswinton Lock, where it was tried in October, 1Y88. This was followed by farther ex- periments, which eventually led to the construction of the Cha/r- lotfe Dundas in 1801, which may be regarded as the first prac- tical steam-boat ever built. Symington took out letters patent in the same year, securing the invention, or rather the novel combination of inventions, em- bodied in his steam-boat, but he never succeeded in getting it in- troduced into practical use. From the date of completing his in- vention, fortune seemed to run steadily against him. The Duke of Bridgewater, who had ordered a number of Symington's steam- boats for his canal, died, and his executors countermanded the order. Symington failed in inducing any other canal company to make trial of his invention. Lord Dundas also took the Char- lotte Dimdas off the Forth and Clyde Canal, where she had been at work, and from that time the vessel was never more tried. Symington had no capital of his own to work upon, and he seems to have been unable to make friends among capitalists. The rest of his life was for the most part thrown away. Toward the close of it his principal haunt was London, amid whose vast pop- ulation he was one of the many waifs and strays. He succeeded in obtaining a grant of £100 from the Privy Purse in 1824, and afterward an annuity of £50, but he did not live long to enjoy it, for he died in March, 1831, and was buried in the church-yard of St. Botolph, Aldgate, where there is not even a stone to mark the grave of the inventor of the first practicable steam-boat. While the inventive minds of England were thus occupied, those of America were not idle. The idea of applying steam- power to the propulsion of carriages on land is said to have oc- Chap. II.] EVANS'S STEAM-CARRIAGE. 11 curred to John Fitcli in 1785 ; but he did not pursue the idea " for more than a week," being diverted from it by his scheme of applying the same power to the propulsion of vessels on the wa- ter.* About the same time, Oliver Evans, a native of Newport, Delaware, was occupied with a project for driving steam-car- riages on common roads ; and in 1786 the Legislature of Mary- ^WJ^ 7^- J- -S* OLIyZB BVAllB'S MODEL LOOOHOTIVE. land granted him the exclusive right for that state. Several years, however, passed before he could raise the means for erect- ing a model carriage, most of his friends regarding the project as altogether chimerical and impracticable. In 1800 or 1801, Ev- ans began a steam-carriage at his own expense ; but he had not proceeded far with it when he altered his intention, and apphed the engine intended for the driving of a carriage to the driving of a small grinding-mill, in which it was found efficient. In 1804 he constructed at Philadelphia a second engine of five- horse power, working on the high-pressure principle, which was placed on a large flat or scow, mounted upon wheels. " This," says his biographer, " was considered a fine opportunity to show * This statement is made in "The Life of John Fitch," by Thompson Westcott, Philadelphia, 1857. Mr. Thompson there states that the idea of employing a steam- engine to propel carriages on land occurred to John Pitch at a time when, he avers, "he was altogether ignorant that a steam-engine had ever been invented !" (p. 120). Such a statement is calculated to damage the credibility of the entire book, in which the invention of the steam-boat, as well as of the screw propeller, is unhesitatingly claimed for John Fitch. 72 EARLY LOCOMOTIVE MODELS. [Part I. the public that his engine could propel both land and water con- veyances. When the machine was finished, Evans fixed under it, in a rough and temporary manner, wheels with wooden axle- trees. Although the whole weight was equal to two hundred barrels of flour, yet his small engine propelled it up Market Street, and round the circle to the water-works, where it was launched into the Schuylkill. A paddle-wheel was then applied to its stern, and it thus sailed down that river to the Delaware, a distance of sixteen miles, in the presence of thousands of spec- tators."* It does not, however, appear that any farther trial was made of this engine as a locomotive ; and, having been dismount- ed and applied to the driving of a small grinding-mill, its em- ployment as a traveling engine was shortly forgotten. * Home's "Memoirs of the Most Eminent American Mechanics," New York, 1858, p. 76. Chap. III.] EARL Y RAIL WA YS. 73 CHAPTER III. THE COENISH LOCOMOTIVE MEMOIE OF EICHAED TEEVITHICK. While the discussion of steam-power as a means of locomotion was proceeding in England, other projectors were advocating the extension of wagon-ways and railroads. Mr. Thomas, of Denton, near Newcastle-on-Tyne, read a paper before the Philosophical Society of that town in 1800, in which he urged the laying down of railways throughout the country, on the principle of the coal wagon-ways, for the general carriage of goods and merchandise ; and Dr. James Anderson, of Edinburg, about the same time pub- lished his " Eecreations of Agriculture," wherein he recommend- ed that railways should be laid along the principal turnpike-roads, and worked by horse-power, which, he alleged, would have the effect of greatly reducing the cost of transport, and thereby stim- ulating all branches of industry. Eailways were indeed already becoming adopted in places where the haulage of heavy loads was for short distances ; and in some cases lines were laid down of considerable length. One of the first of such lines constructed under the powers of an Act of Parliament was the Cardiff and Merthyr railway or tram-road, about twenty-seven miles in length, for the accommodation of the iron-works of Plymouth, Pen-y-darran, and Dowlais, all in South "Wales, the necessary Act for which was obtained in 1794 An- other, the Sirhoway railroad, about twenty-eight miles in length, was constructed under the powers of an act obtained in 1801 ; it accommodated the Tredegar and Sirhoway Iron-works and the Trevill Lime-works, as well as the collieries along its route. In the immediate neighborhood of London 'there was another very early railroad, the Wandsworth and Croydon tram-way, about ten miles long, which was afterward extended southward to Mers- tham, in Surrey, for about eight miles more, making a total length 74 MEMOIR OF RICHARD TREVITHICK. [Paet I. of nearly eighteen miles. The first act for the purpose of au- thorizing the construction of this road was obtained in 1800. All these lines were, however, worked by horses, and in the case of the Croydon and Merstham line, donk&jrs shared ia the work, which consisted chiefly in the haulage of stone, coal, and lime. No proposal had yet been made to apply the power of steam as a substitute for horses on railways, nor were the rails then laid down of a strength sufficient to bear more than a loaded wagon of the weight of three tons, or, at the very outside, of three and a quarter tons. It was, however, observed from the first that there was an im- mense saving in the cost of haulage ; and on the day of opening the southern portion of the Merstham Eailroad in 1805, a train of twelve wagons laden with stone, weighing in aU thirty-eight tons, was drawn six miles in an hour by one horse, with apparent ease, down an incHne of 1 in 120 ; and this was bruited about as an extraordinary feat, highly illustrative of the important uses of the new iron-ways. About the same time, the subject of road locomotion was again brought into prominent notice by an important practical experi- ment conducted in a remote comer of the kitigdom. The exper- imenter was a young man, then obscure, but afterward famous, who may be fairly regarded as the inventor of the railway loco- motive, if any single individual be entitled to that appellation. This was Eichard Trevithick, a person of extraordinary mechan- ical skill but of marvelous iU fortime, who, though the inventor of many ingenious contrivances, and the founder of the fortunes of many, himself died in cold obstruction and in extreme poverty, leaving behind him nothing but his great inventions and the rec- ollection of his genius. Kichard Trevithick was bom on the 13th of April, 17Y1, in the parish of Hlogan, a few miles west of Eedrath, in Cornwall. In the immediate neighborhood rises Castle-Cam-brea, a rocky emi- nence, supposed by Borlase to have been the principal seat of Druidic worship in the West of England. The hill commands an extraordinary Mew over one of the richest mining fields of Cornwall, from Chacewater and Eedruth to Camborne. Trevithick's father acted as purser at several of the mines. Though a man in good position and circumstances, he does not Chap. III.] TREVITHICK'S BOYHOOD. 75 seem to have taken much pains with his son's education. Being an only child, he was very much indulged — among other things, in his dislike for the restraints and discipline of school ; and he was left to wander about among the mines, spending his time in the engine-rooms, picking up information about pumping-engines and mining machinery. His father^ observing the boy's strong bent toward mechanics, placed him for a time as pupil with William Murdock, while the latter lived at Eedruth superintending the working and repairs of Boulton and "Watt's pumpiag-engines in that neighborhood. During his pupilage, young Trevithick doubtless learned much from that able mechanic. It is probable that he got his first idea of the high-pressure road locomotive which he afterward con- structed from Murdock's ingenious little model above described, the construction and action of which must have been quite famil- iar to him, for no secret was ever made of it, and its perform- ances were often exhibited. Many new pimiping-engines being in course of erection in the neighborhood about that time, there was an unusual demand for engineers, which it was found difficult to supply; and young Trevithick, whose skill was acknowledged, had no difficulty in getting ail appointment. The father was astonished at his boy's presumption (as he supposed it to be) in undertaking such a re- sponsibility, and he begged the mine agents to reconsider their decision. But the result showed that they were justified in mak- ing the appointment ; for young Trevithick, though he had not yet attaineS his majority, proved fully competent to perform the duties devolving upon him as engineer. So long as Boulton and Watt's patent continued to run, con- stant attempts were made in Cornwall and elsewhere to upset it. Their engines had cleared the mines of water, and thereby rescued the mine lords from min, but it was felt to be a great hardship that they should have to pay for the right to use them. They accordingly stimulated the ingenuity of the local engineers to contrive an engine that shoidd answer the same purpose, and en- able them to evade making any farther payments to Boulton and Watt. The first to produce an engine that seemed likely to an- swer the purpose was Jonathan Homblower, who had been em- ployed in erecting Watt's engines in Cornwall. After him one 76 MEMOIR OF RICHARD TREVITHICK. [Part I. Edward Bull, who had been first a stoker and then an assistant- tender of "Watt's engines, turned out another pumping-engine, which promised to prove an equally safe evasion of the existing patent. But Boulton and Watt having taken the necessary steps to defend tkeir right, several actions were tried, in which they proved successful, and then the mine lords were compelled to dis- gorge. When they found that Homblower could be of no far- ther use to them, they abandoned him — threw him away like a sucked orange ; and shortly after we find him a prisoner for debt in the King's Bench, ahnost in a state o'f starvation. Nor do we hear any thing more of Edward Bull after the issue of the Boul- ton and Watt trial. like the other Cornish engineers, young Trevithick took an active part from the first in opposing the Birmingham patent, and he is said to have constructed several engines, with the assistance of William Bull (formerly an erector of Watt's machines), with the object of evading it. These engines are said to have been highly creditable to their makers, working to the entire satisfac- tion of the mine-owners. The issue of the Watt trial, however, which declared all such engines to be piracies, brought to an end for a time a business which would otherwise have proved a very profitable one, and Trevithick's partnership with Bull then came to an end. While carrying on his business, Trevithick had frequent occa- sion to visit Mr. Harvey's iron foundery at Hayle, then a small work, but now one of the largest in the West of England, the Cornish pumping-engines turned out by Harvey and Co. being the very best of their kind. During these visits Trevithick be- came acquainted with the various members of Mr. Harvey's fam- ily, and in course of time he contracted an engagement with one of his daughters, Miss Jane Harvey, to whom he was married in November, 1Y97. A few years later we find Trevithick engaged in partnership with his cousin, Andrew Vivian, also an engineer. They carried on their business of engine-making at Camborne, a Tnim'Tig town situated in the midst of the mining district, a few miles south of Eedruth. Watt's patent-right expired in 1800, and from that time the Cornish engineers were free to make engines after their own methods. Trevithick was not content to follow in the beat- Chap. III.] HIS STEAM-CARRIAGE. 17 en paths, but, being of a highly speculative turn, he occupied him- self in contriving various new methods of employing steam with the object of economizing fuel and increasing the effective power of the engine. ' From an early period he entertained the idea of making the expansive force of steam act directly on both sides of the piston on the high-pressure principle, and thus getting rid of the process of condensation as in Watt's engines. Although Cugnot had em- ployed high-pressure steam in his road locomotive, and Murdock in his model, and although Watt had distinctly specified the ac- tion of steam at high-pressure as well as low in his patents of 1769, 1782, and 1784, the idea was not embodied in any practi- cable working engine until the subject was taken in hand by Trev- ithick. The results of his long and careful study were embodied in the patent which he took out in 1802, in his own and Yivian's name, for an improved steam-engine, and " the apphcation there- of for driving carriages and for other purposes." The arrangement of Trevithick's engine was exceedingly in- genious. It exhibited a beautiful simplicity of parts; the ma- chineiy was arranged in a highly effective form, uniting strength vsdth sohdity and portability, and enabling the power of steam to be employed with very great rapidity, economy, and force. Watt's principal objection to using high-pressure steam consisted in the danger to which the boiler was exposed of being burst by inter- nal pressure. In Trevithick's engine, this was avoided by using a cyhndrical wrou.ght-iron boiler, being the form capable of pre- senting the greatest resistance to the expansive force of steam. Boilers of this kind were not, however, new. Oliver Evans, of Delaware, had made use of them in his high-pressure engines prior to the date of Trevithick's patent ; and, as Evans did not claim the cylindrical boiler, it is probable that the invention was in use before his time. Nevertheless, Trevithick had the merit of introducing the round boilers into Cornwall, where they are stiU known as " Trevithick boilers." The saving in fuel effected by their use was such that in 1812 the Messrs. Williams, of Scor- rier, made Trevithick a present of £300, in acknowledgment of the benefits arising to their mines from that source alone. Trevithick's steam-carriage was the most compact and hand- some vehicle of the kind that had yet been invented, and, indeed, 78 MEMOIR OF RICHARD TREVITHICK. [Pabi I. as regards arrangement, it has scarcely to this day been surpass- ed. It consisted of a carriage capable of accommodating some half-dozen passengers, underneath which was the engine and ma- chinery inclosed, about the size of an orchestra drum, the whole being supported on four wheels — two in front, by which it was guided, and two behind, by which it was driven. The engine had but one cylinder. The piston-rod outside the cylinder was double, and drove a cross-piece, working in guides, on the oppo- site side of the cranked axle to the cylinder, the crank of the axle revolving between the double "parts of the piston-rod. Toothed wheels were attached to this axle, which worked into other toothed wheels fixed on the axle of the driving-wheels. The steam-cocks were opened and shut by a connection with the crank-axle ; and the force-pump, with which the boiler was sup- plied with water, was also worked from it, as were the bellows to blow the fire and thereby keep up the combustion in the furnace. The specification clearly alludes to the use of the engine on railroads as follows : " It is also to be noticed that we do occa- sionally, or in certain cases, make the external periphery of the wheels uneven by projecting heads of nails or bolts, or cross grooves or fittings to railroads where required, and that in cases of hard pull we cause a lever, belt, or claw to project through the rim of one or both of the said wheels, so as to take hold of the ground, but that, in general, the ordinary structure or figure of the external surface of those wheels will be found to answer the intended purpose." The specification also shows the application of the high-press- ure engine on the same principle to the driving of a sugar-mill, or for other purposes where a fixed power is required, dispensing with condenser, cistern, air-pump, and cold-water pump. In the year 1803, a small engine of this kind was erected after Trevi- thick's plan at Marazion, which worked by steam of at least 30 lbs. on the inch above atmospheric pressure, and gave much sat- isfaction. The first experimental steam-carriage was constructed by Trev- ithick and Vivian in their workshops at Camborne in 1803, and was tried by them on the public road adjoining the town, as well as in the street of the town itself. John Petherick, a native of Camborne, who was alive in 1858, stated in a letter to Mr. Ed- Chap. III.] EIS STEAM-CARRIAGE. 79 ward Williams that he well remembered seeing the engine, work- ed by Mr. Trevithick himself, come through the place, to the great wonder of the inhabitants. He says, " The experiment was satisfactory only as long as the steam pressure could be kept up. During that continuance Trevithick called upon the people to ' jump up,' so as to create a load on the engine ; and it soon be- came covered with men, which did not seem to make any differ- ence to the power or speed so long as the steam was kept up. This was sought to be done by the application of a cylindrical horizontal bellows worked by the engine itself ; but the attempt to keep up the power of the steam for any cpnsiderable time proved a failure." Trevithick, however, made several alterations in the engine which had the effect of improving it, and its success was such that he determined to take it to London d,nd exhibit it there as the most recent novelty in steam mechanism. It was successfully run by road from Camborne to Plymouth, a distance of about ninety miles. At Plymouth it was shipped for London, where it shortly after arrived in safety, and excited considerable curi- osity. It was run on the waste ground in the vicinity of the present Bethlehem Hospital, as well as on Lord's cricket-ground. There Sir Humphry Davy, Mr. Davies Gilbert, and other scien- tific gentlemen inspected the machine and rode upon it. Sever- al of them took the steering of the carriage by turns, and they expressed their satisfaction with the mechanism by which it was directed. Sir Humphry, writing to a friend in Cornwall, said, " I shall soon hope to hear that the roads of England are the haunts of Captain Trevithick's dragons — a characteristic name." After the experiment at Lord's, the carriage was run along the ISTew-road, and down Gray's-Inn Lane, to the premises of a car- riage-builder in Long Acre. To show the adaptabihty of the en- gine for fixed uses, Trevithick had it taken from the carriage on the day after this trial and removed to the shop of a cutler, where he applied it with success to the driving of the machinery. The steam-carriage shortly became the talk of the town, and the public curiosity being on the increase, Trevithick resolved on inclosing a piece of ground on the site of the present Euston sta- tion of the London and Northwestern Eailway, and admitting persons to see the exhibition of his engine at so much a head. 80 MEMOIR OF RICHARD TREVITHICK. [Paet I. He had a tram-road laid down in an elliptical form within the inclosure, and the carriage was run roimd it on the rails in the sight of a great mxmber of spectators. On the second day anoth- er crowd collected to see the exhibition, but, for what reason is not known, although it is said to have been through one of Trev- ithick's freaks of temper, the place was closed and the engine re- moved. It is, however, not improbable that the inventor had come to the conclusion that the state of the roads at that time was such as to preclude its coming into general use for purposes of ordinary traffic. While the stea;n-carriage was being exhibited, a gentleman was laying heavy wagers as to the weight which could be hauled by a single horse on the Wandsworth and Croydon iron tram-way ; and the number and weight of wagons drawn by the horse were something surprising. Trevithick very probably put the two things together — the steam-horse and the iron-way — and kept the perf ormanc'e in mind when he proceeded to construct his second or railway locomotive. In the mean time, having dismantled his steam-carriage, sent back the phaeton to the coach-builder to whom it belonged, and 'sold the little engine which had worked the machine, he returned to Camborne to carry on his business. In the course of the year 1803 he went to Pen-y-darran, in South Wales, to erect a forge engine for the iron- works there ; and, when it was finished, he began the erection of a railway locomo- tive — the first ever constructed. There were already, as above stated, several. Hues of rail laid down in the district for the ac- commodation of the coal and iron works. That between Mer- thyr Tydvil and Cardiff was the longest and most important, and it had been at work for some years. It had probably occurred to Trevithick that here was a fine opportunity for putting to prac- tical test the powers of the locomotive, and he proceeded to con- struct one accordingly in the workshops at Pen-y-darran. This first railway locomotive was finished and tried upon the Merthyr tram-road on the 21st of February, 1804. It had a cy- lindrical wrought-iron boiler with flat ends. The furnace and flue were inside the boiler, the flue returning, having its exit at the same end at which it entered, so as to increase the heating surface. The cylinder, 4f in. in diameter, was placed horizontal- ly in the end of the boiler, and the waste steam was thrown into Chap. III.] TREVITHICK'S TRAM-ENGINE. 81 the stack. The wheels were worked in the same manner as in the carriage engine already described ; and a fly-wheel was add- ed on one side, to secure a continuous rotary motion at the end of each stroke of the piston. The pressure of the steam was about 40 lbs. on the inch. The engine ran upon four wheels, coupled by cog-wheels, and those who remember the engine say that the four wheels were smooth. TEEVITHICK'8 BI&H-PttES6UItB TEAM-EMGINB. On the first trial, this engine drew for a distance of nine miles ten tons of bar iron, together with the necessary carriages, water, and fuel, at the rate of five and a half miles an hour. Rees Jones, an old engine-fitter, who helped to erect the engine, and was alive in 1858, gave Mr. Menelaus the following account of its perform- ances : "When the engine was finished, she was used for bring- ing down metal from the old forge. She worked very well ; but frequently, from her weight, broke the tram-plates, and also the hooks between the trams. After working for some time in this way, she took a journey of iron from Pen-y-darran down the Basin Eoad, upon which road she was intended to work. On the journey she broke a great many of the tram-plates ; and, before reaching the Basin, she ran off the road, and was brought back to Pen-y-darran by horses. The engine was never used as a loco- motive after this ; but she was used as a stationary engine, and worked in this way for several years." F 82 MEMOIR OF RICHARD TREVITHICK. [Pakt I. So far as the locomotive was concerned it was a remarkable success. The defect lay not in the engine so much as in the road. This was formed of plate-rails of cast iron, with a guiding flange upon the rail instead of on the engine wheels, as in the modem locomotive. The rails were also of a very weak form, consider- ing the quantity of iron in them ; and, though they were suffi- cient to bear the loaded wagons mounted upon small wheels, as ordinarily drawn along them by horses, they were found quite insufficient to bear the weight of Trevithick's engine. To relay the road of sufficient strength would have involved a heavy out- lay, which the owners were unwilling to incur, not yet perceiving the advantage, in an economical point of view, of employing en- gine in lieu of horse power. The locomotive was accordingly taken off the road, and the experiment, successful though it had been, was brought to an end. Trevithick had, however, by means of his Pen-y-darran engine, in a great measure solved the problem of steam locomotion on railways. He had produced a compact engine, working on the high-pressure principle, capable of carrying fuel and water suffi- cient for a journey of ctosiderable length, and of drawing loaded wagons at five and a half miles an hour. He had shown by his smooth-wheeled locomotive that the weight of the engine had given sufficient adhesion for the haulage of the load. He had discharged the steam into the chimney, though not for the pur- pose of increasing the draught, as he employed bellows for that purpose. It appears, however, that Trevithick's friend, Mr. Da- vies Gilbert, afterward President of the Eoyal Society, especially noticed the effect of discharging the waste steam into the chim- ney of the Pen-y-daiTan engine. He observed that when the en- gine moved, at each puff the fire brightened, while scarcely any visible steam or smoke came from the chimney. Mr. Gilbert published the result of his observations in "Nich- olson's Journal" for September, 1805, and the attention of Mr. Nicholson, the editor, having thereby been called to the subject, he proceeded to make a series of experiments, the result of which was that in 1806 he took out a patent for a steam-blasting appa- ratus, by which he proposed to apply high-pi-essure steam to force along currents of air for various useful purposes, including the urging of furnace and other fires. It is thus obvious that the Chap. III.] TAKES A BALLASTING CONTRACT. 83 1 principle of the blast-pipe was known to both Gilbert and Nich- olson at this early period ; but it is somewhat remarkable that Trevithick himself should have remained skeptical as to its use, for as late as 1815 we find him taking out a patent, in which, among other imprOTements, he included a method of urging his fire by fanners, similar to a winnowing machine. In the mean time Trevithick occupied himself in carrying on the various business of a general engineer, and was ready to em- bark in any enterprise likely to give scope for his inventive skill. In whatever work he was employed, he was sure to introduce new methods and arrangements, if not new inventions. He was full of speculative enthusiasm, a great theorist, and yet an indefatiga- ble experimenter. At the beginning of 1806 — ^the year after the locomotive had been taken ofE tlie Merthyr Tydvil tram-road — ^he made arrangements for entering into a contract for ballasting all the shipping in the Thames. At the end of a letter written by him on tihe 18th of February in that year to Davies Gilbert, re- specting 2i puffer engine, he said, " I am, about to enter into a con- tract with the Trinity Board for Hf ting up ballast out of the bot- tom of the Thames for all the shipping. The first quantity stated was 300,000 tons a year, but now they state 500,000 tons. I am to do nothing but wind up the chain for %d. per ton, which is now done by men. They never lift it above twenty-five feet high — a man will now get up ten tons for 7s. My engine at Dalcoath has hfted about 100 tons that height with one bushel of cOals. I have two engines already finished for the purpose, and shall be in town in about fifteen days for to set them to work. They pro- pose to engage with me for twenty-one years."* The contract- was not, however, entered into. Trevithick quarreled with the capital- ists' who had found the money for the trials, and the " Blazer" and "Plymouth," the vessels in which his engines and machinery had been fitted, fell into other hands. Trevithick, nevertheless, seems to have been on the highway to fortune, for, at the beginning of 1806, he had received orders for nine engines in one month, all for Cornwall ; and he expected orders for four others. He had also in view the construbtion of a railway ; but nothing came of this project. More hopeful still, as regarded immediate returns, was the Cornish engine business, * Weale's " Papers on Engineering,'' vol. i., " On the Dredging Machine," p. 7. 84 MEMOIR OF RICHARD TREVITHICK. [Pabt I. 1 which presented a veiy wide field. Now that the trade had been thrown open by the expiry of Boulton and Watt's patent, compe- tition had sprung up, and many new makers and inventors of en- gines were ready to supply the demand. Among the most prominent of these were Trevithick and Woolf. Trevithick was the most original and speculative, Woolf the most plodding and practical', and the most successful. Trevithick's in- genuity .exhibited itself in his schemes for working Boulton and Watt's pumping-eiigine by high-pressure steam, by means of his cylindrical wrought -iron boiler. He proposed to expand Jhe steam down to low pressu.re previous to condensation, thereby an- ticipating by many years the Cornish engine now in use. The suggestion was not, however, then acted on, and he fell back on his original design of a simple non-condensing high-pressure en- gine. One of these was erected at Dalcoath mine to draw the ores there. It was called " the puffer" by the mining people, from its puffing the steam direct into the air; but its performances did not compare favorably with those of the ordinary condensing engines of Boulton and Watt, and the engine did not come into general use. Trevithick was not satisfied to carry on a prosperous engine business in Cornwall. Camborne was too small for him, and the Cornish mining districts ,presented too limited a field for his am- bitious spirit. So he came to London, the Patent-office drawing him as the loadstone does the needle. In 1808 he took out two patents, one for " certain machinery for towing, driving, or forcing and discharging ships and other vessels of their cargoes," and the other for " a new method of stowing cargoes of ships." In 1809 he took out another patent for constructing docks, ships, etc., and propelling vessels. In these patents, Trevithick was associated with one Eobert Dickinson, of Great Queen Street, but his name stands first in the specification, wherein he describes himself as " of Rother- hithe, in the county of Surrey, engineer." By the first of these patents he proposed to tow vessels by means of a rowing wheel shaped like an undershot water-wheel furnished with floats placed vertically in a box, and worked by a steam-engine, which he also proposed to employ in the loading and unloading of the vessel, but it is not known that the plan was ever introduced into prac- Chap. IH.] THE THAMES TUNNEL. 85 tical use. The patent of 1809 included a floating dock or caisson made of wrought-iron plates, in which a ship might be docked while afloat, and, after the water had been pumped out of the caisson, repaired without moving her stores, masts, or furniture. This invention has since been carried out in practice by the Messrs. Eennie in the floating iron dock which they have recent- ly constructed for the Spanish government. Another invention included in the specification was the construction of merchant and war ships of wrought-iron plates strongly riveted together, with their decks supported by wrought-iron beams, and the masts, bowsprits, and booms also of tubular wrought iron, thereby an- ticipating by many years the form and structure of vessels now in common use. While Trevithick lived at Eotherhithe, he entered upon a re- markable enterprise — no less than the construction of a tunnel imder the Thames — a work which was carried out with so much difficulty by Sir Isambard Brunei some twenty years later. Sev- OTal schemes had been proposed at different times for coimect- ing the two banks of the river by an underground communica- tion. As early as 1798, Ealph Dodd suggested a tunnel under the Thames between Gravesend and Tilbury, and in 1802 Mr. Yazie projected a tunnel from Eotherhithe to Limehouse. A company was formed to carry out the latter scheme, and a shaft was sunk, at considerable expense, to a depth of 76 feet below liigh water. The works were from time to time suspended, and it was not until the year 1807, when Trevithick was appointed engineer of the work, that arrangements were made for proceed- ing with the driftway imder the bed of the Thames. After about five months' working, the drift was driven for a length of 953 feet, when the roof gave way and the water burst in. The open- ing was, however, plugged by clay in bags thrown into the river, and the work proceeded until 1028 feet had been accomplished. Then the water burst in again, and the process of plugging and pumping the water out of the drift was repeated. After seventy more feet had been added to the excavation, there was another irruption, which completely fiooded the driftway, and the water rose nearly to the top of the shaft. This difficulty was, however, again overcome, and with great danger twenty more feet were accomplished ; but the bursts of water became so frequent and 86 MEMOIR OF RICHARD TREVITHICK. [Part I. unmanageable that at length the face' of the drift was timbered up and the work abandoned. Treyithiok, who had been prom- ised a reward of £1000 if the tunnel succeeded, thus lost botli his. labor and his reward. The only remuneration he received from the Company was a hundred guineas, which were paid to him according to agreement, provided he carried the excavation to the extent of 1000 yards, which he did. Trevithick returned to Camborne in 1809, where we find him busily occupied with new projects, and introducing his new en- gine worked by water-power, the first of which was put up at the Druid mine, as well as in perfecting his high-pressure engine and its working by expansion. One of tlje first of such engines was erected at the Huel Prosper mine, of which he was engineer; and this, as well as others subsequently constructed on the same principle,.proved quite successful. In 1815 Trevithick took out a farther patent, embodying sev- eral important applications of steam-power. One of these con- sisted in " causing steam of a high pressure to spout out against the atnaosphere, and by its recoiling force to produce motion in a direction contrary to the issuing steam, similar to the motion pro- duced in a rocket, or to the recoil of a gun." This was, however, but a . revival of the ancient (Eolipile described by Hero, and known as " Hero's engine." In another part of his specification Trevithick described the screw-propeller as "a screw or a number of leaves placed ob- liquely round an axis similar to the vanes of a smoke-jack, which shall be made to revolve with great speed in a line with the re- quired motion of the ship^ or parallel to the same line of motion." Li a second part of the specification, he described a plunger or pole-engine in which the steam worked at high-pressure. The fibrst engine of this kind was erected by Trevithick at Herland in 1815, but the result was not equal to his expectations, though the principle was afterward successfully applied by Mr. William Sims, who purchased the patefit-right. In this specification Trevithick also described a tubular boiler of a new construction for the purpose of more rapidly producing high-pressure steaifi, the heating surface being extended by con- structing the boiler of a number of small perpendicular tubes, closed at the bottom, but all opening at the top into a common Chap. III.] MB. UVILLE AND TEEVITHICK. 87 reservoir, from whence they received their water, and iato which the steam of all the tubes was raiited. While Trevithick was engaged in these ingenious projects, an event occurred which, though it promised to issue in the most splendid results, proved the greatest misfortune of his life. "We refer to his adventures in connection with the gold mines of Peru. Many of the richest of them had been drowned out, the pumping machinery of the country being incapable of clearing them of water. The districts in which they were situated were almost in- accessible to ordinary traffic, all transport being conducted on the backs of men or of mules. The parts of an ordinary condensing engine were too ponderous to be carried up these mountain heights, and it was evident that, unless some lighter sort of en- gine could be employed, the mines in question must be aban- doned. Mr. TJvilld, a Swiss gentleman interested in South American mining, came over from Peru to England in 1811 for the purpose of making inquiries about such an engine, but he received no en- couragement. . He was about to return to Lima, in despair of ac- complishing his object, when, one day, accidentally passing a shop- window in Fitzroy Square, he caught sight of an engine exposed for sale which immediately attracted his attention. It was the engine constructed by Trevithick for his first locomotive, which he had sold some years before, on the sudden abandonment of the exhibition of its performances in London. Mr. Uvill6 was so much pleased with its construction and mode of action that he at once purchased it and took it out with him to South Amer- ica. Arrived there, he had the en^ne transported across the mountains to the rich mining district of Pasco, about a hundred miles north of Lima, to try its effects on the highest mountain ridges. The experiment was so satisfactory that an association of influ- ential gentlemen was immediately formed to introduce the en- gine on a large scale, and enter into contracts with the mine-own- ers for clearing their shafts of the water which drowned them. The Yiceroy of Peru approved the plan, and the association dis- patched Mr. UvilM to England to purchase the requisite engines. He took ship for Falmouth about the end of 1812 for the purpose of finding out Trevithick. He only knew of Trevithick by name. 88 MEMOIR OF RICHARD TREVITHICK. [Part I. and that he lived in Cornwall, but nothing farther. Being full of his subject, however, he could not refrain from conversing on the subject vnth the passengers on board the ship by which he sailed, and it so happened that one of them — a Mr. Teague — was a relative of Trevithick, who promised, shortly after their land- ing, to introduce him to the inventor. Mr. Teague wa^ as good as his word, and ia the course of a few days Uvill6 was enabled to discuss the scheme with Trevithick at his own house at Camborne, where he still resided. The result was an order for a number of high-pj-essure pumping-engines, which were put in hand at once ; and on the Ist of September, 1814, nine of them were shipped at Portsmouth for Lima, accom- panied by Uvill6 and three Cornish engineers, one of whom was WiUiam Bull, of Chasewater, Trevithick's first partner. The engines reached lima in safety, and were welcomed by a royal salute and with public rejoicings. Such, however, was the difficulty of transporting the materials across the mountains, that it was not until the middle of the year 1816 that the first engine was erected and set to work to. pump out the Santa Eosa mine, in the royaV mineral territory of Taiiricocha. The association of gentlemen to whom the engines belonged had entered into a con- tract to drain this among other mines, on condition of sharing ia the gross produce of the ores to the extent of about 25 per cent, of the whole amount raised. The result of the first working of the engine was so satisfactory that the projectors were filled with no, less astonishment than delight, and they characterized the un- dertaking as one from which they " anticipated a torrent of silver that would fill surrounding nations with astonishment." In the mean time Trevithick was proceeding at home with the manufacture of the remaining engines, as well as new coining ap- paratus for the Peruvian mint, and furnaces for purifying silver ore by fusion ; and with these engines and apparatus he set sail for America in October, 1816, reaching Lima in safety in the fol- lowing February. He was received with almost 'royal honors. The government " Gazette" officially announced " the arrival of Don Eicardo Trevithick, an eminent professor of mechanics, ma- chinery, and mineralogy, inventor and constructor of the engines of the last patent, and who directed in England the execution of the machinery now at work in Pasco." The lord warden was or- Chap. III.] THE REVOLUTION IN PERU. 89 dered by the yiceroy to escort Trevithick to the mines accompa- nied by a guard of honor. The news of his expected arrival there occasioned great rejoicings, and the chief men of the district came down the mountains to meet and welcome him. Uviiy wrote to his associates that Trevithick had been sent out " by heaven for the prosperity of the mines, and that the lord warden proposed to erect his statue in solid silver." Trevithick himself wrote home to his friends in Cornwall that he had before him the prospect of almost boundless wealth, having, in addition to his emoluments as patentee, obtained a fifth share in the Lima Company, which, he expected, on a moderate computation, would yield him about £100,000 a year! But these brilliant prospects were suddenly blasted by the Pe- ruvian revolution which broke out in the following year. "While Mr. Boaze was reading his paper* before the Koyal Geological Society of Cornwall, in which these anticipations of Trevithick's fame and fortune were so glowingly described. Lord Cochrane was on his way to South America to take the command of the Chilian fleet in its attack of the ports of Peru, still in the posses- sion of the Spaniards. Toward the end of 1818, Lord Cochrane hoisted his flag, and shortly after proceeded to assail the Spanish fleet in Callao Har- bor. This proved the signal for a general insurrection, during the continuance of which the commercial and industrial affairs of the province were completely paralyzed. The pumping-en- gines of Trevithick were now of comparatively little use in pumping water out of mines in which the miners would no lon- ger work. Although Lima was abandoned by the Spaniards to- ward the end of 1821, the civil war continued to rage for sev- eral years longer, until at length the independence of Peru was achieved ; but it was long before the population were content to settle down as before, and follow the ordinary pursuits of indus- try and commerce. , The result to Trevithick was, that he and his partners in the Mining Company were consigned to ruin. It has been said that the engineer joined the patriotic party, and invented for Lord * Paper read by Hemy Boaze, Esq., "On Captain Trevithick's Adventures,'' at the Anniversary Meeting of September, 1817. — "Transactions of Eoyal Geological Society of Cornwall," vol. i., p. 212. 90 MEMOIR OF RICHARD TREVITEICK. [Paet I. Cochrane an ingenious gun-carriage centred and equally balanced on pivots, and easily worked by machinery ; hwt of this no men- tion is made by Lord Cochrane in his " Memoirs." The Patriots kept Trevithick on the mountains as a sort of patron and pro- tector of their interests ; but for this very reason. he became pro- portionately obnoxious to the Eoyalists, who, looking upon him as the agent through whom the patriotic party obtained the sinews of war, destroyed his engines, and broke up his machinery wher- ever they could. At length he determined to escape from Peru, and fled northward across the mountains, accompanied by a sin- gle friend, making for the Isthmus of Panama. In the course of this long, toilsome, and dangerous journey, he encountered great privations ; he slept in the forest at night, traveled on foot by day, and crossed the streams by swimming. At length, his clothes torn, worn, and hanging almost in shreds, and his baggage all lost, he succeeded in reaching the port of Cartagena, on the Gulf of Da- rien, almost destitute.- Here he encountered Eobert Stephenson, who was waiting at the one inn of the place until a ship was ready to set sail for En- gland. Stephenson had finished his engagement with the Colom- bian Mining Company for which he had been working, and was eager to return home. When Trevithick entered the room in which he was sitting, Stephenson at once saw that he was an En- glishman. He stood some six feet in height, and, though well proportioned when in ordinary health, he was now gaunt and hol- low, the picture of privation and misery. Stephenson made up to the stranger, and was not a little sur- prised to find that he was no other than the famous engineer, Trevithick, the builder of the first patent locomotive, and who, when he last heard of him, was accumulating so gigantic a for- tune in Peru. Though now penniless, Trevithick was as full of speculation as ever, and related to Stephenson that he was on his way home for the purpose of organizing another gold-mining company, which should make the f oitunes of all who took part in it. He was, however, in the mean time, unable to pay for his passage, and Stephenson lent him the requisite money for the purpose of reaching his home in Cornwall. As there was no vessel likely to sail for England for some time, Stephenson and Trevithick took the first ship bound for New CHAP.m.] HOME AGAIN.— MORE PATENTS. 91 York. After a stormy passage, full of adventure and peril, the vessel was driven on a lee-shore, and the passengers and crew barely escaped with their lives. On reaching New York, Trevi- thick immediately set sail for England, and he landed safe at Fal- mouth in October, 1827, bringing back with him a pair of silver spurs, the only remnant which he had preserved of those " tor- rents of silver" which his engines were to raise from the mines of Peru. Immediately on his return home, Trevithick memorialized the government for some remuneration adequate to the great benefit which thei country had derived from his invention of the high- pressure steam-engine, and his introduction of the cyHndrical boiler. The petition was prepared in December, 1827, and was cheerfully signed by the leading mine-owners and engineers in Cornwall; but there their efforts on his behalf ended. He took out two more patents — one in 1831, for a new method of heating apartments, and another in 1832, for improvements in the steam-engine, and the application of steam-power to naviga- tion and locomotion ; but neither of them seems to have proved of any service to him. His new improvement in the steam-engine was neither more nor less than the invention of an apparatus sim- ilar to that which bias quite recently come into use for employing superheated steam as a means of working the engine more eSect- ively and economically. The patent also included a method of propelling ships by ejecting water through a tube with great force and speed in a direction opposite to the course of the vessel, a method since reinvented in many forms, though not yet success- fully introduced in practice. Strange to say, though Trevithick had been so intimately con- nected with the practical introduction of the Locomotive, he seems to have taken but httle interest in its introduction upon railways, but confiiied himself to advocating its employment on common roads as its most useful application.* Though in many things he was before his age, here he was unquestionably behind * On the 12th of August, 1831, by which time the Liverpool and Manchester line was in full work, Trevithick appeared as a witness before the select committee of the House of Commons on the employment of steam-carriages on common roads. He said "he had been abroad a good many years, and had had nothing to do with steam- carriages until Very latdy. He had it now, however, in contemplation to do a great deal on common roads, and, >vith that view, had taken out a patent for an entirely 92 MEMOIR OF RICHARD TREVITHICK. [Part I. it. But Trevithick was now an old man; his constitution was broken, and his energy worked out. Younger men were in the field, less ingenious and speculative, but more practical and ener- getic ; and ia the blaze of their fame the Cornish engineer was forgotten. During the last year of his life Trevithick resided at Dartf ord, in Kent. He had induced the Messrs. Hall, the engiaeers of that place, to give him an opportunity of testing the value of his last in- vention — that of a vessel driven by the ejection of water through a tube — and he went there to superintend the construction of the necessary engine and apparatus. The vessel was duly fitted up, and several experiments were made with it in the adjoining creek, but it did not realize a speed of more than four miles an hour. Trevithick, being of opinion that the engine-power was insuffi- cient, proceeded to have a new engine constructed, to the boiler of which, within the furnace, numerous tubes were attached, round which the fire played. So much steam was raised by this arrangement that the piston " blew ;" but still the result of the experiments was unsatisfactory. While laboring at these inven- tions, and planning new arrangements never to be carried out, the engineer was seized by the illness of which he died, on the 22d of April, 1833, in the 62d year of his age. j^ Trevithick was entirely without means at his death, besides being some sixty pounds in debt to the landlord of the Bull Inn, where he had been lodging for nearly a year, he would probably have been buried at the expense of the parish but for the Messrs. Hall and their workmen, who raised a sum sufficient to give the " great inventor" a decent burial ; and they followed his remains to the grave in Deptford Church-yard, where he lies mthout a stone to mark his resting-place. There can be no doubt as to the great mechanical ability of Trevithick. He was a man of original and intuitive genius in invention. Every mechanical arrangement which he undertook to study issued from his hands transformed and improved. But there he rested. He struck out many inventions, and left them to take care of themselves. His great failing was the want of new engine, the arrangements in which were calculated to obviate all the difficulties which had hitherto stood in the way of traveling on common roads." Chap. IU.] TREVITHICK'S SPLENDID BEGINNINGS. 93 perseverance. His mind was always full of projects ; but his very genius led liim astray in search of new things, while his imagina- tion often outran his judgment. Hence his life was but a series of beginnings. Look at the extraordinary things that Trevithick began. He made the first railway locomotive, and cast the invention aside^ leaving it to others to take it up and prosecute it to a successful issue. He introduced, if he did not invent, the cylindrical boiler and the high-pressure engine, which increased so enormously the steam-power of the world ; but he reaped the profits of neither. He invented an oscillating engine and a screw propeller ; he took out a patent for using superheated steam, as weU as for wrought- iron ships and wrought-iron floating docks ; but he left it to oth- ers to introduce these several inventions. Never was there such a series of splendid mechanical begin- nings. He began a Thames Tunnel and abandoned it. He went to South America with the prospect of making a gigantic for- tune, but he had scarcely begun to gather in his gold than he was forced to fly, and returned home destitute. This last event, how- ever, was a misfortune which no efforts on his part could have prevented. But even when he had the best chances, Trevithick threw them away. When he had brought his road locomotive to London to exhibit, and was beginning to excite the curiosity of the public respecting it, he suddenly closed the exhibition in a fit of caprice, removed the engine, and returned to Cornwall in a tiff. The failure, also, of the railroad on which his locomotive traveled so provoked him that he at once abandoned the enter- prise in disgust. There may have been some moral twist in the engineer's char- acter, into which we do not seek to pry ; but it seems clear that he was wanting in that resolute perseverance, that power of fight- ing an up-hill battle, without which no great enterprise can be conducted to a successful issue. In this respect the character of Hichard Trevithick presents a remarkable contrast to that of George Stephenson, who took up only one of the many projects which the other had cast aside, and by dint of application, indus- try, and perseverance, carried into effect one of the most remark- able but peaceful revolutions which has ever been accomplished in any age or country. 94 MEMOIR OF RICHARD TREVITHICK. [Paet I. We now proceed to describe the history of this revolution in connection with the Life of George Stephenson, and to trace the locomotive through its several stages of development until we find it recognized as one of the most vigorous and untiring work- ers in the entire worid of industry. LIVES OF GEORGE AND EGBERT STEPHENSON. NEWCASTLE-UPON-TTNE AND THE HIGH-LEVEL BKIDGE. [By R. P. Leitcb, alter bis Original Drawinr;.] LIFE. OF GEORGE STEPHENSON, Etc. CHAPTEE I. THE NEWCASTLE COAL-FIELD — GfEOKGE STE In no quarter of England have greater changes been wronght by the successive advances made in the practical science of en- gineering than in the extensive colliery districts of the North, of which Newcastle-upon-Tyne is the centre and the capital. In ancient times the Eomans planted a colony at Newcastle, throwing a bridge across the Tyne near the site of the low-level bridge shown in the prefixed engraving,, and erecting a strong fortification above it on the high ground now occupied by the Central Eailway Station. North and northwest lay a wild coun- tiy, abounding in moors, mountains, and morasses, but occupied to a certain extent by fierce and barbarous tribes. To defend the young colony against their ravages, a strong wall was built by the Eomans, extending from Wallsend on the north bank of the Tyne, a few miles below Newcastle, across the country to Burgh-upon-Sands on the Solway Frith. The remains of the ,wall are still to be traced in the less populous hill-districts of Northumberland. In the neighborhood of Newcastle they have been gradually effaced by the works of succeeding generations, though the "Wallsend" coal consmned in our household iires still serves to remind us of the great Eoman work. After the withdrawal of the Eomans, Northumbria became planted by immigrant Saxons from North Germany and Norse- men frorh Scandinavia, whose eorls or earls made Newcastle .their principal seat. Then came the Normans, from whose New Cas- tle, built some eight hundred years since, the town derives its present name. The keep of this venerable structure, black with age and smoke, stiU stands entire at the northern end of the no- & 98 THE NEWCASTLE COAL-FIELD. [Paet n. ble high-level bridge — the utihtarian work of modem times thus confronting the warlike relic of the older civilization. MAP OF NEWCASTLE DI8TE10T. The nearness of Newcastle to the Scotch Border was a great hinderance to its security and progress in the middle ages of En- ghsh history. Indeed, the district between it and Berwick con- tinued to be ravaged by moss-troopers long after the union of the crowns. The gentry lived in their strong Peel castles ; even the larger farm-houses were fortified ; and blood-hounds were trained for the purpose of tracking the cattle-reavers to their retreats in the hills. The judges of Assize rode from Carlisle to Newcastle guarded by an escort armed to the teeth. A tribute called " dag- ger and protection money" was annually paid by the sherifE of Newcastle for the purpose of providing daggers and other weap- ons for the escort ; and, though the need of such protection has long since ceased, the tribute continues to be paid in broad gold pieces of the time of Charles the First. Until about the middle of last century the roads across Nor- thumiberland were Kttle better than horse-tracks, and not many years since the primitive agricultural cart with solid wooden wheels was almost as common in the western parts of the county as it is in Spain now. The track of the old Roman road long continued to be the most practicable route between Newcastle and Carhsle, the traffic between the two towns having been car- ried on pack-horses until within a comparatively recent period. Since that time great changes have taken place on the Tyne. When wood for firing became scarce and dear, and the forests of Chap. L] MODERN NEWCASTLE. 99 the South of England were found inadequate to supply the in- creasing demand for fuel, attention was turned to the rich stores of coal lying imderground in the neighborhood of Newcastle and Durham. It then became an article of increasing export, and " sea-coal" fires gradually superseded those of wood. Hence an old writer describes Newcastle as " the Eye of the North, and the Hearth that warmeth the South parts of this kingdom with Fire." Fuel became the staple product of the district, the quantity ex- ported increasing from year to year, until the coal raised from these northern mines amounts to upward of sixteen miUions of tons a year, of which not less than nine miUions are annually con- Toyed away by sea. Newcastle has in the mean time spread in all directions far be- yond its ancient bomidaries. From a walled mediaeval town of monks and merchants, it has been converted into a busy centre of commerce and manufactures inhabited by nearly 100,000 peo- ple. It is no longer a Border fortress — a " shield and defense against the invasions and frequent insults of the Scots," as de- scribed in ancient charters — ^but a busy centre of peaceful indus- try, and the outlet for a vast amount of steam-power, which is ex- ported in the form of coal to aU parts of the world. Newcastle is in many respects a town of singular and curious interest, espe- cially in its older parts, which are full of crooked lanes and nar- row streets, wynds, and chares, formed by tall, antique houses, rising tier above tier along the steep northern bank of the Tyne, as the similarly precipitous streets of Gateshead crowd the op- posite shore. All over the coal region, which extends from the Coquet to the Tees, about fifty miles from north to south, the surface of the soil exhibits the signs of extensive imderground workings. As you pass through the country at night, the earth looks as if it were bursting with fire at many points, the blaze of coke-ovens, iron- furnaces, and coal-heaps reddening the sky to such a distance that the horizon seems like a glowing belt of fire. Among the upper-grotmd workmen employed at the coal-pits, the principal are the firemen, engiae-men, and brakesmen, who fire and work the engines, and superintend the machinery by means of which the coUieries are worked. Previous to the intro- duction of the steam-engine, the usual machine employed for the 100 THE NEWCASTLE COAL-FIELD. [Paki II. purpose was what is called a " gin." The gin consists of a large drum placed horizontally, round which ropes attached to buckets and aorves are wound, which are thus drawn up or sent down the shafts by a horse traveling in a circular track or "gin race." This method was employed for drawing up both coals and water, and it is still used for the same purpose in small collieries; but where the quantity of water to be raised is great, pumps worked by steam-power are called into requisition. Newcomen's atmospheric engine was first made use of to work the pumps, and it continued to be so employed long after the more powerful and economical, condensing engine of Watt had been invented. In the Newcomen or "fire-engine," as it was called, the power is produced by the pressure of the atmosphere forcing down the piston in, the cylinder, on a vacuum being pro- duced within, it by condensation of the contained steam by means of cold-water injection. The piston-rod, is attached to one end of a lever, while the pump-rod works in! connection with the oth- er, the hydraulic action employed to raise the water being exactly similar to that of a common sucMng-pump. The working of a l!^ewcomen engine was a clumsy and appar- ently a very; painful process, accompanied by an extraordinary amount of wheezing, sighing, creaking, and bumping. When the pump descended, there was heard a plunge, a heavy sigh, and a loud bump ; then, as it rose, and the sucker began to act, there was heard a creak, a wheeze, another bimip, and then a rush of water as it was lifted and poured out. Where engines of a more powerful and improved description were used, as is now the case, the quantity of water raised is enormous — as much as a million and a half gallons in the twenty-four hours. The pitmen, or "the lads, belaw," who work out the coal below ground,' are a peculiar class, quite distinct from the workmen on the surface. They are a people with peculiar habits, manners, and character, as much so as fishermen and sailors, to whom in- deed, they bear, in some, respects, a considerable resemblance. Some fifty years since, they were a much rougher and worse edu- cated class than they are now ; hard workers, but very wild and uncouth ; much given to " steeks," or strikes ; and distinguished, in their houi-s of leisure and on pay-nights, for their love of cock- fighting, dog-fighting, hard drinking, and cuddy races. The pay- Chap. I.] THE PITMEN.— STAITHS.—" KEELS." 101 night was a fortnightly saturnalia, in which the pitman's charac- ter was fully brought out, especially when the " yel" was good. Though earning much higher wages than the ordinary laboring population of the upper soil, the latter did not mix nor intermar- ry with them, so that they were left to form their own communi- ties, and hence their marked peculiarities as a class. Indeed, a sort of traditional disrepute seems long to have clung to the pit- men, arising perhaps from the nature of their employment, and from the circumstance that the colliers were among the last class- es enfranchised in England, as they were certainly the last in Scotland, where they continued bondmen down to the end of last century. The last thirty years, however, have worked a great improvement in the moral condition of the Northumbrian pit- men ; the abolition of the twelve months' bond to the mine, and the substitution of a month's notice previous to leaving, having given them greater freedom and oppojlmiity for obtaining em- ployment ; and day-schools and Sunday-schools, together with the important influences of railways, have brought them fully up to a level with the other classes of the laboring population. The coals, when raised from the pits, are emptied into the wag- ons placed alongside, from whence they are sent along the rails to the staiths erected by the river-side, the wagons sometimes de- scending by their own gravity along inclined planes, the wagoner standing behind to check the speed by means of a convoy or wooden brake bearing upon the rims of the wheels. Arrived at the staiths, the wagons are emptied at once into the ships waiting alongside for cargo. Any one who has sailed down the Tyne from Newcastle Bridge can hot but have been struck with the appearance of the immense staiths, constructed .of timber, which are erected at short distances from each other on both sides of the river.- But a great deal of the coal shipped from the Tyne comes from above-bridge, where sea-going craft can not reach, and is floated down the river in " keels," in which the coals are sometimes piled up according to convenience when large, or, when the coal is small or tender, it is conveyed in tubs to prevent breakage. These keels are of a very ancient model — ^perhaps the oldest extant in England : they are even said to be of the same build as those in which the Norsemen navigated the Tyne centuries ago. The 102 THE NEWCASTLE COAL TRAFFIC. [Paet II. keel is a tubby, grimy-looking craft, rounded fore and aft, with a single large square sail, which the keel-bullies, as the Tyne water- men are called, manage with great dexterity ; the vessel being guided by the aid of the " swape," or great oar, which is used as a kind of rudder at the stem of the Tessel. These keehnen are an exceedingly hardy class of workmen, not by any means so quar- relsome as their designation of " bully" would imply — the word being merely derived from the obsolete term " boolie," or beloved, an appellation stiU in familiar use among brother workers in the coal districts. One of the most curious sights on the Tyne is the fleet of hundreds of these black-sailed, black-huUed keels, bring- ing down at each tide their black cargoes for the ships at anchor in the deep water at Shields and other parts of the river below Newcastle. These preliminary observations wiU perhaps be suflBcient to ex- plain the meaning of many of the occupations alluded to, and the phrases employed, in the course of the following narrative, some of which might otherwise have been comparatively unintel- hgible to the reader. The colliery village of Wylam is situated on the north bank of the Tyne, about eight miles west of Newcastle. The Newcastle and Carhsle Eailway runs along the opposite bank ; and the trav- eler by that Hne sees the usual signs of a colliery in the unsightly pumping-engines surrounded by heaps of ashes, coal-dust, and slag, while a neighboring iron-fumace in fuU blast throws out dense smoke and loud jets of steam by day and Im-id flames at night. These works form the nucleus of the village, which is al- most entirely occupied by coal-miners and iron-fumace-men. The place is remarkable for its large population, but not for its cleanness or neatness as a village ; the houses, as in most colliery villages, being the property of the owners or lessees, who employ them in temporarily accommodating the work-people, against whose earnings there is a weekly set-off for house and coals. About the end of last century, the estate of which Wylam forms part belonged to Mr. Blackett, a gentleman of considerable celeb- rity in coal-mining, then more generally known as the proprietor of the " Globe" newspaper. There is nothing to interest one in the village itself. But a Chap. I.] GEORGE STEPHENSON'S BIRTHPLACE. 103 few hundred yards from its eastern extremity stands a humble detached dwelling, which -will be interesting to many as the birth- WYLAM COLLIEEY AND TILLAGE [Ly L P Leitch ] place of one of the most remarkable men of our times — George Stephenson, the Kailway Engineer. It is a common, two-storied, red-tiled, rubble house, portioned off into four laborers' apart- ments. It is known by the name of ELigh-street House, and was originally so called because it stands by the side of what used to be the old riding post-road or street between Newcastle and Ilex- ham, along which the post was carried on horseback within the memory of persons hving. The lower room in the west end of this house was the home of the Stephenson family, and there George Stephenson was born, the second of a family of six children, on the 9th of Jmae, 1781. The apartment is now, what it was then, an ordinary laborer's dweUing ; its walls are unplastered, its floor is of clay, and the bare rafters are exposed overhead. Eobert Stephenson, or " Old Bob," as the neighbors f amiharly called him, and his wife Mabel, were a respectable couple, careful and hard-working. Eobert Stephenson's father was a Scotch- 104 MABEL STEPHENSON. [Paet II. man, who came into England in the capacity of a gentleman's servant.* Mabel, his wife, M^as the second danghter of Eobert Carr, a dyer at 0\'ingham. The Carrs were for several genera- HIGU-BTKEET HOUSE, WYLAM. [By E. P. Leitch.] tions the ownei-s of a house in that village adjoining the chiu'ch- yard ; and the family tomb-stone may still be seen standing against the east end of the chancel of the parish church, imder- neath the centre lancet window, as the tomb-stone of Thomas Bewick, the wood-engraver, occupies the western gable. Mabel Stephenson was a woman of somewhat deUcate constitution, and troubled occasionally, as her neighbors said, with " the vapoi-s." But those who remembered her coneiu-red in describins her as " a real canny body ;" and a woman of whom this is said by general consent in the Newcastle district may be pronomiced .a worthy person indeed, for it is about the highest praise of a wom- an which Northumbrians can ex][)ress. * A tradition exists in the family that Robert Stephenson's father came across the Border on the loss of considerable property. Miss Stephenson, the daughter of Rob- ert's third son, ,Iohn, has stated that a suit was commenced for recoveiy of the prop- erty, but was dropped for want of the requisite means to prosecute it. Chap. I.] THE STEPHENSON FAMILY. 105 For some time after their marriage, Robert resided with his wife at "Walbottle, a village situated between Wylam and New- castle, where he was employed as a laborer at the colliery ; after which the family removed to Wylam, where he found employ- ment as fireman of the old pumping-engine at that colliery. . George Stephenson was the second of a family of six children.* It does not appear that the birth of any of the children was registered in the parish books, the author having made an unsuc- cessful search in the registers of Ovingham and Heddon-on-the- Wall to ascertain the fact. An old Wylam collier, who remembered George Stephenson's father, thus described him : " Geordie's f ayther war like a peer o' deals nailed thegither, an' a bit o' flesh i' th' inside ; he war as queer as Dick's hatband — ^went thiice aboot, an' wudn't tie. His wife Mabel war a delicat' boddiej an' varry flighty. They war an honest family, but sair hadden doon i' th' world." Indeed, the earnings of old Robert did not amount to more than twelve shillings a week ; and, as there were six children to maintain, the' fainily, during their stay at Wylam, were necessarily in very straitened circumstances. The father's wages being barely sufii- cient, even with the most rigid economy, for the sustenance of the household, there was little to spare for clothing, and nothing for education, so that none of the children were sent to school. Old Robert was a general favorite in the village, especially among the children, whom he was accustoiped to draw about him while tending the engine-fire, and feast their young imaginations with tales of Sinbad the Sailor and Robinson Crusoe, besides oth- * The family Bible of Eobert and Mabel Stephenson, which seems to have come into their possession in November, 1790, contains the following record of the births of these Children, evidently written by one hand and at one time : " A Eechester of the children belonging Eobert and Mabel Stepheson — " James Stepheson Was Bom March the 4 day 1779 " George Stepheson "Was Bom June 9 day 1781 " Elender Stepheson Was Born April the 16 day 1784 " Eobert Stepheson Was Born March the 10 day 1788 "John Stepheson Was Bom November the 4 day 1789 " Ann Stepheson Was Bom July the 19 day 1792." Of the two daughters, Eleanor married Stephen Lidddl, afterward employed in the Locomotive Factory in Newcastle. Ann married John Nixon, with whom she emi- grated to the United States ; she died at Pittsburg in 1860. John Stephenson was accidentally killed at the Locomotive Factory in January, 1831. 106 GEORGE STEPHENSON'S EARLY YEARS. [Paht II. ers of his owru invention ; so that " Bob's engine-fire" came to be the most popular resort in the village. Another feature in his character, by which he was long remembered, was his affection for birds and animals ; and he had many tame favorites of both sorts, which were as fond of resorting to his engine-fire as the ' boys and girls themselves. In the winter time he had usually p. flock of tame robins about him ; and they would come hopping familiarly to his feet to pick up the crumbs which he had saved for them out of his humble dinner. At his cottage he was rarely without one or more tame blackbirds, which fiew about the house, or in and out at the door. In summer time he would go bird- nesting with his children; and one day he took his little boy George to see a blackbird's nest for the first time. Holding him up in his arms, he let the wondering boy peep down, through the branches held aside for the purpose, into a nest full of yoimg birds — a sight which the boy never forgot, but used to speak of with delight to his intimate friends when he himself had grown an old man. The boy George led the ordinary life of working people's chil- dren. He played about the doors ; went bird-nesting when he could ; and ran errands to the village. He was also an eager list- ener, with the other children, to his father's curious tales, and he early imbibed from him his affection for birds and animals. In course of time he was promoted to the ofiice of carrying his fa- ther's dinner to him jvhile at work, and at home he helped to nurse his younger brothers and sisters. One of his earHest du- ties was to see that the other children were kept out of the way of the chaldron wagons, which were then dragged by horses along the wooden tram-road immediately in front of the cottage door. This wagon-way was the first in the northern district on which the experiment of a locomotive engine was tried. But, at the time of which we speak, the locomotive had scarcely been dreamt of in England as a practicable working power ; horses only were used to haul the coal ; and one of the first sights with which the boy was familiar was the coal-wagons dragged by them along the wooden railway at Wylam. Thus eight years passed ; after which, the coal having been worked out on the north side, the old engine, which had grown Chap. I.] SISTER NELL'S BONNET. 107 " dismal to look at," as an old workman described- it, was pulled down ; and then old Robert, having obtained employment as a fireman at the Dewley Bum Colliery, removed with his family to that place. Dewley Bum, at this day, consists of a few old-fashioned, low- roofed cottages standing on either side of a babbhng httle stream. They are connected by a rustic wooden bridge, which spans the rift in front of the doors. In the central one-roomed cottage of this group, on the right bank, Robert Stephenson lived for a time with his family, the pit at which he worked standing in the rear of the cottages. Young though he was, George was now of an age to be able to contribute something toward the family maintenance ; for, in a poor man's house, every child is a burden until his httle hands can be turned to profitable account. That the boy was shrewd and active, and possessed of a ready mother-wit, will be evident enough from the following incident. One day his sister !tfell went into E^ewcastle to buy a bonnet, and Geordie went with her "for company." At a draper's shop in the Bigg Market NeU found a " chip" quite to her mind, but on pricing it, alas ! it was found to be fifteen pence beyond her means. Girl-like, she had set her mind upon that bonnet, and no other would please her. She accordingly left the shop very much dejected. But Geordie said, " Never heed, Nell ; come wi' me, and I'll see if I canna win siller enough to buy the bonnet ; stand ye there till I come back." Away ran the boy, and disappeared amid the throng of the mar- ket, leaving the girl to wait his return. Long and long she wait- ed, until it grew dusk, and the market-people had nearly aU left. She had begun to despair, and fears crossed her mind that Geor- die must have been%un over and killed, when at last up he came running, almost breathless. " I've gotten the siller for the bon- net, ISTell !" cried he. " Eh, Geordie !" she said, " but hoo hae ye gotten it ?" " Hauddin the gentlemen's horses !" was the exult- ant reply. The bonnet was forthwith bought, and the two re- turned to Dewley in triumph. George's first regular employment was of a very humble sort. A widow, named Grace Ainslie, then occupied the neighboring farm-house of Dewley. She kept a number of cows, and had the privilege of grazing them along the wagon-ways. She needed a 108 GEORGE STEPHENSON'S EARLY YEARS. [Pakt n. boy to herd the cows, to keep them out of the way of the wagons, and prevent their straying or trespassing on the neighbors' " lib- erties ;" the boy's duty was also to bar the gates at night after all the wagons had passed. George petitioned for this post, and^ to his great joy, he was appointed, at the wage of twopence a day. It was light employment, and he had plenty of spare time on his hands, which be spent in bird-nesting, making whistles out of reeds and scrannel straws, and erecting Liliputian mills in the lit- tle water-streams that ran into the Dewley bog. But his favor- ite amusement at this early age was erecting clay engines in con- junction with his playmate, BiU ThirlwaU. The place is still pointed out where the future engineers made their first essays in modeling. The boys found the clay for their engines in the ad- joining bog, and the hemlocks which grew about supplied them with imaginary steam-pipes. They even proceeded to make a miniature winding-machine in connection with their engine, and the apparatus was erected upon a bench in front of the Thirl- walls' cottage. Their corves were made out of hollowed corks ; their ropes were supplied by twine ; and a few bits of wood gleaned from the refuse of the carpenters' shop completed their materials. With this apparatus the boys made a show of send- ing the corves down the pit and drawing them up again, much to the marvel of the pitmen. But some mischievous person about the place seized the opportunity early one morning of smashing the fragile machinery, greatly to the grief of the young engi- neers. We may mention, in passing, that George's companion afterward became a workman of repute, aM creditably held the oflBce of engineer at Shilbottle, near Alnwick, for a period of nearly thirty years. As Stephenson grew older and abler to %ork, he was set to lead the horses when plowing, though scarce big enough to stride across the furrows ; and he used afterward to say that he rode to his work in the mornings at an hour when most other children of his age were asleep in their beds. He was also employed to hoe turnips, and do similar farm-work, for which he was paid the ad- vanced wage of fourpence a day. But his highest ambition was to be taken on at the colliery where his father worked ; and he shortly joined his elder brother James there as a " corf-bitter," or " picker," to clear the coal of stones, bats, and dross. His wages Chap. I.] APPOINTED GIN-DRIVER. ' 109 were then advanced to sixpence a day, and afterward to eight- pence when he was sent to drive the gin-horse. Shortly after, George went to Black Callerton OolHery to drive the gin there ; and, as that colliery lies about two miles across the fields from Dewley Bum, the boy walked that distance early in the morning to his work, returning home late in the evening. One of the old residents at Black Callerton, who remembered him at that time, described him to the author as " a grit growing lad, with bare legs an' feet;" adding that he was "very quick-witted, and full of fun and tricks : indeed, there was nothing under the sun but he tried to imitate." He was usually foremost also in the sports and pastimes of youth. Among his first strongly developed tastes was the love of birds and animals, which he inherited from his father. Blackbirds were his special favorites. The hedges between Dewley and Black Callerton were capital bird-nesting places, and there was not a nest there that he did not know of. When the young birds were old enough, he would bring them home with him, feed them, and teach them to fly about the cottage unconfined by cages. One of his blackbirds became so tame that, after flying about the doors all day, and in and out of the cottage, it would take up its roost upon the bed-head at night. And, most singu- lar of all, the bird would disappear in the spring and sunimer months, when it was supposed to go into the woods to pair and rear its young, after which it would reappear at the cottage, and resume its social habits during the veinter. This went on for several years. George had also a stock of tame rabbits, for which he built a little house behind the cottage, and for many years he continued to pride himself upon the superiority of his breed. After he had driven the gin for some time at Dewley and Black Callerton, he was taken on as assistant to his father in fir- ing the engine at Dewley. This was a step of promotion which he had anxiously desired, his only fear being lest he should be found too young for the work. Indeed, he afterward used to re- late how he was wont to hide himself when the owner of the col- liery went round, in case he should be thought too little a boy to earn the wages paid him. Since he had modeled his clay en- gines in the bog, his young ambition was to be an engine-man ; no APPOINTED ASSISTANT FIREMAN. [Paet II. and to be an assistant fireman was the first step toward this posi- tion. Great, therefore, was his joy when, at about fourteen years of age, he was appointed assistant fireman, at the wage of a shil- ling a day. But the coal at Dewley Bum being at length worked out, the pit was ordered to be " laid in," and old Robert and his family were again under the necessity of shifting their home ; for, to use the common phrase, they must " follow the wark." , MEWBUEN ON THE TYNE [By E P Leitch.] CHAPTER II. NEWBUEN AND CALLEETON GEOEGE STEPHENSON LEAENS TO BE AN ENGESrE-MAN. On quitting their hiunble home at Dewley Bum, the Stephen- son family removed to a place caUed Jolly's Close, a few miles to the south, close behind the village of Newhurn, where another coal-mine belonging to the Duke of Northumberland, called " the Duke's Winnin," had recently been opened out. One of the old persons in the neighborhood, who knew the family well, describes the dwelling in which they Uved as a poor cottage of only one room, in which the father, mother, four sons, and two daughters lived and slept. It was crowded with three low-poled beds. The one apartment served for parlor, kitchen, sleeping-room, and all. The children of the Stephenson family were now growing apace, and several of them were old enough to be able to earn money at various kinds of colliery work. James and George, 112 APPOINTED FIREMAN. [Pakt II. the two eldest sons, worked as assistant firemen ; and the younger boys worked as wheelers or pickers on the bank-tops ; while the two girls helped their mother with the household work. Other workings of the coal were opened out in the neighbor- hood, and to one of these George was removed as fireman on his own account. This was called the " Mid MiU Winnin," where he had for his mate a young man named Coe. They worked to- gether there for about two years, by twelve-hour shifts, George firing the engine at the wage of a shilling a day. He was now fifteen years old. His ambition was as yet limited to attaining the standing of a full workman, at a man's wages, and with that view he endeavored to attain such a knowledge of his engine as would eventually lead to his emplc^^ent as engine-man, with its accompanying advantage of higher pay. He was a steady, sober, hard-working yoimg man, but nothing more in the estimation of his fellow-workmen. One of his favorite pastimes in by-hours was trying feats of strength with his companions. Although in frame he was not particularly robust, yet he was big and bony, and considered very strong for his age. At throwing the hammer George had no compeer. At lifting heavy weights off the ground from between his feet, by means of a bar of iron passed through them — ^placing the bar against i.is knees as a fulcrum, and then straightening his spine and lifting them sheer up — he was also very successful. On one occasion he lifted as much as sixty stones' weight — a striking indication of his strength of bone and muscle. When the pit at Mid Mill was closed, George and his compan- ion Coe were sent to work another pumping-engine erected near Throckley Bridge, where they continued for some months. It was while working at this place that his wages were raised to 12s. a week — an event to him of great importance. On coming out of the foreman's office that Saturday evening on which he re- ceived the advance, he announced the fact to his fellow-work- men, adding triumphantly, " I am now a made man for life !" The pit opened at Newbum, at which old Eobert Stephenson worked, proving a failure, it was closed, and a _new pit was sunk at Water-row, on a strip of land lying lietween the Wylam wag- on-way and the Eiver Tyne, about half a mile west of Newbum Church. A pumping-engine was erected there by Eobert Haw- Chap. II.] FASCINATION OF THE STEAM-ENGINE. 113 thorn, the duke's engineer, and old Stephenson went to work it as fireman, his son George acting as the engine-man or.plugman. At that time he was about seventeen years old — a very youthful age at which to fiU so responsible a post. He had thus already got ahead of. his father in his station as a workman ; for the plug- man holds a higher grade than the fireman, requiring more prac- tical knowledge and skill, and usually receiving higher wages. George's duties as plugman were to watch the engine, to see that it kept well in work, and that the pumps were efficient in drawing the water. When the water-level in the pit was lower- ed, and the suction became incomplete through the exposure of the suction-holes, it was then his duty to proceed to the bottom of the shaft and plug the tube so that the pump should draw : hence the designation of "plugman." If a stoppage in the en- gine took place through any defect which he was incapable of remedying, it was his duty to call in the aid of the chief engineer to set it to rights. But from the time that George Stephenson was appointed fire- man, and more particularly afterward as engine-man, he applied himself so assiduously and successfully to the study of the engine and its gearing — taking the machine to pieces in his leisure hours for the purpose of cleaning it and understanding its various parts — ^that he soon acquired a thorough practical knowledge of its construction and mode of working, and very rarely needed to call the engineer of the colliery to his aid. His engine became a sort of pet with him, and he was never wearied of watching and in- specting it with admiration. There is, indeed, a peculiar fascination about an engine to the person whose duty it is to watch and work it. It is almost sub- lime in its untiring, industry and quiet power ; capable of per- forming; the most gigantic work, yet so docile that a child's hand may guide it. No wonder, therefore, that the workman who is the daily companion of this life-like machine, and is constantly watching it with anxious care, at length comes to regard it with a degree of personal interest and regard. This daily contempla- tion of the steam-engine, and the sight of its steady action, is an education of itself to an ingenious and thoughtful man. And it is a remarkable fact, that nearly aU that has been done for the improvement of this machine has been accomplished, not by phi- H 114 STSPSBNSON'S EARLY EXPERIMENTS. [Pabt II. losophers and scientific men, but by laborers, mechanics, and en- gine-men. Indeed, it would appear as if this were one of the de- partments of practical science in, which the higher powers of the human mind must bend to mechanical instinct. Stephenson was now in his eighteenth year, but, like many of his f eUow-workmen, he had not yet learned to read. All that he could do was to get some one to read for him by his engine-fire, out of any book or stray newspaper which found its way into the neighborhood. Bonaparte was then overrunning Italy, and as- tounding Europe by his brilliant succession of victories ; and there was no more eager auditor of his exploits, as read from the news- paper accounts, than the young engine-man at the Water-row Pit. There were also numerous stray bits of information and intel- ligenee contained iu these papers which excited Stephenson's in- terest. One of them related to the Egyptian method of hatching birds' eggs by means of artificial heat. Curious about every thing relating to birds, he determined to test it by experiment. It was spring time, and he forthwith went bird-nesting in the adjoining woods and hedges. He gathered a collection of eggs of various sorts, set them in flour in a warm place in the engine-house, cov- ered the whole with wool, and waited the issue. The heat was kept as steady, as possible, and the eggs were carefuUy turned ev- ery twelve hours ; but, though they chipped, and some of them exhibited well-grown chicks, they never hatched. The experi- ment failed, but the incident shows that the inquiring mind of the youth was fairly at work. Modeling of engines in clay continued to be another of his fa- vorite occupations. He made models of engines which he had seen, and of others which were described to him. These attempts were an improyement upon his first trials at. Dewley Bum bog, when occupied there as a herd-boy. He was, however, anxious to know something of the wonderful engines of Boulton and Watt, and was told that they were to be found fully described in books, which he must search for information as to their construction, ac- tion, and uses. But, alas ! Stephenson could not read ; he had not yet learned even his letters. Thus he shortly foimd, when gazing wistfully in tibe direction' of knowledge, that to advance farther as a skilled workmanj he must master this wonderful art of reading — ^the key to so many Chap. II.] STEPHENSON GOES TO SCHOOL. 115 1 other arts. Only thus could he gain an access to booksy the de- positories of the wisdom and experience of the past. Although a grown man, and doing the work of a man, he was not ashamed to confess his ignorance, and go to school, big as he was, to learn liis letters. Perhaps, too, he f oresaw'that, in laying out a little of his spare earnings for this purpose, he was investing money judi- ciously, and that, in every hour he spent at school,'he was really working for better wages. His first schoolmaster was Robin Cowens, a poor teacher in the village of Walbottle. He kept a night-school, which was attend- ed by a few of the colliers' and laborers' sons in the neighbor- hood. George took lessons in gpeUing and reading three nights in the week. Eobin Cowen's teaching cost threepence a week ; and though it was not very good, yet George, being hungry for knowledge and eager to acquire it, soon learned to read. He also practiced " pot-hooks," and at the age of nineteen he was proud to be able to write his own name." A Scotch dominie, named Andrew Robertson, set up a night- school in the village of Newbum in the winter of 1799. It was more convenient for George to attend this school, as it was near- er his work, being only a few minutes' walk from Jolly's Close. Besides, Andrew had the reputation of being a good arithmeti- cian, and this was a branch of knowledge that Stephenson was very desirous of acquiring. He accordingly began taking lessons from him, paying fourpence a week. Robert Gray, junior fire- man at the "Water-row Pit, began arithmetic at the same time ; and Gray afterward told the author that George learned. "figur- ing" so much faster than he did, that he could not make out how it was — " he took to figures so wonderful." Although the two started together from the same point, at the end of the winter George had mastered "reduction," while Robert Gray was stiU struggling with the difiiculties of simple division. But George's secret was his perseverance. He worked out the sums in his by- hours, improving every minute of his spare time by the engine- fire, there studying the arithmetical problems set for him upon his slate by the master. In the evenings he took to Robertson the sums which he had " worked," and new ones were " set" for him to study out the following day. Thus his progress was rap- id,, and, with a willing heart and mind, he soon became well ad- 116 LEARNS ENGINE-BRAKEING. [Paht II. — • ■■ vanced in arithmetic. Indeed, Andrew Robertson became very proud of his scholar ; and shortly after, when the Water-row Pit was closed, and George removed to Black CaUerton to work there, the poor schoolmaster, not having a very extensive connection in Newbum, went with his pupils, and set np his night-school at Black CaUerton, where he continued his lessons. George still found time to attend to his favorite animals while working at the "Water-row Pit. Like his father, he used to tempt the robin-redbreasts to hop and fly about him at the engine-fire by the bait of bread-crumbs saved from his dinner. But his chief favorite was his dog — so sagacious that he almost daily carried George's dinner to him at the pit. The tin containing the meal was suspended from the dog's neck, and, thus laden, he proceed- ed faithfully from Jolly's Close to "Water-row Pit, quite through the village of JSTewbum. He turned neither to left nor right, nor heeded the barking of curs at his heels. But his course was not unattended wifli perils. One day the big, strange dog of a pass- ing butcher, espying the engine-man's messenger with the tin can about his neck, ran after and fell upon him. There was a terri- ble tussle and worrying, which lasted for a brief while, and, short- ly after, the dog's master, anxious for his dinner, saw his faithful servant approaching, bleeding but triumphant. The tin can was still round his neck, but .the dinner had been spilled in the strug- gle. Though George went without his dinner that day, he was prouder of his dog than ever when the circumstances of the com- bat were related to him by the villagers who had seen it. It was while working at the "Water-row Pit that Stephenson learned the art of brakeing an engine. This being one of the higher departments of colliery labor, and among the best paid, George was very anxious to learn it. A small winding-engine having been put up for the purpose of drawing the coals from the pit. Bill Coe, his friend and fellow-workman, was appointed the brakesman. He frequently allowed George to try his hand at the machine, and instructed him how to proceed. Coe was, however, opposed in this by several of the other workmen, one of whom, a banksman named "William Locke,* went so far as to stop the working of the pit because Stephenson had been called * Father of Mr. Locke, M.P., the engmeer. lie afterward removed to Bamsley, in Yorkshire. Chap. II.] APPOINTED BRAKESMAN— HIS DUTIES. 117 in to the brake. But one day, as Mr. Charles Nixon, the mana- ger of the pit, was observed approaching, Coe adopted an expedi- ent which put a stop to the opposition. He called upon Stephen- son to " come into the brake-house and take hold of the machine." Locke, as usual, sat down, and the working of the pit was stopped. When requested by the manager to give an explanationj,5.e said that "young Stephenson couldn't brake, and, what was more, nev- er would learn, he was so clumsy." Mr. Nixon, however, ordered Locke to go on with the work, which he did ; and Stephenson, after some farther practice, acquired the art of brakeing. After working at the "Water-row Pit and at other engines near Newbum for about three years, George and Coe went to Black Callerton early in 1810. Though only twenty years of age, his employers thought so well of him that they appointed him to the responsible oiEce of brakesman at the Dolly Pit. For conven- ience' sake, he took lodgings at a small farmer's in the village, finding his ovm victuals, and paying so much a week for lodging and attendance. Li the locality this was called " picklin in his awn poke neuk." It not unfrequently happens that the young workman about the collieries, when selecting a lodging, contrives to pitch his tent where the daughter of the house ultimately be- comes his wife. This is often the real attraction that draws the youth from home, though a very different one may be pre- tended. George Stephenson's duties as brakesman may be briefly de- scribed. The work was somewhat monotonous, and consisted in superintending the working of the engine and machinery by means of which _the coals were drawn out of the pit. Brakes- men are almost invariably selected from those who have had con- siderable experience as engine-firemen, and borne a good charac- ter for steadiness, punctua,lity, watchfulness, and " mother wit.'* Li George Stephenson's day the coals were drawn out of the pit in corves, or large baskets made of hazel rods. The corves were placed together in a cage, between which and the pit-ropes there was usually from fifteen to twenty feet of chain. The ap- proach of the corves toward the pit mouth was signaled by a bell, brought into action by a piece of mechanism worked from the shaft of the engine. When the beU sounded, the brakesman chpcked the speed by taking hold of the hand-gear connected 118 NIGHT occupations: [Paet II. with the steam-valves, which were so arranged that by their means he could regulate the speed of the engine, and stpp or set it in motion when required. Connected with the fly-wheel was a powerful wooden brake, acting by pressure against, its rim, something like the brake of a railway carriage against its wheels. On cat^bing sight of the chain attached to the ascending corve- cage, the brakesman, by pressing his foot upon a foot-step near him, was enabled, with great precision, to stop the revolutions of the wheel, and aiTest the ascent of the corves at the pit mouth, when they were forthwith landed on the " settle-board." On the full corves being replaced by empty ones, it was then the duty of the brakesman to reverse the engine, and send the corves down the pit to be filled again. The monotony of George Stephenson's occupation as a brakes- man was somewhat varied by the change which he made, in his turn, from the day to the night shift. His duty, on the latter oc- casions, consisted chiefly in sending men and materials into the mine, and in drawing other men and materials out. Most of the workmen enter the pit during the night shift, and leave it in the latter part of the day, while coal-drawing is proceeding. The re- quirements of the work at night are such that the brakesman has a good deal of spare time on his hands, which he is at liberty to employ in his own way. From an early period, George was ac- customed to employ those vacant night hours in working the sums set for him by Andrew Eobertson upon his slate, practicing writ- ing in his copy-book, and mending the shoes of his fellow-work- men. His wages while working at the Dolly Pit amounted to from £1 15s. to £2 in the fortnight ; but he gradually added to them as he became more expert at shoe-mending, and afterward at shoe-making. Probably he was stimulated to take in hand this extra work by the attachment he had by tliis time formed for a yoxmg woman named Fanny Henderson, who officiated as servant in tiie small farmer's house in which he lodged. We have been informed that the personal attractions of Fanny, though these were considera- ble^ were the least of her charms. Mr. William Fairbaim, who afterward saw her in her home at Willington Quay, describes her as a very comely woman. , But her temper was one of the sweet- est ; and those who knew her were accustomed to speak of the Chap. II.] NED NELSON. 119 charming modesty of her demeanor, her kindness of disposition, and, withal, her sound good sense. Among his various mendings of old shoes at OaUerton, George was on one occasion favored with the shoes of his sweetheart to sole. One can imagine the pleasure with which he would linger over such a piece of work, and the pride with which he* would execute it. A friend of his, still living, relates that, after he had finished the shoes, he carried them about Avith him in his pocket on the Sunday afternoon, and that from time to time he would pull them out and hold them up, exclaiming " what a capital job he had made of them !" Not long after he began to work at Black Callerton as brakes- man he had a quarrel with a pitman named Ned Nelson, a roys- tering bully, who was the terror of the village. Nelson was a great fighter, and it was therefore considered dangerous to quar- rel with him. Stephenson was so' unfortunate as not to be able to please this pitman by the way in which he drew him out of the pit, and Nelson swore at him grossly because of the alleged clumsiness of his brakeing. George defended himself, and ap- pealed to the testi^mony of the other workmen. Nelson had not been accustomed to George's style of self-assertion, and, after a great deal of abuse, he threatened to kick the brakesman, who defied him to do so. Nelson ended by challenging Stephenson to a pitched battle, and the latter accepted the challenge, when a day was fixed on which the fight was to come off. Great was the excitement at Black Callerton when it was known that George Stephenson had accepted Nelson's challenge. Every body said he would be killed. The villagers, the young men, and especially the boys of the place, with whom George was a great favorite, all wished that he might beat Nelson, but they scarcely dared t,o say so. They came about him while he was at work in the engine-house to inquire if it was really true that he was " goin' to fight Nelson." " Ay ; never fear for me ; I'll fight him." And fight him he did. For some days previous to the appointed day of battle, Nelson went entirely off work for the purpose of keeping himself fresh and strong, whereas Stephenson went on doing his daily work as usual, and appeared not in the least disconcerted by the prospect of the affair. So, on the even- ing appointed, after George had done his day's labor, he went 120 FIGET WITH THE PITMAN. [Past II. into the Dolly Pit Field, where his already exulting rival was ready to meet him. George stripped, and "went in" like a prac- ticed pugilistj thougi it was his first and last fight. After a few rounds, Ge'orge's wiry muscles and practiced strength enabled him severely to punish his adversary and to secm-e an easy victory. This'circumstance is related in illustration of Stephenson's per- sonal pluck and courage, and it was thoroughly characteristic of the man. He was no pugilist, and the reverse of quarrelsome. But he would not be put down by the bully of the coUiery, and he fought him. There his pugilism ended ; they afterward shook hands, and continued good friends. In after lifa Stephenson's mettle was often as hardly tried, though in a different way, and he did not fail to exhibit the same courage in contending with the bullies of the railway world as he showed in his encounter with Ifed Nelson, the fighting, pitman of Oallertbn. 6TEP^EN80^''S COTTAGE AT -WILLINGTON QUAY. [By R. P. Leitcll.] CHAPTEE III. ENGmE-MAN AT WILLINGTON QUAY AND KILLINGWOETH. Geoege Stephenson had now acquired tlie character of an ex- pert workman. He was diligent and observant wliile at work, and sober and studious when the day's work was done. His friend Coe described him to tlie author as " a standing example of manly character." On pay-Saturdaj^ afternoons, when the pit- men held. their fortnightly holiday, occupying themselves chiefly in cock-iighting and dog-fighting in the adjoining fields, followed by adjournments to the " yel-house," George was accustomed to take his engine to pieces, for the purpose of obtaining " insight," and he cleaned all the parts and put the machine in thorough working order before leaving her. His amusements continued to be principally of the athletic kind, and he found few that could beat him at lifting heavy weights, leaping, and throwing the hammer. In the evenings he improved himself in the arts of reading and writing, and occasionally lie took a turn at modehng. It was at Callerton, his son Robert informed us, that he began to trv his 122 ENGINE-MAN AT WILLINGTON QUAY. [Pakt II. hand at original invention, and for some time he applied his at- tention to a machine of the nature of an engine-brake, which re- versed itsplf by its own action. But nothing came of the. con- trivance, and it was eventually thrown aside as useless. Yet not altogether so ; for even the highest skill must undergo the inevi- table discipline of experiment, and submit to the wholesome cor- rection of occasional failure. After working at Callerton for about two years, Stephenson re- ceived an offer to take charge of the engine on WiUington Bal- last Hill at an advanced wage. He determined to accept it, and at the same time to marry Fanny Henderson, and begin house- keeping on his own account. Though he was only twenty-one years oldj he had contrived, by thrift, steadiness, and industry, to save as much money as enabled him, with the help of Fanny's small hoard, to take a cottage dwelling at WiUington Quay, and furnish it in a humble but comfortable style for the reception of his bride. , ' WiUington Quay Hes on the north bank of the Tyne, about six miles below Newcastle. It consists of a line of houses straggling along the river side, and high behind it towers up the huge mound of baUast emptied out of the ships which resort to the quay for their cargoes of coal for the London market. The baUast is thrown out of the ships' holds into wagons laid alongside. When filled, a train of these is dragged to the summit of the Ballast Hill, where they are run out, and their contents emptied on to the monstrous accumulation of earth, chalk, and Thames mud al- ready laid there, probably to form a puzzle for future antiquaries and geologists when the origin of these immense hills, along the Tyne has been forgotten. At the foot of this great mound of shot rubbish was a fixed engine, which drew the trains of laden wagons up the iticUne by means "of ropes working over pulleys, and of this engine George Stephenson acted as brakes- man. The cottage in which he took up his abode was a small two- storied dwelling, standing a little back from the quay, with a bit of garden ground in front;* but he only occupied the upper * The Stephenson Memorial Schools hare since been erected on the site of the old cottage at WiUington Quay represented in the engraving at the head of this chapter. A vignette of the Memorial Schools \^^ll be found at the end of the volume. Chap, in.] STEPHENSON'S MARRIAGE. 123 room in the west end of tlie cottage. Close behind rose the Bal- last HiU. When the cottage dweUrng had been made snug and was ready for his wife's reception, the marriage took place- It was cele- brated in Newbum Church on the 28th of November, 1802. George Stephenson's signature, as it stands in the register, is that of a person who seems to have just learned to write. With all the writer's care, however, he had not been able to avoid a blotch. The name of Frances Henderson has the appearance of being written by the same hand. 'Lyr'c^7g€i^^ •=''^^-7»4c:^ After the ceremony, George and his newly -wedded partner proceeded to the house of old Bobert Stephenson and his wife Mabel at JoUy Close. The old man was now becoming infirm, though he still worked as an engine-fireman, and contrived with difficulty " to keep his head above water." When the visit had been paid, the bridal party prepared to set out for their new home at Willington Quay. They went in a style which was quite common before traveling by railway had been invented. Two farm-horses, borrowed from a neighboring farmer, were each pro- vided with a saddle and a pillion, and George having mounted one, his wife seated herself behind him, holding on by her arms round his waist. The brideman and bridemaid in like manner mounted the other horse, and in this wise the wedding party rode across the country, passing through the old streets of Newcastle, and then by Walkend to Willington Quay — a long ride of about fifteen miles. "" ~~ George Stephenson's daily life at Willington was that of a steady workman. By the manner, however, in which he contin- ued to improve his spare hours in the evening, he was silently and surely paving the way for being something more than a man- ual laborer. He diligently set himself to study the principles of 124 PEBFETUAL MOTION.— BALLAST-HEAVING. [PartH. mechanics, and to master the laws by which his engine worked. For a workman, he was even at that time more than ordinarily speculative, often taking up strange theories, and trying to sift out the truth that was in them. While sittiag by the side of his yoimg wife in his cottage dwelling in the winter-evenings, he was usually occupied in studying mechanical subjects or in modeling experimental machines. Among his various speculations while at "Willington, he tried to discover a means^ of Perpetual Motion. Although he failed, as so many others had done before him, the very efforts he made tended to whet his inventive -faculties and to call forth his dor- mant powers. He actually went so far as to construct the model of a machine for the purpose. It consisted of a wooden wheel, the periphery of which was furnished with glass tubes filled with quicksilver ; as the wheel rotated, the quicksilver poured itself down into the lower tubes, and thus a sort of self-acting motion was kept up in the apparatus, which, however, did not prove to be perpetual. Where he had first obtained the idea of this machine — whether from conversation, or reading, or his own thoughts, is not known ; but his son Eobert was of opinion that he had heard of an apparatus of this kind as described in the " History of In- ventions." As he had then no access to books, and, indeed, could scarcely yet read, it is probable that he had been told of the inven- tion, and set about testing its value according to his own methods. Much of his spare time continued to be occupied by labor more immediately profitable, regarded in a pecuniary point of view. In the evenings, after his day's labor at his engine, he would oc- casionally employ himself for a few hours in casting ballast out of the collier ships, by which means he was enabled to earn a few shillings weekly. Mr. William Fairbairn, of Manchester, has in- formed the author that, while Stephenson was employed at the Willington Ballast Hill, he himself was working in the neighbor- hood as an engine apprentice at the Percy Main Colliery. He was very fond of George, who was a fine, hearty fellow, besides being a capital workman. In the summer evenings young Fair- bairn was accustomed to go down to Willington to see his friend, and on such occasions he would frequently take charge of George's engine" for a few hours, to enable him to take a two or three hours' turn at heaving ballast out of the ships' holds. It is Chap, in.] AN ACCIDENT.— CLOCK-CLEANING. 125 pleasant to think of the future President of the British Associa- tion thus helping the future Eailway Engineer to earn a few ex- tra shillings by overwork in the evenings, at a time when both occupied the rank but of humble working men in an obscure northern village. Mr. Fairbairn was also a frequent visitor at George's cottage on the Quay, where, though there was no luxury, there was com- fort, cleanness, and a pervading spirit of industry. Even at home George was never for a moment idle. When there was no bal- last to heave, he took in shoes to mend ; and from mending he proceeded to making them, as well as shoe-lasts, in which he was admitted to be very expert. William Coe, who continued to live at Willington in 1851, informed the author that he bought a pair of shoes from George Stephenson for 7s. Qd., and he reraembered that they were a capital fit, and wore very well. But an accident ojccurred in Stephenson's hoiisehold about this time which had the effect of directing his industry into a new and still more profitable channel. The cottage chimney took fire one day in his absence, when the alarmed neighbors, rushing in, threw quantities of water upon the fiames ; and some, in their zeal, even mounted the ridge of the house, and poured buckets of water down the chimney. The fire was soon put out, but the house was thoroughly soaked. When George came home, he found the water running out of the door, every thing in disorder, and his new furniture covered with soot. The eight-day clock, which hung against the wall — one of the most highly-prized ar- ticles in the house — was seriously damaged by the steam with which the room had been filled., Its wheels were so clogged by the dust and soot that it was brought to a complete stand-still. George was advised to send the article to the clock-maker, but that would cost money ; and he declared that he would repair it himself— at least he would try. The clock was accordingly taken to pieces and cleaned; the tools which he had been accumula- ting for the purpose of constructing his Perpetual Motion machine readily enabled him to do this, and he succeeded so well that, shortly after, the neighbors sent him their clocks to clean, and he soon became one of the most expert clock-cleaners in the neigh- borhood. It was while Hving at Willington Quay that George Stephen- 126 ^ "CREEP." [Paet II. son's only son was bom on the 16th of October, 1803.* The child was from the first, as may well be imagined, a great favor- ite with his father, and added much to the happiness of his even- ing hours. George Stephenson's strong " philoprogenitiveness," as phrenologists call it, had in his boyhood expended itself on birds, and dogs, and rabbits, and even on the poor old gin-horses which he had driven at the Callerton Pit, and now he found in his child a more genial object for the exercise of his affection. The christening of the boy took place in the school-house at Wallsend, the old parish church being at the time in so dilapida- ted a condition from the " creeping" or subsidence of the ground, consequent upon the excavation of the coal, that it was consider- ed dangerous to enter it.f On this occasion, Kobert Gray and Anne Henderson, who had oflBciated as brideman and bridemaid at the wedding, came over again to Willington, and stood godfa- ther and godmother to little Robert, as the child was named, aft- er his grandfather. After working for about three years as a brakesman at the Willington machine, George Stephenson was induced to leave his situation there for a similar one at the West Moor Colliery, Ell- ingworth. It was not vrithout consideraBle~persuasi6n that he was induced to leave the Quay, as he knew that he should there- by give up the chance of earning extra money by casting ballast from the keels. At last, however, he consented, in the hope of making up the loss in some other way. The village of KilHngworth lies about seven miles north of Newcastle, and is one of th§ best-known collieries in that neigh- * Ko register was made of Robert Stephenson's birth, and he himself was in doubt whether he was bgrn in October, November, or December. For instance, a dinner was given to him by the contractors of the London and Birmingham Railway on the 16th of November, 1839, that day being then supposed by his father to have been his birthday. When preparing the " Life of George Stephenson," Robert stated to the author that the 16th of December was the correct day. But, after the book had passed through four editions, he desired the date to be corrected to the 16th of Octo- ber, which, on the whole, he thought the right date, and it was so altered accordingly. t The congregation in a chm-ch near Newcastle were one Sunday morning plenti- fully powdered with chips from the white ceiling of the church, which had been crept under, being above an old mine. "It is only the pit a-creeping," said the parish clerk, by way of encouragement to the people to remain. But it would not do ; for there was a sudden creep out of the congregation. The clerk went at last, with a pow- dered head, crjfing out, " It's only a creep." — " Our Coal-Fields and our Coal-Pits." Chap. III.] DEATH OF HIS WIFE. 127 WEST MOOE COLLIEEY. [Uy ii. P. Leitch.] borliood. The worldngs of the coal are of vast extent, and give employment to a large number of work-people. To this place Stephenson first came as a brakesman about the end of ISOl. He had not been long in his new home ere his wife died of consump- tion, leaving him with his only child Eobert. George deeply felt the loss, for his wife and he had been very happy together. Their lot had been sweetened by daily successful toil. George had been hard-working, and his wife had made his hearth so bright and his home so snug, that no attraction could draw him from her side in the evening hours. But this domestic happiness was all to pass away, and the bereaved husband felt for a time as one that had thenceforth to tread the journey of life alone. Shortly after this event, while his grief was still fresh, he re- ceived an invitation from some gentlemen concerned in large spinning-works near Montrose, in Scotland, to proceed thither and superintend the working of one of Boulton and Watt's en- gines. He accepted the offer, and made arrangements to leave Killingworth for a time. Having left his boy in charge of a respectable woman who acted as his housekeeper, he set out on the journey to Scotland 128 RETURN TO KILLINGWORTH. ' [Paet II. on foot, with Jiis kit upon his back. While working at Montrose, he gave a striking proof of that practical ability in contrivance for which he was afterward so distinguished. It appears that the water required for the purposes of his engine, as well as for the use of the works, was pumped from a considerable depth, be- ing supplied from the adjacent extensive sand strata. The pumps frequently got choked by the sand drawn in at the bot- tom of the well through the snore-holes, or apertures through which the water to be raised is admitted. The barrels soon be- came worn, and the bucket and clack leathers destroyed, so that it became necessary to devise a remedy ; and with this object, the engine-man proceeded to adopt the following simple but original expedient. He had a wooden box or boot made, twelve feet high, which he placed in the sump or well, and into this he inserted the lower end of the pump. The result was, that the water flowed clear from the outer part of the well over into the boot, and was drawn up without any admixture of sand, and the difliculty was thus 'conquered.* During Ms stay in Scotland, Stephenson, being paid good wages, contrived to save a sum of £28, which he took back with him to Killingworth, after an absence of about a year. Longing to get back to his kindred, and his heart yearning for the boy whom he had left behind, our engine-man bade adieu to his Mon- trose employers, and trudged back to Killingworth on foot as he had gone. He related to his friend Coe, on his return, that when on the borders of Northumberland, late one evening, footsore and wearied with his long day's journey, he knocked at a small farmer's cottage door, and requested shelter for the night. It was refused ; and then he entreated that, being sore tired and unable to proceed any farther, they would permit him to lie * This incident was rdated by Eobert Stephenson during a voyage to the north of Scotland in 1857, when off Montrose, on board his yacht Titania; and the reminis- cence was immediately commtmicated to the author by the late Mr. William Kell, of Gateshead, who was present, at Mr. Stephenson's request, as being worthy of inser- tion in his father's biography. Mr. George Elliott, one of the most skilled coal-view- ers in the North, was of the party, and expressed his admiration at the ready skill with which the difficulty had been overcome, the expedient of the boot being then un- known in the Northumberland and Durham mines. He acknowledged it to be "a wrinkle, " adding that its application would, in several instances within his own knowl- edge, have been of great practical value. Chap. III.] AN INCIDENT AND AN A CCIDENT. 129 down in the out-liouse, for that a little clean straw would serve him. The farmer's wife appeared at the door, looked at the traveler, then retiring with her husband, the two confabulated a little apart, and finally they invited Stephenson into the cottage. Always full of conversation and anecdote, he soon made himself at home in the farmer's family, and spent with them some pleas- ant hours. He was hospitably entertained for the night, and when he left the cottage in the morning, he pressed them to make some charge for his lodging, but they refused to accept any recompense. They only asked him to remember them kind- ly, and if he ever came that way, to be sure and call again. Many years after, when Stephenson had become a thriving man, he did not forget the humble pair who had thus succored and entertained him on his way ; he sought their cottage again when age had silvered their hair ; and when he left the aged couple on that occasion, they may have been reminded of the old saying that we may sometimes " entertain angels unawares." Keaching home, Stephenson found that his father had met vrith a serious accident at the Blucher Pit, which had reduced him to great distress and poverty. While engaged in the inside of an engine, making some repairs, a fellow-workman inadvert- ently let in the steam upon him. The blast struck him full in the face ; he was terribly scorched, and his eyesight was irretriev- ably lost. The helpless and infirm man.had struggled for a time with poverty ; his sons who were at home, poor as himself, were little able to help him, while George was at a distance in Scot- land. On his return, however, with his savings in his pocket, his first step was to pay off his father's debts, amounting to about £15 ; and, shortly after, he removed the aged pair from Jolly's Close to a comfortable cottage adjoining the tram-road near the West Moor at Killingworth, where the old man lived for many years, supported by his son. Stephenson was again taken on as a brakesman at the West Moor Pit. He does not seem to have been very hopeful as to his prospects in life at the time. Indeed, the condition of the working classes was then very discouraging. England was en- gaged in a great war, which pressed upon the industry, and se-: verely tried the resources of the country. Heavy taxes were im- posed upon all the articles of consumption that would bear them. I 130 MEDITATES EMIGRATION. [PabtII. There was a constant demand for men to fill the army, navy, and militia. Never before had England witnessed such drumming and fifing for recruits. In 1805, the gross forces of the United Kingdom amounted to nearly 700,000 men, and early in 1808 Lord Castlereagh carried a measure for the establishment of a local militia of 200,000 men. These measures were accompanied by general distress among the laboring cliasses. There were riots in Manchester, Newcastle, and elsewhere, through scarcity of work and lowness of wages. The working people were also Ha- ble to be pressed for the navy, or drawn for the militia; and though people could not fail to be discontented under such cir- cumstances, they scarcely dared even to mutter their discontent to their neighbors. George Stephenson was one of those drawn for the militia. He must therefore either quit his work and go a-soldiering, or fijid a substitute. He adopted the latter course, and borrowed £6, which, with the remainder of his savings, enabled him to provide a militia-man to serve in his stead. Thus the whole of his hard-won earnings were swept away at a stroke. He was al- most in despair, and contemplated the idea of leaving the coun- try, and emigrating to the TJnited States. Although a voyage thither was then a much more formidable thing for a working man to accomplish than a voyage to AustraHa is now, he serious- ly entertained the project, and had all but made up his mind to go. His sister Aon, with her husband, emigrated about that time, but George could not raise the requisite money, and they departed without him. After all, it went sore against his heart to leave his home and his kindred, the scenes of his youth and the friends of his boyhood, and he struggled long with the idea, brooding over it in sorrow. Speaking afterward' to a friend of his thoughts at the time, he said : " Tou know the road from my house at the West Moor to Killingworth. I remember once when I went along that road I wept bitterly, for I knew not where my lot in life would be cast." But his poverty prevented him from prosecuting the idea of emigration, and rooted him to the place where he afterward worked out his career so manfully and victoriously. In 1808, Stephenson, with two other brakesmen, took a small contract under the colliery lessees, brakeing the engines at the Chap. III.] ECONOMIZES COLLIERY WORKING. 131 "West Moor Pit. The brakesmen found the oil and tallow ; they divided the work among them, and were paid so much per score for their labor. There being two engines working night and day, two of the three men were always on duty, the average earnings of each amounting to from 18s. to 20s. a week. It was the inter- est of the brakesmen to economize the working as much as possi- ble, and George no sooner entered upon the contract than he pro- ceeded to devise ways and means of making the contract " pay." He observed that the ropes with which the coal was drawn out of the pit by the winding -engine were badly arranged; they " glued" and wore each other to tatters by the perpetual friction. There was thus great wear and tear, and a serious increase in the expenses of the pit. George found that the ropes which, at other pits in the neighborhood, lasted aboiit three months, at the West Moor Pit became worn out in about a month. He accordingly set hirnself to ascertain the cause of the defect ; and, finding that it was occasioned by excessive friction, he proceeded, with the sanction of the head engine-wright and of the coUiery owners, to shift the pulley-wheels so that they worked immediately over the centre of the pit. By this expedient, accompanied by an entire rearrangement of the gearing of the machine, he shortly succeed- ed in greatly lessening the wear and tear of the ropes, to the ad- vantage of the owners as well as of the workmen, who were thus enabled to labor more continuously and profitably. About the same time he attempted an improvement in the winding-engine which he worked, by placing a valve between the air-pump and condenser. This expedient, although it led to no practical result, showed that his mind was actively engaged in studying new mechanical adaptations. It continued to be his regular habit, on Saturdays, to take his engine to pieces, for the purpose at the same time of familiarizing himself with its action, and of placing it in a state of thorough working order ; and by mastering the details of the engine, he was enabled, as opportuni- ty occurred, to turn to practical account the knowledge thus dili- gently and patiently acquired. Such an opportunity was not long in presenting iteelf . In the year 1810, a pit was sunk by the " Grand Allies" (the lessees of the mines) at the village of Kilhngworth, now knpwn as the KiUingworth High Pit. An atmospheric or Newcomen engine, 132 THE HIGH PIT ENGINE. . CPartH. originally made by Smeaton, was fixed there for the purpose of pumping out the water from the shaft ; but, somehow or other, the engine failed to clear the pit. As one of the workmen has since described the circumstance — " She couldn't keep her jack- head in water : all the engine-men in the neighborhood were tried, as well as Crowther of the Ousebum, but they were clean bet." The engine had been fruitlessly pumping for nearly twelve months, and came to be regarded as a total failure. Stephenson had gone to look at it when in course of erection, and then ob- served to the over-man that he thought it was defective ; he also gave it as his opinion that if there were much water in the mine, the engine could never keep it under. Of course, as he was only a brakesman, his opinion was considered to be worth very little on such a point. He continued, however, to make frequent visits to the engine to see " how she was getting on." From the bank- head where he worked his brake he could see the chimney smok- ing at the High Pit ; and as the workmen were passing to and from their work, he would call out and inquire "if they had got- ten to the bottom yet." And the reply was always to the same effect^-the pumping made no progress, and the workmen were still " drowned out." One Saturday afternoon he went over to the BQgh Pit to ex- amine the engine more carefully than he had yet done. He had been turning the subject over in his mind, and, after a long exam- ination, he seemed to have satisfied himself as to the cause of the failure. Kit Heppel, one of the sinkers, asked him, " "Weel, George^ what do you male' o' her ? Do you think you could do any thing to improve her?" "Man," said George, in reply, "I could alter her and make her draw : in a week's time from this I could send you to the bottom." Heppel at once reported this conversation to Ealp h Dodds , the head viewer, who, being now quite in despair, and hopeless of succeeding with the engine, determined to give George's skill a * trial. George had already acquired the character of a very clev- er and ingenious workman, and, at the worst, he could only fail, as the rest had done. In. the evening Dodds went in search of Stephenson, and met him on the road, dressed in his Sunday's suit, on his. way to "the preaching" in the Methodist Chapel, which he at that time attended. " Well, George," said Dodds, Chap. IH.] THE PUMPING-ENGINE CURED. 133 " they tell me that you think you can put the engine at the High Pit to rights." " Yes, sir," said George, " I think I could." "If that's the case, I'll give you a fair trial, and you must set to work immediately. "We are clean drowned out, and can not get a step farther. The engineers hereabouts are all bet ; and if .you really succeed in accomplishing what they can not do, you may depend upon it I will make you a man for hfe." Stephenson began his operations early next morning. The only condition that he made, before setting to work, was that he should select his own workmen. There was, as he knew, a good deal of jealousy among the " regular" men that a colliery brakes- man should pretend to know more about their engine than they themselves did, and attempt to remedy defects which the most skilled men of their craft, including the engineer of the colliery, had failed to do. But G-eorge made the condition a sine qud non. " The workmen," said he, " must either be all Whigs or all To- ries." There was no help for it, so Dodds ordered the old hands to stand aside. The men grumbled, but gave way ; and then George and his party went in. The engine was taken entirely to pieces. The cistern contain- ing the injection water was raised ten feet; the injection cock, being too small, was enlarged to nearly double its former size, and it was so arranged that it should be shut off quickly at the beginning of the stroke. These and other alterations were nec- essarily performed in a rough way, but, as the result proved, on true principles. Stephenson also, finding that the boiler would bear a greater pressure than five pounds to the inch, determined to work it at a pressure of ten pounds, though this was contrary to the directions of both Newcomen and Smeaton. The necessary alterations were made in about three days, and many persons came to see the engine start, including the men who had put her up. The pit being nearly full of water, she had little to do on starting, and, to use George's words, " came bounce into the house." Dodds exclaimed, " Why, she was better as she was ; now, she will knock the house down." After a short time, however, the engine got fairly to work, and by ten o'clock that night the water was lower in the pit than it had ever been before. The engine was kept pumping all Thursday, and by the Friday afternoon the pit was cleared of water,, and the workmen were 134: SKILL A3 A PUMP-DOCTOR.- [Part II. " sent to the bottom," as Stephenson had promised. Thus the al- terations effected in the pumping apparatus proved completely successful.* Mr. Dodds was particidarly gratified with the manner in which the job had been done, and he made Stephenson a present of ten poimds, which, though very inadequate when compared with the value of the work performed, was accepted with gratitude. George was proud of the gift as the first marked recognition of his skill as a workman ; and he used afterward to say that it was the big- gest STim of money he had up to that time earned in one lump. Ealph Dodds, however, did more than this ; he released the brakes- man from the handles of his engine at West Moor, and appointed him engine-man at the High Pit, at good wages, during the time the pit was sinking — ^the job lasting for about a year ; and he also kept him in mind for farther advancement. Stephenson's skill as an engine -doctor soon became noised abroad, and he was called upon to prescribe remedies for all the old, wheezy, and ineffective pumping-machines in the neighbor- hood. In this capacity he soon left the " regular" men far be- hind, though they, in their turn, were very much disposed to treat the Killingworth brakesman as no better than a quack. Never- theless, his practice was really founded upon a close study of the principles of mechanics, and on an intimate practical acquaint- ance with the details of the pumping-engine. Another of his smaller achievements in the same line is still told by the people of the district. At the corner of the road lead- ing to Long Benton there was a quarry fi-om which a peculiar and scarce kind of ochre was taken. In the course of working it out, the water had collected in considerable quantities ; and there being no means of draining it off, it accumulated to such an extent that the farther working of the ochre was almost entirely stopped. Ordinary pumps were tried, and failed; and then a windmill was tried, and failed too. On this, George was asljed what ought to be done to clear the quarry of the water. He said " he would set up for them an engine, little bigger than a kail- * As different versions have been given of this affair, it may be tnentioned that the above statement is made on the authority of the late Robert Stephenson, and of George Stephenson himself, as communicated by the latter to his friend Thomas L. Gooch, C.E. , who has kindly supplied the author with his memoranda on the subject. Chap. III.] FEATS OF AGILITY. 136 pot, that would clear them out in a week." And he did so. A little engine was speedily erected, by means of which the quarry was pumped dry in the course of a few days. Thus his s]|p. as a pump-doctor soon became the marvel of the district. In elastic muscular vigor Stephenson was now in his prime, and he still continued zealous in measuring his strength and agil- ity with His fellow-workmen. The competitive element in his nature was always strong, and his success in these feats of rivalry was certainly, remarkable. Few, if any, could lift such weights, throw the hammer and put the stone so far, or cover so great a space at a standing or running«ieap. One day, between the en- gine hour and the rope-rolling hour. Kit Heppel challenged him to leap from one high wall to another, with a deep gap between. To Heppel's surprise and dismay, George took the standing leap, and cleared the eleven feet at a bound. Had his eye been less accurate, or his limbs less agile and sure, the feat niust have cost him his life. But so full of redundant muscular vigor was he, that leaping, putting, or throwing the hammer, were not enough for him. He was also ambitious of riding on horseback ; and, as he had not yet been promoted to an oflBce enabling him to keep a horse of his own, he sometimes borrowed one of the gin-horses for a ride. On one of these occasions he brought the animal back reeking, when Tommy Mitcheson, the bank horse-keeper, a rough-spoken fellow, exclaimed to him, " Set such fellows as you on horseback, and you'll soon ride to the De'il." But Tommy Mitcheson lived to tell the story, and to confess that, after all, there had been a better issue of George's horsemanship than what he had predicted. Old Cree, the engine-wright at Eallingworth High Pit, having been killed by an accident, George Stephenson was, in 1812, ap- pointed engine-wright of the colliery at the salary of £100 a year. He was also allowed the use of a galloway to ride upon in his vis- its of inspection to the collieries leased by the " Grand Allies" in that neighborhood. The " Grand Allies" were a company of gentlemen, consisting of Sir Thomas Liddell (afterward Lord Eavensworth), the Earl of Strathmore, and, and Mr. Stuart Wortley (afterward Lord Wham- cMe), the lessees of the Killingworth collieries. Having been in- formed of the merits of Stephenson, of his indefatigable industry. 136 APPOINTED COLLIER Y ENGINE- WRIGHT. [Paet II. and the skill which he had displayed ia the repairs of the pump- ing-engines, they readily acceded to Mr. Dodds's recommendation tha'^e should be appointed the collieiy engine-wright ; and, as we shall afterward find, they continued to honor him by distin- guished marks of their approval. KILLrNOWOKTH HIGH PIT. GLEBE FAEM-HOUBE, BENTON. [By R. P. Leitch.] CHAPTEE lY. THE STEPHENSONS AT laLLrNGWOETH EDUCATION AND SELF- EDUCATION OF FATHER AND SON. George Stephenson had now been diligently employed for several years in the work of self-improTement, and he experi- enced the nsiial results in increasing mental strength, capability, and skill. Perhaps the secret of every man's best success in life is to be found in the alacrity and industry with which he takes advantage of the opportunities wliich present themselves for well- doing. Our engine-man was an eminent illustration of the im- portance of cultivating this habit of life. Every spare moment was laid imder contribution by him, either for the purpose of adding to his earnings or to his knowledge. He missed no op- portunity of extending his observations, especially in his own de- partment of work, aiming at improvement, and trying to turn all that he did know to useful practical account. Pie continued his attempts to solve the mysteiy of Perpetual Motion, and contrived several model machines with the object of embodying his ideas in a practical working shape. He aftei'ward used to lament the time he had lost in these futile efforts, and said that if he had enjoyed the opportunities which most young men now have, of learning from books what previous experimenters had accomphshed, he would have been spared much labor and mortification. Not being acquainted with what other mechanics 138 JOHN WIGBAM. [Paet II. had done, he groped his way in pursuit of some idea originated by his own independent thinking and observation, and, when he had brought it into some definite form, lo ! he found that his sup- posed invention had long been known and recorded in scientific books. Often he thought he had hit upon discoveries which he sv^bsequently found were but old and exploded fallacies. Tet his very struggle to overcome the difficulties which lay in his way was of itself an education of the best sort. By wrestling with them, he strengthened his judgment and sharpened his skiU, stimulating and cultivating his inventiveness and mechanical in- genuity. Being very much in earnest, he was compelled to con- sider the subject of his special inquiry in all its relations^and thus he gradually acquired practical abiHty through his very efforts after the impracticable. Many of his evenings were spent in the society of John Wig- ham, whose father occupied the Glebe farm at Benton close at hand. John was a fair penman and good arithmetician, and Ste- phenson frequented his society chiefly for the purpose of improv- ing himself in writing and " figuring." Under Andrew Robert- son he had never quite mastered the Rule of Three, and it was only when "Wigham took him in hand that he made progress in the higher branches of arithmetic. He generally took his slate with him to the Wighams' cottage, when he had his sums set, that he might work them out while tending his engine on the follow- ing day. When too busy with other work to be able to call upon Wigham in person, he sent the slate by a fellow-workman to have the former sums corrected and new ones set. Sometimes also, at leisure moments, he was enabled to do a little " figuring" with chalk upon the sides of the coal-wagons. So much patient per- severance could not but eventually succeed ; and by dint of prac- tice and study, Stephenson was enabled to master the successive rules of arithmetic. John Wigham was of great use to his pupil in many ways. He was a good talker, fond of argument, an extensive reader as coun- try reading went in those days, and a very suggestive thinker. Though his store of information might be comparatively small when measured with that of more highly cultivated minds, much of it was entirely new to Stephenson, who regarded him as a very clever and extraordinary pei-son. Wigham also taught him to draw Chap. IV.] EDUCATION AND SELF-CULTURE. 139 plans and sections, though in this branch Stephenson proved so apt that he soon surpassed his master. A volume of " Ferguson's Lectures on Mechanics" which fell into their hands was a great treasure to both the students. One who remembers their even- ing occupations says he " used to wonder what they meant by weighing the air and water in so odd a way." They were trying the specific gravities of objects ; and the devices which they em- ployed, the mechanical shifts to which they were put, were often of the rudest kind. In these evening entertainments the mechan- ical contrivances were supplied by Stephenson, while Wigham foimd the scientific rationale. The opportunity thus afforded to the former of cultivating his mind by contact with one wiser than himself proved of great value, and in after life Stephenson gratefully remembered the assistance which, when a humble workman, he had received from John Wigham, the farmer's son. His leisure moments thus carefully improved, it will be infer- red that Stephenson continued a sober man. Though his notions were never extreme on this point, he was systematically temper- ate. It appears that on the invitation of his master, Ealph Dodds — and an invitation from a master to a workman is not easy to resist — he had, on one or two occasions, been induced to join him in a forenoon glass of ale in the public house of the village. But one day, about noon, when Mr. Dodds had got him as far as the public-house door, on his invitation to " come in and take a glass o' yel," Stephenson made a dead stop, and said, firmly, " ISTo, sir, you must excuse me ; I have made a resolution to drink no more at this time of day." And he went back. He desired to retain the character of a steady workman ; and the instances of men about him who had made shipwreck of their character through intemperance were then, as now, unhappily too frequent. But another consideration besides his own self -improvement had already begun to exercise an important influence upon his life. This was the training and education of his son. Robert, now growing up an active, intelligent boy, as full of fun and tricks as his father had been. When a little fellow, scarce big enough to reach so high as to put a clock-head on when placed upon the table, his father would make him mount a chair for the purpose ; and to " help father" was the proudest work which the boy then, and ever after, could take part in. When the Mttle engine was 140 HIS SON ROBERT. [Part II. set up at the Oclire Quarry to pump it dry, Robert was scarcely absent for an hour. He watched the machine very eagerly when it was set to work, and he Avas very much annoyed at the fire burning away the grates. The man who fired the engine was a sort of wag, and thinlving to get a laugh at the boy, he said, " Those bars are getting varra bad, Eobert ; I think we maun cut up some of that hard wood, and put it in instead." " Wliat would be the use of that, you fool V said the boy, quickly. " You would no sooner have put them in than they would be burnt out again !" So soon as Robert was of a proper age, his father sent him over to the road-side school at Long Benton, kept by Rutter, the '# jS''V^*^_ butter's 8CU00L-U0USE, LONG BENTON. [Ry R. T. Leitch.] parish clerk. But the education which he gave was of a very limited kind, scarcely extending beyond the primer and pothooks. While working as a brakesman on the pit-head at Kilhngworth, the father had often bethought him of the obstructions he had himself encountered in life through his want of schooling, and he formed the determination that no labor, nor pains, nor self- denial on his part should be spared to furnish his son with the best education that it was in his power to bestow. It is true, his earnings were comparatively small at that time. Chap. IV.] STEPHENSON ON HIS SON'S EDUCATION. 141 He was still maintaining his infirm parents, and the cost of living continued excessive. But he fell back, as before, upon his old expedient of working up his spare time- in the evenings at home, or during the night shifts when it was his turn to tend the en- gine, in mending and making shoes, cleaning clocks and watches, making shoe-lasts for the shoemakers of the neighborhood, and cutting out the pitmen's clothes for their wives ; and we have been told that to this' day there are clothes worn at Killingworth made after " Geordj Steevie's cut." To give his own words : " In the earlier period of laj career," said he, " when Eobert was a little boy, I saw how deficient 1 was in education, and I made up my mind that he should not labor under the same defect, but that I would put him to a good school, and give him a liberal training. I was, however, a poor man ; and how do you think I managed ? I betook myself to mending my neighbors' clocks and watches at nights, after my daily labor was done, and thus I procured the means of educating my son."* By dint of such extra labor in his by-hours, with this object, Stephenson contrived to save a sum of £100, which he accumu- lated in guineas, each of which he afterward sold to Jews, who went about buying up gold coins (then dearer than silver), at twenty-six shillings apiece ; and he lent out the proceeds at in- terest. He was now, therefore, a comparatively thriving man. When he was appointed engine-wright of the colliery, he was, of course, still easier in his circumstances ; and, carrying out the resolution which he had formed as to his boy's education, Eobert was sent to Mr. Brace's school in Percy Street, Newcastle, at mid- summer, 1815, when he was about twelve years old. His father bought for him a donkey, on which he rode into Newcastle and back daily ; and there are many still living who remember the little boy, dressed in his suit of homely gray stuff cut out by his father, cantering along to school upon the " cuddy," with his wal- let of provisions for the day and his bag of books slung over his shoulder. When Eobert went to Mr. Brace's school he was a shy, unpol- ished country lad, speaking the broad dialect of the pitmen ; and the other boys would occasionally tease him, for the purpose of * Speech at Newcastle, on the 18th of June, 1844, at the meeting held in celebra- tion of the opening of the Newcastle and Darlington Eailway. 142 BRUCE'S SCHOOL, NEWCASTLE. [Part ir. provoldng an outburst of liis liillingworth Doric. As the shy- ness got rubbed off by famiharity, his love of fun began to show itself, and he was found able enough to hold his omti among the other boys. As a scholar he was steady and diligent, and his master was accxistomed to hold liim up to the laggards of the BRUCE S SCUOOL, NEWCASTLE [By P P LcitcU ] school as an example of good conduct and industry. But his progress, though satisfactoiy, was by no means extraordinary. He used in after life to pride himself on his achievements in mensuration, though another boy, John Taylor, beat liim at arith- metic. He also made considerable progress in mathematics ; and in a letter wiitten to the son of liis teacher, many years after, he said, " It was to Mr. Bruce's tuition and methods of modeling the mind that I attribute much of my success as an engineer, for it was from him that I derived my taste for mathematical pm-suits, and the facility I possess of applying this kind of knowledge to practical purposes, and modifying it according to circumstances." During the time Robert attended school at Newcastle, his fa- ther made the boy's education instrumental to his OAvn. Kobert was accustomed to spend some of his spare time at the rooms of the Literary and Philosophical Institute, and when he went home Chap. IV.] EDUCATION AND SELF-EDUCATION. 143 in the evening he would recount to his father the results of his reading. Sometimes he was allowed to take with him to Killing- worth a volume of the " Repertory of Arts and Sciences," which father and son studied together. But many of the most valuable works belonging to the Newcastle Library were not permitted to be removed from the rooms; these Eobertwas instructed to read and study, and bring away with him descriptions and sketches for his father's information. His father also practiced him in the reading of plans and drawings without at all referring to the written descriptions. He used to observe to his son, " A good drawing or plan should always explain itself ;" and, placing a drawing of an engine or machine before the youth, he would say, " There, now, describe that to me— the arrangement and the ac- tion." Thus he taught him to read a drawing as easily as he would read a page of a book. Both father and son profited by this excellent practice, which shortly enabled them to apprehend with the greatest facility the details of even the most diflScult and complicated mechanical drawing. While Robert went on with his lessons in the evenings, his fa- ther was usually occupied with his watch and clock cleaning, or contriving models of pumping-enginesy or endeavoring to embody in a tangible shape the mechanical inventions which he found de- scribed in the odd volumes on Mechanics which fell in his way. This daily and unceasing example of industry and application, working on befoi'e the boy's eyes in the person of a loving and beloved father, imprinted itself deeply upon his mind in charac- ters never to be effaced. A spirit of self -improvement was thus early and carefully planted and fostered in him, which continued to influence his character through life ; and toward the close of his career he was proud to confess that if his professional success had been great, it was mainly to the example and training of his father that he owed it. Eobert was not, however, exclusively devoted to study, but, Hke most boys full of animal spirits, he was very fond of fun and play, and sometimes of mischief. Dr. Bruce relates that an old KilHngworth laborer, when asked by Eobert, on one of his last visits to Newcastle, if he remembered him, replied with emotion, "Ay, indeed ! Haven't I paid your head many a time when you came with your father's bait, for you were always a sad hempy ?" 144 ROBERT'S BOYISH TRICKS. [Part II. The author had the pleasure, in the year 1854, of accompany- ing Robert Stephenson on a visit to his old home and haunts at Killingworth. He had so often traveled the road upon his don- key to and from school that every foot of it was familiar to him, and each turn in it served to recall to mind some incident of his bojash days.* His eyes glistened when he came in sight of Kil- lingworth pit head. Pointing to a humble red-tiled house by the roadside at Benton, he said, " You see that house — that was Rut- ter's, where I learned my ABC, and made a beginning of my school learning ; and there," pointing to a colliery chimney on the left, " there is Long Benton, where my father put up liis first pumping-engine ; and a great success it was. And this humble clay-floored cottage you see here is where my grandfather lived till the close of his life. Many a time have I ridden straight into the house, mounted on my cuddy, and called upon grandfa- ther to admire his points. I remember the old man feeling the animal all over — ^he was then quite blind — after which he would dilate upon the shape of his ears, fetlocks, and quarters, and usu- ally end by pronouncing him to be a ' real blood.' I was a great favorite with the old man, who continued very fond of animals, and cheerful to the last ; and I believe nothing gave him greater pleasure than a visit from me and my cuddy." On the way from Benton to High KiUingworth, Mr. Stephen- son pointed to a comer of the road where he had once played a boyish trick upon a Eallingworth collier. " Straker," said he, " was a great bully, a coarse, swearing fellow, and a perfect ty- rant among the women and children. He would go tearing into old Nanny the huxter's shop' in the village, and demand in a sav- age voice, ' What's ye'r best ham the pund ?' ' What's floor the hunder V ' What d'ye ax for prime bacon f — his categories usu- ally ending with the miserable order, accompanied with a tre- mendous oath, of ' Gie's a penny rrow (roll) an' a baubee herrin' !' The poor woman was usually set ' all of a shake' by a visit fi-om this fellow. He was also a great boaster, and used to crow over the robbers whom he had put to flight ; mere men in buckram, * At one part of the road he was once pulled oflFhis donkey by some mischievous boys, and released by a young man named James Burnet. Many years after, Burnet was taken oil as a workman at the Newcastle factory, probably owing his selection in some measure to the above circumstance. Chap. IV.] ROBERT'S SCIENTIFIC TRICK. 145 as every body knew. We boys," he continued, " believed bim to be a great coward, and determined to play him a trick. Two other boys joined me in waylaying Straker one night at that cor- ner," pointing to it. " We sprang o«t and called upon him, in as gruff voices as we could assume, to ' stand and deliver !' He dropped down upon his knees in the dirt, declaring he was a poor man, with a sma' family, asking for ' mercy,' and imploring us, as ' gentlemen, for God's sake, t' let him a-be !' We couldn't stand this any longer, and set up a shout of laughter. Recognizing our boys' voices, he sprang to his feet again and rattled out a volley of oaths, on which we cut through the hedge, and heard him shortly after swearing his way along the road to 'the yel- house." On another occasion Robert played a series of tricks of a some- what different character. Like his father, he was very fond of reducing his scientific reading to practice ; and after studying Frankhn's description of the lightning experiment, he proceeded to expend his store of Saturday pennies in purchasing about half a mile of copper wire at a brazier's shop in Newcastle. Having prepared his kite, he set it up in the field opposite his father's door, and bringing the wire, insulated by means of a few feet of silk cord, over the backs of some of Farmer Wigham's cows, he soon had them skipping about the field in all directions with their tails up. One day he had his kite flying at the cottage-door as his father's galloway was hanging by the bridle to the paling, waiting for the master to mount. Bringing the end of the wire just over the pony's crupper, so smart an electric shock was given it that the brute was almost knocked down. At this juncture Ms father issued from the house, riding-whip in hand, and was witness to the scientific trick just played off upon his galloway. "Ah ! you mischievous scoondrel !" cried he to the boy, who ran off, himself inwardly chuckling with pride, nevertheless, at Rob- ert's successful experiment.* At this time, and for many years after, Stephenson dwelt in a * Robert Stephenson was, perhaps, prouder of this little boyish experiment than he was of many of his subsequent achievements. Not having been quite accurately stated in the first edition of this book, Mr. Stephenson noted the correction for the second, and wrote to the author (Sept. 18th, 1857) as follows: "In the kite experi- ment, will you say that the copper wire was insulated by a few feet of silk cord ; without this, the experiment can not be made." K 146 THE COTTAGE, WEST MOOR. [Pabt II. cottage standing by the side of tlie road leading from the "West Moor Pit to Killingworth. The railway from West Moor crosses this road close by the easternmost end of the cottage. The dwell- ing originally consisted of feut one apartment on the groimd floor, with a garret overhead, to which access was obtained by means stefhsmboh's cottage, webt moob, [By R, P. Leitch.] of a step-ladder. "With his own hands Stephenson built an oven, and in the course of time he added rooms to the cottage, imtil it became expanded into a comfortable four-roomed dwelling, in which he remained as long as he lived at Killingworth. He continued as fond of birds and animals as ever, and seemed to have the power of attaching them to him in a remarkable de- gree. He had a blackbird at Killingworth so fond of him tliat it would fly about the cottage, and on holding out his finger the bird would come and perch upon it directly. A cage was built for " blackie" in the partition between the passage and the room, a square of glass forming its outer wall ; and Eobert used after- ward to take pleasure in describing the oddity of the bird, imi- tating the manner in which it would cock its head on his father's entering the house, and follow him with its eye into the inner apartment. Chap. IV.] ECCENTRIC CONTRIVANCES. 147 Neighbors were accustomed to call at the cottage and have their clocks and watches set to rights when they went wrong. One day, after looking at the works of a watch left by a pitman's wife, George handed it to his son ; " Put her in the oven, Eobert," said he, " for a quarter of an hour or so." It seemed an odd way of repairing a watch ; nevertheless, the watch was put into the oven, and at the end of the appointed time it was taken out, going all right. The wheels had merely got clogged by the oil congealed by the cold, which at once explains the rationale of the remedy adopted. There was a little garden attached to the cottage, in which, while a workman, Stephenson took a pride in growing gigantic leeks and astonishing cabbages. There was great competition in the growing of vegetables among the villagers, all of whom he excelled excepting one, whose cabbages sometimes outshone his. To protect his garden-crops from the ravages of the birds, he in- vented a strange sort of " fley-craw," which moved its arms with the wind ; and he fastened his garden-door by means of a piece of ingenious mechanism, so that no one but himself could enter it. His cottage was quite a curiosity-shop of models of engines, self-acting planes, and perpetual-motion machines. The last named contrivances, however, were only unsuccessful attempts to solve a problem which had already baffl,ed hundreds of preceding inventors. His odd and eccentric contrivances often excited great wonder among the Killingworth villagers. He won the women's admi- ration by connecting their cradles with the smoke-jack, and mak- ing them self-acting. Then he astonished the pitmen by attach- ing an alarm to the clock of the watchman whose duty it was to call them betimes in the morning. He also contrived a wonder- ful lamp which burned under water, with which he was after- ward wont to amuse the Brandhng family at Gosforth — going into the fish-pond at night, lamp in hand, attracting and catching the fish, which rushed wildly toward the flame. Dr. Bruce tells of a competition which Stephenson had with the joiner at Killingworth as to which of them could make the best shoe-last ; and when the former had done his work, either for the humor of the thing or to secure fair play from the ap- pointed judge, he took it to the Morrisons in Newcastle, and got 148 SUN-DIAL A T WEST MOOR. [Pabt II. them to put their stamp upon it; so that it is possible the Killing- worth brakesman, afterward the inventor of a safety-lamp and originator of the locomotive railway system, and John Morrison, the last-maker, afterward the translator of the Scriptures into the Chinese language, may have confronted each other in solemn contemplation of the successful last, which won the verdict cov- eted by its maker. Sometimes George would endeavor to impart to his fellow- workmen the results of liis scientific reading. Every thing that he learned from books was so new and so wonderful to him, that he regarded the facts he drew from them in the light of discov- eries, as if they had been made but yesterday. Once he tried to explain to some of the pitmen how the earth was round, and kept turning round. But his auditors flatly declared the thing to be impossible, as it was clear that " at the bottom side they must fall off!" "Ah!" said George, "you don't quite understand it yet." His son Robert also early endeavored to communicate to others the information which he had gathered at school ; and Dr. Bruce relates that, when visiting KilKngworth on one occasion, he found him engaged in teaching algebra to such of the pitmen's boys as would become his pupils. While Robert was still at school, his father proposed to him during the holidays that he should construct a sun-dial, to be placed over their cottage-door at West Moor. " I expostulated with him at first," said Robert, " that I had not learned sufficient astronomy and mathematics to enable me to make the necessary calculations. But he would have no denial. ' The thing is to be done,' said he, ' so just set about it at once.' Well, we got a ' Fer- guson's Astronomy,' and studied the subject together. Many a sore head I had while making the necessary calculations to adapt the dial to the latitude of Killingworth. But at length it was fairly drawn out on paper, and then my father got a stone, and we hewed, and carved, and polished it, until we made a very re- spectable dial of it ; and there it is, you see," pointing to it over the cottage door, " still quietly numbering the houi-s when the sun shines. I assure you, not a little was thought of that piece of work by the pitmen when it was put up, and began to tell its tale of time." The date carved upon the dial is "August 11th, MDCccxvi." Both father and son were in after life very proud of Chap. IT.] REACHES THE HEIGHT OF HIS AMBITION. 149 their joint production. Many years after, George took a par- ty of savans, when attending the meeting of the British As- sociation at Newcastle, over to KiUingworth to see the pitSj and he did not fail to direct their attention to the sun-dial; and Robert, on the last visit which he made to the place, a short time before his death, took a friend into the cottage, and pointed out to him the very desk, still there, at which he had sat when making his calculations of the latitude of Kil- lingworth. From the time of his appointment as engineer at the Killing- worth Pit, George Stephenson was in a measure relieved from the daily routine of manual labor, having, as we have seen, ad- vanced himself to the grade of a higher-class workman. He had not ceased to be a worker, though he employed his industry in a different way. It might, indeed, be inferred that he had now the command of greater leisure ; but his spare hours were as much as ever given to work, either necessary or self-imposed. So far as regarded his social position, he had already reached the sum- mit of his ambition ; and when he had got his hundred a year, and his dun galloway to ride on, he said he never wanted to be any higher. When Robert Wetherly offered to give him an old gig, his traveling having so much increased of late, he accepted it with great reluctance, observing that he should be ashamed to get into it, " people would think him so proud." When the High Pit had been sunk and the coal was ready for working, Stephenson erected his first winding-engine to draw the coals out of the pit, and also a pumping-engine for Long Benton colliery, both of which proved quite successful. Among other works of this time, he projected and laid down a self-acting in- cline along the declivity which fell toward the coal-loading place near Willington, where he had formerly officiated as brakesman ; and he so arranged it that the full wagons, descending, drew the 150 STEPHENSON'S VARIOUS DUTIES. [Part H. empty wagons up the railroad. This was one of the first self- acting inclines laid down in the district. The following is Stephenson's own account of his various du- ties and labors at this period of his life, as given before a Com- mittee of the House of Commons in 1835 :* "After making some improvements in the steam-engines above ground,! was requested by the manager of the colliery to go under- ground along -with him, to see if any improvements could be made in the mines by employing machinery as a substitute for manual labor and horse-power in bringing the coals out of the deeper work- ings of the mine. On my first going down the Killingworth pit, there was a steam-engine underground for the purpose of drawing water from a pit that was sunk at some distance from the first shaft. The Killingworth coal-field is considerably dislocated. After the colliery was opened, at a very short distance from the shaft, one of those dislocations was met with. The coal was thrown down about forty yards. Considerable time was spent in sinking another pit to this depth. And on my going down to examine the work, I pro- posed making the engine (which had been erected some time pre- viously) to draw the coals up an inclined plane which descended immediately from the place where it was fixed. A considerable change was accordingly made in the mode of working the colliery, not only in applying the machinery, but in employmg putters in- stead of horses in briaging the coals from the hewers ; and by those changes the number of horses in the pit was reduced from about 100 to 15 or 16. During the time I was engaged in making these important alterations, I went round the workings in the pit with the viewer almost every time that he went into the mine, not only at Killingworth, but at Mountmoor, Derwentcrook, Southmoor, all of which collieries belonged to Lord B,aven8worth and his partners ; and the whole of the machinery in all these collieries was put under my charge." It will thus be observed that Stephenson had now much better opportunities for improving himself in mechanics than he had heretofore possessed. His practical knowledge of the steam-en- gine could not fail to prove of the greatest value to him. His shrewd insight, together with his intimate acquaintance with its mechanism, enabled him to apprehend, as if by intuition, its most abstruse and difficult combinations. The study which he had * Evidence given before the Select Committee on Accidents in Mines, 1835. Chap. IV.] THE LOCOMOTIVE ENGINE. 151 given to it when a workman, and the patient manner in which he had groped his way through all the details of the machine, gave him the power of a master in dealing with it as applied to colliery purposes. Sir Thomas LiddeU was frequently about the works, and took pleasure in giving every encouragement to the engine-wright ia his efforts after improvement. The subject of the locomotive en- gine was already occupying Stephenson's careful attention, al- though' it was still regarded in the light of a curious and costly toy, of comparatively little real use. But he had at an early pe- riod recognized its practical value, and formed an adequate con- ception of the might which as yet slumbered vsdthin it, and he now proceeded to bend the whole faculties of his mind to the de- velopment of its powers. OOIUDES COTTAGES AT LONG EBMON [By E. P Leitch ] 152 THE LOCOMOTIVE ENGINE. [Pakt n. CHAPTER V. THE LOCOMOTTVE ENGINE GEORGE STEPHENSON BEGINS ITS IMPROVEMENT. The rapid increase in the coal-trade of the Tyne about the be- ginning of the present centiuy had the effect of stimulating the ingenuity of mechanics, and encouraging them to devise im- proved methods of transporting the coal fi'om the pits to the shipping-places. From our introductory chapter, it will have been observed that the improvements which had thus far been effected were confined almost entirely to the road. The railway wagons still continued to be drawn by horses. By improving and flattening the tram-way, considerable economy in horee-pow- er had been secured ; but, unless some more effective method of mechanical traction could be devised, it was clear that railway improvement had almost reached its hmits. Notwithstanding Trevithick's comparatively successful experi- ment with the , first railway locomotive on the Merthyr Tydvil tram-road in 1804, described in a former chapter, he seems to have taken no farther steps to bring his invention into notice. He was probably discouraged by the breakage of the cast-iron plates, of which the road was formed, which were crushed under the load of his engine, and could not induce the owners of the line to relay it with better materials so as to give his locomotive a fair trial. An imaginary difficulty, also, seems to have tended, among other obstacles, to prevent the adoption of the locomotive, viz., the idea that, if a heavy weight were placed behind the engine, the "grip" or "bite" of its smooth wheels upon the equally smooth iron rail must necessarily be so slight that they would whirl round upon it, and, consequently, that the machine would not make any progress.* Hence Trevithick, in his patent, pro- * The same fallacy seems long to have held its ground in Finance ; for M. Granier tells uB that some time after the first of George Stephenson's locomotives had been Chap, v.] THU WYLAM WAGON-WAY. 153 vided that the periphery of the driving-wheels should be made rough by the projection, of bolts or cross-grooves, so that the ad- hesion of the wheels to the road might thereby be better secured. Trevithick himself does. not seem to have erected another en- gine, but we gather from the evidence given by Mr. Kastrick in the committee on the Liverpool and Manchester Bill in 1825, that ten or twelve years before that time he had made an engine for Trevithick after his patent, and that the engine was exhibited in London. " A circular railroad was laid down," said Mr. Kas- trick, and it was stated that this engine was to run against a horse, and that which went a sufficient mmiber of miles was to •win." It is not known what afterward became of this engine. There were, however, at a much earher period, several wealthy and enterprising men, both in Yorkshire and Northumberland, who were willing to give the locomotive a fair trial ; and had Trevithick but possessed the requisite tenacity of purpose — ^had he not been too soon discouraged by partially successful experi- ments — he might have risen to both fame and fortune, not only as the inventor of the locomotive, but as the practical introducer of railway locomotion. One of Trevithick's early friends and admirers was Mr. Black- ett, of Wylam. The Wylam wagon-way is one of the oldest in the north of England. Down to the year 1807 it. was formed of wooden spars or rails, laid down between the colliery at Wylam — where old Eobert Stephenson worked — and the village of Lem- ington, some four miles down the Tyne, where tlie coals were loaded into keels or barges, and floated dovm past Newcastle, to be shipped for London. Each chaldron-wagon had a man in charge of it, and was originally drawn by one horse. The rate at which the wagons were hauled was so slow that only two jour- neys were performed by each man and horse in one day, and three on the day following. This primitive wagon-way passed, as before stated, close in front of the cottage in which George Stephenson was bom, and one of the earliest sights which met his infant eyes was this wooden tram-road worked by horses. placed on the Liverpool and Manchester line, a model of one was exhibited before the Academy. After it had been examined, a member of that learned body said, smil- ing, " Yes, this is all very ingenious, no doubt, but nnfortmiately the machine will never move. The wheels will turn round and round in the same place." 154 IHR. BLACKETT— JOHN STEELE. [Part II. Mr. Blackett was the first colliery owner in the North who took an active interest in the locomotive. He had witnessed the first performances of Trevithick's steam-carriage in London, and was so taken with the idea of its application to railway locomo- tion that he resolved to have an engine erected after the new patent for use upon his tram-way at Wylam. He accordingly obtained from Trevithick, in October, 1804, a plan of his engine, provided vnth " friction-wheels," and employed Mr. John "WTiin- field, of Pipewellgate, Gateshead, to construct it at his f oundery there. The engine was made under the superintendence of one John Steele,* an ingenious mechanic, who had been in Wales, and worked under Trevithick in fitting the engine at Pen-y- darran. When the Gateshead locomotive was finished, a tempo- rary way was laid down in the works, on which it was run back- ward and forward many times. For some reason or other, how- ever — it is said because the engine was too Hght for dravrang the coal-trains — it never left the works, but was dismounted from the wheels, and set to blow the cupola of the f oundery, in which service it long continued to be employed. Several years elapsed before Mr. Blackett took any farther steps to carry out his idea. The final abandonment of Trevi- thick's locomotive at Pen-y-darran perhaps contributed to deter him from proceeding farther ; but he had the Wylam wooden tram-way taken up in 1808, and a plate-way of cast iron laid * John Steele was one of the many "bom mechanics'' of the Northumberland dis- trict. When a boy at Colliery Dykes, his native place, he was noted for his " turn for machinery.'' He used to take his playfellows home to see and admire his imita- tions of pit-engines. ySThile a mere youth he lost his leg by an accident ; and those who remember him at Whinfield's speak of his hopping about the locomotive, of which he was very proud, upon his wooden leg. i It was a great disappointment to him when Mr. Blackett refused to take the engine. One day he took a friend to look at it when reduced to its degraded office of blowing the cupola bellows ; and, re- ferring to the cause of its rejection, he observed that he was certain it would succeed, if made sufficiently heavy. "Our master," he continued, " will not be at the ex- pense of following it up ; but depend upon it the day will come -when such an engine will be fairly tried, and then it will be found to answer. '' Steele was afterward ex- tensively employed by the British government in raising sunken ships ; and later in life he established engine-works at Eouen, where he made marine-engines for the Prench government. He was unfortunately killed by the explosion of an engine- boiler (with the safety-valve of which something had gone wrong) when on an ex- perimental trip with one of the steamers fitted up by himself, and on his way to En- gland to visit his family near Newcastle. Chap. V.] BLENKINSOP'S LEEDS ENGINE. 155 down instead — a single line fumislied with sidings to enable the laden wagons to pass the empty ones. The new iron road proved so much smoother than the old wooden one, that a single horse, instead of drawing one, was enabled to draw two, or even three laden wagons. Although the locomotive seemed about to be lost sight of, it was not forgotten. In 1811, Mr. BlenMnsop, the manager of the Middleton Collieries, near Leeds, revived the idea of employing it in heu of horses to haul the coals along his tram-way. Mr. Blenkinsop, in the patent which he took out for his proposed en- gine, followed in many respects the design of Trevithick ; but, with the help of Matthew Murray, of Leeds, one of the most in- genious mechanics of his day, he introduced several important and valuable modifications. Thus he employed two cylinders of 8 in. diameter instead of one, as in Trevithick's engine. These cylinders were placed vertically, and immersed for more than half their length in the steam space of the boiler. The eduction BLENKINSOP'S L£I3>8 BA'GIME. 156 BLENKINSOP'S LEEDS ENGINE. [Pakt H. pipes met in a single tube at the top, and threw the steam into the air. The boiler was cylindrical in form, but of cast iron. It had one flue, the fire being at one end and the chimney at the other. The engine was supported on a carriage without springs, resting directly upon two pairs of wheels and axles unconnected with tiie working parts, and which merely served to carry the engine upon the rails. The motion was effected in this way : the piston-rods, by means of cross-heads, worked the coimecting- rods, which came down to two cranks on each side below the boiler, placed at right angles in order to pass their centres witli certainty. These cranks worked two shafts fixed across the en- gine, on which were smaU-toothed wheels working into a larger one between them ; and on the axis of this large wheel, outside the framing, were the driving-wheels, one of which was toothed, and worked into a rack on one side of the railway. It will be observed that the principal new features in this en- gine were the two cylinders and the toothed- wheel working into a rack-rail. Mr. Blenkinsop contrived the latter expedient in or- der to insure suificient adhesion between the wheel and the road, supposing that smooth wheels and smooth rails would be insuffi- cient for the purpose. Clumsy and slow though the engine was compared with modern locomotives, it was nevertheless a success. It was the first engine that plied regularly upon any railway, doing useful work ; and it continued so employed for more than twenty years. What was more, it was a commercial success, for its employment was found to be economical compared with horse- power. In a letter to Sir John Sinclair, Mr. Blenkinsop stated that his engine weighed five tons; consumed two thirds of a hun- dred weight of coals and fifty gallons of water per hour ; drew twenty-seven wagons, weighing ninety-four tons, on a dead level, at three and a half miles an hour, or fifteen tons up an ascent of 2 in. in the yard ; that when " lightly loaded" it traveled at a speed of ten miles an hour ; that it did the work of sixteen horses in twelve hours ; and that its cost was £400. Such was Mr. Blen- kinsop's own account of the performances of his engine, which was for a long time regarded as one of the wonders of the neigh- borhood.* * Thomas Gray, a native of Leeds, was an enthusiastic believer in the new tractive power, and whei-ever he went he preached up railways and Blenkinsop's locomotive. Chap, v.] A LOCOMOTIVE WITE LEGS. 157 The Messrs. Chapman, of Newcastle, in 1812 'endeavored to ovei-come the same fictitious difficulty of the want of adhesion between the wheel and the rail by patenting a locomotive to work along the road by means of a chain stretched from one end of it to the other. This chain was passed once round a grooved barrel-wheel under the centre of the engine, so that when the wheel turned, the locomotive, as it were, dragged itself along the railway. An engine constructed after this plan was tried on the Heaton Eailway, near Newcastle ; but it was so clumsy in action, there was so great a loss of power by friction, and it was found to be so expensive and difficult to keep in repair, that it was very soon abandoned. Another remarkable expedient was adopted by Mr. Brunton, of the Butterley Works, Derbyshire, who in 1813 patented his Mechanical Traveler, to go wpon legs working al- ternately like those of a horse.* But this engine never got be- yond the experimental state, for, at its very first trial, the driver, to make sure of a good start, overloaded the safety-valve, when the boiler burst and killed a number of the by-standers, wounding many more. These, and other contrivances with the same object, projected about the same time, show that iuvention was busily at work, and that many minds were anxiously laboring to solve the problem of steam locomotion on railways. Mr. Blackett, of Wylam, was encouraged by the success of Mr. Blenkinsop's experiment, and again he resolved to make a trial of the locomotive upon his wagon-way. Accordingly, in 1812, he ordered a second engine, which was so designed as to work with a toothed driving-wheel upon a rack-rail as at Leeds. This While he was living at Brussels in 1816, a canal to Charleroi was under considera- tion, on which he seized the opportunity of urging the superior merits of a railway. When he returned to England in 1820, he wrote a book upon the subject, entitled, "Observations on a General Iron EaUway," in which he strongly advocated the ad- vantages of railways generally, giving as a frontispiece to the book an engraving of Blenkinsop's engine. And several years after the opening of the Liverpool and Man- chester Eailway we find Thomas Gray, true to his first love, urging in the "Mechan- ics' Magazine" the superiority of Blenkinsop's cogged wheel and rail over the smooth road and rail of the modem railway. * Other machines vpith legs were patented in the following year by Lewis Gompertz and by Thomas Tindall. In Tindall's specification it is provided that the power of the engine is to be assisted by a horizontal windmill; and the four pushers, or legs, are to be caused to come successively in contact with the ground, and impel the car- riage. 158 MR. BLACKETT'S LOCOMOTIVE. [PaetII. locomotive wsts constructed by Thomas Waters, of Gateshead, under the superintendence of Jonathan Foster, Mr. Blackett's principal engine-wright. It was a combination of Trevithick's and Blenkinsop's engines ; but it was of a more awkward con- struction than either. Like Trevithick's, it had a single cylinder with a fly-wheel, which Blenkinsop had discarded. The boiler was of cast iron. Jonathan Foster described it to the , author in 1854 as " a strange machine, vsdth lots of pumps, cog-wheels, and , plugs, requiring constant attention while at work." The weight of the whole was about six tons. "Wlien finished, it was conveyed to Wylam on a wagon, and there mounted upon a wooden frame, supported by foui* pairs of wheels, which had been constructed for its reception. A barrel of water, placed on another frame upon wheels, was attached to it as a tender. After a great deal of labor, the cumbrous ma- chine was got upon the road. At fia'st it would not, move an inch. Its maker. Tommy Waters, became impatient, and at length enraged, and, taking hold of the lever of the safety-valve, declared in his desperation that " either she or he should go." At length the machinery was set in motion, on which, as Jonathan Foster described to the author, " she flew all to pieces, and it was the biggest wonder i' the world that we were not all blewn up." The incompetent and useless engine was declared to be a failure ; it was shortly after dismounted and sold ; and Mr. Blackett's praise- worthy efforts thus far proved in vain. He was still, however, desirous of testing the practicability of employing locomotive power in worldng the coal doMoi to Lem- ington, and he determined on making yet another trial. He ac- cordingly directed his engine-wright, Jonathan Foster, to proceed with the building of a third engine in the Wylam workshops. This new locomotive had a single 8-inch cylinder, was provided with a fly-wheel like its predecessor, and the driving-wheel was cogged on one side to enable it to travel in the rack-rail laid along the road. The engine proved more successful than the former one, and it was found capable of dragging eight or nine loaded wagons, though at the rate of little more than a mile an hour, from the colliery to the shipping-place. It sometimes took six hours to perform the journey of five miles. Its weight was found too great for the road, and the cast-iron plates were con- Chap, v.] BLACKETT'S SECOND ENGINE A FAILURE. 159 stantly breaking. It was also very apt to get ofE the rack-rail, and then it stood still. The driver was one day asked how he got on. " Get on ?" said he, " we don't get on ; we only get off !" On such occasions, horses had to be sent out to drag the wagons as before, and others to haul the engine back to the workshops. It was constantly getting out of order ; its plugs, pumps, or cranks got wrong, and it was under repair as often as at work. At length it became so cranky that the horses were usually sent after it to drag it along when it gave up, and the workmen generally de- clared it to be a " perfect plague." Mr. Blackett did not obtain credit among his neighbors for these experiments. Many laugh- ed at his machines, regarding them only in the light of crotchets — ^frequently quoting the proverb of " a fool and his money are soon parted." Others regarded them as absurd innovations on the established method of hauling coal, and pronounced that they would " never answer." • Notwithstanding, however, the comparative failure of the sec- ond locomotive, Mr. Blackett persevered with his experiments. He was zealously assisted by Jonathan Foster, the engine-wright, and Wilham Hedley, the viewer of the colliery, a highly ingen- ious person, who proved of great use in carrying out the experi- ments to a successful issue. One of the chief causes of failure being the rack-rail, the idea occurred to Mr. Hedley that it might be possible to secure sufficient adhesion between the wheel and the rail by the mere weight of the engine, and he proceeded to make a series of experiments for the purpose of determining this problem. He had a frame placed on four wheels, and fitted up with windlasses attached by gearing to the several wheels. The frame having been properly weighted, six men were set to work the windlasses, when it was found that the adhesion of the smooth wheels on the smooth rails was quite sufficient to enable them to propel the machine without slipping. Having then found the proportion which the power bore to the weight, he demonstrated by successive experiments that the weight of the engine would of itself produce' sufficient adhesion to enable it to draw upon a smooth railroad the requisite number of wagons in aU kinds of weather. And thus was the fallacy which had heretofore pre- vailed on this subject completely exploded, and it was satisfacto- rily proved that rack-rails, toothed wheels, endless chains, and 160 IMPROVED WYLAM ENGINE. [Past U. legs, were aKke unnecessary for the efficient traction of loaded wagons upon a moderately level road.* From this time forward, considerably less difficulty was expe- rienced in working the coal-trains upon theWylam tram-road. At length the rack-rail was dispensed with. The road was laid with heavier rails ; the working of the old engine was improved ; and a new engine was shortly after built and placed upon the road, still on eight wheels, driven by seven rack-wheels working inside them — ^with a wrought-iron boiler through which the flue was returned so as largely to increase the heating surface, and thus give increased power to the engine.f Below is a represen- tation of this improved Wylam engine. WTLAM ENGIHE. * Mr. Hedley took out a patent to secure his invention, dated the 13th of March, 1813. Specification, No. 3666. If it be true, as alleged, that the wheels of Trevi- thick's first locomotive were smooth, it seems strange that the fallacy should ever have existed, t By the year 1825, the progress made on theWylam.Eaih-oad was thus described by Mr. Mackenzie in his "History of Northumberland:" "A Stranger," said he, "is struck with surprise and astonishment on seeing a locomotive engine moving majes- tically along the road at the rate of four or five miles an hour, drawing along from ten to fourteen loaded wagons, weighing about 21^ tons ; and his surprise is incre^ed on witnessing the extraordinary facility with which the engine is managed. This in- vention is a noble triumph of science." Chap. V.] COAL HA ULA GE AT KILLING WORTH. 161 As may readily be imagined, the jets of steam from the piston, blowing off into the air at high pressure while the engine was in motion, caused considerable annoyance to horses passing along the Wylam road, at that time a public highway. The nuisance was felt to be almost intolerable, and a neighboring gentleman threatened to have it put down. To diminish the noise as much as possible, Mr. Blackett gave orders that so soon as any horse, or vehicle drawn by horses, came in sight, the locomotive was to be stopped, and the frightful blast of the engine thus suspended until the passing animals had got out of sight. Much interruption was thus caused to the working of the railway, and it excited consid- erable dissatisfaction among the workmen. The following plan was adopted to abate the nuisance : a reservoir was provided im- mediately behind the chimney (as shown in the opposite cut) into which the waste steam was thrown after it had performed its office in the cylinder, and from this reservoir the steam gradually escaped into the atmosphere without noise. This arrangement was devised with the express object of preventing a blast in the chimney, the value of which, as we shall subsequently find, was not detected until George Stephenson, adopting it with a precon- ceived design and purpose, demonstrated its importance and value — as being, in fact, the very life-breath of the locomotive engine. While Mr. Blackett was thus experimenting and building loco- motives at Wylam, George Stephenson was anxiously studying the same subject at Killingworth. He was no sooner appointed engine-wright of the collieries than his attention was directed to the means of more economically hauling the coal from the pits to the river side. We have seen that one of the first important im- provements which he made, after being placed in charge of the coEiery machinery, was to apply the surplus power of a pumping steam-engine iixed underground^ for the purpose of drawing the coals out of the deeper workings of the Killingworth mines, by which he succeeded in effecting a large reduction in the expend- iture on manual and horse labor. The coals, when brpught above ground, had next to be labori- ously dragged by means of horses to the shipping staiths on the Tyne, several miles distant. The adoption of a tram-road, it is true, had tended to facilitate their transit ; nevertheless, the haul- age was both tedious and expensive. With the view of econo- L 162 STEPHENSON'S STUDY OF THE LOCOMOTIVE. [Part II. mMng labor, Stephenson laid down inclined planes where the na- ture of the ground would admit of this expedient being adopted. Thus a train of full wagons let down the incline by means of ^ rope running over wheels laid along the tram-road, the other end of which was attached to a train of empty wagons placed at the bottom of the parallel road on the same incline, dragged them up by the simple power of gravity. But this apphed only to a com- paratively small part of the road. An economical method of working the coal-trains, instead of by means of horses — ^the keep of which was at that time very costly, in consequence of the high price of corn — ^was still a great desideratum, and the best practi- cal minds in the coUieries were actively engaged iu trying to solve the problem. In the first place, Stephenson resolved to make himseK thor- oughly acquainted with what had already been done. Mr. Black- ett's engines were working daily at Wylam, past the cottage where he had been bom, and thither he frequently went* to inspect the improvements made by Mr. Blackett from time to time both in the locomotive and in the plate-way along which it worked. Jon- athan Foster informed us that, after one of these visits, Stephen- son declared to him his conviction that a much more effective en- gine might be made, that should work more steadily and draw tiie load more effectively. He had also the advantage, about the same time, of seeing one of Blenkinsop's Leeds engines, which was placed on the tram-way leading from the colheries of Kenton and Coxlodge, on the 2d of September, 1813. This locomotive drew sixteen chaldron wag- ons, containing an aggregate weight of seventy tons, at the rate of about three miles an hour. George Stephenson and several of the Kilhngworth men were among the crowd of spectators that * At the Stephenson Memorial meeting at Newcastle-on-Tyne, 26th of October, 1858, Mr. Hugh Taylor, chairman of the Northern Coal-owners, gave the following account of one of such visits made by Stephenson to Wylam, in the company of Mr. Nicholas Wood and himself: " It was, I think, in 1812, that Mr. Stephenson and Mr. Wood came to my house, then at Newburn, and after we had dined, we went and examined the locomotive then on Mr. Blackett's wagon-way. At that early date it went by a sort of cog-wheel ; there was also something of a chain to it. There wag no idea that the machine would be sufficiently adhesive to the rails by the action of its own weight ; but I remember a man going before — that was after the chain was abrogated — and scattering ashes on the rails, in order to give it adhesiveness, and two or three miles an hour was about the rate of progress." Chap, v.] HE CONTEMPLATES ITS IMPROVEMENT. 163 day ; and after examining the engine and observing its perform- ances, he remarked to his companionfi that " he thought he could make a better engine than that, to go upon legs." Probably he had heard of the invention of Brunton, whose patent had by this time been published, and proved the subject of much curious speculation in the coUiery districts. Certain it is that, shortly after the inspection of the Coxlodge engine, he contemplated the construction of a new locomotive, which was to surpass all that had preceded it. He observed that those engines which had been constructed up to this time, however ingenious in their arrange- ments, were in a great measure practical failures. Mr. Blackett's was as yet both clumsy and expensive. Chapman's had been re- moved from the Heaton tram-way in 1812, and was regarded as a total failure. And the BlenMnsop engine at Coxlodge was found very unsteady and costly in its working ; besides, it pulled the rails to pieces, the entire strain being upon the rackTrail on one side of the road. The boiler, however, having shortly blown up, there was an end of that engine, and the colliery owners did not feel encouraged to try any farther experiment. An efficient and economical working locomotive engine, there- ' fore, still remained to be invented, and to accomplish this object Stephenson now applied himself. Profiting by what his prede- cessors had done, warned by their failures and encouraged by their partial successes, he commenced his labors. There was still wanting the man who should accomplish for the locomotive what James Watt had done for the steam-engine, and combine in a complete form the best points in the separate plans of oth- ers, embodying with them such original inventions and adapta- tions of his own as to entitle him to the merit of inventing the working locomotive, as James "Watt is to be regarded as the in- ventor of the working condensing engine. This was the great work upon which George Stephenson now entered, though prob- ably without any adequate idea of the ultimate importance of his labors to society and civilization. He proceeded to bring the subject of constructing a " Travel- ing Engine," as he then denominated the locomotive, under the notice of the lessees of the KiUingworth Colliery, in the year 1813. Lord Eavensworth, the principal partner, had already formed a very favorable opinion of the new colliery engine- 164 STEPHENSON'S FIRST LOCOMOTIVE. [Pakt II. Wright from the improvements which he had effected in the col- liery engines, both above and below ground ; and, after considei"- ing the matter, and hearing Stephenson's explanations, he au- thorized hitn to proceed with the construction of a locomotive, though his lordship was by some called a fool for advancing money for such a purpose. " The first locomotive that I made," said Stephenson, many years after,* when speaking of his early career at a public meeting in Newcastle, ',' was at Killingworth Collieiy, and with Lord Eavensworth's money. Yes, Lord Ea- vensworth and paitners were the first to intrust me, thirty-two years since, with money to make a locomotive engine. I said to my friends, there was no limit to the speed of such an engine, if the works could be made to stand." Our engine-wright had, however, many obstacles to encounter before he could get fairly to work with the erection of his loco- motive. His chief difficulty was in finding workmen sufficiently skilled in mechanics and in the use of tools to follow his instruc- tions and embody his designs in a practical shape. The tools then in use about the collieries were rude and clumsy, and there were no such facihties as now exist for turning out machinery of an entirely new character. Stephenson was under the neces- sity of working with such men and tools as were at his command, and he had in a great measure to train and instruct tlie workmen himself. The engine was built in the workshops at the West Moorj the leading mechanic being John Thirlwall, the colliery blacksmith, an excellent mechanic in his way, though quite new to the work now intrusted to him. In this first locomotive constructed at Killingworth, Stephen- son to some extent followed the plan of Blenkinsop's engine. The wrought-iron boiler was cylindrical, eight feet in length and thirty-four inches in diameter, with an internal flue-tube twenty inches wide passing through it. The engine had two vertical cylinders of eight inches diame- . j ter and two feet stroke let into .^f"°°X. \ I the boiler, which worked the pro- " peUing gear with cross-heads and connecting-rods. The power of the two cylinders was combined "" bpdb-gzae. * Speech at the opening of the Newcastle and Dai-lington Eailway, June 18, 1844 Chap. V.] STEPHENSON'S FIRST LOCOMOTIVE. 165 by means of spur-wlieels, which commmucated the motive power to the wheels supporting the engine on the rail, instead of, as in Blenkinsop's engine, to cog-wheels which acted on the cogged rail independent of the four supporting wheels. The engine thus worked upon what is termed the second motion. The chim- ney was of wrought iron, round which was a chamber extending back to the feed-pumps, for the purpose of heating the water previolis to its injection into the boiler. The engine had no springs, and was moimted on a wooden frame supported on four wheels. In order to neutrahze as much as possible, the jolts and shocks which such an engine would necessarily encounter from the obstacles and inequalities of the then very imperfect plate- way, the water-barrel which served for a tender was fixed to the end of a lever and weighted, the other end of the lever being connected with the frame of the locomotive carriage. By this means the weight of the two was more equally distributed, though the contrivance did not by any means compensate for the total absence of springs. The wheels of the locomotive were all smooth, Stephenson having satisfied himself by experiment that the adhesion between the wheels of a loaded engine and the rail would be sufiicient for the purpose of traction. Eobert Stephenson informed us .that his father caused a number of workmen to mount upon the wheels of a wagon moderately loaded, and throw their entire weight upon the spokes on one side, when he found that the wagon could thus be easily propelled forward without the wheels slip- ping. This, together with other experiments, satisfied him, as it had already satisfied Mr. Hedley, of the expediency of adopting smooth wheels on his engine, and it was so made accordingly. The engine was, after much labor and anxiety, and frequent alterations of parts, at length brought to completion, haying been about ten months in hand. It was placed upon the Killingworth Kailway on the 25th of July, 1814, and its powers were tried on the same day. On an ascending gradient of 1 in 450, the engine succeeded in drawing after it eight loaded carriages of thirty tons' weight at about four miles an hour ; and for some time aft- er it continued regularly at work. Although a considerable advance upon previous locomotives, " Blucher" (as the engine was popularly called) was nevertheless 166 ROBERT STEPHENSON'S NARRATIVE. [Taet II. a somewhat cumbrous and clumsy machine. The parts were huddled together. The boiler constituted the principal feature ; and, being the foundation of the other parts, it was made to do duty not only as a generator of steam, but also as a basis for the fixings of the machinery and for the bearings of the wheels and axles. The want of springs was seriously felt ; and the progress of the engine was a succession of jolts, causing considerable de- rangement to the machinery; The mode of communicatftig the motive power to the wheels by means of the spur-gear also caused frequent jerks, each cyMnder alternately propelling or becoming propelled by the other, as the pressure of the one upon the wheels became greater or less than the pressure of the other j and, when the teeth of the cog-wheels became at aU worn, a ratthng noise was produced during the traveling of the engine. As the principal test of the success of the locomotive was its economy as compared with horse-power, careful calculations were made with the view of ascertaining this important point. The result was, that it was foimd the working of the engine was at first barely economical ; and at the end of the year the steam- power 'and the horse-power were ascertained to be as nearly as possible upon a par in point of cost. We give the remainder of the history of George Stephenson's efforts to produce an economical working locomotive in the words of his son Kobert, as communicated to the author in 1856, for the purposes of his father's " Life." " A few months of experience and careful observation upon the operation of this (his first) engine convinced my father that the com- plication arising out of the action of the two cylinders being com- bined by spur-wheels would prevent their coming into practical ap- plication. He then directed his attention to an entire change in the construction and mechanical arrangements, and in the following year took out a patent, dated February 28th, 1815, for an engine which combined in a remarkable degree the essential requisites of an economical locomotive — ^that is to say, few parts, simplicity ia their action, and great simpUcity ia the mode by which power was communicated to the wheels supporting the engine. "This second engine consisted as before of two vertical cylinders, which communicated directly with each pair of the four wheels that supported the engine by a cross-head and a pair of connecting-rods ; Chap, v.] STEPHENSON'S SECOND PATENT ENGINE. 167 but, in attempting to establish a direct communication between the cylinders and the wheels that rolled upon the rails, considerable dif- ficulties presented themselves. The ordinary joints could not be employed to unite the engine, which was a rigid mass, with the wheels rolling upon the irregular surface of the rails ; for it was evi- dent that the two rails of the line of railway could not always be maintained at the same level with respect to each other — that one wheel at the end of the axle might be depressed into a part of the line which had subsided, while the other would be elevated. In such a position of the axle and wheels it was clear that a rigid communication between the cross-head and the wheels was imprac- ticable. Hence it became necessary to form a joint at the top of the piston-rod where it united with the cross-head, so as to permit the cross-head always to preserve complete parallelism with the axle of the wheels with which it was in communication. "In order to obtain the flexibility combined with' direct action which was essential for insuring power and avoiding needless fric- tion and jars from irregularities in the rail, my father employed the ' ball and socket' joint for effecting a union between the ends of the cross-heads where they united with the connecting-rods, and be- tween the end of the connecting-rods where they were united with the crank-pins attached to each driving-wheel. By this aarange- ment the parallelism between the cross-head and the axle was at all times maintained, it being permitted to take place without produc- ing jar or friction upon any part of the machine. " The next important point was to combine each pair of wheels by some simple mechanism, instead of the cog-wheels which had formerly been used. My father began by inserting each axle iato two cranks at right angles to each other, with rods communicating horizontally between them. An engiae was made on this plan, and answered extremely well. But at that period (1816) the mechani- cal skill of the country was not equal to the task of forging cranked axles of the soundness and strength necessary to stand the jars in- cident to locomotive work ; so my father was compelled to fall back upon a substitute which, though less simple and less efficient, was within the mechanical capabilities of the workmen of that day, either for construction or repair. He adopted a chain which rolled over iadented wheels placed on the centre of each axle, and so ar- ranged that the tw(? pairs of wheels were effectually coupled and made to keep pace with each other. But these chains after a few years' use became stretched, and then the engines were liable to ir- regularity in their working, especially in changing from working. 168 ROBERT STEPHENSON'S NARRATIVE. [PabtU. back to forward again. Nevertheless, these engines continued in profitable use upon the Killingworth Colliery Railway for some years. Eventually the chain was laid aside, and the front and hind wheels were united by rods on the outside, instead of by rods and crank-ankles inside, as specified in the original patent ; and this ex- pedient completely answered the purpose required, without involv- ing any expensive or difficult workmanship. SECTION OF KILLIUQWOBTQ LOGOMOTITB, 1S15. "Another important imprpvement was introduced in this engine. The eduction steam had hitherto been allowed to escape direct into the open atmosphere ; but my father, having observed the great ve- locity with which the waste-steam escaped, compared with the veloc- ity with which the smoke issued from the chimney of the same en- gine, thought that by conveying the eduction steam into the chim- ney, and there allowing it to escape in a vertical direction, its velocity would be imparted to the smoke from the engine, or to the ascend- ing current of air in the chimney. The expdfiment was no sooner made than the power of the engine became more than doubled ; combustion was stimulated, as it were, by a blast ; consequently, the power of the boiler for generating steam was increased,, and, Chap. V.] INVENTION OF TEE STEAM-BLAST. 169 in the same proportion, the useful duty of the engine was aug- mented. "Thus, in 1815, my father had succeeded in manufacturing an en- gine which included the following important improvements on all previous attempts in the same direction : simple and direct commu- nication between the cylinder and the wheels rolling upon the rails; joint adhesion of all the wheels, attained by the use of horizontal connecting-rods ; and, finally, a beautiful method of exciting the combustion of fuel by employing the waste steam which had for- merly been allowed uselessly to escape. It is, perhaps, not too much to say that this engine, as a mechanical contrivance, contained the germ of all that has since been efiected. It may be regarded, in fact, as a type of the present locomotive engine. "In describing my father's application of the waste steam for the purpose of increasing the intensity of combustion in the boUer, and thus increasing the power of the engine without adding to its weight, and while claiming for this engine the merit of being a type of all those which have been successfully devised since the com- mencement of the Liverpool and Manchester Railway, it is neces- sary to observe that the next great improvement in the same direc- tion, the ' multitubular boiler,' which took place some.years later, could never have been used without the help of that simple expe- dient, tlie steam-blast, by which power only the burning of coke was rendered possible. " I can not pass over this last-named invention of my father's without remarking how slightly, as an original idea, it has been ap- preciated ; and yet how small would be the comparative value of the locomotive engine of the present day without the application of that important invention ! "Engines constructed by my father in the year 1818 upon the principles just described are in use on the Killingworth Colliery Railway to this very day (1856), conveying, at the speed of per- haps five or six miles an hour, heavy coal-trains, probably as eco- nomically as any of the more perfect engines now in use. " There was another remarkable piece of ingenuity in this ma- chine, which was completed so many years before the possibility of steam-locomotion became an object of general commercial interest a,nd Parliamentary inquiry. I have before observed that up to and after the year 1818 there was no such class of skilled mechanics nor were there such machinery and tools for working in metals as are now at the disposal of inventors and manufacturers. Among other difficulties of a similar character, it was not possible at that 170 INVENTION OF STEEL SPRINGS. [Pabt II. time to construct springs of sufficient strength to support the im- proved engines. The rails then used being extremely light, the roads became worn down by the traffic, and occaBionally the whole weight of the engine, instead of being uniformly distributed over four wheels, was thrown almost diagonally upon two. In order to avoid the danger arising from such irregularities in the road, my father arranged the boiler so that it was supported upon the frame of the engine by four cylinders which opened into the interior of the boiler. These cylinders were occupied by pistons with rods, which passed downward and pressed upon the upper side of the axles.- The cylinders, opening into the interior of the boiler, allow- ed the pressure of steam to be applied to the upper side of the pis- ton, and that pressure being nearly equal to the support of one fourth of the weight of the engine, each axle, whatever might be its position, had the same amount of weight to bear, and conse- quently^ the entire weight was at aU times nearly equally distrib- uted among the wheels. This expedient was more necessary jn this case, as the weight of the new locomotive engines far exceeded that of the carriages which had hitherto been used upon colliery railways, and therefore subjected the rails to much greater risk from breakage. And this mode of supporting the engine remained in use until the progress of spring-making had considerably ad- vanced, when steel springs of sufficient strength superseded this highly ingenious mode of distributing the weight of the engine uni- formly among the wheels." The invention of the Steam-blast by George Stephenson in 1815 was fraught with the most important consequences to rail- way locomotion, and it is not saying too much to aver that the success of the locomotive has been in a ^eat measure the result of its adoption. Without the steam-blast, by means of which the intensity of combustion is maintained at its highest point, pro- ducing a correspondingly rapid evolution of steam, high rates of speed could not have been kept up; the advantages of the mul- titubular boiler (afterward invented) could never have been fuUy tested ; and locomotives might stiU have been dragging them- selves unwieldily along at little more than five or six miles an hour. As this invention has been the subject of considerable contro- versy, it becomes necessary to add a few words respecting it in this place. It has been claimed as the invention of Trevithick ckap. v.] the steam-blast. . Ill in 1804, of Hedley in 1814, of Goldsworthy Gumey in 1820, and of Timothy Hackworth in 1829. With respect to Treyithick, it appears that he discharged the waste steam into the chimney of his engine, but without any intention of thereby producing a blast ;* and that he attached no value to the expedient is suffi- ciently obvious from the fact that in 1815 he took out a patent for urging the fire by means of fanners, similar to a winnowing machine. The claim put forward on behalf of WiUiam Hedley, that he invented the blast-pipe for the Wylam engine, is suffi- ciently contradicted by the fact that the Wylam engine had no blast-pipe. " I remember the Wylam engine," Eobert Stephen- son wrote to the author in 1857, " and I am positive there was no blast-pipe." On the contrary, the Wylam engine embodied a con- trivance for the express purpose oi ^eventing a blast. This is clearly shown by the drawing and description of it contained in the first edition of Nicholas Wood's " Practical Treatise on Kail- roads," published in 1825. This evidence is all the more valua- ble for our purpose as it was published long before any contro- versy had arisen as to the authorship 6f the invention, and, in- deed, before it was believed that any merit whatever belonged to it. And it is the more remarkable, as Nicholas Wood himself, who published the first practical work on railways, did not at that time approve of the steam-blast, and referred to the Wylam engine in illustration of how it might be prevented. The following passage from Mr. Wood's book clearly describes the express object and purpose for which George Stephenson in- vented and applied the steam-blast in the KiUingworth engines. Describing their action, Mr. Wood says: " The steam is admitted to the top and bottom of the piston by means of a sliding valve, which, being moved up and down altern- ately, opens a communication between the top and bottom of the cylinder and the pipe that is open into the chimney and turns up * It must, however, be mentioned that Mr. Zerah Colbnm, in his excellent work on "Irocomotiye Engineering and the Mechanism of Railways," points out that Mr. Davies Gilbert noted the effect of the discharge of the waste steam up the chimney of Trevithick's engine in increasing the draught, and wrote a letter to "Nicholson's Journal" (Sept. , 1805) on the subject ; and Mr. Nicholson himself proceeded to inves- ^tigate the subject, and in 1806 he took out a patent for " steam-blasting apparatus," applicable to fixed engines, which, howerer, does not seem to hare come into use. (See ante, p. 82.) 172 NICHOLAS WOOD'S ACCOUNT. [Part II. within it. The steam, after performing its office within the cylin- der, is thus thrown into the chimney, and the power with which it issues will be proportionate to the degree of elasticity ; and the exit being directed upward, accelerates the velocity of the current of heat- ed air accordingly.''''* And again, at another part of the book, he says : "There is another great objection urged against locomotives, which is, the noise that the steam makes in escaping into the chim- ney ; this objection is very singular, as it is not the result of any inherent form in the organization of such engines, but an accidental circumstance. When the engines were first made, the steam escaped into the atmosphere, and made comparatively little noise ; it was found difficult then to produce steam in sufficient quantity to keep the engine constantly working, or rather to obtain an adequate ra- pidity of current in the chimney to give sufficient intensity to the fire. To effect a greater rapidity, or to increase the dratight of the chimney, Mr. Stephenson thought that by causing the steam to escape into the chimney through a pipe with its end turned upward, the ve- locity of the current would be accelerated, and such was the effect; but, in remedying one evil, another has been produced, which, though objectionable in some places, was not considered as objec- tionable on a private railroad. The tube through the boiler having been increased, there is now no longer any occasion for the action of the steam to assist the motion of the heated air in the chimney. The steam thrown in this manner into the chimney acts as a trum- pet, and certainly makes a very disagreeable noise. Nothing, how- ever, is more easy to remedy, and the very act of remedying this defect will also be the means of economizing the fuel."f Mr. Wood then proceeds to show how tiie noise caused by the blast — how, in fact, the blast itself, might be effectually prevented by adopting the expedient employed in the Wylam engine j which was, to send the exhaust steam, not into the chimney (where alone the blast could act with effect by stimulating the draught), but into a steam-reservoir provided for the purpose. His words are these : " Nothing more is wanted to destroy the noise than to cause the * Nicholas Wood, "Practical Treatise on Railways," ed. 1825, p. 147. t Ibid., p. 292-8. Chap. V.] THE STEAM-BLAST. 173 steam to expand itself into a reservoir, and then allow it to escape gradually to the. atmosphere thrcmgh the chimney. Upon the Wylam railroad the noise was made the subject of complaint by a neighbor- ing gentleman, and they adopted this mode, which had the effect above mentioned."* It is curioTis to find that Mr. Nicholas "Wood continued to ob- ject to the use of the steam-blast down even to the time when the Liverpool and Manchester Eailway Bill was before Parlia- ment. In his evidence before the Committee on that Bill in 1825, he said : " Those engines [at Killingworth] puff very rmich, cmd the oiject is to get am, increased draught in the chi/m,ney. Now (by enlarging the flue -tube and giving it a double turn through the boiler) we have got a suAciency of steam without it, and I have no doubt, by allowing the steam to exhaust itself in a reservoir, it would pass quietly into the chimney without that noise." In fact, Mr. "Wood was still in favor of the arrangement adopted in the Wylam engine, by which the steam-blast had been got rid of altogether. If these statements, made in Mr. Wood's book, be correct — and they have never been disputed — they render it perfectly clear that George Stephenson invented and applied the steam-blast for the express purpose of quickening combustion in the furnace by in- creasing the draught in the chimney. Although urged by Wood to abandon the blast, Stephenson continued to hold by it as one of the vital powers of the-locomotjve engine. It is quite true that in the early engines, with only a double flue passing through the boiler, run as they were at low speeds, the blast was of compara- tively less importance. It was only when the improved passenger engine, fitted with the multitubular boiler, was required to be run at high speeds that the full merits of the blast were brought out ; and in detecting its essential uses in this respect, and sharpening * Nicholas Wood, "Practical Treatise on Railways," ed. 1825, p. 29*. These pas- sages will be found in the first edition of Mr. "Wood's work, published in 1825. The subsequent editions do not contain them. A few years' experience wrought great changes of opinion on many points connected with the practical working of railways, and Mr. Wood altered his text accordingly. But it is most important for our present purpose to note that, in the year 1825, long before the Lirerpool and Manchester line was opened, Mr. Wood should have so clearly described the steam-blast, which had been in regular use for more than ten years in all Stephenson's locomotives employed in the working of the Killingworth railway. 174 COLLIERY WEIMSEY. [Paei n. it for the purpose of increasing its action, the sagacity of Timothy Hackworth, of Darlington, is entitled to due recognition. Chap. VI.] ACCIDENTS IN MINES. 173 CHAPTEE VI. F THE "gEOEDt" 1 Explosions of fire-damp were unusually frequent in the coal- mines of Northumberland and Durham about the time when George Stephenson was engaged in the construction of his first locomotives. These explosions were often attended with fearful loss of life and dreadful suffering to the work-people. EUliog- worth Colliery was not free' from such deplorable calamities ; and during the time that Stephenson, was employed as brakesman at the West Moor, several " blasts" took place in the pit, by which many workmen were scorched and killed, and the owners of the colliery sustained heavy losses. One of the most serious of these, accidents occurred in 1806, not long after he had been appointed brakesman, by which ten persons were killed. Stephenson was near the pit mouth at the time, and the circumsta*nces connected with the ejcplosion made a deep impression on his mind, as ap- pears from the gi-aphic account which he gave of it to the Com- mittee of the House of Commons on accidents in mines, some thirty years after the event. " The pit," said he, " had just ceased drawing coals, and nearly all the men had got out. It was some time in the afternoon, a lit- tle after midday. There were five men that went down the pit ; four of them for the purpose of preparing a place for the furnace. The fifth was a person who went down to set them to work. I sent this man down myself, and' he had just got to the bottom of the shaft about two or three minutes when the explosion took place. I had left the mouth of the pit, and had gone about fifty or sixty yards away, when I heard a tremendous noise, looked round, and saw the discharge come out of the pit like the discharge of a can- non. It continued to blow, I thiak, for a quafter of an hour, dis- charging every thing that had come into the current. Wood came up, stones came up, and trusses of hay that went up into the air like balloons. Those trusses had been sent down during the day, and I think they had in some measure injured the ventilation of the 1,76 MINE EXPLOSION AT KILLING WORTH. [Pabt II. mine. The ground all round the top of the pit was in a trembling state. I went as near as I durst go ; every thing appeared crack- ing and rending about me. Part of the brattice, which was very- strong, was blown away at the bottom of the pits. Very large pumps were lifted from their places, so that the engine could not work. The pit was divided into four by partitions ; it was a large pit, fourteen f6et in diameter, and partitions were put down at right angles, which made four compartments. The explosion took place in one of those four quarters, but it broke through into all the oth- ers at the bottom, and the brattice or partitions were set on fire at the first explosion; " Nobody durst go near the shafts for some time, for fear of an- other explosion taking place. At last we considered it necessary to run the rope backward ahd forward, and give the miners, if there were any at the bottom of the shaft, an opportunity of catching the rope as it came to the bottom. Several men were safely got up in this way ; one man, who had got hold of the rope, was being drawn up, when a farther explosion took place while he was still in the shaft, and the increased current which came about him projected him as it were up the shaft ; yet he was landed without injury : it was a singular case The pit continued to blast every two or three hours for about two days. It appears that the coal had taken fire, and as soon as the carbureted hydrogen gas collected in suffi' cient quantity to reach the part where it was burning, it ignited again ; but none of the explosions were equal to the first, on ac- count of many parts of the mine having become filled with azotic gas, or the after-damp of the mine. All the ditches in the country- side were stopped to get water to pour into the pit. We had fire- engines brought from Newcastle, and the water was poured in till it came above the fire, and then it was extinguished. The loss to the owners of the colliery by this accident must have been about £20,000."* Anotlier explosion took place in the same pit in 1809, by which twelve persons lost their lives. The blast did not reach the shaft as in the former case,. the unfortunate persons in the pit having been suffocated by the after-damp. More calamitous still were the explosions whish took place in the neighboring collieries, one of the worst beiiig that of 1812, in the Fellkig Pit near Gateshead, a mine belonging to Mr. Brandling, by ■wrhich no fewer than nine- * Evidence given by George Stephenson before the Select Committee on Accidents in Mines, 26th June, 1836. Chap. VI.] DANGERS OF THE COAL-MINES. Til ty men and boys were suffocated or biuiit to death ; and a similar accident occurred in the same pit in the year following, by which twenty-two men and boys 'perished. THE riT HEAD, WEST MOOK. [By K. P. Lt'itCh.] It was natural that Stephenson should devote his attention to the causes of these deplorable accidents, and to the means by which they might, if possible, be prevented. His daily occupation led him to think much and deejJy on tlie subject. As engine- wright of a colhery so extensive as that of Ivilhngworth, where there were nearly 160 miles of gallery excavation, in which he personally superintended the worldng of inclined planes, along which the coals were sent to the pit entrance, he was necessarily very often under gromd, and brought face to face with the dan- gers of fire-damp. From fissures in the roofs of the galleries car- bm-eted hydrogen gas was constantly flowing ; and in some of the more dangerous places it might be heard escaping from the crev- ices of the coal with a hissing noise. Ventilation, firing, and all conceivable modes of drawing out the foid air had been tried, while the more dangeroiis parts of the galleries were built up. Still the danger could not be wholly prevented. The nuners must necessarily guide their steps through the extensive undergroraid ways with hghted lamps or candles, the naked flame of which coming in contact with the inflammable air, daily exposed them and their fellow-workers in the pit to the risk of "death in one of its most dreadfid forms. M 178 THE MINE ON FIRE. [Part U. One day in tte year 1814, a workman hurried into Stephen- son's cottage with the starthng information that the deepest main of the colliery was on fire ! He immediately hastened to the pit- head, about a hundi'ed yards off, whither the women and children of the colliery were mnning, with wildness and terror depicted in every face. In a commanding voice, Stephenson ordered the engine-man to lower him down the shaft in the corve. There was danger, it might be death, before him, but he must go. He was soon at the bottom, and in the midst of the men, who were paralyzed at the danger which threatened the lives of all in the pit. Leaping from the corve on its touching the ground, he called out, "Are there six men among you who have the courage to follow me ? If so, come, and we will put the fire out." The Eillingworth pitmen had the most perfect confidence in their en- gine-wright, and they readily volunteered to follow him. Silence succeeded the frantic tumult of the previous minute, and the men set to work with a wiU. In every mine, bricks, mortar, and tools enough are at hand, and by Stephenson's direction the materials were forthwith carried to the required spot, where, in a very short time, a wall was raised at the entrance to the main, he him- self taking the most active part in the work. The atmospheric air was by this means excluded, the fire was extinguished, most of the people in the pit were saved from death, and the mine was preserved. This anecdote of George Stephenson was related to the writer, near the pit-mouth, by one of the men. Kit Heppel, who had been present, and helped to build up the brick wall by which the fire was stayed, though several of the workmen were suffocated. Heppel relates that, when down the pit some days after, seeking out the dead bodies, the cause of the accident was the subject of some conversation between himself and Stephenson, and Heppel then asked him, " Can nothing be done to prevent such awful occurrences?" Stephenson replied that he thought something might be done. " Then," said Heppel, " the sooner you begin the better, for the price of coal-mining now is^tmen's lives." Fifty years since, many of the best pits were so full of the in- flammable gas given forth by the coal that they could not be worked without the greatest danger, and for this reason some were altogether abandoned. The radest possible means were Chap. VI.] THE PROBLEM OF A SAFETY-LAMP. 179 adopted of producing liglit sufficient to enable the pitmen to work by. The phosphorescence of decayed fish-skLoB was tried ; but this, though safe, was very inefficient. The most common method employed was what was called a steel mill, the notched wheel of which, being made to revolve against a flint, struck a succession of sparks, which scarcely served to do more than make the darkness visible. A boy carried the apparatus, working the wheel; and by the imperfect light thus given forth the miner plied his dangerous trade. Candles were only used ia those parts of the pit where gas was not abundant. Under this rude system not more than one third of the coal could be worked, while two thirds were left. What the workmen, not less than the coal-owners, eagerly de- sired was a lamp that should give forth sufficient light, without communicating flame to the inflammable gas which accumulated in certain parts of the pit. Something had already been done toward the invention of such a lamp by Dr. Clanny, of Sunder- land, who, in 1813, contrived an apparatus to which he gave air from the mine through water, by means of bellows. This lamp went out of itself in inflammable gas. It was found, however, too unwieldy to be used by the miners for the purposes of their work, and did not come into general use. A committee of gentlemen interested in coal-mining was formed to investigate the causes of the explosions, and to devise, if possible, some means of prevent- ing them. At the invitation of that committee. Sir Humphry Davy, then in the full zenith of his reputation, was requested to turn his attention to the subject. He accordingly visited the col- lieries near Newcastle on the 24:th of August, 1815, and at the close of that year, on the 9th of November, 1815, he read before the Koyal Society of London his celebrated paper " On the Fire- damp of Coal Mines, and on Methods of Lighting the Mine so as to prevent its Explosion." , But a humbler 'though not less diligent and original thinker had been at work before him, and had already practically solved the problem of the Safety-lamp. Stephenson was, of course, well aware of the desire which prevailed in the colliery districts for the invention of a lamp which should give light enough for the miners to work by without exploding the fire-damp, and the pain- ful incidents above described only served to quicken his eager- ness to master the difficulty. •180 STEPHENSON'S FIRST IDEA OF A SAFETY-LAMP. [Paet II. ' For several years he had been engaged, in his own rude way, in making experiments with the fire-damp in the Killingworth mine. The pitmen used to expostulate with him on these occa- sions, believing the experiments to be fraught with danger. One of the sinkers, called M'Crie, observing him holding up lighted candles to the windward of the " blower" or fissure from which the inflammable gas escaped, entreated him to desist ; but Ste- phenson's answer was, that " he was busy with a plan by which he hoped to make his experiments useful for preserving men's 'lives." On these occasions the miners usually got out of the way before he lit the gas. • In 1815, although he was very much occupied with the busi- ness of the collieries and the improvement of his locomotive en- gine, he was also busily engaged in making experiments upon the inflammable gas in the Killingworth Pit. As he himself aft- erward related to the Committee of the House of Commons which sat on the subject of Accidents ia Mines in 1835, he imagined that if he could construct a lamp with a chimney so arranged as to cause a strong current, it would not fire at the top of the chim- ney, as the burnt air would ascend with such a velocity as to pre- vent the inflammable air of the pit from descending toward the flame ; and such a lamp, he thought, might be taken into a dan- gerous atmosphere without risk of exploding. Such was Stephenson's theory, when he proceeded to embody his idea of a miner's safety-lamp in a practical form. In the month of August, 1815, he requested his friend Mcholas Wood, the head viewer, to prepare a drawing of a lamp according to the description which he gave him. After several evenings' careful deliberations, the drawing was prepared, and it was shown to several of the head men about the works. " My first lamp," said Stephenson, describing it to the committee above referred to, " had a chimney afethe top of the lamp, and a tube at the bottom to admit the atmospheric air, or fire-damp arid air, to feed the burner or combustion of the lamp. I was not aware of the pre- cise quantity required to feed the combustion ; but to know what quantity was necessary, I had a slide at the bottom of the tube in my first lamp, to admit such a quantity of air as might event- ually be found necessary to keep up the combustion." Accompanied by his friend Wood) Stephenson went into New- Chap. VI.] THE FIRST SAFETY-LAMP MADE. 181 castle, and ordered a lamp to be made Recording to his plan by the Messrs. Hogg, tinmen, at the head of the Side — a well-known street in Newcastle. At the same time, he ordered a glass to be made for the lamp at the Northmnberland Glass-house in the same town. This lamp was received from the makers on the 21st of October, and was taken to Killingworth for the purpose of immediate experiment. " I remember that evening as distinctly as if it had been but yesterday," said Eobert Stephenson, describing the circumstances to the author in 185Y. " Moodie came to our cottage about dusk, and asked ' if father had got back with the lamp.' ' No.' ' Then I'll wait till he comes,' said Moodie ; ' he can't be long now.' In about half an hour, in came my father, his face all radiant. He had the lamp with him ! It was at once uncovered and shown to Moodie. Then it was filled with oil, trimmed, and lighted. All was ready, only the head viewer hadn't arrived. ' Eun over to Benton for Mchol, Eobert,' said my father to ' me, ' and ask him to come directly ; say we're going down the pit to try the lamp.' By this time it was quite dark, and off I ran to bring Nicholas "Wood. His house was at Benton, about a mile off. There was a short cut through Benton Church-yard, but just as I was about to pass the wicket I saw what I thought was a white figure moving about among the grave-stones. I took it for a ghost ! My heart fluttered, and I was in a great fright, but to Nichol's hou^e I must get, so I made the circuit of the church- yard ; and when I got round to the other side I looked, and, lo ! the figure was still there. But what do you think it was ? Only the grave-digger, plying his work at that late hour by the light of his lantern set upon one of the grave-stones ! I found "Wood at home, and in a few minutes he was mounted and off to my fa- ther's. "When I got home I was told they had just left — it was then about eleven — and gone down the shaft to try the lamp in one of the most dangerous parts of the mine." Arrived at the bottom of the shaft with the lamp, the party directed their steps toward one of the foulest galleries in the pit, where the explosive gas was issuing through a blower in the roof of the mine with a loud hissing noise. By erecting some deal boarding round that part of the gallery into which the gas was ; escaping, the air was thus made more foul for the purpose of the 182 THE " GEORDY" SAFETY-LAMP TRIED. [Pabt n. experiment. After wjiiting about an hour, Moodie, whose prac- tical experience of jSre-damp in pits was greater than that of either Stephenson or Wood, was requested to go into the place which had thus been made foul ; and, having done so, he re- turned, and told them that the smell of the air was such that if a lighted candle were now introduced an explosion must inevita- bly take place. He cautioned Stephenson as to the danger both to themselves and to the pit if the gas took fire ; but Stephenson declared his confidence in the safety of his lamp, and, having lit the wick, he boldly proceeded with it toward the explosive air. The others, more timid and doubtful, hung back when they came within hearing of the blower; and, apprehensive of the danger, they retired into a safe place, out of sight of the lamp, which gradually disappeared with its bearer in the recesses of the mine. It was a critical moment, and the danger was such as would have tried the stoutest heart. Stephenson, advancing alone, vrith his yet untried lamp, in the depths of those underground workings, cahnly venturing his life in the determination to discover a mode by which the lives of many might be saved, and death disarmed in» these fatal caverns, presented an example of intrepid nerve and manly courage more noble even than that which, in the ex- citement of battle and the collective impetuosity of a charge, car- ries a man up to the cannon's mouth. Advancing to the place of danger, and entering within the fouled air, his lighted lamp in hand, Stephenson held it firmly out, in the full current of the blower, and withia a few iaches of its mouth. Thus exposed, the flame of the lamp at first increased, then flickered, and then went out ; but there was no explosion of the gas. Returniag to his companions, who were still at a dis- tance, he told them what had occurred. Having now acquired somewhat more confidence, they advanced with him to a point from which they could observe the experiment repeated, but still at a safe distance. They saw that when the lighted lamp was held vrithin the explosive mixture, there was a great flame ; the lamp was almost full of fire ; and then it seemed to be smothered out. Agaia returning to his companions, he relighted the lamp, and repeated the experiment. This was done several times, with the same result. At length Wood and Moodie ventured to ad- vance close to the fouled part of the pit ; and, in making some •Chap. VI;] THE LAMP IMPROVED. 183 of the later trials, Mr. Wood himself held up the lighted lamp to the blower.* Such was the result of the first experiments with \he first practical Miner's Safety-lamp, and |^eh was the daring resolution of its inventor in testing its qualities. Before leaving the pit, Stephenson expressed his opinion that, by an alteration of the lamp which he contemplated, he could make it bum better. This was by a change in the slide through which the air was admitted into the lower part of the lamp, un- der the flame. After making some experiments on the air col- lected at the blower, by means of bladders which were mounted with tubes of various diameters, he satisfied himself that, when the tube was reduced to a certain diameter, the explosion would not pass through ; and he fashioned his slide accordingly, reduc- ing the diameter of the tube until he conceived it was quite safe. In about a fortnight the experiments were repeated in the pit, in a place purposely made foul as before. On this occasion a larger number of persons ventured to witness the experiments, which again proved successful. The lamp was not yet, however, so effi- cient as the inventor desired. It required, he observed, to be * The accuracy of the above statement haTing been called in question, it is proper to state that the facts as set forth were yerbally communicated to the author in the first place by Kobert Stephenson, to whom the chapter was afterward read in MS. in the presence of Mr. Sopwith,F.R.S., and received his entire approval But at the time at which Mr. Stephenson communicated the verbal information, he also handed a little book with his name written in it, still in the author's possession, saying, "Kead that ; you will find it all there. " This little book contains, among other things, a pamphlet, entitled "Report on the Claims of Mr. George Stephenson relative to the Invention of his Safety-lamp. By the Committee appointed at a Meeting holden in Newcastle, on the 1st of November, 1817. With an Appendix containing the Evi- dence." Among the witnesses examined were George Stephenson, Nicholas Wood, and John Moodie, and their evidence is given in the pamphlet. Stephenson said that he tried the first lamp "in a part of the mine where the air was highly explosive. Nicholas Wood and John Moodie were his companions when the trial was made. They became frightened when they came within hearing of the blower, and would not go any farther. Mr. Stephenson went alone with the lamp to the mouth of the blow- er," etc. This evidence was confirmed by John Moodie, who said the air of the place where the experiment was about to be tried was such, that, if a lighted candle had been introduced, an explosion would have taken place that would have been "ex- tremely dangerous." "Told Stephenson it was fotd, and hinted at the danger ; nev- ertheless, Stephenson would try the lamp, confiding in its safety. Stephenson took the lamp and went with it into the place in which Moodie had been, and Moodie and Wood, apprehensive of the danger, retired to a greater distance, "etc. The accuracy of the other statements made in the text relative to the invention of the safety-lamp is confirmed by the same publication. 184 EXPERIMENTS WITH EXPLOSIVE 6AS. [Part H." kept very steady when burning in tlie inflammable gas, othervsdse it was liable to go out, in consequence, as he imagined, of the contact of the burAkair (as he then called it), or azotic gas, which lodged round the exterior of the flame. If the lamp was moved backward and forward, the azote came in contact with the flame and extinguished it. "It struck me," said he, "that if I put more tubes in, I should discharge the poisonous matter that hung round the flame by admitting the air to its exterior part." Although he had tiien no access to scientific works, nor in- tercourse with scientific men, nor any thing that could assist him in his inquiries on the subject besides his own indefati- gable spirit of inquiry, Stephenson contrived a rude apparatus, by means of which he proceeded to test the explosive properties of the gas and the velocity of current (for this was the direction of his inquiries) required to permit the explosion to pass through tubes of different diameters. In making these experiments in his cottage at the West Moor, Nicholas Wood and George's son Eobert usually acted as his assistants, and sometimes the gentle- men of the neighborhood — among others, William Brandling and Matthew Bell, who were interested in coal-mimng — attended as spectators. One who was present on such an occasion remem- bers that, when an experiment was about to be performed, and all was ready, George called to Mr. Wood, who worked the stop- cocks of the gasometer, "Wise on [turn on] the ^hydrogen, Mchol!" These experiments were not performed without risk, for on one occasion the experimenting party had nearly blown ofE the roof of the cottage. One of these " blows up" was described by Stephenson himself before the Committee on Accidents in Coal Mines in 1835 : " I made several experiments," said he, " as to the velocity re- quired in tubes of different diameters, to prevent explosion from fire-damp. We made the mixture in all proportions of light car- bureted hydrogen with atmospheric air in the receiver, and we found by the experiments that when a current of the most explo- sive mixture that we could make was forced up a tube four tenths of an inch in diameter, the necessary current was nine inches in a second to prevent its coming down that tube. These experiments were repeated several times. We had two or three blows up in Chap. VI.] A SAD MISHAP.— EXPERIMENTS. 185 making the experiments, by the flame getting down into the re- ceiver, though we had a piece of very fine wire-gauze put at the bottom of the pipe, between the receiver and the pipe through which we were forcing the current. In one of these experiments I was watching the flame in the tube, my son was taking the vibra- tions of the pendulum of the clock, and Mr. "Wood was attending to give me the column of water as I called for it, to keep the cur- rent up to a certain point. As I saw the flame descending in the tube I called for more water, and Wood unfortunately turned the cock the wrong way ; the current ceased, the flame went down the tube, and all our implements were blown to pieces, which at the time we were not very well able to replace." The explosion of this glass receiver, which had been borrowed from the stores of the Philosophical Society at Newcastle for the purpose of making the experiments, caused the greatest possible dismay among the party, and they dreaded to inform Mr. Turner, the secretary,* of the calamity which had occurred. Fortunate- ly, none of the experimenters were injured by the accident. Stephenson followed up these experiments by others of a simi- lar kind, with the view of ascertaining whether ordinary flame would pass through tubes of a small diameter, and with this ob- ject he filed off the barrels of several small keys. Placing these together, he held them perpendicularly over a strong flame, and ascertained that it did not pass upward. This was. a farther proof to him of the soundness of the principle on which he had been proceeding. In order to correct the defect of his first lamp, he accordingly proceeded to alter it so as to admit the air to the flame by several tubes of reduced diameter instead of by a single tube. He in- * The early connection of Robert with the Philosophical and Literary Society of Newcastle had brought him into communication with the Eev. William Turner, one of the secretaries of the institution. That gentleman was always ready to assist the inquirer after knowledge, and took an early interest in the studious youth from Kil- lingworth, with whose father he also became acquainted. Mr. Turner cheerfuUy helped them in their joint inquiries, and excited whUe he endearored to satisfy their thirst for scientific information. Toward the close of his life Mr. Stephenson often spoke of the gratitude and esteem he felt toward his revered instructor. "Mr. Turner," he said, "was always ready to assist me with books, with instruments, and with counsel, gratuitously and cheerfiiUy. He gave me the most valuable assistance and instruction, and to my dying day I can never forget the obligations which I owe to my venerable friend. " 186 SECOND AND THIRD LAMPS. [PAKin. ■ ; ferred that a sufficient quantity of air would thus be introduced into the lamp for the purposes of combustion, while the smaU- ness of the apertures would stiU prevent the explosion passing downward, at the same time that the " burnt air" (the cause, in his opinion, of the lamp going out) would be more effectually dislodged. The requisite alterations were made ia the lamp by Mr. Matthews, a tinman in Newcastle, and it was so altered that the air was admitted by three small tubes inserted in the bot- tom, the openings of which were placed on the outside of the burner, instead of having (as in the original lamp) the one tube opening directly under the flame. This second or altered lamp was tried in the Kjllingworth Pit on the 4th of November, and was found to bum better than the first lamp, and to be perfectly safe. But, as it did not yet come up entirely to the inventor's expectations, he proceeded to contrive a third lamp, in which he proposed to surround the oil vessel with a number of capillary tubes. Then it struck him that if he cut off the middle of the tubes, or made holes in metal plates, placed at a distance from each other equal to the length of the tubes, the air would get in better, and the effect in preventing the com- munication of explosion would be the same. He was encouraged to persevere in the completion of his safe- ty-lamp by the occurrence of several fatal accidents about this time in tie Killingwortii Pit. On the 9th of November a boy was killed by a blast in the A pit, at the very place where Ste- phenson had made the experiments with his first lamp ; and, when told of the accident, he observed that if the boy had been provided with his lamp, his life would have been saved. On the 20th of November he went over to Newcastle to order his third lamp from Mr. Watson, a plumber in that town. Mr. Watson referred him to his clerk, Henry Smith, whom Stephenson invited to join him at a neighboring public house, where they might quietly talk over the matter, and finally settle the plan of the new lamp. They adjourned to the " Newcastle Arms," near the present High-Level Bridge, where they had some ale, and a design of the lamp was drawn in pencil upon a half -sheet of foolscap, with a rough spe- cification subjoined. The sketch, when shown to us by Eobert Stephenson some years since, stiU bore the marks of the ale. It was a very rude design, but sufficient to work from. It was im- Chap. VI.] INVENTION OF THE "GEORDY" SAFETY-LAMP. 187 mediately placed in the hands of the workmen, finished in the course of a few daj^s, and experimentally tested in the Killing- worth Pit like the previous lamps on the 30th of November, by DAVY 8 BAFETy-LAMP. STEPHENSON 8 SAFETY -LAilP. which date neither Stephenson nor Wood had heard of Su- Hum- phry Davy's experiments, nor of the lamp which that gentleman proposed to constract. An angry controversy afterward took place as to the respective merits of George Stephenson and Sir Humphiy Davy in respect of the invention of the Safety-lamp. A committee was formed on both sides, and the facts were stated in various ways. It is perfectly clear, however, that Stephenson had ascertained the fact that flame will not pass thi-ough tubes of a certain diameter — the principle on which the safety-lamp is constiaicted — before Sir Humplny Davy had formed any definite idea on the subject, or invented the model lamp afterward exliibited by him before the Eoyal Society. Stephenson had actually constructed a lamp on such a principle, and proved its safety, before Sir Humphry had communicated his "sdews on the subject to any person ; and by the time that the first public intimation had been given of his discov- eiy, Stephenson's second lamp had been constructed and tested in 188 THE STEPHENSON AND DA VY CONTROVERSY. [Part II. like manner in the Killingworth Pit. The first was tried on the 21st of October, 1815 ; the second was tried on the 4:th of Novem- ber ; but it was not until the 9th of November that Sir Humphry Davy presented his first lamp to the public. And by the 30th of the same month, as we have seen, Stephenson had constructed and tested his third safety-lamp. Stephenson's theory of the " burnt air" and the " draught" was no doubt wrong, but his lamp was right, and that was the great fact which mainly concerned him. TorriceUi did not know the rationale of his tube, nor Otto von Guericke that of his air-pump ; yet no one thinks of denying them the merit of their* inventions on that account. The discoveries of Volta and Galvani were in like manner independent of theory ; the greatest discoveries con- sisting in bringing to light certain grand facts, on which theories are afterward framed. Our inventor had been pursuing the Ba- conian method, thoilgh he did not think of that ; his sole object being to invent a safe lamp, which he knew could only be done through the process of repeated experiment. Hence his numer- ous experiments on the fire-damp at .the blowers in the mine, as well as on carl^ureted hydrogen gas in his cottage by means of the apparatus above described. By experiment he distinctly as- certained that the explosion of fire-damp could not pass through small tubes ; and he also did what had not before been done by any inventor — ^he constructed a lamp on this principle, and re- peatedly proved its safety at the risk of his life. At the same time, there is no doubt that it was to Sir Humphiy Davy that the merit belonged of elucidating the true law on which the safety- lamp is constructed. The subject of this important invention excited so much inter- est in the northern mining districts, and Stephenson's numerous friends considered his lamp so completely successful — having stood the test of repeated experiments — that they urged him to bring his invention before the Philosophical and Literary Society of Newcastle, of whose apparatus he had availed himself in the course of his experiments on fire-damp. After much persuasion he consented to do so, and a meeting was appointed for the pur- pose of receiving his explanations on the evening of the 5th of December, 1815. Stephenson was at that time so difl5dent in manner and unpracticed in speech, that he took with him his friend Chap. VI.] THE " GEORDY" SAFETY-LAMP EXHIBITED. 189 ISTicholas Wood to act as his interpreter and expositor on the oc- casion. From, eighty to a hundred of tlie most intelligent mem- LliKKAKl AND UILOSU 11 OAL 1 bT TUTE, NEWCASTLE. here of the society were present at the meeting, when Mi-. Wood stood forward to expound the principles on which the lamp had been formed, and to describe the details of its construction. Sev- eral questions were put, to which Mr. Wood proceeded to give re- plies to the best of his knowledge. But Stephenson, who up to that time had stood behind Wood, screened fi-om notice, observing that the explanations given were not quite correct, could no longer control himseK, and, standing forward, he proceeded in his strong ^Northumbrian dialect to describe the lamp down to its minutest details. He then produced several bladder's full of carbureted hydrogen, which he had collected from the blowers in the Kill- ingworth mine, and proved the safety of his lamp by numerous experiments with the gas, repeated in various ways, his earnest and impressive manner exciting in the minds of his auditors the liveliest interest both in the inventor and his invention. Shortly after. Sir H. Davy's model lamp was received and ex- hibited to the coal-miners at Newcastle, on which occasion the observation was made by several gentlemen, " IVhy, it is the same as Stephenson's !" 190 STEPHENSON'S MERITS DENIED. [Part U. Notwithstanding Stephenson's claim to be regarded as the first inventor of the Tube Safety-lamp, his merits do not seem to have been generally recognized. Sir Humphry Davy carried ofE the larger share of the eclat which attached to the discovery. What chance had the unknown workman of KUlingworth with so dis- tinguished a competitor ? The one was as yet but a coUiery en- giue-wrightj scarce raised above the manual-labor class, without chemical knowledge or literary culture, pursuing his experiments in obscurity, with a view only to usefulness ; the other was lie scientific prodigy of his day, the pet of the Koyal Society, the favorite of princes, the most brffliant of lecturers, and tiie most popular of philosophers. No small indignation was expressed by the friends of Sir Hum- phry Davy at Stephenson's "presumption" iu laying claim to the invention of the Safety-lamp. The scientific class united to ig- nore him entirely in the matter* In 1831, Dr. Paris, in his " Life of Sir Humphry Davy," thijs viTote : " It wiU hereafter be scarcely believed that an invention so eminently scientific, and which could never have been derived but from the sterling treas- ury of science, should have been claimed on behalf of an en- gine-wright of Killingworth, of the name of Stephenson — a per- son not even possessing a knowledge of the elements of chemis- fay." But Stephenson was really far above claiming for himself an invention not his own. He had already accomplished a far greater thing even tiian the making of a safety-lamp: he had constructed a successful locomotive, which was to be seen in daily work on tiie Killingworth Kailway. By the improvements he had made in the engine, he might almost be said to have i/nment- ed it ; yet no one — not even the philosophers — detected as yet the significance of that wonderful machine. It excited no scientific interest, called forth no leading articles in the newspapers or the reviews, and formed the subject of no eloquent lectures at the Eoyal Society ; for railways were as yet comparatively unknown, and the might which slumbered in the locomotive was scarcely, as yet, even dreamed of. What railways were to become rested in a great measure with tiiat " engine-wright of Killingworth, of the name of Stephenson," though he was scarcely known as yet beyond the bounds of his own district. Chap. VI.] THE DAVY TESTIMONIAL. 191 As to the ¥alue of the invention of the safety-lamp there could be no doubt, and the colliery owners of Durham and Northum- berland, to testify their sense of its importance, determined to present a testimonial to its inventor. The friends of Sir H. Davy met in August, 1816, to take steps to raise a subscription for the purpose. The advertised object of the meeting was to present Mm with a reward' for the iuvention oi his safety-lamp." To this no objection could be taken; for, though the principle on which the safety-lamps of Stephenson and Davy were constructed was the same, and although Stephenson's lamp was unquestion- ably the first successful lamp that had been constructed on such principle, and proved to be efficient, yet Sir H. Davy did invent a safety-lamp, no doubt quite independently of all that Stephen- son had done ; and having directed his careful attention to the subject, and elucidated the true theory of explosion of carbureted hydrogen, he was entitled to aU praise and reward for Ms labor. But when the meeting of coal-owners proposed to raise a sub- scription for the purpose of presenting Sir H. Davy with a reward for "his invention of the safety-lamp," the case was entirely altered, and Stephenson's friends then proceeded to assert his claims to be regarded as its first inventor. Many meetings took place on the subject, and much discussion ensued, the result of which was that a sum of £2000 was pre- sented to Sir Humphry Davy as "the inventor of the safety- lamp ;" but, at the same time, a purse of 100 guineas was voted to George Stephenson, in consideration of what he had done ia the same direction. This result was, however, very unsatisfac- tory to Stephenson, as well as to his friends; and Mr. Brandling, of Gosforth, suggested to Mm that, the subject being now fairly before the public, he should publish a statement of the facts on wMch Ms claim was founded. But this was not at all in George Stephenson's line. He had never appeared in print before, and it seemed to Mm a far more formidable thing to write a letter for publication in "the papers" than even to invent a safety-lamp or design a locomotive. Hav- ing called his son Eobert to his assistance, he set Mm down be- fore a sheet of foolscap, and when all was ready, he said, "N'ow, put down there just what I tell you." The composition of tMs letter, as we were informed by the writer of it, occupied more 192 TEE STEPHENSON TESTIMONIAL. [Pakt II. evenings than one; and when it was at length finished after many corrections, and fairly copied out, the father and son set out — the latter dressed in his Sunday's round jacket — to lay the joint production before Mr. Brandling, at Gosforth House. Glancing over the letter, Mr. BrandHng said, " George, this .will never do." " It is all true, sir," was the reply. " That may be ; but it is badly written." Robert blushed, for he thought it was the penmanship that was called in question, and he had written his very best. Mr. Brandling then requested his visitors to sit down while he put the letter in a more poHshed form, which he did, and it was shortly after published in the local papers. As the controversy continued for some time longer to be car- ried on in the Newcastle papers, Mr. Stephenson, in the year 181Y, consented to publish the detailed plans, with descriptions, of the several safety-lamps which he had contrived for use in the Killingworth Colliery. The whole forms a pamphlet of only sixteen pages of letter-press.* His friends, being fully satisfied of his claims to priority as the inventor of the safety-lamp used in the Killingworth and other collieries, proceeded to hold a public meeting for the pur- pose of presenting him with a reward " for the valuable service he had thus rendered to mankind." Charles J. Brandling, Esq., occupied the chair; and several resolutions were passed, of which the first and most important was as follows: "That it is the opinion of this ineeting that Mr. George Stephenson, having dis- covered the fact that explfsion of hydrogen gas will not pass through tubes and apertures of small dimensions, and having been the first to apply that jprmcvple in the constnuition of a 8afety-lam,p, is entitled to a public reward." A subscription was immediately commenced with this object, and a committee was formed, consisting of the Earl of Strath- more,' C. J. Brandling, and others. The subscription list was headed by Lord Ravensworth, one of the partners in the Killing- worth Colliery, who showed his appreciation of the merits of Stephenson by giving 100 guineas. 0. J. Brandling and part- ners gave a like sum, and Matthew BeU and partners, and John BrandKng and partners, gave 50 guineas each. * "A Description of the Safety-lamp, invented by Geoi-ge Stephenson, and now in use in the Killingworth CoUiery." London, 1817. Chap. VI.] THE STEPHENSON AND DAVY CONTROVERSY. 193 When the resolutions appeared in the newspapers, the scien-' tific friends of Sir Humphry Davy in London met, and passed a series of counter-resolutions, which they published, declaring their opinion that Mr. Stephenson was not the author of the dis- covery of the fact that explosion of hydrogen will not pass through tubes and apertures of small dimensions, and that he was not the first to apply that principle to the construction of a safety-lamp. To these counter -resolutions were attached the well-known names of Sir Joseph Banks, P.R.S., "WiUiam Thomas Brande, Charles Hatchett, W. H. WoUaston, and Thomas Young. Mr. Stephenson's friends then, to make assurance doubly sure, and with a view to set the question at rest, determined to take evidence in detail as to the date of discovery by George Stephen- son of the fact in question, and its practical application by him in the formation and actual trial of his safety-lamp. The wit- nesses examined were George Stephenson himself, Mr. Mcholas Wood, and John Moodie, who had been present at the first trial of the lamp ; the several tinmen who made the lamps ; the secre- tary and other members of the Literary and Philosophical Society of Newcastle, who were present at the exhibition of the third lamp ; and some of the workmen who were present at the KiU- ingworth Colliery, who had been witnesses of Stephenson's ex- periments on fire-damp made with the lamps at different times before Sir Humphry Davy's investigations had been heard of. This evidence was quite conclusive to the minds of the gentle- men who investigated the subject, and they published it in 1817, together with their Report, in which they declared that, " after a careful inquiry into the merits of the case, conducted, as they trust, in a spirit of fairness and moderation, they can perceive no satisfactory reason for changing their opinion."* * The committee, in their report, after setting forth in a tahular form the dates at which Stephenson and Davy verified their theories by experiments, and brought out their respective safety-lamps, proceeded to say: "The friends of Mr. Stephenson, with this table before them, conceive their resolution to be fully borne out by the tes- timony of dates and facts, so far as they are known ; and without the slightest idea or wish of detracting from the scientific fame, honor, or veracity of Sir Humphry Davy, they would repeat, and confine themselves to the simple assertion of their be- lief, that Mr. Stephenson was the first to construct a lamp upon the principle in ques- tion.' And when the friends of Mr. Stephenson remember the humble and laborious station of life which he has occupied ; when they consider the scanty means and op- portunities which he has had for pursuing researches in practical science, and look to 194: THE STEPHENSON AND DAVY LAMPS. [Paet H. The Stephenson subscription, when collected, amounted to £1000. Part of the money was devoted to the purchase of a silver tankard, which was presented to the inventor, together with the balance of the subscription, at a public dinner given in the Assembly Kooms at Newcastle.* But what gave Stephen- son even greater pleasure than the silver tankard and piu-se of sovereigns was the gift of a silver watch, purchased by small sub- scriptions collected among the colliers themselves, and presented to him by them as a token of their esteem and regard for him as a man, as well as of their gratitude for the perseverance and skill with which he had prosecuted his valuable and life-saving invention to a successful issue. To the last day of his life he spoke with pride of this watch as the most highly-prized gift he had ever received. However great may be the merits of Stephenson in connection with the invention of the tube safety-lamp, they can not be re- garded as detracting in any degree from the reputation of Sir Humphry Davy. His inquiries into the explosive properties of carbureted hydrogen gas were quite original, and his discovery of the fact that explosion will not pass through tubes of a certain diameter was made independently of all that Stephenson had done in verification of the same fact. It would even appear that Mr. Smithson Tennant and Dr. Wollaston had observed the same fact several, years before, though neither Stephenson nor Davy knew of it while they were prosecuting their experiments. Sir Humphry Davy's subsequent modification of the tube-lamp, by which, while diminishing the diameter, he in the same ratio shortened the tubes without danger, and in the form of wire- the improvements and discoveries -which, notwithstanding so many disadvantages, he has been enabled to make hy the judicious and unremitting exercise of the energy and acuteness of his natural understanding, they can not persuade themselves that they have said any thing more than any liberal and feeling mind would most readily admit." * The tankard bore the follo^fing inscription : "This piece of plate, purchased with a part of the sum of JEIOOO, a subscription raised for the remuneration of Mr. Geokoe Stephenson for having discovered the fact that inflamed fire-damp will not pass through tubes and apertures of small dimensions, and having been the first to apply that principle in the construction of a safety-lamp calculated for the preservation of human life in situations formerly of the greatest danger, was presented to him at a meeting of the subscribers, Charles John Brandling, Esq., in the chair, January 12tb, 1818." Chap. VI.] MERITS OF THE ''GEORDY" SAFETY-LAMP. 195 gauze enveloped the safety-lamp by a multiplicity of tubes, was a beautiful application of the true theory which he had formed upon the subject. The increased number of accidents which have occurred from explosions in coal-mines since the general introduction of the Davy lamp led to considerable doubts being entertained as to its safety, and inquiries were consequently made as to the means by which it might be farther improved ; for experience has shown that, under certain circumstances, the Davy lamp is riot safe. Stephenson was himself of opinion that the modification of his own and Sir Humphry Davy's lamp, by combining the glass cyl- inder with the wire-gauze, would give the best lamp. At the same time, it must be admitted that the Davy and the Geordy lamps alike failed to stand the severe tests to which they were submitted by Dr. Pereira, before the Committee, on Accidents in Mines. Indeed, Dr. Pereira did not hesitate to say that, when exposed to a current of explosive gas, the Davy lamp is " de- cidedly unsafe," and that the experiments by which its safety had been "demonstrated" in the lecture-room had proved entirely " fallacious." It is worthy of remark that, under circumstances in which the wire-gauze of the Davy lamp becomes red-hot from the high ex- plosiveness of the gas, the Geordy lamp is extinguished ; and we caji not but think that this fact testifies to the decidedly superior safety of the Geordy. An accident occurred in the Oaks Col- liery Pit at Bamsley on the 20th of August, 1857, which strik- ingly exemplified the respective qualities of the lamps. A sud- den outburst of gas took place from the floor of the mine along a distance of fifty yards. Fortunately, the men working in the pit at the time were all supplied with safety-lamps — the hewers with Stephenson's, and the hurriers with Davy's. On this occa- sion, the whole of the Stephenson lamps, over a space of five hundred yards, were extinguished almost instantaneously; where- as the Davy lamps were filled with fire and became red-hot, so that several of the men using them had their hands burnt by the gauze. Had a strong current of air been blowing through the gallery at the time, an explosion would most probably have taken place — an accident which, it will be observed, could not, un- der such circumstances, occur from the use of the Geordy, 196 MERITS OF THE " GEORDY" SAFETY-LAMP. [Paet II. which is immediately extinguished as soon as the air becomes explosive.* Nicholas Wood, a good judge, has said of the two inventions, " Priority has been claimed for each of them — I believe the in- ve ntions to be par allel. By different roads they both arrived at the same result. Stephenson's is the superior lamp. Davy's is safe — Stephenson's is safer." When the question of priority was under discussion at Mr. Lough's studio in 185Y, Sir Matthew White Eidley asked Eobert Stephenson, wjio was present, for his opinion on the subject. His answer was, " I am not exactly the person to give an unbiased * The accident above referred to was described in the " Bamsley Times," a copy of which, containing the account, Eobert Stephenson forwarded to the author, with the observation that "it is evidently written by a practical miner, and is, I think, worthy of record in my father's Life." Mr. John Browne, C.E., Bamsley, in a com- munication which appeared in the " Times" of December 24th, 1860, observed : "At the period of this occurrence we had two kinds of safety-lamps in use in this pit, viz., 'Davy' and ' Stephenson,' and the gas, in going oiF to the upcast shaft, had to pass great numbers of men, who were at work with both kinds of lamps. The whole of the ' Davy's' became red-hot almost instantaneously from the rapid ignition of the gas within the gauze ; the ' Stephenson's' were as instantly self-extinguished from the same cause, it being the prominent qualification of these lamps that, in ad- dition to affording a somewhat better light than the ' Davy' lamp, they are suddenly extinguished when placed within a highly explosive atmosphere, so that no person can remain working and run the risk of his lamp becoming red-hot, which, under such circumstances, would be the result with the ' Davy' lamp. " The red-hot lamps were, most fortunately, all safely put out, although the men in many cases had their hands severely burnt by the gauze ; but from that time I fiilly resolved to adopt the exclusive use of the ' Stephenson' lamps, and not expose men to the fearful risk they must run from working with ' Davy' lamps during the probable recurrence of a similar event. ' ' I may remark that the ' Stephenson' lamp, originally invented by the great George Stephenson, in its present shape combines the merits of his discovery with that of Sir Humphry Davy, constituting, to my mind, the safest lamp at present known, and I speak from the long use of many hundreds daily in various collieries." In an account given in the " Times" of the 10th of August, 1867, of a number of experiments made upon different safety-lamps at the Barnsley Gas-works, occasioned by the terrible explosion at the Lund HiU Colliery, it is stated that the different lamps were tested with the following results : "The ' Davy' lamp with no shield on the outside exploded the gas in six seconds, and with the shield inside the gauze in nine seconds. The ' Belgian' lamp exploded in ten seconds ; the ' Mozard' in ten seconds ; the small ' Clanny' in seven seconds, the large one in ten seconds ; and the ' Stephenson! in seventy-five seconds. Although the ' Stephenson' is undoubtedly the best, it will be seen that none of the so-called safety-lamps can be depended upon when coming in contact with a strong exphsive current of fire-damp and air." Chap. VI.] THE "GEORDY" SAFETY-LAMP. 197 opinion ; but, as you ask me frankly, I will as frankly say, that if George Stephenson had never lived, Sir Humphry Davy could and most probably would have invented the safety-lamp ; but again, if Sir Humphry Davy had never hved, George Stephen- son certainly would have invented the safety-lamp, as I believe he did, independently of all that Sir Humphry Davy had done in the matter." To this day the Geordy lamp continues in regular use in the Killingworth ColHeries, and the KiUingworth pitmen have ex- pressed to the writer their decided preference for it compared with the Davy. It is certainly a strong testimony in its favor that no accident is known to havg arisen from its use since it was generally introduced into the Killingworth pits. THE STEPDENBON TANKAKD. 198 KILLINGWORTH COAL-MINING.' [PaetH. CHAPTEE Vn. GEOEGE Stephenson's faktbdee impeovements m the locomotive THE HETTON EAILWAY EOBEET STEPHENSON AS VIEWEE's AP- PEENTIOE and STUDENT. Stephenson's experiments on fire-damp, and his labors in con- nection with the invention of .the safety-lamp, occupied but a small portion of his time, which was necessarily devoted, for the most part, to the ordinary business of the colliery. From the day of his appointment as engine-wright, one of the subjects which particularly occupied his attention was the best practical method . of winning and raising the coal. Nicholas "Wood has said of him that he was one of the first to introduce steam ma- chinery underground with that object. Indeed, the Killingworth mines came to be regarded as the models of the district; and when Mr. Kobert Bald, the celebrated Scotch mining engineer, was requested by Dr. (afterward Sir David) Brewster to prepare the article " Mine" for the " Edinburg Encyclopaedia," he pro- seeded to Kjllingworth principally for the purpose of examining Stephenson's underground machinery. Mr. Bald has favored us with an account of his visit made with that object in 1818, and tie states that he was much struck vdth the novelty, as well as the remarkable efficiency of Stephenson's arrangements, especial- ly in regard to what is called the underdip working. " I found," he says, " that a mine had been commenced near the nain pit-bottom, and carried forward down the dip or slope of the 3oal, the rate of dip being about one in twelve ; and the coals were irawn from the dip to the pit-bottom by the steam machinery in a (rery rapid manner. The water which oozed from the upper win- aing was disposed of at the pit-bottom in a barrel or trunk, and was drawn up by the power of the engine which worked the other machinery. The dip at the time of my visit was nearly a mile in length, but ha*s since been greatly extended. As I was consider- ably tired by my wanderings in the galleries, when I arrived at the CHAP.vn.] THE LOCOMOTIVE AND THE ROAD. 199 forehead of the dip, Mr. Stephenson said to me, ' You may very speedily he carried up to the rise by laying yourself flat upon the coal-haskets,' which were laden and ready to be taken up the in- cline. This I at once did, and was straightway wafted on the wings of fire to the bottom of the pit, from whence I was borne swiftly up to the light by the steam machinery on the pit-head." The whole of the working arrangements seemed to Mr. Bald to be conducted in the most skillful and efficient manner, reflect-, ing the highest credit on the colliery engineer. Besides attending to the underground arrangements, the im^ proved transit of the coals above ground fromjthe pit-head to the shipping-place demanded an increasing share of Stephenson's at- tention. Every day's experience convinced him that the locomo- tive constructed by him after his patent of the year 1816 was far from perfect, though he continued to entertain confident hopes of its complete eventual success. He even went so far as to say that the locomotive would yet supersede every other traction- power for drawing heavy loads. It is true, many persons contin- ued to regard his traveling engine as little better than a danger- ous curiosity ; and some, shaking their heads, predicted for it " a terrible blow-up some day." Nevertheless, it was daily perform- ing its work with regularity, dragging the coal-wagons between the colliery and the staiths, and saving the labor of many men and horses. There was not, however, so marked a saving in the expense of haulage as to induce the coUiery masters to adopt locomotive power generally as a substitute for horses. How it could be im- proved, and rendered more efficient as well as economical, was constantly present to Stephenson's mind. He was fuUy con- scious of the imperfections both in the road and the engine, and gave himself no rest until he had brought the efficiency of both up to a higher point. Thus he worked his way inch by inch, slowly but surely, and every step gained was made good as a ba- sis for farther improvements. At an early period of his labors, or about the time when he had completed his second locomotive, he began to direct his par- ticular attention to the state of the Eoad, perceiving that the ex- tended use of the locomotive must necessarily depend in a great measure upon the perfection, solidity, continuity, and smoothness 200 HALF-LAP JOINTED RAILS. [Past II. of the way along whicli the engine traveled. Even at that early period he was in the habit of regarding the road and the loco- motive as one machine, speaking of the Eail and the Wheel as "Man and Wife." AH railways were at that time laid in a careless and loose man- ner, and great inequalities of level were allowed to occur without much attention being paid to repairs. The consequence was a great loss of power, as well as much wear and tear of the ma- chinery, by the frequent jolts and blows of the wheels against the rails. Stephenson's first object, therefore, was to remove the in- equalities produced by the imperfect junction between rail and raiL At that time (1816) the rails were made of cast iron, each rail being about three feet long ; and sufficient care was not taken to maintain the points of junction on the same level. The chairs, or cast-iron pedestals into which the rails were inserted, were flat a,t the bottom, so that whenever any disturbance took place in the 3tone blocks or sleepers supporting them, the flat base of the chau- upon which the rails rested being tilted by unequal subsidence, the end of one rail became depressed, while that of the other was elevated. Hence constant jolts and shocks, the reaction of which very often caused the fracture of the rails, and occasionally thi-ew the engine ofE the road. To remedy this imperfection, Mr. Stephenson devised a new chair, with an entirely new mode of fixing the rails therein. In- stead of adopting the iutt-jomt which had hitherto been used in all cast-iron rails, he adopted the half-la/p joiM,\iy which means the rails extended a cer- tain distance over each other at the ends hke a scarf -joint. These ends, instead of resting on the flat chair, were made to rest upon the apex of a curve formjng the bottom of the chair. The supports were also extended from three feet to three feet nine inches or four feet apart. These rails were accordingly substituted for the old cast- iron plates on the Zillingworth Colliery Eailway, and they were found to be a very great improvement on the previous system, HALF-LAP JOINT. Chap.vil] stuphenson'S improved locomotive. 201 adding both to the efficiency of the horse-power (still used on the railway) and to the smooth action of the locomotive engine, but more particularly increasing the efficiency of the latter. This improved form of the rail and chair was embodied in a patent taken out in the joint names of Mr. Losh, of Newcastle, iron founder, and of Mr. Stephenson, bearing date the 30th of September, 1816. Mr. Losh being a wealthy, enterprising iron- manufacturer, and having confidence in George Stephenson and his improvements, found the money for the purpose of taking out the patent, which in those days was a very costly as weU as troublesome affair. At the same time, Mr. Losh guaranteed Ste- phenson a salary of £100 per annum, with a share in the profits arising from his inventions, conditional on his attending at the "Walker Iron-works two days a week — an arrangement to which the owners of the Killingworth Colliery cheerfuUy gave then- sanction. The specification of 1816 included various important improve- ments in the locomotive itself. The wheels of the engine were improved, being altered from cast to malleable iron, in whole or in part, by which they were made lighter as well as more durable and safe. The patent also included the ingenious and original OLD KILLTNGWOETn LOCOMOTIVE STtLL IS TTSE. 202 EXPERIMENTS ON FRICTION. [Pakt U. contiivance by which the steam generated in the boiler was made to serve as a substitute for springs — an expedient already ex- plained in a preceding chapter. The result of the actual working of the new locomotive on the improved road anlply justified the promises held forth in the specification. The traflBc was conducted with greater regularity and economy, and the superiority of the engine, as compared with horse traction, became stiU more marked. And it is a fact worthy of notice, that the identical engines constructed by Stephenson in 1816 are to this day in regular, useful work upon the EalHngworth Railway, conveying heavy coal-trains at the speed of between five and six miles an hour, probably as economically as any of the more perfect locomotives now in use. George Stephenson's endeavors ha(,lNt AT IJAllLlNjTiW ward the sea, this was perhaps the cheapest mode of traction, so long as the traffic was not very large. The horse drew the train along the level road until, on reaching a descending gradient, down which the train ran by its own gi'avity, the animal was un- harnessed, when, wheeling round to the other end of the wagons, to which a " dandy-cart" was attached, its bottom being only a few inches from the rail, and bringing his step into unison witli the speed of the train, he leaped nimbly into his place in the hind oar, which was usually fitted with a well-filled hay-rack. The details of the working were gradually perfected by expe- rience, tlie projectors of the line being scarcely conscious at first of the importance and significance of the work which they had taken in hand, and little thinking that they were laying the foun- dations of a system wliich was yet to revolutionize the internal communications of the world, and confer the greatest blessings on mankind. It is important to note that the commercial results of the enterprise were considered satisfactory from the opening of the railway. Besides conferring a great public benefit upon the inhabitants of the district, and thro-wing open entirely new markets for the almost boundless stores of coal found in the Bishop Auckland district, the profits derived from the traflic ere- Chap. VIII.] THE TOWN OF MIDDLESBOROUGH. 245 ated by the railway enabled increasing dividends to be paid to those who had risked their capital in the undertaking, and thus held forth an encouragement to the projectors of railways gen- erally, which was not without an important effect in stimulating the projection of similar enterprises in other districts. These re- sults, as displayed in the annual dividends, must have been emi- nently encouraging to the astute commercial men of Liverpool and Manchester, who were then engaged in the prosecution of their railway. Indeed, the commercial success of the Stockton and Darlington Company may be justly characterized as the turn- ing-point of the railway system. With that practical illustration daily in sight of the public, it was no longer possible for Parlia- ment to have prevented its eventual extension. Before leaving the subject of the Stockton and Darlington Railway, we can not avoid alluding to one of its most remarka- ble and direct results — the creation of the town of Middlesbor- ough-on-Tees. When the railway was opened in 1825, the site of this fxiture metropolis of Cleveland was occupied by one soli- tary farm-house and its out-buildings. All roimd was pasture- land or mud-banks; scarcely another house was within sight. The corporation of the town of Stockton being unwilling or im- able to provide accommodation for the rapidly increasing coal traffic, Mr. Edward Pease, in 1829, joined by a few of tis Quaker friends, bought about 500 or 600 acres of land five miles lower down the river — the site of the modern Middlesborough — for the purpose of there forming a new sea-port for the shipment of coals brought to the Tees by the railway. The line was accordingly extended thither; docks were excavated; a town sprang up; churches, chapels, and schools were built, with a custom-house, mechanics' institute, banks, ship-building yards, and iron facto- ries, and in a few years the port of Middlesborough became one of the most thriving on the northeast coast of England. In ten years a busy population of some 6000 persons (since swelled to about 25,000) occupied the site of the original farm-house. More recently, the discovery of vast stores of ironstone in the Cleveland Hills, close adjoining Middlesborough, has tended stiU more rap- idly to augment the population and increase the commercial im- portance of the place. It is pleasing to relate, in connection with this gi-eat work 246 'ESTEEM AND GRATITUDE." [Part II. the Stockton and Darlington Eailway, projected by Edward Pease and execi;ted by G-eorge Stephenson — that when Mr. Stephenson became a prosperous and a celebrated man, he did not forget the friend who had taken him by the hand, and helped him on in his early days. He continned to remember Mr. Pease with gratitude and affection, and that gentleman, to the close of his life, was proud to exhibit a handsome gold watch, received as a gift from his celebrated _p/"(?i!e^e, bearing these words — "Esteem and grati- tude : from George Stephenson to Edward Pease." UIDDLEeU0I10UyU-0jS-TBE8.1 J Chap. IX.] LIVERPOOL AND MANCHESTER TRAFFIC. 247 OHAPTEE IX. THE LIVEEPOOL AND MANCHESTER EAILWAT PEOJECTED. While the coal proprietors of the Bishop Auckland district were taking steps to connect their collieries with the sea by means of an iron raUroad, the merchants of Liverpool and Manchester were considering whether some better means could not be devised for bringing these important centres of commerce and manufac- ture into more direct connection. There were canals as well as roads between the two places, but all routes were alike tedious and costly, especially as regarded the transit of heavy goods. The route by turnpike road was thirty- six miles, by the Duke of Bridgewater's Canal fifty miles, by the Mereey and Irwell navigation the same, and by the Leeds and Liverpool Canal fifty-six miles. These were all overburdened with traffic. The roads were bad, the tolls heavy, and the haulage expensive. The journey by coach occupied from five to six hours, and by wagon nearly a day. But very few heavy goods went by road. The canals near- ly monopolized this traffic, and, having contrived to keep up the rates, the canal companies charged what they liked. They con- ducted their business in a drowsy, sleepy, stupid manner. If the merchant complained of delay, he was told to do better if he could. If he objected to the rates, he was warned that if he did not pay them promptly his goods might not be carried at aU. The canal companies were in a position to dictate their own terms, and they did this in such a way as to disgust alike the send- ers and the receivers of goods, so that both Liverpool and Man- chester were up in arms against them. Worse even than the heavy charges for goods was the occasional entire stoppage of the canals. Sometimes they were frozen up ; sometimes they were blocked by the press of traffic, so that goods lay on the wharves unmoved for weeks together ; and at some seasons it occupied a longer time to bring cotton from Liverpool to Manchester by ca- 248 ^ TRAM-ROAD PROPOSED.— MR. JAMES. [Paht H. nal-boat than it had done to bring it from New York to Liverpool by sailing ship. "Was there no way of remedying these great and admitted evils ? "Were the commercial public to continue to be bound hand and foot, and left at the mercy of the canal proprietors ? Immense interests at Liverpool and Manchester were at stake. The Liver- pool merchants wanted new facilities for sending raw material inland, and the Manchester manufacturers for sending the manu- factured products back to Liverpool for shipment. Yast popu- lations had become settled in the towns of South Lancashire, to whom it was of vital importance that the communication with the sea should be regular, constant, and economical. These considerations early led to the discussion of some im- proved mode 0^ transit from Liverpioolinto the interior for heavy goods, and one of the most favored plans was that of a tram-road. It was first suggested by the corn-merchants of Liverpool, who had experienced the great inconveniences residting from the ca- nal monopoly. One of the most zealous advocates of the tram- road was Mr. Joseph Sandars, who took considerable pains to as- certain the results of the working of the coal lines in the North, both by horse and engine power, and he satisfied himself that either method would, if adopted between Liverpool and Manches- ter, afford the desired relief to the commercial and manufacturing interests. The subject was ventilated by him in the local papers, and in the course of the year 1821 Mr. San'dars succeeded in get- ting together a committee of Liverpool gentlemen for the pur- pose of farther considering the subject, and, if fotmd practicable, of starting a company with the object of forming a tram-road be- tween the two towns. While the project was still in embryo, the rumor of it reached the ears of Mr. William James, then of West Bromwich, an enthu- siastic advocate of tram-roads and railways. As a land-surveyor and land-agent, as well as coal-owner, he had already laid down many private railroads. He had also laid out and superintended the execution and the worldng of canals, projected extensive schemes of drainage and inclosure, and, on the whole, was one of the most useful and active men of his time. But a series of un- fortunate speculations in mines having seriously impaired his for- tunes, he again reverted to his original pi'of ession of land-survey- Chap. IX.] MR. JAMES'S SURVEY.— OBSTRUCTIONS. 249 or, and was so occupied in the neighborhood of Liverpool when he heard of the scheme set on foot for the construction of the proposed tram-road to Manchester. He at once called upon Mr. Sandars and offered his services as its surveyor. We believe he at first offered to survey the line at his own expense, to which Mr. Sandars could not object; but his means were too limited to enable him to do this successfully, and Mr. Sandars and several of his friends agreed to pay him £300 for the survey, or at the rate of about £10 a mile. Mr. James's first interview with Mr. Sandars was in the beginning of July, 1821, when it was arranged that he should go over the ground and form a general opinion as to the practicabihty of a tram- way. A trial survey was then begun, but it was conducted with great difficulty, the inhabitants of the district entertaining much prej- udice against the scheme. In some places Mr. James and his surveying party had even to encounter personal violence. At St. Helen's one of the chain-men was laid hold of by a mob of col- liers, and threatened to be hurled down a coal-pit. A number of men, women, and children assembled, and ran after the sur- veyors wherever they made their appearance, bawling nicknames and throwing stones at them. As one of the chain-men was cHmbing over a gate one day, a laborer made at him with a pitch- fork, and ran it through his clothes into Ms back ; other watchers running up, the chain-man, who was more stunned than hurt, took to his heels and fled. But that mysterious-looking instru- ment — the theodolite — most excited the fury of the natives, who concentrated on the man who carried it their fiercest execrations and most offensive nicknames. A powerful f eUow, a noted bruiser, was hired by the surveyors to carry the instrument, with a view to its protection against all assailants ; but one day an equally powerful fellow, a St. Helen's collier, cock of the walk in his neighborhood, made up to the theodolite bearer to wrest it from him by sheer force. A battle took place, the colHer was soundly pommeled, but the natives poured in volleys of stones upon the surveyors and their instru- ments, and the theodoHte was smashed in pieces. Met by these and other obstructions, it turned out that the sur- vey could not be comj)leted in time for depositing the proper 250 MR. JAMES VISITS KILLINGWORTE. [PabtH. plans, and the intended application to Parliament in the next ses- sion could not be made. In the mean time, Mr. James proceeded to Killingworth to see Stephenson's locomotives at work. Ste- phenson was not at home at the time, but James saw his engines, and was very much struck by their power and eflBciency. He saw at a glance the magnificent uses to which the locomotive might be applied. "Here," said he, "is an engine that will, be- fore long, effejpt a complete revolution in society." Returning to Moreton-in^the-Marsh, he wrote to Mr. Losh (Stephenson's partner in the patent) expressing his admiration. of the Killingworth en- gine. "It is," said he, "the greatest wonder of the age, and the I .-V MAP OP LIVTEEPOOL AMD MAMOHEBTES BAILWAT. [WeBtem Part] forerunner, as I firmly believe, of the most important changes in the internal communications of the kingdom." Shortly after, Mr. James, accompanied by his two sons, made a second jom-ney to Killingworth, where he met both Losh and Stephenson. The visitors were at onfee taken to where one of the locomotives was working, and invited to " jump up." The uncouth and extraor- dinary appearance of the machine, as it came snorting along, was somewhat alarming to the youths, who expressed their fears lest it should burst ; and they were with, some difficulty induced to mount. The engine went through its usual performances, dragging a heavy load of coal-swagons at about six miles an hour with ap- parent ease, at which Mr. James expressed his extreme satisf ac- Ghap. IX.] AGREEMENT WITH MR. JAMES. 251 tion, and declared to Mx. Losh his opinion that Stephenson " was the greatest practical genius of the age," and that, " if he devel- oped the full powers of that engine (the locomotive), his fame in the world would rank equal with that of Watt." Mr. James in- formed Stephenson and Losh of his survey of the proposed tram- road between Liverpool and Manchester, and did not hesitate to state that he would thenceforward advocate the construction of a locomotive raiboad instead of the tram-road which had original- ly been proposed. * Stephenson, and Losh were naturally desirous of enlisting James's good services on behalf of their patent locomotive, for MAP OF LivEEPooL AHi) MANOHESTEK RAILWAY. [Eastern Part.] as yet it had proved comparatively unproductive. They believed that he might be able so to advocate it in influential quarters as to insure its more extensive adoption, and with that object they proposed to give him an interest in the patent. Accordingly, they entered into an agreement by which they assigned to him one fourth of any profits which might be. derived from the use of the patent locomotive on any railways constructed south of a Hne drawn across England from Liverpool to Hull. The arrange- ment, however, led to no beneficial results. Mr. James endeavor- ed to introduce the engine on the Moreton-on-Marsh Railway, but it was opposed by the engineer of the line, and the attempt failed. . He next urged that a locomotive should be sent for trial upon the Merstham tram-road; but, a,nxious though Stephenson 252 A SECOND SURVEY MADE. [PabtII. was as to its extended employment, he was too cautious to risk an experiment which might bring discredit upon the engine ; and the Merstham Koad being only laid with cast-iron plates which would not bear its weight, the invitation was declined. The first survey made of the Liverpool and Manchester line having been found very imperfect, it was determined to have a second and more complete one made in the following year. Kob- ert Stephenson, though then a lad of only nineteen, had already obtained some practical knowledge of surveying, having been en- gaged on the preliminary survey of the Stockton and Darlington Railway in the previous year, and he was sent over to Liverpool by his father to give Mr. James such assistance as he could. Rob- ert Stephenson was present with Mr. James on the occasion on which he tried to lay out the line across Chat Moss — a proceed- ing which was not only diflScult, but dangerous. The Moss was very wet at the time, and only its edges could be ventured on. Mr. James was a heavy, thick-set man ; and one day, when en- deavoring to obtain a stand for his theodolite, he felt himself sud- denly sinking. He immediately threw himself down, and rolled over and over until he reached firm ground again, in a sad mess. Other attempts which he subsequently made to advance into the Moss for the same purpose were abandoned for the same reason — the want of a solid stand for the theodolite. As Mr. James proceeded with his survey, he found a host of opponents springing up in all directions, some of whom he con- ciliated by deviations, but others refused to be conciliated on any terms. Among these last were Lords Dfirby and Wilton, Mr. Bradshaw, and the Strafford family. The proposed line passed through their lands, and, regarding it as a nuisance, without the slightest compensating advantage to them, they determined to op- pose it at every stage. Their agents drove the surveyors off their land ; the farmers set men at the gates armed with pitchforks to resist their progress ; and the survey proceeded with great diiS- culty. Mr. James endeavored to avoid Lord Derby's Knowsley estate, but as he had received instructions from Messrs. Ewart and Gladstone to lay out the line so as to enable it to be extend- ed to the docks, he found it difficult to accomplish this object and at the same time avert the hostility of the noble lord. The only large land-owners who gave the scheme their support were Chap. IX.] MR. JAMES'S ENTHUSIASM. 253 Mr. Legh and Mr. Wyrley Birch, who not only subscribed for shares, but attended several public meetings, and spoke in favor of the proposed raiboad. Public opinion was, however, begin- ning to be roused, and the canal companies began at length to feel alarmed. " At Manchester," Mr. James wrote to Mr. Sandars, " the subject engages all men's thoughts, and it is curious as well as amusing to hear their conjectures. The canal companies (southward) are alive to their danger. I have been the object of their persecution and hate ; they would immolate me if they could ; but if I can die the death of Samson, by pulling away the pillars, I am content to die with these Philistines. . Be assured, my dear sir, that not a moment shall be lost, nor shall my attention for a day be diverted from this concern, which increases in importance every hour, as well as in the certainty of ultimate success." Mr. James was one of the most enthusiastic of men, especially about railways and locomotives. He believed, with Thomas Gray, who brought out his book about this time, that railways were yet to become the great high roads of civilization. The speculative character of the man may be inferred from the following passage in one of his letters to Mr. Sandars, vmtten from London : " Every Parliamentary friend I have seen — and I have many of both houses — eulogizes our plan, and they are particularly anxious that engines should be introduced in the south. .1 am now nego- tiating about the Wandsworth Railroad. A fortune is to be made by buying the shares, and introducing the engine system upon it. I am confident capital will treble itself in two years. I do not choose to publish my views here, and I wish to God some of our Liverpool friends would take this advantage. I have bought some shares, but my capital is locked up in unproductive lands and mines." As the sui-vey of the Liverpool and Manchester line proceeded, Mr. James's funds fell short, and he was under the necessity of applying to Mr. Sandars and his friends from time to time for farther contributions. It was also necessary for him to attend to his business as a surveyor in other parts of the country, and he was at such times under the necessity of leaving the work to be done by his assistants. Thus the survey was necessarily imper- fect, and when the time arrived for lodging the plans, it was 254 STEPHENSON APPOINTED ENGINEER. [Part II. found that they were practically worthless. Mr. James's pecu- niary difficulties had also reached their climax. . " The surveys and plans," he wrote to Mr. Sandarsj " can't be completed, I see, tiU the end of the week. With illness, anguish of mind, and in- expressible distress, I perceive I must sink if I wait any longer ; and, in short, I have so neglected the suit in Chancery I named to you, that if I do not put in an answer I shall be outlawed." Mr. James's embarrassments increased, and he was unable to shake himself -free from them. He was confined for many months in the Queen's Beach Prison, during which time this indefatiga- ble railway propagandist wrote an essay illustrative of the advan- tages of direct inland communication by a line of engine rail- road between London, Brighton, and Portsmouth. Meanwhile the Liverpool and Manchester scheme seemed to have fallen to the ground. But it only slept. When its promoters found that they could no longer rely on Mr. James's services, they deter- mined to employ another engineer. Mr. Sandars had by this time visited George Stephenson at KilHngworth, and, like all who came within reach of his personal influence, was charmed with him at first sight. The energy which he had displayed in carrying on the works of the Stockton and Darlington Bail way, now approaching completion ; his readiness to face difficulties, and his practical ability in overcoming them ; the enthusiasm which he displayed on the subject of railways and railway locomotion, concurred in satisfying Mr. Sandars that he was, of all men, the best calculated to help forward the un- dertaking at this jxmctui-e ; and having, on his return to Liver- pool, reported this opinion to the committee, they approved his recommendation, and George Stephenson was unanimously ap- pointed engineer of the projected railway. On the 25th of-May, 1824, Mr. Sandars wrote to Mr. James as foUows : " I think it right to inform you that the committee have engaged your friend George Stephenson. We expect him here in a few days. The subscription-list for £300,000 is filled, and the Manches- ter gentlemen have conceded to us the entire management. I very much regret that, by delays and promises, you have forfeited the confidence of the subscribers. I can not help it. I fear now that you will only have the fame of being connected with the commence- ment of this undertaking." Chap. IX.] A COMPANY FORMED. 255 It wiU be observed that Mr. Bandars had held to his original purpose with great determination and perseverance, and he grad- ually succeeded in enlisting on his side an increasing number of influential merchants and manufacturers both at Liverpool and Manchester. Early in 1824 he published a pamphlet, in which he strongly urged the great losses and interruptions to the trade of the district by the delays in the forwarding of merchan- dise ; and in the same year he had a Public Declaration drawn up, and signed by upward of 150 of the principal merchants of Liverpool, setting forth that they considered " the present estab- Mshments for the transport of goods quite inadequate, and that a new line of conveyance has become absolutely necessary to con- duct the increasing trade of the country with speed, certainty, and economy." A public meeting was then held to consider the best plan to be adopted, and resolutions were passed in favor of a railroad. A committee was appointed to take the necessary measures ; but, as if reluctant to enter upon their arduous struggle with the " vested interests," they first waited on Mr. Bradshaw, the Duke of Bridgewater's canal agent, in the hope of persuading him to in- crease the means of conveyance, as well as to reduce the charges ; but they were met by an unqualified refusal. ' He would not im- prove the existing means of conveyance ; he would have nothing to do with the proposeid railway ; and, if persevered in, he would oppose it with all his power. The canal proprietors, confident in their imagined security, ridiculed the proposed railway as a chim- era. It had been spoken about years before, and nothing had come of it then ; it would be the same now. In order to form a better opinion as to the practicabihty of the railroad, a deputation of gentlemen interested in the project pro- ceeded to Killingworth to inspect the engines which had been so long in use there. They first went to Darlington, wherie they found the works of the Stockton line in progress, though still un- finished. Proceeding next to Killingworth with George Stephen- son, they there witnessed the performances of his locomotive en- gines. The result of their visit was, on the whole, so satisfactory, tiiat on their return to Liverpool it was determined to form a company of the proprietors for the construction of a double line of railway between Liverpool and Manchester. 256 HENRY BOOTH.— PROSPECTUS ISSUED. [Paet II. The original promoters of the undertaking included men of the highest standing and local influence in Liverpool and Man- chester, with Charles Lawrence as chairman, Lister Ellis, Robert Gladstone, John Moss, and Joseph Bandars as deputy chairmen ; while among the ordinary members of the committee were Rob- ert Benson, James Cropper, John E wart. Well wood Maxwell, and William Kathbone, of Liverpool, and the brothers Birley, Peter Ewart, William Gamett, John Kennedy, and William Potter, of Manchester. The committee also included another important name — that of Henry Booth, then a corn-merchant of Liverpool, and afterward the secretary and manager of the Liverpool and Manchester Rail- way. Mr. Booth was a man of admirable business qualities, sa- gacious and far-seeing, shrewd and practical, of considerable lit- erary ability, and he also possessed a knowledge of mechanics, which afterward proved of the greatest value to the railway in- terest; for to him we owe the suggestion of the multitubular boiler in the form in which it has since been employed upon all railways, and the couphng-screw, as well as other important me- chanical appliances which have come into general use. The first prospectus, issued in October, 1824, set forth in clear and vigorous language the objects of the company, the urgent need of additional means of communication between Liverpool and Manchester, and the advantages offered by the railway over all other proposed expedients. It was shown that the water-car- riers not only exacted the most arbitrary terms from the pubHc, but were positively unable to carry the trafiic requiring accom- modation. Against the indefinite continuance or recurrence of those evils, said the prospectus, the public have but one seciu-ity : " It is competition that is wanted ; and the proof of this assertion may be adduced from the fact that shares in the Old Quay Nav- igation, of which the original cost was £70, have been sold as high as £1250 each !" Thd advantages of the railway over the canals for the carriage of coals was also urged, and it was stated that the charge for transit would be very materially reduced. " In the present state of trade and of commercial enterprise (the prospectus proceeded), dispatch is no less essential than economy. Merchandise is frequently brought across the Atlantic from New York to Liverpool in twenty-one days, while, owing to the various Chap. IX.] OBJECT OF THE UNDERTAKING. 257 causes of delay above enumerated, goods have in some instances been longer on their passage from Liverpool to Manchester. But this reproach must not be perpetual. The advancement in mechan- ical science renders it unnecessary — the good sense of the commu- nity makes it impossible. Let it not, however, be imagined that, were England to be tardy, other countries would pause in the march of improvement. Application has been made, on behalf of the Em- peror of Russia, for models of the locomotive engine ; and other of the Continental governments have been duly apprised of the im- portant schemes for the facilitating of inland traffic, now under dis- cussion by the British public. In the United States of America, also, they are fully alive to the important results to be anticipated from the introduction of railroads ; a gentleman from the United States having recently arrived in Liverpool, with whom it is a prin- cipal object to collect the necessary information in order to the es- tablishment of a railway to connect the great rivers Potomac and Ohio." It will be observed that the principal, indeed almost the sole, object contemplated by the projectors of the undertakiiig was the improved carriage of merchandise and coal, and that the convey- ance of passengers was scarcely calculated on, the only paragraph in the prospectus relating to the subject being the following: " Moreover, as a cheap and expeditious means of conveyance for travelers, the railway holds out the fair prospect of a public ac- commodation, the magnitude and importance of which can not be immediately ascertained." The estimated expense of forming the line was set down at £400,000 — a sum which was eventually found quite inadequate." The subscription list, when opened, was filled up without difficulty. While the project was still under discussion,,its promoters, de- sirous of removing the doubts which existed as to the employ- ment of steam-power on the proposed railway,, sent a second dep- utation to Killingworth for the purpose of again observing the action of Stephenson's engines. The cautious projectors of the railway were not yet quite satisfied, and a third journey was made to Killingworth in January,, 1825, by several gentlemen of the committee, accompanied by practical engineers, for the pur- pose of being personal eye-witnesses of what steam-carriages were able to perform upon a railway. There they saw a train, consist- E 258 RESISTANCE TO THE SURVEY. [Paet H. ing of a locomotive and loaded wagons, weighing in all 54 tons, traveling at the average rate of about 7 miles an hour, the great- est speed being about 9^ miles an hour. But when the engine was run with only one wagon attached containing twenty gentle- men, five of whom were engineers, the speed attained was from 10 to 12 miles an hour. In the mean time the survey was proceeded with, in the face of great opposition on the part of the proprietors of the lands through which the railway was intended to pass. The prejudices of the farming and laboring classes were strongly excited against the persons employed upon the ground, and it was with the great- est difficulty that the levels could be 'taken. This opposition was especially manifested when the attempt was made to survey the line through the properties of Lords Derby and Sefton, and also where it crossed the Duke of Bridgewater's Canal. At Knowsley, Stephenson and his sm-veyors were driven off the ground by the keepers, and threatened with rough handling if found there again. Lord Derby's farmers also turned out their men to watch the sur- veying party, and prevent them entering on any lands where they had the power of driving them off. Afterward Stephenson sud- denly and unexpectedly went upon the ground with a body of surveyors and their assistants who outnumbered Lord Derby's keepers and farmers, hastily collected to resist them, and this time they were only threatened with the legal consequences of their trespass. The same sort of resistance was offered by Lord Sefton's keep- ers and farmers, with whom the following ruse was adopted. A minute was concocted, purporting to be a resolution of the Old Quay Canal Company to oppose the projected railroad by every possible means, and calling upon land-owners and others to afford every facility for making such a survey of the intended line as should enablfe the opponents to detect errors in the scheme of the promoters, and thereby insure its defeat. A copy of this minute, without any signature, was exhibited by the surveyors who went upon the ground, and the farmers, believing them to have the sanction of the landlords, permitted them to proceed with the hasty completion of their survey. The principal opposition, however, was experienced from Mr. Bradshaw, the manager of the Duke of Bridgewater's canal prop- Chap. IX.] OPPOSITION AT MANCHESTER. 259 erty, who offered a vigorous and protracted resistance to the sur- vey in all its stages. The duke's farmers obstinately refused per- mission to enter upon their fields, although Stephenson offered to pay for any damage that might be done. Mr. Bradshaw posi- tively refused his sanction in any case ; and being a strict pre- server of game, with a large staff of keepers in his pay, he de- clared that he would order them to shoot or apprehend any per- sons attempting a survey over his property. But one moonlight night a survey was effected by the following ruse. Some men, under the orders of the surveying party, were set to fire off guns in a particular quarter, on which all the gamekeepers on the' watch made off in that direction, and they were drawn away to such a distance in pursuit of the supposed poachers as to enable a rapid survey to be made during their absence. Describing be- fore Parliament the difficulties which he encountered in making the survey, Stephenson said : " I was threatened to be ducked in the pond if I proceeded, and, of course, we had a great deal of the survey to take by stealth, at the time when the people were at dinner. We could not get it done by night ; indeed, we were watched day^ and night, and guns were discharged over ,the grounds belonging to Captain Bradshaw to prevent us. I can state farther that I was myself twice turned off Mr. Bradshaw's grounds by his men, and they said if I did not go instantly they would take me up and carry me off to Worsley." The same kind of opposition had to be encountered all along the line of the intended railway. Mr. Clay, one of the company's solicitors, wrote to Mr. Sandars from the Bridge water Arms, Pres- cott, on the 31st of December, that the landlords, occupiers, trus- tees of tumpUfe roads, proprietors of bleach-works, carriers and carters, and even the coal-owners, were dead against the railroad. "In a word," said he, "the country is up in arms against us." There were (My three considerable land-owners who remained doubtful ; and " if these be against us," said Mr. Clay, " then the whole of the great proprietors along the whole line are dissen- tient, excepting only Mr. Trafford." The cottagers and small proprietors were equally hostile. " The trouble we have with them," wrote Mr. Clay, " is beyond belief; and those patches of gardens at the end of Manchester bordering on the Irwell, and the tenants of Hulme HaU, who, 260 OPPOSITION OF THE CANAL COMPANIES. [Part. II. though insignificant, must be seen, give us infinite trouble, all of which, as I have reason to believe, is by no means accidental." There was also the opposition of the great Bradshaw, the duke's agent. " I wrote you this morning," said Mr. Clay, in a wrathful letter of the same date, " since which we have been into Brad- shaw's warehouse, now called the Knot Mill, and, after traversing two of the rooms, we got very cmilly turned out, which, under all the circumstances, I thought very lucky, and more than we de- served. However, we have seen more than half of liis d — d cot- tagers." There were also the canal companies, who made common cause, formed a common purse, and determined to wage war to the knife against all railways. The following circular, issued by the Liv- erpool Eailroad Company, with the name of Mr. Lawrence, the chairman, attached, will serve to sliow the resolute spirit in. which the canal proprietors were preparing to resist the bill : "SiK, — The Leeds and Liverpool, the Birmingham, the Grand Trunk, and other canal companies having issued circulars, calling upon ' every canal and navigation company in the kingdom' to op- pose in limine and by a united effort the establishment of railroads wherever contemplated, I have most earnestly to solicit your active exertions on behalf of the Liverpool and Manchester Railroad Com- jjany, to counteract the avowed purpose of the canal proprietors, by exposing the misrepresentations of interested parties,. by concilia- ting good will, and especially by making known, as far as you have opportunity, not only the general superiority of railroads over oth- er modes of conveyance, but, in our peculiar case, the absolute ne- cessity of a new and, additional line of communication, in order to effect with economy and dispatch the transport of merchandise be- tween this port and Manchester. • " (Signed) Chaeles Lawrence, Chairman." Such was the state of affairs and such the threJinings of war on both sides immediately previous to the Parliamentary session of 1825. When it became known that the promoters of the undertaking were determined — imperfect though the plans were believed to be, from the obstructions thrown in the way of the surveying par- ties — to proceed with the bill in the next session of Parliament, the canal companies appealed to the public through thfe press. Chap. IX.] THE PRESS AND THE RAILWAY. 261 Pamphlets were published and newspapers hired to resale the railway. It was declared that its formation would prevent the cows grazing and hens laying, while the horses passing along the road would be driven distracted. The poisoned air from the locomotives would kill the birds that flew over them, and ren- der the preservation of pheasants and foxes no longer possible. Householders adjoining the projected line were told that their houses would be burnt up by the fire thrown from the engine chimneys, while the air around would be polluted by clouds of smoke. There would no longer be any use for horses ; and if railways extended, the species would become extinguished, and oats and hay be rendered unsalable commodities. Traveling by rail would be highly dangerous, and country inns would be ruin- ed. Boilers would burst and blow passengers to atoms. But there was always this consolation to wind up with — that the weight of the locomotive would completely prevent its moving, and that railways, even if made, could never be worked by steam- power. Although the press generally spoke of the Liverpool and Man- chester project as a mere speculation — as only one of the many bubble schemes of the period* — there were other writers who en- tertained different views, and boldly and ably announced them. Among the most sagacious newspaper articles of the day, calling attention to the application of the locomotive engine to the pur- poses of rapid steam-traveling on railroads, was a series which ap- peared in 1824, in tlie " Scotsman" newspaper, then edited by Mr. Charles Maclaren. In those publications the wonderful powers of the locomotive were logically demonstrated, and the writer, argu- ing from the experiments on friction made more than half a cen- tury before by Vince and Coulomb, which scientific men seemed to have altogether lost sight of, clearly showed that, by the use of steam-power on railroads, the cheaper as well as more rapid tran- sit of persons and merchandise might be confidently anticipated. * " Many years ago I met in a public library with a bulky Tolume, consisting of the prospectuses of various projects bound up together, and labeled, ' Some of the Bubbles of 1825.' Among the projects thus described was one that has since been productive of the gi-eatest and most rapid advance in the social condition of mankind effected since the first dawn of civilization : it was the plan of the company for constructing a railway between Liverpool and Manchester." — W. B. Hodge, in "Journal of the Institute of Actuaries," No. 40, July, 1860. 262 SIR JOHN BARROW'S IDEAS. [Part II. Not many years passed before the anticipations of the writer, sanguine and speculative though they were at that time regarded, were amply realized. Even Mr. Nicholas Wood, in 1825, speak- ing of the powers of the locomotive, and referring doubtless to the speculations of the " Scotsman" as well as of his equally san- guine friend Stephenson, observed : " It is far from my wish to promulgate to the world that the ridiculous expectations, or rath- er professions, of the enthusiastic specuHst will be realized, and that we shall see engines traveling at the rate of twelve, sixteen, eighteen, or twenty miles an hour. Nothing could do more harm toward their general adoption and improvement than the promul- gation of such nonsense."* Among the papers left by Mr. Sandars we find a letter ad- dressed to him by Sir John Barrow, of the Admiralty, as to the proper method of conducting the case iu Parliament, which pret- ty accurately represents the state of public opinion as to the prac- ticability of locomotive traveling on railroads at the time at which it was written, the 10th of January, 1825. Sir John strongly urged Mr. Sandars to keep the locomotive altogether in the background ; to rely upon the proved inability of the canals and common roads to accommodate the existing traflBc ; and to be satisfied with proving the absolute necessity of a new line of conveyance ; above all, he reconimended him not even to hint at the intention of carrying passengers. "You will at once," said he, "raise a host of enemies in the pro- prietors of coaches, post-chaises, innkeepers, etc., whose interests will be attacked, and who, I have no doubt, will be strongly sup- ported, and for what ? Some thousands of passengers, you say — hut a few hundreds Zsho.uld say — in the year." He accordingly urged \h&t passengers as well as ^eed should be kept entirely out of the act ; but, if the latter were insisted on, then he recommended that it should be kept as low as possible — say at five miles an hour I Indeed, when George Stephenson, at the interviews with coun- sel held previous to the Liverpool and Manchester Bill going into Committee of the House of Commons, confidently stated his ex- pectation of being able to run his locomotive at the rate of twen- ty miles an hour, Mr. William Brougham, who was retained by * "Wood on Railroads," ed.l825, p. 290. Chap. IX.] PUBLIC OPINION AGAINST RAILWAYS. 263 the promoters to conduct their case, frankly told him that if he did not moderate his views, and bring his engine within a reasoti- able speed, he would " ine-vitably damn the whole thing, and be himself regarded as a maniac fit only for Bedlam." The idea thrown out by Stephenson of traveling at a rate of speed double that of the fastest mail-coach appeared at .the time so preposterous that he was unable to find any engineer who would risk his reputation in supporting such " absurd views." Speaking of his isolation at the time, he subsequently observed at a public meeting of railway men in Manchester : " He remem- bered the time when he had very few supporters in bringiag out the railway system-^when he sought England over for an engi- neer to support him in his evidence before Parliament, and could find only one man, James "Walker, but was afraid to call that gen- tleman, because he knew nothing about railways. He had then no one to teU his tale to but Mr. Sandars, of Liverpool, who did listen to him, and kept his spirits up ; and his schemes had at length been carried out only by dint of sheer pers#v^erance." George Stephenson's idea was at that time regarded as but the dream of a chimerical projector. It stood before the public friendless, struggling hard to gain a footing, scarcely daring to hft itself into notice for fear of ridicfule. T he civ il engineers generally rejected the notion of a Locomotive Railway; and when no leadiag maiT^of the day could be found to stand for- ward in support of the Killingworth mechanic, its chances of success must indeed have been pronounced but small. When such was Ihe hostihty of the civil engineers, no wonder the Reviewers were puzzled. The " Quarterly," in an able article in support of the projected Liverpool and Manchester Railway, while admitting its absolute necessity, and insisting that there was no choice left but a railroad, on which the journey between Liver- pool and Manchester, whether performed by horses or engines, would always be accomplished " within the day," nevertheless scouted the idea of traveling at a greater speed than eight or nine miles an hom-. Adverting to a project for forming a rail- way to "Woolwich, by which passengers were to be drawn by lo- comotive engines moving with twice the velocity of ordinary coaches, the reviewer observed : " "What can be more palpably absurd and ridiculous than the prospect held out of locomotives 26A P^ THEE THAMES BA CKED A GAINST RAIL WA YS. [Pakt II. traYeling twice as fast as stage-coaches ! We would as soon ex- pect the people of Woolwich to suffer themselves to be fired off upon one of Congreve's ricochet rockets, as trust themselves to the mercy of such a maclune going at such a rate. We will back old Father Thames against the Woolwich Eailway for any sum. We trust that Parliament will, in all railways it may sanction, limit the speed to eight or nine miles am, hour, which we entirely agree with Mr. Sylvester is as great as can be ventured on with safety." SUKTJIYING OS OUAT MOBS, Chap. X.] THE PARLIAMENTARY CONTEST. 265 CHAPTEE X. PAELIAMENTAEY CONTEST ON THE UVEEPOOL AND WANCHESTEB BILL. The Liverpool and Manchester Bill went into Committee of the House of Commons on the 21st of March, 1825. There was an extraordinary array of legal talent on the occasion, but es- pecially on the side of the opponents to the measure. Their wealth and influence enabled them to retain the ablest counsel at the bar ; Mr. (afterward Baron) Alderson, Mr. Stephenson, Mr. (afterward Baron) Parke, Mr. Eose, Mr. Macdonnell, Mr. Harrison, Mr. Erie, and Mr. CuUen, appeared for yarious clients, who made common cause with each other in opposing the bill, the case for which was conducted by Mi-. Adam, Mr. Sergeant Spankie, Mr. William Brougham, and Mr. Joy. Evidence was taken at great length as to the difficulties and delays in forwarding raw goods of all kinds from Liverpool to Manchester, as also in the conveyance of manufactured articles from Manchester to Livei-pool. The evidence adduced in sup- port of the bill on these grounds was overwhelming. The ntter inadequacy of the existing modes of conveyance to carry on sat- isfactorily the large and rapidly-grovdng trade between the two towns was fully proved. But then came the main difficulty of the promoters' case — that of proving the practicability of con- structing a railroad to be worked by locomotive power. Mr. Adam, in his opening speech, refen-ed to the cases of the Hetton and the Killingworth railroads, where heavy goods were safely and economically transported by means of locomotive engines. " None of the tremendous consequences," he observed, " have ensued from the use of steam in land carriage that have been stated. The horses have not started, nor the cows ceased to give their milk, nor have ladies miscarried at the sight of these things going forward at the rate of four miles and a half an hour." Notwithstanding the petition of two ladies alleging the great 266 GEORGE STEPHENSON AS WITNESS. [Paet IL danger to be appre^nded fromjhe bursting of t]ie J.«cOlitotive boilers, he urged the safety of the hi^^^^preisureengine when the boilers were constructed of wrought iron ; and as to the rate at which they could travel, he expressed his fuU conviction that such engines " could supply force to drive a carriage at the rate of five or six miles an hour." The taking of the evidence as to the impediments thrown in the way of tjade and commerce by the existing system extended ' over a month, and it was the 2lBt of April before the committee went into the engineering evidence, which was the vital part of the question. On the 25th George Stephenson was called into the vntness- box. It was his first appearance before a committee of the House of Commons^ and he weU knew what he had to expect. He was aware that the whole force of the opposition was to be directed against him ; and if they could break down his evidence, the ca- nal monopoly might yet be upheld for a time. Many years aft- erward, when looking back at his position on this trying occasion, he said : " When I went to Liverpool to plan a line from thence to Manchester, I pledged myself to the directors to attain a spefed of ten miles an hour. I said I had no doubt the locomotive might be made to go much faster, but that we had better be moderate at the beginning. The directors said I was quite right; for that if, when they went to Parliament, I talked of going at a greater rate than ten miles an hour, I should put a cross upon the concern. It was not an easy task for me to keep the engine down to ten miles an hour, but it must be done, and I did my best. I had to place myself in that most unpleasant of ail posi- tions — the witness-box of a Parliamentary committee. I was not long in it before I began to wish for a hole to creep out at ! I could not find words to satisfy either the committee or myself. I was subjected to the cross-examination of eight or ten barris- ters, purposely, as far as possible, to bewilder me. Some mem- ber of the committee asked if I was a foreigner^ wsA. another * George's Northumberland "burr" was so strong that it rendered him almost un- intelligible to persons who were unfamiliar with it ; and he had even thoughts of going to school again, for the purpose, if possible, of getting rid of it. In the year 1823, when Stephenson was forty -two years of age, we find his friend Thomas Richardson, of Lombard Street, writing to Samuel Thoroughgood, a schoolmaster at Peckham, as follows: "Deae Fkiend, — My friend George Stephenson, a man Chap.x.] tee case to be proved. 267 hinted that / was mad. But I put up with every rebuff, and went on with my plans, determined not to be put down." George Stephenson stood before the committee to prove what the public opinion of that day held to be impossible. The self- taught mechanic had to demonstrate the practicabihty of accom- plishing that which the most distinguished engineers of the time regarded as impracticable. Clear though the subject was to him- self, and familiar as he was with the powers of the locomotive, it was no easy task for him to bring home his convictions, or even to convey his meaning, to the less informed minds of his hearers. In his strong Northumbrian dialect, he struggled for utterance, in the face of the sneers, interruptions, and ridicule of the oppo- nents of the measure, and even of the committee, some of whom shook their heads and whispered doubts as to his sanity when he energetically avowed that he could make the locomotive go at the rate of twelve nules an hour ! It was so grossly in the teeth of all the experience of honorable members, that the man " must certainly be laboring imder a delusion !" And yet his large experience of railways and locomotives, as described by himself to the committee, entitled this " untaught, inarticulate genius," as he has-been described, to speak with con- fidence on the subject. Beginning with his experience as a brakesman at Killingworth in 1803; he went on to state that he was appointed to take the entire charge of the steam-engines in 1813, and had superintended the railroads connected with the numerous collieries of the Grand Allies from that time dovm- ward. He had laid down or superintended the railways at Bur- radon, Mount Moor, Springwell, Bedlington, Hetton, and Dar- Hngtoh, besides improving those at Killingworth, South Moor, and Derwent Crook. He had constructed fifty-five steam-en- gines, of which sixteen were locomotives. Some of these had been sent to France. The engines constructed by him for the working of the Killingworth Eaiboad, eleven years before, had continued steadily at work ever since, and fulfilled his most san- of first-rate abilities as an engineer, but of little or no education, wants to consult thee or some other person to see if he can not improve himself— he has so much Northumberland dialect, etc. He will be at my house on sixth day next, about fire o'clock, if thou could make it convenient to see him. Thy assured friend Thos. ElCHABDSON. " 268 MR. ALDERSON'S CROSS-EXAMINATION. [PitET II. guine expectations. He was prepared to prove the safety of working high-pressure locomotives on a railroad, and the supe- riority of this mode of transporting goods over all others. As to speed, he said he had recommended eight miles an hour with twenty tons, and f om* miles an hour with forty tons ; but he was quite confident that much more might be done. Indeed, he had no doubt they might go at the rate of twelve miles. As to the charge that locomotives on a railroad would so terrify the horses in the neighborhood that to travel on horseback or to plow the -adjoining fields would be rendered highly dangerous, the witness said that horses learned to take no notice of them, though there were horses that would shy at a wheelbarrow. A mail-coach was likely to be more shied at by horseB than a locomotive. In the neighborhood of Killingworth, the cattle in the fields went on grazing while the engines passed them, and the farmers made no complaints. Mr. Aldersoii, who had carefully studied the subject, and was well skilled in practical science, subjected the witness to a pro- tracted and severe cross-examination as to the speed and power of the locomotive, the stroke of the piston, the slipping of the wheels upon the rails, and various other points of detail. Ste- phenson insisted that no sKpping took place, as attempted to be extorted from him by the counsel. He said, " It is impossible for slipping to take place so long as the adhesive weight of the wheel upon the rail is greater than the weight to be dragged after it." There was a good deal of interruption to the witness's answers by Mr. Alderson, to which Mr. Joy more than once objected. As to accidents, Stephenson knew of none that had occurred with his engines. There had been one, he was told, at the Middleton Colliery, near Leeds, with a Blenkinsop engine. The driver had been in liquor, and put a considerable load on the safety-valve, so that upon going forward the engine blew up and the man was killed. But he added, if proper precautions had been used with that boiler, the accident could not have happened. The follow- ing cross-examination occurred in reference to the question of speed : " Of course," he was asked, " when a body is moviag upon a road, the greater the velocity the greater the momentum that is generated ?" " Certainly." " What would be the momentum of chap.x.] the question of speed. 269 forty tons moving at tlie rate of twelve miles an hour ?" " It would be very great." " Have you seen a railroad that would stand that?" "Yes." "Where?" "Any raiboad that would bear going four miles an hour : I mean to say, that if it would be^ the weight at four miles an hour, it would bear it at twelve." " Taking it at four miles an hour, do you mean to say that it would not require a stronger railway to carry the same weight twelve miles an hour ?" " I will give an answer to that. I dare say every person has been over ice when skating, or seen persons go over, and they know that it would bear them better at a great- er velocity than it would if they went slower; when they go quick, the weight in a measure ceases." " Is not than upon the hypothesis that the railroad is perfect ?" " It is ; and I mean to make it perfect." It is not necessary to state that to have passed through his severe ordeal scatheless needed no small amount of courage, in- telligence, and ready shrewdness on the part of the witness. Mcholas Wood, who was present on the occasion, has since stated that the point on which Stephenson was hardest pressed was that of speed. " I believe," he says, " that it would have lost the com- pany their bill if he had gone beyond eight or nine miles an hour. If he had stated his intention of going twelve or fifteen miles an hour, not a single person would have believed it to be practicable." Mr. Alderson had, indeed, so pressed the point of " twelve miles an hour," and the promoters were so alarmed lest it should appear in evidence that they contemplated any such ex- travagant rate of speed, that immediately on Mr. Alderson sitting down, Mr. Joy proceeded to re-examine Stephenson, with the view of removing from the minds of the committee an impres- sion so unfavorable, and, as they supposed, so damaging to their case. " With regard," asked Mr. Joy, " to all those hypothetical questions of my learned friend, they have been aU put on the supposition of going twelve miles an hour : now that is not the rate at which, I believe, any of the engines of which you have spoken have traveled?" " ISTo," rephed Stephenson, " except as an experiment for a short distance." " But what they have gone has been three, five, or six miles an hour ?" " Yes." " So that those hypothetical cases of twelve miles an hour do not fall with- in your general experience ?" " They do not." 270 "AWXWARD—FOR THE COO!" [PaktH. The committee also seem to have entertained some alarm as to the high rate of speed which had been spoken of, and proceeded to examine the witness farther on the subject. They supposed the case of the engine being upset when going at nine miles an hour, and asked what, in such a case, would become of the cafgo astern. To which the witness replied that it would not be upset. One of the members of the committee pressed the witness a little farther. He put the f pUowing case : " Suppose, now, one of these engines to be going along a railroad at the rate of nine or ten miles an hour, and that a cow were to stray upon the line and get in the way of the engine ; would not that, thiuk you, be a very awkward circumstance ?" " Yes," replied the witness, with a twinkle in his eye, " very awkward—;/?)?" the coo .'" The honor- able member did not proceed farther with his cross-examination ; to use a railway phrase, he was " shunted." Another asked if animals would not be very much frightened by the engine pass- ing at night, especially by the glare of the red-hot chimney? " But how would they know that it wasn't painted ?" said the witness. On the following day (the 26th of April) the engineer was subjected to a most severe examination. On that part of the scheme with whic*h he was most practically conversant, his evi- dence was clear and conclusive. Now, he had to give evidence on the plans made by his surveyors, and the estimates which had been founded on those plans. So long as he was confined to locomotive engines and iron railroads, with the minutest details of which he was more familiar than any man living, he felt at home and in his element. But when the designs of bridges and the cost of constructing them had to be gone into, the subject be- ing comparatively new to him, his evidence was much less satis- factory. He was cross-examined as to the practicability of forming a road on so unstable a foundation as Chat Moss. " ' Now, with respect to your evidence upon Chat Moss,' asked Mr. Alderson, ' did you ever walk on Chat Moss on the proposed line of the railway ?' ' The greater part of it, I have.' " ' Was it not extremely boggy ?' ' In parts it was.' " ' How deep did you sink in ?' 'I could have gone with shoes ; I do not know whether I had boots on.' Chap. X.] TEE PLANS DEFECTIVE. 271 " ' If the depth of the Mass should prove to be 40 feet instead of 20, would not this plan of the railway over this Moss be impracti- cable ?' ' JSTo, it would not. If the gentleman will allow me, I will refer to a railroad belonging to the Duke of Portland, made over a moss ; there are no levels to drain it properly, such as we have at Chat Moss, and it is made by an embankment over the moss, which is worse than making a cutting, for there is the weight of the emr bankment to press upon the moss.' " ' Still, you must go to the bottom of the moss ?' ' It is not nec- essary ; the deeper you get, the more consolidated it is.' " 'Would you put some hard materials on it before you com- menced ?' ' Yes, perhaps I should.' " 'What ?' ' Brushwood, perhaps.' " ' And you, then, are of opinion that it would be a solid embank- ment ?' ' It would have a tremulous motion for a time, but would not give- way, like clay.' " Mr. Alderson also cross-examiiied him at great length on the plans of the bridges, the tuimels, the crossings of the roads and streets, and the details of the survey, which, it soon appeared, were in some respects seriously at fault. It seems that, after the plans had been deposited, Stephenson foimd that a much more favora- ble line might be laid out, and he made his estimates accordingly, supposing that ParHament would not confine the company to the precise plan which had been deposited. This was felt to be a se- rious blot in the Parliamentary case, and one very difficult to get over. For three entire days was our engirieer subjected to cross-ex- amination by Mr. Alderson, Mr. Cullen, and the other leading counsel for the opposition. He held his ground bravely, and de- fended the plans and estimates with remarkable abihty and sMU, but it was clear they were imperfect, and the result was, on the whole, damaging to the bill. Mr. (afterward Sir William) Cubitt was called by the promoters, Mr. Adam stating that he proposed by this witness to correct some of the levels as given by Stephen- son. It seems a smgnlar course to have been taken by the pro- moters of the measure, for Mr. Cubitt's evidence went to upset the statements made by Stephenson as to the survey. This adverse evidence was, of conrse, made the most of by the opponents of the scheme. Mr. Sergeant Spankie then summed up for the bill on the 2d 272 ' VITUPERATION OF COUNSEL. [Paet II. of May, in a speech of great length, and the case of the opponents was next gone into, Mr. Harrison opening with a long and elo- quent speech on behalf of his clients, Mrs. Atherton and others. He indulged in strong yituperation against the witnesses for the bill, and especially dwelt upon the manner in which Mr. Oubitt, for the promoters, had proved that Stephenson's levels were wrong. " They got a person," said he, " whose character and skill I do not dispute, though I do not exactly know that I should have gone to the inventor of the treadmill as the fittest man to take the levels of Knowsley Moss and Chat Moss, which shook almost as much as a treadmill, as you recollect, for he (Mr. Cuhitt) said Chat Moss trembled so much under his feet that he could not take his obser- vations accurately In fact, Mr. Cubitt did not go on to Chat Moss, because he knew that it was an immense mass of pulp, and nothing else. It actually rises in height, from the rain swelling it like a sponge, and sinks again in dry weather ; and if a boring in- strument is put into it, it sinks immediately by its own weight. The making of an embankment out of this pulpy, wet moss is no very easy task. Who but Mr. Stephenson would have thought of entering into Chat Moss, carrying it out almost like wet dung ? It is ignorance almost inconceivable. It is perfect madness, in a per- son called upon to speak on a scientific subject, to propose such a plan Every part of the scheme shows that this man has ap- plied himself to a subject o£ which he has no knowledge, and to which he has no science to apply." Thenf adverting to the proposal to work the intended line by means of locomotives, the learned gentleman proceeded : "When we set out with the original prospectus, we were to gal- lop I know not at what rate — I believe it was at the rate of twelve miles an hour. My learned friend, Mr. Adam, contemplated — pos- sibly alluding to Ireland — that some of the Irish members would arrive in the wagons to a division. My learned friend says that they would go at the rate of twelve miles an hour with the aid of the devil in the form of a locomotive sitting as postillion on the fore horse, and an honorable member sitting behind him to stir up the fire, and keep it at full speed. But the speed at which these loco- motive engines are to go has slackened: Mr. Adam does not go fast- er now than five miles an hour. The learned sergeant (Spankie) says he should like to have seven, but he would be content to go six. I will show he can not go six ; and probably, for any practical Chap.X] ' CHAT MOSS.— MR. GILES. 273 purposes, I may be able to show that I can keep up with him hy the canal. .... Locomotive engines are liable to be operated upon by the weather. You are told they are affected by rain, and an at- tempt has been made to cover them ; but the wind will afifect them ; and any gale of wind which would affect the traffic on the Mersey would render it impossible to set off a locomotive engine, either by poking of the fire, or keeping up the pressure of the steam tiU the boiler was ready to burst." How amusing it now is to read these extraordinary views as to the formation of a railway over Chat Moss, and the impossibility of starting a locomotive engine in the face of a gale of wind ? Evidence was called to show that the house property passed by the proposed railway would be greatly deteriorated — in some places almost destroyed ; that the locomotive engines would be terrible nuisances, in consequence of the fire and smoke vomited forth by them ; and that the value of land in the neighborhood of Manchester alone would be deteriorated by no less than £20,000 ! Evidence was also given at great length showing the utter impos- sibility of forming a road of any kind upon Chat Moss. A Man- chester builder, who was examined, could not imagine the feat possible, unless by arching it across in the manner of a viaduct from one side to the other. It was the old story of " nothing like leather." But the opposition mainly relied ji^flnJ;h&^si4gage of the lead ing^engineers — not, Hke Stephenson", seli-tau^tTm^Tut reguIaJ^rfrfessionals. Mr. Francis Giles, C.E., was their great card. He had been twenty-two years an engineer, and could speak with some authority. His testimony was mainly directed to the utter impossibility of forming a railway over Chat Moss. "Ifo engineer m his senses" said he, "would go thi'ough Chat Moss if he wanted to make a railroad from Liverpool to Manchester. In my judgment, a raMroad certainly can not he safely made over Chat Moss without going to the hoitom of the Moss." The fol- lowing may be taken as a specimen of Mr. Giles's evidence : " ' Tell us whether, in your judgment, a railroad can be safely made over Chat Moss without going to the bottom of the bog ?' ' I say, certainly not.^ " ' Will it be necessary, therefore, in making a permanent railroad, to take out the whole of the moss to the bottom, along the whole- line of road?' 'Undoubtedly.' S 3t4 THE MOST ABSURD POSSIBLE SCHEME. [Paet H. " ' "Will that make it necessary to cut down the thirty-three or thirty-four feet of which you have been speaking?' 'Yes.' " ' And afterward to fill it up with other soil ?' ' To such height as the railway is to be carried ; other soil mixed with a portion of the moss.' ," 'But suppose they were to work upon this stuff, could they get their carriages to this place ?' 'iVb carriage can stand on the moss short of the bottom? " ' What could they do to make it stand — laying planks, or some- thing of that sort T ' Nothing would support it.' " 'So that, if you would carry a railroad over this fluid stuff— if you could do it, it would stiU take a great number of men and a great sum of money. Could it be done, in your opinion, for £6000 ?' 'I should say £200,000 would not get through it.' " ' My learned friend wishes to know what it would cost to lay it with diamonds ?' " Mr. H.E. Palmer, O.E., gave evidence to prove that resistaftce to a moving body going under four and a quarter miles an hour was less upon a canal than upon a railroad ; and that, when go- ing against a strong wind, the progress of a locomotive was re- tarded " very much." Mr. George Leather, C.E., the engineer of the' Croydon and "Wandsworth Eailway, on which he said the wagons went at from two and a half to three miles an hour, also testified against the practicability of Stephenson's plan. He con- sidered his estimate a " very wild" one. He had no confidence in locomotive power. The "Weardale Eailway, of which he was engineer, had given up the use of locomotive engines. He sup- posed that, when used, they traveled at three and a half to f our miles an hour, because they were considered to be then more ef- fective than at a higher speed. "When these distinguished engineers had given their evidence, Mr. Alderson summed up in a speech which extended over two days. He declared Stephenson's plan to be "the most absurd scheme that ever entered into the head of man to conceive :" "My learned friends," said he, "almost endeavored to stop my examination ; they wished me to put in the plan, but I had rather have the exhibition of Mr. Stephenson in that box. I say he never had one — I believe he never had one — I do not believe he is capable of making one. His is a mind perpetually fluctuating between op- posite difficulties : he neither knows whether he is to make bridges Chap.X.] MR.ALDERSON on "CHAT moss:' 2Y5 over roads or rivers of one size or of another, or to make embank- ments, or cuttings, or incliaed planes, or in what way the thing is to be carried into effect. Whenever a diflBlculty is pressed, as in the case of a tunnel, he gets out of it at one end, and when you try to catch him at that, he gets out at the other." Mr. Alderson ^proceeded to declaim against the gross ignorance of this so-called engineer, who proposed to vaske "impossible ditches by the side of an impossible railway" over Chat Moss; and he contrasted with his evidence that given "by that most re- spectable gentleman we have called before you, I mean Mr. Giles,'who has executed a vast number of works," etc. Then Mr. Giles's evidence as to the impossibility of making any railway over the Moss that would stand short of the bottom was emphati- cally dwelt upon ; and Mr. Alderson proceeded : " Having now, sir, gone through Chat Moss, and having shown that Mr. Giles is right in his principle when he adopts a solid rail- way — and I care not whether Mr. Giles is right or wrong ia his es- timate, for whether it be effected by means of piers raised up all the way for four miles through Chat Moss, whether they are to sup- port it on beams Of wood or by erecting masonry, or whether Mr. Giles shall put a solid bank of earth through it — in all these schemes there is not one found like that of Mr. Stephenson's, namely, to cut impossible drains on the side of this road; and it is sufficient for me to suggest, and to show, that this scheme of Mr. Stephenson's is impossible or irnpracticable, and that no other scheme,' if they pro- ceed upon this line, can be suggested which wiU not produce enor- mous expense. I think that has been irrefragably made out. Ev- ery one knows Chat Moss — every one knows that Mr. GUes speaks correctly when he says the iron sinks inunediately on its being put upon the surface. I have heard of culverts which have been put upon the Moss, which, after having been surveyed the day before, have the next morning disappeared; and that a house (a poet's house, who may be supposed in the habit of building castles even in the air), story after story, as fast as one is added, the lower one sinks ! There is nothing, it appears, except long sedgy grass, and a little soil, to prevent its sinking into the shades of eternal night. I have now done, sir, with Chat Moss, and there I leave this rail- road." Mr. Alderson, of course, called upon the committee to reject the bill; and he protested "against the despotism of the Ex- 276 FARTHER VITUPERATION. [Paet H. change at Liverpool striding across the land of this country. I do protest," he concluded, " against a measure like this, supported as it is by such evidence, and founded upon such calculations." The case of the other numerous petitioners against the bill stiH remained to be gone into. Witnesses were called to prove the residential injury which would be caused by the " intolerable nuisance" of the smoke and fire from the locomotives, and others to prove that the price of coals and iron would "infallibly" be greatly raised throughout the country. This was part of the case of the Duke of Bridgewater's trustees, whose witnesses " proved" many very extraordinary things. The Leeds and Liverpool Canal Company were so f oitunate as to pick up a witness from Hettbn who was ready to furnish some damaging evidence as to the use of Stephenson's locomotives on , that railway. . TTiis was Mr. Thomas Wood, one of the Hetton Company's clerks, whose evi- dence was to the effect that the locomotives, having been found ineffective, were about to be discontinued in favor of fixed en- gines. . The evidence of this witness, incompetent though he was to give an opinion on the subject, and exaggerated as his state- ments were afterward proved to be, was made the most of by Mr. Harrison when summing up the case of the canal companies. " At length," he said, " we have come to this — having first set out at twelve miles an hour, the speed of these locomotives is re- duced to six, and now comes down to two or two and a half. They must be content to he pulled along by horses and donkeys ; and all those fine promises of galloping along at the rate of twelve miles an hour are melted down to a total failure ; the foundation on which their case stood is cut from under them completely ; for the Act of Parliament, the committee 'Hll recollect, prohibits any person using any animal power, of any sort, kind, or description, except the pro- jectors of the railway, themselves ; therefore I say that the whole foundation on which this project exists is gone." After farther personal abuse of Mr. Stephenson, whose evi- dence he spoke of as " trash and confusion," Mr. Harrison closed the case of the'mial companies^TTthe 30th of May. Mr. Adam replied for the promoters, recapitulating the principal points of their case, and vindicating Mr. Stephenson and the evidence which he had given before the comnaittee. The committee then divided on the preamble, which was car- chap.x.] the bill defeated. 277 ried by a majority of only one — thirty-seven voting for it, and thirty-six against it. The clauses were next considered, and on a division, the first clause, empowering the company to make the railway, was lost by a majority of nineteen to thirteen. In like manner, the next clause, empowering the company to take land, was lost ; on which Mr. Adam, on the part of the promoters, withdrew the bill. Thus ended this memorable contest, which had extended over two months — carried on throughout with great pertinacity and sMU, especially on the part of the opposition, who left no stone unturned to defeat the measure. The want of a new line of com- munication between Liverpool and Manchester had been clearly proved; but the engineering evidence in support of the proposed railway having been thrown almost entirely upon George Ste- phenson, who fought this, the most important part of the battle, single-handed, was not brou ght o ut so clearly as it would have been had he secured more efficient engineering assistance, which he was not able to do, as alTlihe engineers of eminence of that day ^rorejgainstJheJocom^Sejail^ in the way of the survey by the land-owners and canal compajiies, by which the plans were rendered exceedingly imperfect, also tended in a great measure to defeat the bill. Mr. Gooch says the rejection of the scheme was probably the most severe trial George Stephenson underwent in the whole course of his life. The circumstances connected with the defeat of the bill, the errors in the levels, liis severe cross-examination, followed by the fact of his being superseded by another engineer, all told fearfully upon him, and for some time he was as terribly weighed down as if a personal calamity of the most serious kind had befallen, him. It is also right to add that he was badly served by his surveyors, who were unpracticed and incompetent. On the 27th of September, 1824, we find him writing to Mr. San- dars : " I am quite shocked with Auto's conduct; we must throw him aside as soon as possible. Indeed, I have begun to fear that he has been f ee'd by some of the canal proprietors to make a botch of the job. I have a letter from Steele,* whose views of Auty's conduct quite agree with yours." * Hugh Steele and Elijah Galloway afterward proceeded with the survey at one part of the line, and Messrs. Oliver and Blackett at ^another. The former couple 278 THE PROJECT REVIVED. [Part IL The result of this first application to Parliament was so far discouraging. .Stephenson had been so terribly abused by the leading counsel for the opposition in the course of the proceed- ings before the committee — stigmatized by them as an ignoramus, a fool, and a maniac — that, even his friends seem for a time to have lost faith in him and in the locomotive system, whose effi- ciency he continued to uphold. Things never looked blacker for the success of the railway system than at the close of this great Parliamentary struggle. And yet it was on the very eve of its triumph. The Committee of Directors appointed to watch the measure in Parliament were so determined to press on the project of a railway, even though it should have to be worked merely by horse-power, that the bill had scarcely been defeated ere they met iu London to consider their next step. They called their Parliamentary friends together to consult as to their future pro- ceedings. Among those who attended the meeting of gentlemen with this object in the Koyal Hotel, St. James's Street, on the 4th of Juiie, were Mr. HusMsson, Mr. Spring Kice, and General Gas- coyne. Mr. Huskisson urged the promoters to renew their ap- plication to Piarliament. They had secured the first step by the passing of their preamble ; the measure was of great public im- portance ; and, whatever temporary opposition it might meet with, he conceived that Parliament must ultimately give its sanc- tion to the undertaking. Similar views were expressed by other speakers ; and the deputation went back to Liverpool determined to renew their application to Parlianxent in the ensuing season. It was not considered desirable to employ George Stephenson in making the new survey. He had not as yet established his reputation beyond the boundari^ of his own district, and the promoters of the bill had doubtless felt the disadvantages of this in the course of their Parliamentary struggle. They therefore resolved now to employ engineers of the highest established repu- tation, as well as the best surveyors that could be obtained. Li seem to have made some grievous blunder in the levels on Chat Moss, and the cii-- cumstance weighed so heavily on Steele's mind that, shortly after hearing of the re- jection of the bill, he committed suicide in Stephenson's office at Newcastle. Mr. Goooh informs us that this unhappy affair served to impress upon the minds of Ste- phenson's other pupils, the necessity of insuring greater accuracy and attention in fu- ture, and that the lesson, though sad, was not lost upon them. Chap.x;] opposition averted. 279 accordance witli these views, they engaged Messrs. George and John Kennie to be the engineers of the railway; and Mr. Charles VignoUes, on their behalf, was appointed to prepare the plans and sections. The line which was eventually adopted differed somewhat from that surveyed by Stephenson, entirely avoiding Lord Sefton's property, and passing through only a few detached fields of Lord Derby's at a considerable distance from the Knows- ley domain. The principal parks and game preserves of the dis- trict were also carefully avoided. The promoters thus hoped to get rid of the opposition of the most influential of the resident land-owners. The crossing of certain of the streets of Liverpool was also avoided, and the entrance contrived by means of a tun- nel and an inclined plane. The new Hne stopped short of the E.iver Irwell at the Manchester end, and thus, in some measure, removed the objections grounded on an anticipated interruption to the canal or river traffic. And, with reference to the ufee of the locomotive engine, the promoters, remembering with what effect the objections to it had been urged by the opponents of the measure, intimated, in their second prospectus, that, " as a guaran- tee of their good faith toward the public, they vnU not require any clause empowering them to use it; Or they will submit to such restrictions in the employment of it as Parliament may im- pose, for the satisfaction and ample protection both of proprie- tors on the line of road and of the public at large." It was found that the capital required to form the line of rail- way, as laid out by the Messrs. Eennie, was considerably beyond the amount of Stephenson's estimate, and it became a question with the committee in what way the new capital should be raised. A proposal was made to the Marquis of Stafford, who was prin- cipally interested in the Duke of Bridgewater's Ganal, to become a shareholder in the undertaldng. A similar proposal had at an earlier period been made to Mr. Bradshaw, the trustee for the property ; but his answer was " all or none," and the negotiation was broken off. The Marquis of Stafford, however, now met the projectors of the railway in a more concihatory spirit, and it was ultimately agreed that he should become a subscriber to the ex- tent of a thousand shares. The survey of the new line having been complete* the plans were deposited, the standing orders duly complied witii, and the 280 THE BILL PASSED. [Paet II. bill went before Parliament. The same comisel appeared for the promoters, but, the examination of witnesses was not nearly so protracted as on the former occasion. Mr. Erie and Mr. Harrison led the case of the opposition. The bill went into committee on the 6th of March, and on the 16th the preamble was declared proved by a majority' of forty-three to eighteen. On the third reading in the House of Commons, an animated, and what now appears a very amusing discussion, took place. The Hon. Edward Stanley (since Earl of Derby, and prime minister) moved that the bill be read that day six months. In the course of his speech he undertook to prove that the railway trains would take ten Tiowrs on the journey, and that they could only be worked by horses ; and he called upon the House to stop the biU, " and prevent this mad and extravagant speculation from being carried into effect." Sir Isaac Coffin seconded the motion, and in doing so denounced the project as a most flagrant imposition. He would not consent to see widows' premises_ajid_ their strawber ry-beds in vaHeSyand "what, he wouHTSe to know, wastobe~done with all those who had advanced money in making and repairing turnpike roads? What with those who may still wish to travel in their own or hired carriages, after the fashion of their forefathers? What was to become of coach-makers and harness-makers, coach-mas- ters and coachmen, innkeepers, horse-breeders, and horse-dealers? Was the House aware of the smoke and the noise, the hiss and the whirl, which locomotive engines, passing at the rate of ten or twelve miles an hour, would occasion ? Neither the cattle plow- ing in the fields or grazing in the meadows could behold them without dismay. Iron would be raised in price 100 per cent., or more probably exhausted altogether ! It would be the greatest nuisance, the most complete disturbance of quiet and comfort in all parts of the kingdom that the ingenuity of man could invent !" Mr. Huskisson and other speakers, though unable to reply to such arguments as these, strongly supported the bill, and it was carried on the third reading by a majority of eighty-eight to forty- one. The bill passed the House of Lojds- almost unanimously, its only opponenSjtehigTlierl^rl of Derby and his relative the Earl of T!^lton. The cost of obtaining the act amounted to the enor- mous sum%f £27,00^' " """^" ~ Chap. XI.] STEPHENSON AGAIN APPOINTED ENGINEER. 281 CHAPTER XI. CHAT MOSS — OONSTEUOTION OF THE EAILWAT. The appointment of principal engineer of tlie railway was' taken into consideration at the first meeting of the directors held at Liverpool subsequent to the passing of the act of incorpora- tion. The magnitude of the proposed works, and the vast con- sequences involved in the experiment, were deeply impressed on their minds, and they resolved to secure the services of a resident engineer of proved experience and ability. Their attention was naturally directed to George Stephenso"n ; at the same time, they desired to have the benefit of the Messrs. Eennie's professional assistance in superintending the works. Mr. George Kennie had an interview with the board on the subject, at which he proposed to undertake the chief superintendence, making six visits in each year, and stipulating that he should have the appointment of the resident engineer. But the responsibility attaching to the direc- tion in the matter of the efficient carrying on of the works would not admit of their being influenced by ordinary punctilios on the occasion, and they accordingly declined Mr. Eennie's proposal, and proceeded to appoint George Stephenson principal engineer at a falary of £1000 per annum. He at once removed his residencfe to Liverpool, and made ar- rangem^ents to commence the works. He began with the " im- possible thing" — to do that which some of the principal engi- neers of the day had declared that "no man in his senses would undertake to do" — namely, to make the road over Chat Moss ! It was, indeed, a most formidable undertaking, and the project of carrying a railway along, under, or over such a material as that of which it consisted would certainly never have occurred to an ordinary mind. Michael Drayton supposed the Moss to have had its origin at the Deluge. Nothing more impassable could have been imagined than that dreary waste ; and Mr. Giles only spoke the popular feeling of the day when he declared that 282 GSAT MOSS. [Past U. no carriage could stand, on it " short of the bottom." In this bog, singular to say, Mr. Eoscoe, the accomplished historian of the Medicis, buried his fortune in the hopeless attempt to cultivate a portion of it which he had bought. Chat Moss is an immense peat -bog of about twelve square miles in extent. Unlike the bogs or swamps of Cambridge and Lincolnsliire, which consist principally of soft mud or silt, this bog is a vast mass of spongy vegetable pulp, the result of the growth and decay of ages. Spagni, or bog-mosses, cover the entire area ; one year's growth rising over another, the older growths not entirely decaying, but remaining partially preserved by the antiseptic properties peculiar to peat. Hence the remark- able fact that, though a semifluid mass, the surface of Chat Moss rises above the level of the surrounding country. Like a turtle's back, it declines from the summit in every direction, having from thirty to forty feet gradual slope to the solid land on all sides. From the remains of trees, chiefly alder and birch, which have been dug out of it, and which must have previously flour- ished on the surface of the soil now deeply submerged, it is prob- able that the sand and clay base on which the bog rests is sau- cer-shaped, and so retains the entire mass in position. In rainy weather, such is its capacity for water that»it sensibly swells, and rises in those parts where the moss is the deepest; This occurs through the capillary attraction of the fibres of the submerged moss, which is from twenty to thirty feet in depth, while the growing plants effectually check evaporation from the surface. This peculiar character of the Moss has presented an insuperable difficulty in the way of draining on any extensive system — such as by sinking shafts in its substance, and pumping up the water by steam-power, as has been proposed by some engineers. For, supposing a shaft of thirty feet deep to be suiik, it has been cal- culated that this would only be effectual for draining a circle of about one hundred yards, the water running down an incline of about 5 to 1 ; indeed, it was found, in the course of draining the bog, that a ditch three feet deep only served to drain a space of less than five yards on either side, and two ditches of this depth, ten feet apart, left a portion of the Moss between them scarcely affected by the drains. The three resident engineers selected by Mr. Stephenson to su- Chap. XL] THE RESIDENT ENGINEERS.— A MUD BATH. 283 perintend the construction of the line were Mr. Joseph Locke, Mr. Allcard, and Mr. John Dixon. The last was appointed to that portion which included the proposed road across the Moss, the other two being any thing but desirous of exchanging posts with him. On Mr. Dixon's arrival, about the month of July, 1826, Mr. Locke proceeded to show him over the length he was to take charge of, and to instal him in oflSce. When they reached Chat Moss, Mr. Dixon found that the line had already been staked out and the levels taken in detail by the aid of planks laid upon the bog. The Cutting of the drains along each side of the pro- posed road had also been coromenced, but the soft pulpy stuff had up to this time flowed into the drains, and filled them up as fast as they were cut. Proceeding- across the Moss on his first day's inspection, the new resident, when about half way over, slipped off the plank on which he walked^ and sank to his knees in the bog. Struggling only sent him the deeper, and he might have disappeared altogether but for the workmen, who hastened to his assistance upon planks, and rescued him from his perilous position. Much disheartened, he desired to return, and even for the moment thought of giving up the job ; but Mr. Locke assured him that the worst part was now past ; so the new resident pluck- ed up heart again, and both floundered on until they reached the farther edge of the Moss, wet and plastered over with bog sludge. Mr. Dixon's assistants endeavored to comfort him by the assurance that he might in future avoid similar perils by walking upon "pattens," or boards fastened to the soles of his feet, as they had done when taking the levels, and as the workmen did when engaged in making drains in the softest parts of the Moss. Still the resident engineer could not help being puzzled by the prob- lem of how to construct a road for a heavy locomotive, with a train of passengers or goods, upon a bog which he had found to be incapable of supporting his own individual weight ! Stephenson's idea was that such a road might be made Ui float upon the bog simply by means of -a sufficient extension of the bearing surface. As a ship, or a raft capable of sustaining heavy loads, floated in water, so, in his opinion, might a light road be floated upon a bog which was of considerably greater consistency than water. Long before the railway was thought of, Mr. Eoscoe had adopted the remarkable expedient of fitting his plow-horses 284 A FLOATING ROAD. [PakT II. with flat wooden soles or pattens, to enable them to walk upon the Moss land which he had brought into cultivation. These pattens were fitted on by means of a screw apparatus, whiqh met in front of the foot and was easily fastened. The mode by which these pattens served to sustain the horse is capable of easy ex- planation, and it will be observed that the rationale alike ex- plains the floating of a railway. The foot of an ordinary farm- horse presents a base of about five inches diameter, but if this base be enlarged to seven inches — the circles being to each other as the squares of the diameters — it will be found that, by this slight enlargement of the base, a circle of nearly double the area has been secured, and consequently the pressure of the foot upon every unit of ground on which the horse stands has been reduced one half. In fact, this contrivance has an effect tanta- mount to setting the horse upon eight feet instead of four. Apply the same reasoning to the ponderous locomotive, and it will be found that even such a machine may be- made to stand upon a bog by means of a similar extension of the bearing sur- face. Suppose the engine to be twenty feet long and five feet wide, thus covering a surface of a hundred square feet, and, pro- ■vided the bearing has been extended by means of cross sleepers supported upon a matting of heath and branches of trees covered with a few inches of gravel, the pressure of an engine of twenty tons will be only equal to about three pounds per inch over the whole surface on which it stands. Such was George Stephenson's idea in contriving his floating road — something like an elongated raft — across the Moss ; and we shall see that he steadily kept it in view in carrying the work into execution. The first thing done was to form a footpath of ling or heather along the proposed road, on which a man might walk without risk of sinking. A single line of temporary railway was then laid down, formed of ordinary cross-bars about three feet long and an inch square, with holes punched through them at the end and nailed down to temporary sleepers. Along this way ran the wag- ons in which were conveyed the materials requisite to form the permanent road. These wagons carried about a ton each, and they were propelled by boys running behind them along the nar- row bar of iron. The boyfi became so expert that they would run the four miles across at the rate of seven or eight miles an hour Chap. XI.] FORMATION OF THE ROAD. 285 without missing a step ; if they had done so, they would have sunk in many places up to their middle.* The slight extension of the bearing surface was sufficient to enable the bog to bear this tem- porary line, and the circumstance was a soiu-ce of increased con- fidence and hope to our engineer in proceeding with the forma- tion of the pei-manent road alongside. The digging of drains had been proceeding for some time along each side of the intended railway, but they filled up almost as soon as dug, the sides flowing in and the bottom rising up, and it was only in some of the drier parts of the bog that a depth of three or four feet could be reached. The surface-ground between the drains, containing the intertwined roots of heather and long grass, was left untouched, and upon this were spread branches of trees and hedge-cuttings ; in the softest places rude gates or hur- dles, some eight or nine feet long by four feet wide, interwoven with heather, were l,aid in double thicknesses, their ends overlap- ping each other ; and upon this floating bed was spread a tliin layer of gravel, on which the sleepers, chairs, and rails were laid in the usual manner. Such was the mode in which the road was formed upon the Moss. It was found, however, after the permanent road had been thus laid, that there was a tendency to sinking at those parts where the bog was the softest. In ordinary cases, where a bank subsides, the sleepers are packed up with ballast or gravel, but in this case the ballast was dug away and removed in order to hghten the road, and the sleepers were packed instead with cakes of dry turf or bundles of heath. By these expedients the subsided parts were again floated up to the level, and an approach was made toward a satisfactory road. But the most formidable difficulties were encountered at the centre and toward the edges of the Moss, and it required no small degree of ingenuity and perseverance on the part of the engineer successfully to overcome them. The Moss, as has been already observed, was highest hj the * When the Liverpool directors went to inspect the works in progress on the Moss, they were run along the temporary rails in the little three-feet gauge wagons used for forming the road. They were being thus impelled one day at considerable speed when the wagon suddenly ran off the road, and Mr. Moss, one of the directors, was thrown. out in a soft place, from which, however, he was speedily extricated, not without leaving a deep mark. George used afterward laughingly to refer to the cir- fnTnaf«iTif>p. oa '*f.hp. Tnpp.tino* nf f.lip l\Tnceps " 286 THE TAR-BARREL DRAINS. [Paet U. centre, and it there presented a sort of himcliback with a rising and falling gradient. At that point it was found necessary to cut deeper drains in order to consolidate the ground between them on which the road was to be formed. But, as at other parts of the Moss, the deeper the cutting the more rapid was the flow of fluid bog into the drain, the bottom rising up almost as fast as it was removed. To meet this emergency, a quantity of empty tar-barrels was brought from Liverpool, and, as soon as a few yards of drain were dug, the barrels were laid down end to end, firmly fixed to each other by strong slabs laid over the joints, and nailed ; they were then covered over with clay, and thus formed an underground sewer of wood instead of bricks. This expedient was found to answer the purpose intended, and the road across the centre of the Moss having thus been prepared^ it was then laid with the permanent materials. The greatest difficulty was, however, experienced in forming an embankment on the edge of the bog at the Manchester end. Moss, as dry as it could be cut, was brought up in small "wagons by men and boys, and emptied so as to form an embankment; but the bank had scarcely been raised three or tfour feet in height when the stuff broke through the heathery surface of the bog and sunk overhead. .More moss was brought up and emptied in with no better result, and for many weeks the filling was con- tinued without any visible embankment having been made. It was the duty of the resident engineer to proceed to Liverpool ev- ery fortnight to obtain the wages for the workmen employed un- der him, and on these occasions he was required to color up, on a section drawn to a working scale suspended against the wall of the directors' room, the amount of excavation, embankment, etc., executed from time to time. But on many of these occasions Mr, Dixon had no progress whatever to show for the money ex- pended on the Chat Moss embankment. Sometimes, indeed, the visible work done was less than it had appeared a fortnight or a month before ! The directors now became seriously alarmed, and feared that the evil prognostications of the eminent engineers were about to be fulfilled. The resident himself was greatly disheartened, and he was even called upon to supply the directors with an estimate of the cost of filling up the Moss with solid stuff from the bot- Chap. XI.] ALARM' OF THE DIRECTORS. 287 torn, as also the cost of piling the roadway, and, in effect, con- structing a four-m^e viaduct of timber across the Moss, from twenty to thirty feet high. But the expense appalled the direct- ors, and the question then arose whether the work was to be pro- ceeded with or ahamdoned ! Stephenson himself afterward described the alarming position of affairs at a public dinner given at Birmingham on the 23d of December, 1837, on the occasion of a piece of plate being pre- sented to his son after the completion of the* London and Bir- mingham Eailway. He related the anecdote, he said, for the purpose of impressing upon the minds of those who heard him the necessity of perseverance. " After working for weeks and weeks," said he, " in filling in ma- terials to form the road, there did not yet appear to be the least sign of our being able to raise the solid embankment one single inch ; in short, we went on filling in without the slightest apparent effect. Even my assistants began to feel uneasy, and to doubt of the success of the scheme. The directors, too, spoke of it as a hope- less task ; and at length they became seriously alarmed, so much so, indeed, that a board meeting was held on Chat Moss to decide whether I should proceed any farther. They had previously taken the opinion of other engineers, who reported unfavorably. There was no help for it, however, but to go on. An immense outlay had been incurred, and great loss would have been occasioned had the scheme been then abandoned, and the line taken by another route. So the directors were aonvpelhdXo allow me to go on with my plans, of the ultimate success of which I myself never for one moment doubted." During the progress of this part of the works, the Worsley and Trafford men, who lived near the Moss, and plumed themselves upon their practical knowledge of bog-work, declared the comple- tion of the road to be utterly impracticable. " If you knew as much about Chat Moss as we do," they said, " you would never have entered on so rash an undertaking ; and depend upon it, all you have done and are doing will prove abortive. Ton must give up altogether the idea of a floating railway, and either fill the Moss up witkhard material from the bottom, or else deviate the line so as to avoid it altogether." Such were the conclusions of science and experience. 288 THE ROAD MADE ON CHAT MOSS. [Paet n. In the midst of all these alarms and prophecies of failure, Ste- phenson never lost heart, but held to his purpose. His motto was " Persevere !" " You must go on filling in," he said ; " there is no other help for it. The stuff emptied in is doing its work out of sight, and if you will but have patience, it will soon begin to show." And so the filling in went on ; several hundreds of men and boys were employed to skin the Moss all round for many thousand yards, by means of sharp spades, called by the turf -cut- ters " tommy-spades ;" and the dried cakes of turf were after- ward used to form the embankment, until at length, as the stuff sank and rested upon the bottom, the bank gradually rose above the sm-f ace, and slowly advanced onward, declining in height and consequently in weight, imtil it became joined to the floating road already laid upon the Moss. In the course of forming the embankment, the pressure of the bog turf tipped out of the wag- ons caused a copious stream of bog-water to flow from the end of it, in color resembling Barclay's double stout ; and when com- pleted, the bank looked like a long ridge of tightly-pressed to- bacco-leaf. The compression of the turf may be understood from the fact that 670,000 cubic yards of raw moss formed only 277,000 cubic yards of embankment at the completion of the work.. At the western, or Liverpool end of the Chat Moss, there was a like embankment; but, as the ground there was soHd, little difficulty was experienced in forming it, beyond the loss of sub- ' stance caused by the oozing out of the water held by the moss- earth. At another part of the Liverpool and Manchester line, Parr Moss was crossed by an embankment about a mile and a half in extent. In the immediate neighborhood was found a large ex- cess of cutting, which it would have been necessary to " put out in spoil-banks" (according to the technical phrase) but for the convenience of Parr Moss, into which the surplus clay, stone, and shale were tipped, wagon after wagon, imtil a solid but congeal- ed embankmentj from fifteen to twenty feet high, was formed, al- though to the eye it appears to be laid upon the level of the ad- joining surface, as at Chat Moss. The road across Chat Moss was finished by the 1st of January, 1830, when the first experimental train of passengers passed over Chap. XI.] ORGANIZATION OF LABOR. 289 it, drawn by the " Socket ;" and it turned out that, instead of be- ing the most expensive part of the line, it was about the cheapest. The total cost of forming the Hne over the Moss was £28,000, whereas Mr. Giles's estimate was £270,000 ! It also proved to be one of the best portions of the railway. Being a floating road, it was as smooth and easy to run upon as Dr. Amott's water-bed is soft and easy to lie upon — the pressure being equal at all points. There was, and stiU is, a sort of springiness in the road over the Moss, such as is felt when passing along a suspended bridge ; and those who looked along the Moss as a traia passed over it said they could observe a waviness, such as precedes and follows a skater upon ice. During the progress of the works the most ridiculous rumors were set afloat. The drivers of the stage-coaches, who feared for their calling, brought the alarming intelligence into Manchester from time to time that " Chat Moss was blown up 1" " Hundreds of men and horses had sunk in the bog; and the works were completely abandoned !" The engineer himself was declared to have been swallowed up in the Serbonian bog ; and " railways were at an end forever !" In the construction of the railway, George Stephenson's capa- city for organizing and directing the labors of a large number of workmen of all kinds eminently displayed itself. A vast quan- tity of ballast-wagons had to be constructed for the purposes of the work, and implements and materials had to be collected, be- fore the mass of labor to be employed could be efficiently set in motion at the various points of the hne. There were' not at that time, as there are now, large contractors, possessed of railway plant, capable of executing earthworks on a large scale. Our en- gineer had, therefore, not only to contrive the plant, but to or- ganize the labor, and direct it in person. The very laborers them- selves had to be trained to their work by him ; and it was on the Liverpool and Manchester line that Mr. Stephenson organized the staff of that formidable band of railway navvies, whose handi- works will be the wonder and admiration of succeeding genera- tions. Looking at their gigantic traces, the men of some future age may be found to declare, of the engiueer and of his work- men, that "there were giants in those days." Although the works of the Liverpool and Manchester Eailway T 290 TVNNEL AT LIVERPOOL. [Part n. are of a much less formidable character than those of many lines that have since been constructed, they were then regarded as of a stupendous kind. Indeed, few works of such magnitude had before been execJuted in England. It had been the engineer's original intention to carry the railway from the north end of Liverpool round the red sandstone ridge on which the upper part of the town is built, and also round the higher rise of the coal formation at Eainhill, by following the natural levels to the north of Knowsley. But the opposition of the land-owners haviog forced the line more to the south, it was rendered necessary to cut through the hiUs, and go over the high grounds instead of round them. The first consequence of this alteration in the plans was the necessity for constructing a tunnel under the town of Liverpool a mile and a half in length, from the docks at Wap- piog to the top of Edgehill ; the second was the necessity for forming a long and deep cutting through the red sandstone rock at OHve Mount ; and the third and worst of all was the necessity for ascending and descending the Whiston and Sutton hiUs by means of inclined planes of 1 in 96. The' line was also, by the same forced deviation, prevented passing through the Lancashire coal-field, and the engineer was compelled to carry the works across the Sankey. valley at a point where the waters of the brook had dug out an exciessively deep channel through the marl-beds of the district ' The principal difficulty was experienced in pushing on the works connected with the. formation of the tunnel under liver- pool, 2200 yards in length. The blasting and hewing of the rock were vigorously carried on night and day; and tibe engi- neer's practical experience in the collieries here proved of great use to him. Many obstacles had to be encountered and overcome in the formation of the tunnel, the rock varying in hardness and texture at different parts. In some places the miners were deluged by water, which surged from the soft blue shale found at the low- est level of the tunnel. In other places beds of wet sand were cut through, and there careful propping and pinning were neces- sary to prevent the roof from tumbling in until the masonry to support it could be erected. On one occasion, while Stephenson was absent from. Livei-pool, a mass of loose moss-earth and sand fell from the roof, which had been insuflBciently propped. The Chap. XI.] OLIVE MOUNT CUTTING. 291 miners withdrew from the work; and on the engineer's return he found them in a refractory state, refusing to re-enter the tun- nel. He induced them, however, by his example, to return to their labors ; and when the roof had been secured, the work went on again as before. When there was danger, he was always ready to share it with the men ; and, gathering confidence from his fearlessness, they proceeded vigorously with the undertaking, boring and mining their way toward the light. The Olive Momit cutting was the Jirst extensive stone cutting OLIVE MOTiNT OUTTKJG. [By Percival Skelton.] executed on any railway, and to this day it is one of the most for- midable. It is about two miles long, and in some parts more than a himdred feet deep. It is a narrow ravine or defile cut out of the solid rock, and not less than four hundred and eighty thousand cubic yards of stone were removed from it. Mr. Yio-nolles after- 292 SANKEY VIADUCT.— BRIDGES. [Paet II. ward describing it, said it looked as if it had been dug out by giants. The crossing of so many roads and streams involved the neces- sity for constructing an unusual number of bridges. There were not fewer than sixty-three, mider or over the railway, on the thir- ty miles between Liverpool and Manchester, tip to this time bridges had been apphed generally to high roads, where inclined approaches were of comparatively small importance, and in de- BAMKBY viADCOT. [By Perciyal Skelton.] termining the rise of his arch the engineer selected any headway he thought proper. Every consideration was indeed made sub- sidiary to constructing the bridge itself, and the completion of one large structure of this sort was regarded as an epoch in engi- neering history. Yet here, in the course of a few years, no fewer than sixty-three bridges were constructed on one line of railway ! Mr. Stephenson early found that the ordinary arch was inapplica- ble in certain cases, where the headway was limited, and yet the chap.xi.] sankey viaduct.— funds low. 293 level of the railway must be preserved. In such cases he em- ployed simple cast-iron beams, by which he safely bridged gaps of moderate width, economizing headway, and introducing the use of a new material of the greatest possible value to the engi- neer. The bridges of masonry upon the line were of many kinds ; several of them were skew bridges, while others, such as those at Newton and over the Irwell at Manchester, were straight and of considerable dimensions. But the principal piece of masonry on the line was the Sankey viaduct. This fifle work is principally of brick, with stone facings. It consists of nine arches of fifty feet span each. The massive piers are supported on two hundred piles, driven deep into the soil ; and they rise to a great height — the coping of the parapet being seventy feet above the level of the vaUey, in which flow- the San- key brook and Canal. Its total cost was about £45,000. By the end of 1828 the directors, found they had expended £460,000 on the works, and that they were still far from com- pletion. They looked at the loss of interest on this large invest- ment, and began to grumble at the delay. They desired to see their capital becoming productive ; and in the spring of 1829 they urged the engineer to push on the works with increased vigor. Mx. Cropper, one of the directors, who took an active in- terest in their progress, said to Stephenson one day, "]^ow, George, thou must get on with the railway, and have it finished without farther delay : thou must reaUy have it ready for opening by the first day of January next." " Consider the heavy character of the works, sir, and how much we have been delayed by the want of money, not to speak of the wetness of the weather : it is im- possible." " ImpossibH !" rejoined Cropper ; " I wish I could get JSTapoleon to thee — he would tell thee there is no such word as ' impossible' in the vocabulary." " Tush !" exclaimed Stephenson, with warmth, " don't speak to me about Napoleon ! Give me men, money, and materials, and I vrill do what Napoleon couldn't do — drive a railroad from Liverpool to Manchester over Chat Moss !" And truly the formation of a high road over that bot- tomless bog was apparently a more difficult task than the making even of Napoleon's far-famed road across the Simplon. The directors had more than once been embarrassed by want of funds to meet the heavy expenditui-e. The country had scarce- 294 STSPHJENSON'S GREAT LABORS. [Paet IT. ly yet recovered from the general panic and crash of 1825, and it was with difficulty that the calls could be raised from the share- holders. A loan of £100,000 was obtained from the Exchequer Loan Commissioners in 1826 ; and in 1829 an 'act was passed enabling the company to raise farther capital, to provide worMag plant for the railway. Two acts were. also obtained dming the progress of the undertaking, enabling deviations and alterations to be made ; one to improve the curves and shorten the line near Eainhill, and the other to carry the line across the IrweU into the town of Manchester. Thanks to the energy of the'engineer, the industry of his laborers, and the improved supply of money by the directors, the railway ma,de rapid progress in the course of the year 1829. Double sets of laborers were employed on Chat Moss and at other places in carrying on the works by night and day, the night shifts working- by torch and fire light ; and at length, the work advancing at aU points, the directors saw their way to the satisfactory completion of the .undertaking. It may well be supposed that Stephenson's time was fully oc- cupied, in superintending tlie extensive and for the most part novel works connected with the railway, and that even his ex- traordinary powers of labor and endurance were taxed to the ut- most during the four years that they were in progress. Almost every detail in the plans was directed and arranged by himself. Eveiy bridge, from the simplest to the most complicated, includ- ing the then novel structure of the " skew bridge," iron girders, siphons, fixed engines, and the machinery for working the tunnel at the Liverpool end, had all to be thought out by his own head, and reduced to definite plans under his own eyes. Besides aU this, he had to design the working plantln anticipation of the opening of the railway. He must be prepared with wagons, trucks, and carriages, himself superintending their manufacture. The permanent road, turn-tables, switches, and crossings — in short, the entire structure and machinery of the line, from the turning of the first sod to the running of the first train of car- riages on the raUway, went on under his immediate supervision. And it was in the midst of this vast accumulation of work and responsibility that the battle of the locomotive engine had to be fought^ a battle not merely against material difficulties, but against the still more trying obstructions of deeply-rooted mis- Chap. XI.] HIS ROUTINE OF LIFE. 295 trust and prejudice on the part of a considerable minority of the directors. He had no staff of experienced assistants — not even a stafE of draughtsmen in his office — but only a few pupils learning their business, and he was ' frequently without even their help. The time of his engineering inspectors was fully occupied in the ac- tual superintendence of the works at different parts of the line, and he took care to direct all their important operations in per- son. The principal draughtsman was Mr. Thomas Gooch, a pupil he had brought with him from Newcastle. " I may say," writes Mr. Gooch, " that nearly the whole of the working and other drawings, as well as the various land-plans for the railway, were drawn by my own hand. They were done at the company's office in Clayton Square during the day, from instructions sup- plied in the evenings by Mr. Stephenson, either by word of mouth, or by little rough hand sketches on letter-paper. The evenings were also generally devoted to my duties as secretary, in writing (mostly from his own dictation) his letters and re- ports, or in making calculations and estimates. The mornings before breakfast were not unfrequently spent by me in visiting and lending a helping hand in the tunnel and other works near Liverpool — the untiring zeal and perseverance of George Ste- phenson never for an instant flagging, and inspiring with a like enthusiasm all who were engaged under him in carrying forward the works."* The usual routine of his life at this time — ^if routine it could be called — was to rise early, by sunrise in summer and before' it in winter, and " break the back of the day's work" by midday. While the tunnel under Liverpool was in progress, one of his first duties in the morning before breakfast was to go over the various shafts, clothed in a suitable dress, and inspect the progress of the * Mr. Gooch's letter to the author, December 13th, 1861. Referring to the prep- aration of the plans and drawings, Mr. Gooch adds, "When we consider the ex- tensive sets of drawings wliich most engineers hare since found it right to adopt in carrying out similar works, it is not the least surprising feature in George Stephen- son's early professional career that he should have been able to confine himself to so limited a number as that which could be supplied by the hands of one person in car- rying out the construction of the Livei-pool and Manchester Railway; and this may still be said, after fuU allowance is made for the alteration of system involved by the adoption of the large contract system." 296 STEPHENSON'S DAILY OCCUPATIONS. [Part II. work at different points ; on other days he would visit the ex- tensive workshops at Edgehill, where most of the " plant" for the line was manufactured. Then, returning to his house in Upper Parliament Street, Windsor, after a hurried breakfast, he would ride along the works to inspect their progress, and push them on with greater energy where needful. On other days he would prepare for the much less congenial engagement of meeting the board, which was often a cause of great anxiety and pain to him ; for it was difficult to satisfy men of all tempers, some of which were not of the most generous kind. On such occasions he might be seen with his right-hand thumb thrust through the topmost button -hole of his coat -breast, vehemently hitching his right shoulder, as was his habit when laboring under any considerable excitement. Occasionally he would take an early ride before breakfast, to inspect the progress of the Sankey viaduct. He GTKPHENSON'e ItAITINQ-PLAOE AT SANKEl. had a favorite horse, brought by him fi-om Newcastle, called " Bobby" — so tractable that, with his rider on his back, he would walk up to a locomotive with the steam blowing off, and put liis nose against it without shying. " Bobby," saddled and bridled, was brought to Stephenson's door betimes in the morning, and, mounting him, he would ride the fifteen miles to Sankey, putting up at a little public house which then stood upon the banks of the canal. There he had Iiis breakfast of " crowdie," which he Chap. XI.] HIS CORRESPONDENCE. 297 made with his own hands. It consisted of oatmeal stirred into a basin of hot water — a sort of porridge — which was supped with cold sweet milk. After this frugal breakfast he would go upon the works, and remain there, riding from point to point for the greater part of the day. If he returned 'home before midday it would be to examine the pay-sheets in the different depart- ments sent in by the assistant engineers, or by the foremen of the workshops ; all this he did himself with the greatest care, re- quiring a full explanation of every item. After a late dinner, which occupied very short time and was always of a plain and frugal description,* he would proceed to dispose of his correspondence, or prepare sketches of drawings, and give instructions as to their completion. • He would occasion- ally refresh himself for this evening work by a short doze, which, however, he would never admit had exceeded the Hmits of ."wink- ing," to use his ovm term. Mr. Frederick Swanwick, who offici- ated as his secretary after the appointment of Mr. Gooch as resi- dent engineer to the Bolton and Leigh Kailway, has informed us that he then remarked — ^what in after years he could better ap- preciate — ^the clear, terse, and vigorous style of Stephenson's dic- tation; there was nothing superfluous in it, but it was close, di- rect, and to the point — ^in short, thoroughly business-like. And if, in passing through the pen of the amanuensis, his meaning hap- pened in any way to be distorted or modified, it did not fail to es- cape his detection, though he was always tolerant of any liberties taken with his ovm form of expression, so long as the words writ- ten down conveyed his real meaning. His strong natural acumen showed itself even in such matters as grammar and composition — a department of knowledge in which, it might be supposed, he * While at Liverpool Stephenson had very little time for " company ;" but on one particular occasion he invited his friend Mr. Sandars to dinner, and, as that gentle- man was a connoisseur in port wine, his host determined to give him a special treat of that drink. Stephenson accordingly went to the small merchant with whom he usually dealt, and ordered "half a dozen of his very best port wine," which was promised of iirst-rate quality. After dinner the wine was produced ; and when Mr. Sandars had sipped a glass, George, after waiting a little for the expected eulogium, at length asked, "Well, Sandars, how d'ye like the port?" "Poor stuff!" said the guest, " poor stuff!" George was very much shocked, and with difficulty recovered his good humor. But he lived to be able to treat Mr. Sandars to a better article at Tapton House, when he. used to laugh over his first futile attempt at Liverpool to gain a reputation for his port. 298 INSTRUCTION OF HIS PUPILS. [Pabt H. could scarcely have had either time or opportunity to acquire much information. But here, as in aU other things, his shrewd common sense came to his help, and his simple, vigorous English might almost be cited as a model of composition. His letters and re'J)orts written, and his sketches of drawings made and explained, the remainder of the evening was usually devoted to conversation with his wife and those of his pupils who hved under his roof, and constituted, as it were, part of the family. He then dehghted to test the knowledge of his young companions, and to question them upon the principles of mechanics. If they were not quite " up to the mark" on any point, there was no es- caping detection by evasive or specious explanations on their part. These always met with the verdict of, " Ah ! you know naught about it now ; but think it over again, and teU me the answer when you understand it." If there was even partial success in the reply, it would at once be acknowledged, and a full explana- tion was given, to which the master would add illustrative exam- ples for the purpose of impressing the principle more deeply upon the pupil's mind. It was not so much his object and purpose to " cram" the minds of the yoimg men committed to his charge with the remits of knowledge, as to stimulate them to educate themselves — ^to induce them to develop their mental and moral powers by the exercise of their own free energies, and thus acquire that habit of self- tliinking and self-reliance which is the spring of aU true manly action. In a word, he sought to bring out and invigorate the cha/raeter of his pupils. He felt that he himself had been made stronger and better through his encounters with difficulty, and he would not have the road of knowledge made too smooth and easy for them. "Learn for yourselves — think for yourselves," he would say : " make yourselves masters of principles — ^persevere — be industrious — and there is then no fear of you." And not the least emphatic proof of the soundness of this system of education, ae conducted by George Stephenson, was afforded by the after history of the pupils themselves. There was not one of those trained under his eye who did not rise to eminent usefulness and distinction as an engineer. He sent them forth into the world braced with the spirit of self-help — inspired by his own noble ex- ample ; and they repeated in their after career the lessons of ear- Chap. XL] EVENINGS AT HOME.— CHAT MOSS. 299 nest effort and persistent industry wkicK his daily life had taught them. Mr. Stephenson's eyenings at home were not, however, exclu- sively devoted either to busuiess or to the graver exercises above referred to. He would often indulge in cheerful conversation and anecdote, falhng back from time to time upon the struggles and difficulties of his early life. The not unfi'equent winding up of his story, addressed to those about him, was, " All ! ye young fellows don't know what ivark is in these days !" Mr. Swanwick deUghts recalhng to mind how seldom, if ever, a cross or captious word, or an angrj^ look, marred the enjoyment of those evenings. The presence of Mi's. Stephenson gave them an additional charm : amiable, kind-hearted, and intelligent, she shared cjuietly in the pleasure of the party; and the atmosphere of comfort which al- ways pervaded her home contributed in no small degree to ren- der it a centre of cheerful, hopeful intercourse, and of earnest, honest industry. OUAT M06S — WOEKB IN PE0GKE8S. Wlien Stephenson retired for the night, it was not always that he permitted himself to sink into slumber. Like Brindley, he worked out many a difficiilt problem in bed ; and for hours he would tm-n over in his mind and study how to overcome some obstacle, or to mature some project, on which his thoughts were 300 AN EARLY RISER. [Paet II. bent. Some remark inadvertently dropped by him at the break- fast-table in the morning served to show that he had been steal- ing some hours from the night in reflection and study. Yet he would rise at his accustomed early hour, and there was no abatement of his usual energy in carrying on the business of the day. CHAP.Xn.] ROBERT STEPHENSON. 301 CHAPTEE XII. EOBERT Stephenson's eesidenob m Colombia, ajto eettien — the BATTLE OF THE LOOOMOTIYE " THE EOCKET." We return to the career of Eobert Stephenson, who was absent from England during the construction of the LiTerpool Kailway, but was now about to rejoin his father and take part in " the battle of the locomotive" which was impending. "We have seen that, on his retm-n from Edinburg College at the end of 1821, he had assisted in superintending the works of the Hetton Kailway until its opening in 1822, after which he proceeded to Liverpool to take part with Mr. James in surveying the proposed railway there. In the following year we found him assisting his father in the working survey of the Stockton and Darlington EaUway ; and when the Locomotive Engine Works were started in Forth Street, Newcastle, he took an active part in that concern. "The factory," he says, "was in active opera- tion in 1824 ; I left England for Colombia in June of that year, having finished drawing the designs of the Brusselton stationary engines for the Stockton and Darlington Eailway before I left."* Speculation was very rife at the time, and among the most promising adventures were the companies organized for the pur- pose of working the gold and silver mines of South America. Great diflSculty was experienced in finding mining engineers capable of carrying out those projects, and young men of even the most moderate experience were eagerly sought after. The Colombian Mining Association of London offered an engagement to young Stephenson to go out to Mariquita and take charge of the engineering operations of that company. Eobert was him- self desirous of accepting it, but his father said it would first be necessary to ascertain whether the proposed change would be for his good. His health had been very dehcate for some time, partly occasioned by his rapid growth, but principally because of * Letter to the author. 302 PROCEEDS TO SOUTH AMERICA. [Paet II. his close application to work and study. Father and son pro- ceeded together to call upon Dr. Headlam, the eminent physician of Newcastle, to consult him on the subject. During the exam- ination which ensued, Kobert afterward used to say that he felt as if he were upon trial for life or death. To his great relief, the doctor pronounced that a temporary residence in a warm cHmate was the very thing likely to be most beneficial to him. The ap- pointment was accordingly accepted, and, before many weeks had passed, Eobert Stephenson had set sail for South America. After a tolerably prosperous voyage 'he landed at La Guayra, on the north coast of Venezuela, on the 23d of July, from thence proceeding to Caraccas, the capital of the district, about fifteen miles inland. There he remained for two months, unable to pro- ceed in consequence of the wretched state of the roads in the in- terior. He contrived, however, to make occasional excursions in the neighborhood with an eye to the mining business on which he had come. About the beginning of October he set out for Bogota, the capital of Colombia or New Granada. The distance was about twelve hundred miles, through a very diflBcult region, and it was performed entirely upon mule-back, after the fashion of the country. In the course of the journey Eobert visited many of the dis- tricts reported to be rich in minerals, but he met with few traces except of copper, iron, and coal, with occasional indications of gold and silver. He found the people ready to furnish informa- tion, which, however, when tested, usually proved worthless. A guide, whom he employed for weeks, kept him buoyed up with the hope of finding richer mining places than he had yet seen ; but when he professed to be able to show him mines of " brass, steel, alcohol, and pinchbeck," Stephenson discovered him to be an incorrigible rogue, and immediately dismissed him. At length our traveler reached Bogota, and after an interview with Mr. H- lingworth, the commercial manager of the Mining Company, he proceeded to Honda, crossed the Magdalena, and shortly after reached the site of his intended operations on the eastern slope of the Andes. Mr. Stephenson used afterward to speak in glowing terms of this his first mule-journey in South America. Every thing was entirely new to him. The variety and beauty of the indigenous CHAP.Xn.] RESIDENCE AT MARIQUITA. 303 plants, the luxurious tropical vegetation, the appearance, man- ners, and dress of the people, and the mode of traveling, were al- together different from every thing he had before seen. His own traveling garb also must have been strange even to himself. " My hat," he says, " was of plaited grass, with a crown nine inches in height, surrounded by a brim of six inches ; a white cotton suit ; and a ruana of blue and crimson plaid, with a hole in the centre for the head to pass through. This cloak is admirably adapted for the purpose, amply covering the rider and mule, and at night answering the purpose of a blanket in the net-hammock, which is made from the fibres of the aloe, and which every traveler car- ries before him on his mule, and suspends to the trees or in houses,, as occasion may require." The part of the journey which seems to have made the most lasting impression on his miad was that between Bogota and the mining district in the neighborhood of Mariquita. As he ascend- ed the slopes of the mountain range, and reached the first step of the table-land, he was struck beyond expression with the noble view of the valley of Magdalena behind him, so vast that he fail- ed in attempting to define the point at which the course of the river blended with the horizon. Like all travelers in the district, he noted the remarkable change^ of climate and vegetation as he rose from the burning plains toward the fresh breath of the mountains. From an atmosphere as hot as that of an oven he passed into delicious cool air, until, in his onward and upward journey, a still more temperate region was reached, the very per- fection of climate. Before him rose the majestic Cordilleras, forming a rampart against the western sky, and at certaia times of the day looking black, sharp, and even at their suramit almost like a wall. Our engineer took up his abode for a time at Mariquita, a fine old city, though then greatly fallen into decay. During the pe- riod of the Spanish dominion it was an important place, most of the gold and silver convoys passing through it on their way to Cartagena, there to be shipped ia galleons for Europe. The mountainous country to the west was rich in silver, gold, and oth- er metals, and it was Mr. Stephenson's object to select the best site for commencing operations for the company. With this ob- ject he "prospected" about in all directions, visitiag long-aban- 304 MINING INTRIGUES. [Past II. doned mines, and analyzing specimens obtained from^ many quar- ters. The mines eventually fixed upon as the scene of his opera- tions were those of La Manta and Santa Anna, long before work- ed by the Spaniards, though, in consequence of the luxuriance- and rapidity of the vegetation, all traces of the old workings had become completely overgrown and lost. Every thing had to be begun anew. Eoads had to be cut to open a way to the mines, machinery had to be erected, and the ground opened up, when some of the old adits were eventually hit upon. The native peons or laborers were not accustomed to work, and they usually con- trived to desert when they were not watched, so that very Httle progress could be made until the arrival of the expected band of miners from England. The authorities were by no meaqs help- ful, and the engineer was driven to an old expedient with the ob- ject of overcoming this difficulty. "We endeavor all we can," he says, in one of his letters, " to make ourselves popular, and this we find most effectually accomplished by 'regahng the venal beasts.' " He also gave a ball at Mariquita, which passed off with ^clat, the governor from Honda, with a host of friends, hon- oring it with their presence. It was, indeed, necessary to "make a party" in this way, as other schemers were already trying to undermine the- Colombian Company in influential directions. The engineer did not exaggerate when he said, " The uncertainty of transacting business in this country is perplexing beyond de- scription." In the mean time laborers had been attracted to Santa Anna, which became, the engineer wrote, " like an English fair on Sundays : people flock to it from all quarters to buy beef and chat with their friends. Sometimes three or four torros are slaughtered in a day. The people now eat more beef in a week than they did in two months before, and they are consequent- ly getting fat."* At last Stephenson's party of miners arrived from England, but they gave him even more trouble than the peons had done. They were rough, drunken, and sometimes ungovernable. He * Letter to Mr. lUingworth, September 25th, 1825. The reports made to the di- rectors and officers of the company, which we have seen, contain the details of the operations carried on at the mines, but they are as dry and uninteresting as such re- ports usually are, and furnish no materials calculated to illustrate the subject of the text. Chap. XII.] MINING QUARRELS. 305 set them to work at the Santa Anna mine without delay, and at the same time took up his abode among them, " to keep them," he said, " if possible, from indulging in the detestable vice of drunkenness, which, if not put a stop to, will eventually destroy themselves, and involve the mining association in ruin." To add to iiis troubles, the captain of the miners displayed a very hostile and insubordinate spirit, quarreled and fought with the men, and was insolent to the engineer himself. The captain and his gang, being Cornishmen, told Kobert to his face that because he was a North-country man, and not brought up in Cornwall, it was impossible that he should know any thing of mining. Disease also fell upon him — first fever, and then visceral derangement, followed by A return of his " old complaint, a feeling of oppres- sion in the breast." No wonder that in the midst of these troubles lie should longingly speak of returning to his native land. But he stuck to his post and his duty, kept up his courage, and by a mixture of mildness. and firmness, and the display of great cool- ness and judgment, he contrived to keep the men to their work, and gradually to carry forward the enterprise which he had un- dertaken. By the beginning of July, 1826, quietness and order had been restored, and the works were proceeding more satisfac- torily, though the yield of silver was not as yet very promising, the engineer being of opinion that at least three years' diligent and costly operations would be necessary to render the mines productive. In the mean time he removed to the dwelling which had been erected for his accommodation at Santa Anna. It was a struc- ture speedily raised after the fashion of the country. The walls were of split and flattened bamboo, tied together with the long fibres of a dried climbing plant ; the roof was of palm-leaves, and the ceiling of reeds. When an earthquake shook the dis- trict — for earthquakes were frequent — the iimiates of such a fab- ric merely felt as if shaken in a basket, without sustaining any harm. In front of the cottage lay a woody ravine, extending al- most to the base of the Andes, gorgeously clothed in primeval vegetation — magnolias, palms, bamboos, tree-ferns, acacias, ce- dars ; and towering over all were the great almendrons, with their smooth, silvery stems, bearing aloft noble clusters of pure white blossom. The forest was haunted by myriads of gay in- 306 COTTAGE AT SANTA ANNA. [Part II. sects, butterflies with wings of dazzling lustre, birds of brilliant plumage, humming-birds, golden orioles, toucans, and a host of solitary warblers. But the glorious sunsets seen from bis cot- tage-porch more than all astonished and delighted the young engineer, and he was accustomed to say that, after having wit- nessed them, he was reluctant to accuse the ancient Peravians of idolatry. ROBERT BTF,rHEN80N 8 OOTTAOE AT BANTA ANNA. But all these natural beauties failed to reconcile him to the harassing difficulties of his position, which continued to increase rather than diminish. He was hampered by the action of the board at home, who gave ear to hostile criticisms on his reports ; and although they afterward made handsome acknowledgment of his services, he felt his position to be altogether unsatisfactory. He therefore determined to leave at tlie expiry of his three years' engagement, and communicated his decision to the directors ac- cordingly.* * In a letter to Mr. Illingworth, then resident at Bogota, dated the 24 th of March, 1826, Eobert wrote as follows : "Nothing but the fullest consent of my partners in England could induce me to stay in this countiy, and the assurance that no absolute necessity existed to call me home. I must also have the consent of my father. I Chap. XII.] URGED TO RETURN HOME. 307 On receiving his letter, the board, through Mr. Eichardson, of Lombard Street, one of the directors, communicated with his fa- ther at Newcastle, representing that if he would allow his son to remain in Colombia the company would make it " worth his while." To this the father gave a decided negative, and inti- mated that he himself urgently needed his son's assistance, and that he must return at the expiry of his three years' term — a de- cision, Eobert wrote, "at which I feel much gratified, as it is clear that -he is as anxious to have me back in England as I am to get there." At the same time, Edward Pease, a principal partner in the Newcastle firm, privately wrote Robert to the following effect, urging his return home : " I can assure thee that the business at Newcastle, as well as thy father's engineering, have suffered very much from thy absence, ^nd, unless thou soon return, the former will be given up, as Mr. Longridge is not able to give it that at- tention it requires ; and what is done is not done with credit to the house." The idea of the manufactory being given up, which Robert had labored so hard to estabhsh before leaving England, was painful to him in the extreme, and he wrote to Mr. lUing- worth, strongly urging that arrangements should be made for en- abling liim to leave without delay. In the mean timp he was laid prostrate by another violent attack of aguish fever; and when able to write, in June, 1827, he expressed himself as " com- pletely wearied and worn down with vexation." At length, when he was sufiiciently recovered from his attack and able to travel, he set out on his voyage homeward in the be- ginning of August. At Mompox, on his way down the River Magdalena, he met Mr. Bodmer, his successor, with a fresh party know that he must have suffered severely from my absence, hut that having been ex- tended so far beyond the period he was led to expect, may have induced him to cur- tail his plans, which, had they been accomplished, as they would have been by my as- sistance, would have placed us both in a situation far superior to any thing that I can hope for as the servant of an association however wealthy and liberal. What I might do in England is perhaps known to myself only ; it is difScult, therefore, for the as- sociation to calculate upon rewarding me to the fuU extent of my prospects at home. My prosperity is involved in that of my father, whose property was sacrificed in lay- ing the foundations of an establishment for me ; his capital being invested in a con- cern which requires the greatest attention, and which, with our personal superintend- ence, could not fail to secure that independence which forms so principally the object of all our toil." 308 VOYAGE TO NEW YORK. [Part II. of miners from England, on their way up the country to the quar- ters which he had just quitted. Next day, six hours after leav- ing Mompox, a steam-boat was met ascending the river, Avith Bol- ivar the Liberator on board, on his way to St. Bogota; audit was a mortification to our engineer that he had only a passing sight of that distinguished person. It was his intention, on leaving Mariquita, to visit the Isthmus of Panama on his way home, for the purpose of inquiring into the practicability of cutting a canal to unite the Atlantic and Pacific — a project which then formed the subject of considerable public discussion; but Mr. Bodmer having informed him at Mompox that such a visit would be in- consistent with the statements made to the London Board that his presence was so anxiously desired at home, he determined to embrace the first opportunity of proceeding to New York. Arrived at the port of Cartagena, he found himself under the necessity of waiting some time for a ship. The delay was very irksome to him, the more so as the place was then desolated by the ravages of the yellow fever. While sitting one day in the large, bare, comfortless pubhc room of the miserable hotel at which he put up, he observed two strangers, whom he at once perceived to be English. One of the strangers was a tall, gaunt man, shrunken and hoUow-looking, shabbily dressed, and appa- rently poverty-stricken. On making inquiry, he found it was Trevithick, the builder of the first railroad locomotive ! He was returning home from the gold miness of Peru penniless. Robert Stephenson lent him £50 to enable him to reach England ; and though he was afterward heard of as an inventor there, he had no farther part in the ultimate triumph of the locomotive. But Trevithick's misadventures on this occasion had not yet ended, for before he reached New York he was wrecked, and Eobert Stephenson with him. The following is the account of the voyage, " big with adventures," as given by the latter in a letter to his friend Illingworth : " At first we had very little foul weather, and, indeed, were for several days becalmed among the islands, which was so far fortu- nate, for a few degrees farther north the most tremendous gales were blowing, and they appear (from our future information) to have wrecked every vessel exposed to their violence. We had two examples of the effects of the hurricane ; for, as we sailed north, we Chap. XII.] RETURN TO ENGLAND. 309 took on board the remains of two crews found floating about on dismantled hulls. The one had been nine days without food of any kind except the carcasses of two of their companions who had died a day or two previously jfrom fatigue and hunger. The other crew had been driven about for six days, and were not so dejected, but reduced to such a weak state that they were obliged to be drawn on board our vessel by ropes. A brig bound for Havana took part of the men, and we took the remainder. To attempt any descrip- tion of my feelings on witnessing such scenes would be in vain. Tou will not be surprised to learn that I felt somewhat uneasy at the thought that we were so far from England, and that I also might possibly suffer similar shipwreck ; but I consoled myself with the hope that fate would be more kind to us. It was not so much so, however, as I had flattered myself; for on voyaging toward New York, after we had made the land, we ran aground about mid- night. The vessel soon filled with water, and, being surrounded by the breaking surf, the ship shortly split up, and before morning our situation became perilous. Masts and all were cut away to prevjent the hull rocking, but all we could do was of no avail About eight o'clock on the following morning, after a most miserable night, we were taken off the wreck, and were so fortunate as to reach the shore. I saved my minerals, but Empson lost part of his botanical collection. Upon the whole, we got off well ; and, had I not been on the American side of the Atlantic, I 'guess' I would not have gone to sea again." After a short tour in the United States and Canada, Kobert Stephenson and his friend took ship for Liverpool, where they arrived at the end of November, and at once proceeded to New- castle. The factory, we have seen, was by no means in a pros- perous state. During the time Kobert had been in America it had been carried on at a considerable loss ; and Edward Pease, very much disheartened, wished to retire from it, but George Ste- phenson being unable to raise the requisite money to buy him out, iihe establishment was of necessity carried on by its then partners until the locomotive could be established in public esti- mation as a practicable and economical working power. Robert Stephenson immediately instituted a rigid inquiry into the work- ing of the concern, unraveled the accounts, which had been al- lowed to fall into confusion during his father's absence at Liver- pool, and very shortly succeeded in placing the affairs of the f ac- 310 fIXED ENGINES versus LOCOMOTIVES. [PaetH. tory in a more healthy condition. In all this he had the hearty support of his father, as well as of the other partners. The works of the Liverpool and Manchester Kail way were now approaching completion. But, strange to say, the directors had not yet decided as to the tractive power to be employed in work- ing the line when opened for traffic. The differences of opinion amopg them were so great as apparently to be irreconcilable. It was necessary, however, that they should come to some decision without farther loss of time, and many board meetings were ac- cordingly held to discuss the subject. The old-fashioned and well-tried system of horse-haulage was not without its advocates ; but, looking at the large amount of traffic which there was to be conveyed, and at the probable delay in the transit from station to station if this method were adopted, the directors, after a visit made by them to the Northumberland and Durham railways in 1828, came to the conclusion that the employment of horse-pow- er was inadmissible. Fixed engines had many advocates ; the locomotive very few : it stood as yet almost in a minority of one — George Stephenson. The prejudice against the employment of the latter power had even increased since the Liverpool and Manchester BiU under- went its &Bt ordeal in the House of Commons. In proof of this, it may be mentioned that the Newcastle and Carlisle Railway Act was conceded in 1829 on the express condition that it should Tiot be worked by locomotives, but by horses only. Grave doubts still existed as to the practicability of working a large traffic by means of traveling engines. The most celebrated engineers offered no opinion on the subject. They did not believe in the locomotive, and would scarcely take the trouble to examine it. The ridicule with which George Stephenson had been assail- ed by the barristers before the ParHamentary Committee had not been altogether distasteful to them. Perhaps they did not relish the idea of a man who had picked up his experience in Newcas- tle coal-pits 'appearing in the capacity of a leading engineer be- fore Parliament, and attempting to establish a new system of in- ternal communication in the country. The directors could not disregard the adverse and conflicting views of the professional men whom they consulted. But Ste- phenson had so repeatedly and earnestly urged upon them the Chap. XII.] SCHEMES FOR EFFECTING LOCOMOTION. 311 propriety of making a trial of the locomotive before coming to any decision against it, that they at length authorized him to pro- ceed with the construction of one of his engines by way of experi- ment. In their report to the proprietors at their annual meeting on the 27th of March, 1828, they state that they had, after due consideration, authorized the engineer " to prepare a locomotive engine, which, from the nature of its construction and from the experiments already made, he is of opinion will be effective for the purposes of the company, without proving an annoyance to the public." The locomotive thus ordered was placed upon the line in 1829, and was found of great service in drawing the wag- ons full of marl from the two great cuttings. In the mean time the discussion proceeded as to lihe kind of power to be permanently employed for the working of the rail- way. The directors were inundated with schemes of all sorts for facilitating locomotion. The projectors of England, France, and America seemed to be let loose upon them. There were plans for working the wagons along the line by water-power. Some proposed hydrogen, and others carbonic acid gas. Atmospheric pressure had its eager advocates. And various kinds of fixed and locomotive steam-power were suggested. Thomas Gray urged his plan of a greased road with cog-rails ; and Messrs. Vig- noUes and Ericsson recommended the adoption of a central fric- tion-rail, against which two horizontal rollers under the locomo- tive, pressing upon the sides of this rail, were to afford the means of ascending the inclined planes. The directors felt themselves quite unable to choose from amid this multitude of projects. Their engineer expressed himself as decidedly as heretofore in favor of smooth rails and locomotive engines, which, he was confident, would be foimd the most eco- nomical and by far the most convenient moving power that could be employed. The Stockton and Darlington Railway being now at work, another deputation went down personally to inspect the fixed and locomotive engines on that line, as well as at Hetton and Killingworth. They returned to Liverpool with much infor- mation ; but their testimony as to the relative merits of the two kinds of engines was so contradictory, that the directors were as far from a decision as ever. They then resolved to call to their aid two professional engi- 312 WALKER AND RASTRICK'S REPORT. [Paet II. neers\)f high standing, who should visit the Darlington and New- castle railways, carefully examine both modes of working — the fixed and the locomotive — and report to them fuUy on the sub- ject. The gentlemen selected were Mr. Walker, of Limehouse, and MJr. Eastrick, of Stourbridge. After carefully examining the working of the Northern lines, they made their report to the directors in the spring of 1829. They concurred in the opinion that the cost of an establishment of fixed engines would be some- what greater than that of locomotives to. do the same work, but they thought the annual charge would be less if the former were adopted. They calculated that the cost of moving a ton of goods thirty miles by fixed engines would be 6*4:0 conduct in .connection with. rail- way l^islation was so open to reprehension, interposed no check . — attempted no remedy.. On the eontraryj it helped ;to intensify the r evils arising; from this unseemly state :of things. Many of its members were themselves involved in the mania,,an4a8 much interested in its continuance as .the vulgao" herd of money-grub- bers. : The railway prospectuses now issuedT^unhke the original Liverpool and Manchester, andiLondon and Birmingham schemes — were headed.bype,er.%, baronets, landed proprietors, and strings of M.P's. Thus it was fotmd in 1845 ithat- no fewer than 157 members of ParEament were on the lists, of new icompanies as subscribers .for sums ranging from £291,000 downward ! The projectors of new ilineS' even came to boast of their Parliamentary strength, and of the number of votes which they could command in "the House;'' At aU, events^it is matter of fact,. that many utterly ruinous branches, and extensions, projected during , the mania, calculated only to benefit the inhabitants of a few miser- able boroughs accidentally omitted, from Schedule A,,were au- thorized in the memora;ble sessions of 1844 and 1845. . . iGeorge Stephenson was anxiously entreated to lendihis name to prospectuses: during the railway mania, but h© invariably re- fused. He held aloof from the headlong folly of the hour, and endea,vored to check it, but in, vain. Had he been less scrupu- lous, and glv^n his . countenance to the numerous projects about which he was consulted, he might, without any trouble, Jbava thus Chap. XVI.] STEPHENSON ON RAILWA Y SPECULA TJON. 407 secured enormous gains-; bnthe had no desire' toacciunulate a fortime without labor and without honor. He himself never speculated in shares. When he was satisfied as to the merits of an undertaking:, he would sometimes subscribe for a certain amount of capital in it, when he held on, neither buying nor selling. At a dinner of; the Leeds and Bradford directors at Ben Eydding.in October, 1844, before the mania had reached its height, he warned those .present against the prevalent disposition toward railway speculation. It was, he said, like walking upon a piece office with shallows and deeps; the shallows were frozen over, and they would carry, but it required great caution to get: over the deeps. ^He was satisfied that in the course of the next year many would step; on to places not strongi enough to carry them, and would get into the deeps ; they would be taking' shares, and afterward be. unable to pay the calls upon them. Torkshjre- men were reckoned clever men, and his advice to them was to stick together and promote conamunication in their own neigh- borhood — not to go abroad with. their speculations. If any had done so, he advised them to get their money back as fast as they could, for if they did not they would not get it at aU. He in- formed the company, at the same time, of his earliest holding of railway share* it was in the Stockton 'and Darlington Eailway, and the number he held was three-^'& very large capital for him to possess at the time." But a Stockton friend was anxious to possess a share, and he sold him one at a premium of 33«. ; he supposed he had been about the first man in England to sell a railway share at a premium. ■ During 1845, his son's office in Great George Street, Westmin* sterj was crowded with persons «f various conditions seeking in- terviews, presenting very much the appearance of the levee of a minister of state. The burly figure of Mr. Hudson, the " Eailway King," surrounded by an admiring group of followers, was often to be seen there;, and a still more interesting person, in the esti- mation of many^ was George Stephenson, dressed in black, his coat of somewhat old-fashioned cut, with, square pockets in the' tails. He wore a white neckcloth, and a large bunch of seals Was suspended from his watch-ribbon.. Altogether, he presented an appearance of health, intelligence, and good humor, that it gladdened one to look upon in thaf sordid, selfish, and eventually ruinous satumaha of railway speculation. 408 RAGE FOR DIRECT jLINES. [PaetII. i Being still the consulting engineer of several of the older com- panies, lie necessarily appeared before Parliament in support of their branches and extensions. In 1845 his name was associated with that of his son as the engineer of the Southport and_Preston Junction. In the same session he gave evidence in favor of the Syston and Peterborough branch of the Midland Railway ; but his principal attention was confined to the promotion of the line from Newcastle to Berwick, in which he had never ceased to take the deepest interest. Powers were granted by Parliament in 1845 to construct not less than 2883 miles of new railways in Britain, at an expendi- ture of about forty-four miUions sterling ! Yet the mania was not appeased ; for in the following session of 1846, applications were made to Parliament for powers to raise £389,000,000 ster- ling for the constriiction of farther lines ; and they were actual- ly conceded to the extent of 4Y90 miles (including 60 miles of tunnels), at a cost of about £120,000,000 sterling.* During this session Mr. Stephenson appeared as -engineer for only one new line — ^the Buxton, Macclesfield, Congleton, and Orewe EaQway — a line in which, as a coal-owner, he was personally interested ; and of three branch lines in connection with existing companies for which he had long acted as engineer. At tW same period all the leading professional men were fully occupied, some of them appearing as consulting engineers for upward of thirty lines each! One of the features of this mania was the rage for " direct lines" which every where displayed itself. There were " Direct Manchester," " Direct Exeter," " Direct York," and, indeed, new direct lines between most of the, large towns. The Marquis of Bristol, speaking in favor of the " Direct Iforwich and London" project at a public meeting at Haverhill, said, " If necessary, they might make a tv/rmell>eneath his very dvawmg-room rather than be defeated in their undertaking !" And the Eev. F. Litchfield, at a meeting in Banbury on the subject of a line to that town, "said, " He had laid down for himself a limit to his approbation * On the 17th of November, 1845, Mr. Spackman published a list of the lines pro- jected (many of which were not afterward prosecuted), from which it appeared that there were then 620 new railway projects before the public, requiring a capital of £563,203,000. Chap. XVI.] THE LEGISLATURE AND TEE MANIA. 409 of railways — at least of such as approached the neighborhood with which he was connected — and that limit was, that he did not wish them to approach any nearer to him than to run through his hed/room, with the hedposts for a station !" How different was the spirit which influenced these noble lords and gentlemen but a few years before ! The course adopted by Parliament in dealing with the multi- tude of railway bills applied for during the prevalence of the mania was as irrational as it proved unfortunate. The want of foresight displayed by both houses in obstructing the railway sys- tem so long as it was based upon sound commercial principles f was only equaled by the fatal facility, vrith which they now grant- ed railway projects based upon the wildest speculation. Parha-I ment interposed no check, laid dovyn no principle, furnished noi guidance, for the conduct of railway projectors, but left every company to select its own locahty, determine its own hne, and fix its ovra gauge. No regard was paid to the claims of existing companies, which had already expended so large an amount in the formation of useful railways; and speculators were left at liberty to project and carry out hues almost parallel vrith theirs. The House of Commons became thoroughly influenced by the prevailing excitement. Even the Board of Trade began to favor -the views of the new and reckless school of engiueers. In their "Keport on the Lines projected in the Manchester and Leeds District," they promulgated some remarkable vie-w^s respecting gradients, declaring themselves in favor of the " undulating sys- tem." They there stated that lines of an undulating character " which gave gradients of 1 in 70 or 1 in 80 distributed over them in short lengths, may be positively tetter lines, i. e., more susoept- ihle of chea/p omd eaapeditious worJcvng, than others which have nothing steeper than 1 in 100 or 1 in 120 !" They concluded by reporting in favor of the hne which exhibited the worst gradients and the sharpest curves, chiefly on the ground that it could be constructed for less money. Sir Robert Peel took occasion, when speaking in favor of the' continuance of the Eailways Department of the Board of Trade, to advert to this report in the House of Commons on the 4:th of March following, as containing " a novel and highly important view on the subject of gradients, which, he was certain, never 410 LEGISLATIVE BUNGLING. [Paet II. could have been taken by any committee of the House of Com^ mons, however intelligent ;" and he might have added, that the more intelHgeiit,'the less likely would they be to arrive at any such conclusion. When George Stephenson saw this report of the premier's speech in the newspapers of the foUowing morning, he went forthwith to his son, and asked him to write a letter to Sir Eobert Peel on the subject. He saw clearly that if such views were adopted, the utility and economy of railways would be seriously curtailed. '^ These members of Parliament," said he, " are now as much disposed to exaggerate the powers of ike loco- motive as they were to underestimate them but a few years ago." Eobert accordingly wrote a letter for his father's signature, em- bodying the views which he so strongly entertained as to the im- portance of flat gradients, and referring to the experiments con- ducted by him many years before in proof of the great loss of working power which was incurred on a line of steep as com- pared with easy gradients. It was clear, from the tone of Sir Eobert Peel's speech in a subsequent debate, that he had careful- ly read and considered Mr. Stephenson's practical observations on the subject, though it did not appear that he had come to; any definite conclusion thereon farther than thathe strongly approved of the Trent Valley Eailway, by which Tafnworth would be placed Upon a direct main line of communication. The resliltof the labors of ParliameM was a tisue of legislative bungling, involving enormous loss to the nation. Eaaiway bills were granted in heaps. Two hundred and seventy-two addition- al acts were passed in 1846. Some authorized the construction of lines running almost parallel with existihg railways, in order to afford the public "the benefits of unrestricted competition." Locomotive and atmospheric lines, broad-gauge and narrow-gauge Mnes, were granted without hesitation. Oommittees decided with- out judgment and without discrimination; and in the scramble for bills,'the most unscrupulous were usually the most successful. As an illustration of the legislative folly of the period, Eobert Stephenson, speaking at Toronto, in Upper Cainada, some years later, adduced the following instances : "There was one district thi^ough which it was proposed to run two lines, and there was no other diflSculty between them than the simple rivalry that, if one got a charter^ the other might also. But Chap. XVI.] GEORGE HUDSON. 411 here, where the committee might have given both, they gave nei- thei'. In another instance, two lines were projected through a bar- ren country, and the committee gave the one which afforded the least accommodation to the public. In another, where, two lines were projected, to run, merely to, shorten the, time by a few minutes, leading through, a mountaiaous country, the committee gave both. So that, where the committee might have given both, they gave neither, and where they should have given neither, they gave both." Among;the many ill effects of the mania, one of the worst wag that it introdueied a low tone of morality into railway transac- tions. The bad spirit whieb had been evoked by it unhappily ex- tended to the commercial, classes, and many of the most flagrant swindles ( o£ recent times r had their origin in itbe year 1845. Those who -had suddenly gained large sumS:without labor, and also without honor, were too ready to enter upon courses of the wildest extravagance; and a false style of living arose, the pois- onous influence of which extended through. all classes. Men be- gan to look upon railways as instruments. to job vrith. Persons som to a close. The saturnalia of 1845 was followed, by the iisiial reaction. Shares went down faster than they had gone up ; the holders of them .hastened to seB in order ;t0' avoid payment of the calls, and many found them- selves ruined.. ; Then came repentance,, and a sudden return to virtue. The betting maji, who, temporarily abandoning the turf for the share-market, had played his heaviest stake and lost; the merchant who had left his business, and the doctor who had neg- lected his patients, to. gamble in yailway, stock, and been ruined; the penniless knaves ,and schemers who had speculated so reck- lessly and gained; so little ; the. titled and fashionable people, who had bowed themselves so low before the idol of the day, and found themselves deceived and " done ;" the credulous small cap- italists, who, dazzled by premiums, had invested their all in rail- way sharesj and now saw themselves stripped of every thing, were grievously enir,aged,. and looked. about them for a victira.,, Jn this temper were .shareholders when^at a railway, mjeetiag in York, some pertinent questions were put to the Eailway King. ; His replies were not satisfactory, and the questions were .pushed home. Mr. Hudson became confused. ; Angry voices rose in the meet- ing. A committee of investigation was appointed. The golden qaH was found to be . of brass, and hurled down^ Hudson's own toadies and sycophants eagerly joining the chorus of popula:^ in- dignation. : Similar proceedings shortly after followed at the meetings of. other companies, and the bubbles having by that time burst, the Eailway Mania thus came to an ignominious end. While, .the mania was at its, height, in England, rail:ways were also being extended abroad, and George Stephenson continued to be invited to give the directors of foreign undertakings the beu: efit, of his advice, One of the most agreeable of his excursions with that object was his third visit to Belgium in 1845. His special purpose was to examine the proposed Mne of the Sambre and Meuse Eailway, for which a concession had been granted by the Belgian Legislature. .Arrived on the.ground, he went care- fully over, the, entire length of the proposed hne, by Couvins, through the Forest of Ardennes, to ,Eocroi, across the French frontier, examining the bearing of the. coal-field, the slate and 416 BANQ VET AT BR VSSELS. [Pakt H. marble quarries, and the mimerous iron-mines in existence be- tween the Sambre and the Meuse, as well as carefully exploring the ravines which extended through the district, in order to satis- fy himself that the best possible route had been selected. Ste- phenson was delighted with the novelty of the journey, the beau- ty of the scenery, and the industry of the population. His com- panions were entertained by his ample and varied stores of prac- tical information on all subjects, and his conversation was fuU of reminiscences of his youth, on which he always delighted to dwell when in the society of his more intimate friends. The journey was varied by a visit to the coal-mines near Jemappe, where Ste- phenson examined with interest the mode adopted by the Belgian miners of draining the pits, inspecting their engines and brake- ihg machines, so familiar to him in early life. The engineers of Belgium took the opportunity of the en^- neer's visit to invite him to' a magnificent banquet at Brussels. The PubKc Hall, in which they entertained him, was gayly deco^ fated vrith flags, prominent among which was the Union Jack, in honor of their distinguished guest. A handsome marble pedes- tal,' ornamented with his bust crovmed with laurels, stood at one end of the room. The chair was occupied by M. Massui, the Chief Director of the National Kailways of Belgium ; and the most eminent scientific men of the kingdom were present. Their reception of the " father of railways" was of the most enthusias- tic description. Stephenson was greatly pleased with the enter- tainment. Not the least interesting incident of the evening was his observing, when the dinner was about half over, the model of a locomotive engine placed upon the centre table, under a trium- phal arch. Turning suddenly to his friend Sopwith, he ex- claimed, " Do you see the ' Eocket ?' " It was, indeed, the model of that celebrated locomotive; and the engineer prized thedeh- cate compliment thus paid him perhaps more than all the enco- niums of the evening. The next day (April 5th) King Leopold invited him to a pri- vate interview at the palace. Accompanied by Mr. Sopwitii, he proceeded to Laaken, and was cordially received by his majesty. The king immediately entered into familiar conversation with him, discussing first the railway project' which had been the ob- ject of his visit to Belgium, and then the structure of the Belgian Chap. XVI.] INTERVIEW WITH KING LEOPOLD. 417 coal-fields, his majesty expressing Ms sense of the great import- ance of economy in a fuel which had become indispensable to the comfort and well-being of society, which was the basis of all manufactures, and the vital power of railway locomotion. The subject was always a favorite one with George Stephenson, and, encouraged by the king, he proceeded to explain to him the geo- logical structure of Belgium, the original formation of coal, its subsequent elevation by volcanic forces, and the vast amount of denudation. In describing the coal-beds he used his hat as a sort of model to illustrate his meaning, and the eyes of the king were fixed upon it as he proceeded with his description. The conver- sation then passed to the rise and progress of trade and manufac- tures, Stephenson pointing out how closely they every where fol- lowed the coal, being mainly dependent upon it, as it were, for their very existence. The king seemed greatly pleased with the interview, and at its close expressed' himself as obliged by the interesting information which the engineer had commianicated. Shaking hands cordial- ly with both the gentlemen, and wishing them success in their important undertakings, he bade them adieu. As they were leav- ing the palace, Stephenson, bethinking him of the model by which he had just been illustrating the Belgian coal-fields, said to his friend, " By-the-by, Sopwith, I was afraid the king would see the inside of my hat ; it's a shocking bad one !" George Stephenson paid a farther visit to Belgium in the course of the same year, on the business of the "West Flanders Railway, and he had scarcely returned from it ere he was requested to pro- ceed to Spain, for the purpose of examining and reporting upon a scheme then on foot for constructing " the Eoyal North of Spain Eailway." A concession had been made by the Spanish govern- ment of a line of railway from Madrid to the Bay of Biscay, and a numerous staff of engineers was engaged in surveying the pro- posed line. The directors of the company had declined making the necessary deposits until more favorable terms had been se- cured ; and Sir Joshua Walmsley, on their part, was about to visit Spain and press the government on the subject. George Stephen- son, whom he consulted, was alive to the difficulties of the office which Sir Joshua was induced to undertake, and offered to be his companion and adviser on the occasion, declining to receive any ■418 PYRENEAN PASTORAL. [Pajit n. recompense beyond the simple expenses of the journey. . He; coiild only arrange to be absent for six weeks, and he set out from En- gland about the middle of September, 1845. The party was joined at Paris by Mr. Mackenzie^ the contract- or for the Orleans and Tours Railway, then in course of construc- tion, who -took them over the works and accompanied them as far as Tours. They soon reached the great chain of the Pyrenees, and crossed, over into Spain. . It was on a Sunday evening, after a long day's toilsome journey through the mountains, that the party suddenly, found themselves in, one of those beautiful secluded val- leys lying amid the Western Pyrenees. A small hamlet lay be- fore them, consisting, of some thirty or forty houses and a fine old church. The sun was low on the horizon, and under jthe wide porch, beneath the shadow of the church, were seated nearly all the inhabitants of the place. They were dressed in their holiday attire. The bright bits of red and amber color in the, dresses of the women,^ and the gay sashes of the men, formed a striking pic- ture, on which the travelers gazed in; silent admiration. It was something entirely novel and unexpected. Beside the villagers sat two venerable old men, whose canonical hats indicated their quality; as village pastors.. Two groups of youn^ women and chil- dren were dancing; outside ithe porch to the accompaniment of a simple pipe, and within a hundred yards of them some of the youths of the village were disporting themselves in athletia exer- cises, the whole being carried on beneath the fostering care of the old churchj and with the sanction' of its ministers. It was a beau- tiful scene, and deeply moved the travelers as they approached the principal group. The villagers greeted them courteously, sup- phed their I present 'Wants, and. pressed upon;lihem some fine mel- ons, brought from, their adjoining gardens. George Stephenson used afterward to look back upon that simple scene, and speak of it as one of the most charming, pastorals he bad ever witnessed. They shortly reached the site of .the proposed railway, pass- ing ^through Irun, St. Sebastian, St. Andero, and Bilbao, at which places theyi met deputations of : the principal inhabitants who were interested in the object of their journey. At Eaynosa Stephen- son carefully examined the moimtain passes and ravines through which a. railway could be made. He rose at break of day, and sm'veyed until Uie^darknes* set in, and frequently his resting-place Chap. XVI.] SPANISH RAILWAY SCHEME. 419 at night was the floor of some miserable hovel. He was thus la- boriously occupied for ten days, after which he proceeded across the province of Old Castile toward Madrid, surveying as he went. The proposed plan included the purchase of the Castile Canal, and that property was also examined. He next proceeded to El Es- corial, situated at the foot of the Guadarama Mountains, through which he found it would be necessary to construct two formida- ble tunnels ; added to which, he ascertained that the country be- tween El Escorial and Madrid was of a very difficult and expen- sive character to work through. Taking these circumstances into account, and looking at the expected traffic on the proposed line. Sir Joshua "Walmsley, agting under the advice of Mr. Stephenson, offered to construct the line from Madrid to the Bay of Biscay on condition that the requisite land was given to the company for the purpose ; that they should be allowed every facility for cut- ting such timber belonging to the crown as might be required for the purposes of the railway ; and also that the materials required from abroad for the construction of the line should be admitted free of duty. In return for these concessions the company of- fered to clothe and feed several thousand convicts while engaged in the execution of the earthworks. General Narvaez, afterward Duke of Valencia, received Sir Joshua Wahnsley and Mr. Ste- phenson on the subject of their proposition, and expressed his willingness to close with them ; but it was necessary that other influential parties should give their concurrence before the scheme could be carried into effect. The deputation waited ten days to receive the answer of the Spanish government, but no answer of any kind was vouchsafed. The authorities, indeed, invited them to be present at a Spanish buU-fight, but that was not quite the business Stephenson had gone all the way to Spain to transact, and the offer was politely declined. The result was that Stephen- son dissuaded his friend from making the necessary deposit at Madrid. Besides, he had by this time formed an unfavorable • opinion of the entire project, and considered that the traffic would not amount to one eighth of the estimate. Mr. Stephenson was now anxious to be in England. During the journey from Madrid he often spoke with affection of friends and relatives, and when apparently absorbed by other matters he would revert to what he thought might then be passing at home. Dd 420 RETURN TO ENGLAND. [Pakt II. Few incidents worthy of notice occnrred on the journey home- ward, but one may be mentioned. While travehng in an open conveyance between Madrid and Yittoria, the driver urged his mules down hill at a dangerous pace. He was requested to slack- en speed ; but, suspecting his passengers to be afraid, he only flog- ged the brutes into a still more f ui-ious gallop. Observing this, Stephenson coolly said, " Let us try him on the other tack ; tell him to show us the fastest pace at which Spanish mules can go." The rogue of a driver, when he found his tricks of no avail, pulled up and proceeded at a more moderate speed for the rest of the journey. Urgent business required Mr. Stephenson's presence in London on the last day of November. They traveled, therefore, almost continuously, day and night, and the fatigue consequent on the journey, added to the privations endured by the engineer while carrying on the survey among the Spanish mountains, began to tell seriously on his health. By the time he reached Paris he was evidently ill, but he nevertheless determined on proceeding. He reached Havre in time for the Southampton boat, but when on board pleurisy developed itself, and it was necessary to bleed him freely. After a few weeks' rest at home, however, he grad- ually recovered, though his health remained severely shaken. 0LAYCEOE3 WOKKS. NEWCASTLE, FROM TUE HIGH-LEVEL BRrDGE. [By R. P. Lcitcll.] CHAPTEE XVII. EOBEET STEPHENSON S CAEEEE THE STEPHENSONS AND BEUNEL WIOK- The career of George Stephenson was drawing to a close. He had for some time been gradually retiring from the more active pursuit of railway engineering, and confining himself to the pro- motion of only a few undertakings, in which he took a more than ordinary personal interest. In 1840, when the extensive main lines in the Midland districts had been finished and opened for traffic, he publicly expressed his intention of mthdrawing from the profession. He had reached sixty, and, having spent the greater part of his hfe in very hard work, he naturally de- sired rest and retirement in his old age. There was the less ne- cessity for his continuing " in harness," as Robert Stephenson was now in full career as a leading railway engineer, and his father had pleasure in handing over to him, mth the sanction of the companies concerned, nearly all the railway appointments which he held. Eobert Stephenson amply repaid his father's care. The sound education of which he had laid the foundations at school, im- proved by his subsequent culture, biit more than all by liis father's example of application, industrj', and thoroughness in all that he 422 ROBERT STEPHENSON'S CAREER. [Part II. undertook, told powerfully in the formation of his character not less than in the discipline of his intellect. His father had early implanted in him habits of mental activity, familiarized him with the laws of mechanics, and carefully trained and stimulated his inventive faculties, the first great fruits of which, as we have seen, were exhibited in the triumph of the " Kocket" at Eainhill. " I am fully conscious in my ovsm mind," said the son at a meeting of the Mechanical Engineers at Newcastle in 1858, " how greatly my civil engineering has been regulated and influenced by the mechanical knowledge which I derived directly from my father ; and the more my experience has advanced, the more convinced I have become that it is necessary to educate an engineer in the workshop. That is, emphatically, the education which will ren- der the engineer most intelligent, most useful, and the fullest of resources in times of difficultyj" Eobert Stephenson was but twenty-six years old when the per- formances of the " Uocket" established the practicability of steam locomotion on railways. He was shortly after appointed engi- neer of the Leicester and Swannington Railway ; after which, at his father's request, he was made joint engineer with himself in laying out the London and Birmingham Eailway, and the execu- tion of that line was afterward intrusted to him as sole engineer. The stability and excellence of the works of that railway, the dif- ficulties which had been successfully overcome in the course of its construction, and the judgment which was displayed by Rob- ert Stephenson throughout the whole conduct of the undertaking to its completion, established his reputation as an engineer, and his father could now Ibok vnth confidence and pride upon his son's achievements. From that time forward, father and son worked together cordially, each jealous of the other's honor ; and on the father's retirement it was generally recognized that, in the sphere of railways, Eobert Stephenson was the foremost man, the safest guide, and the most active worker. Eobert Stephenson was subsequently appointed engineer of the Eastern Counties, the Northern and Eastern, and the Blackwall Eailways, besides many lines in the midland and southern dis- tricts. When the speculation of 1844 set in, Ms services were, of course, greatly in request. Thus, in one session, we find him en- gaged as engineer for not fewer than thirty-three new schemes. Chap. XVII.] PARLIAMENTARY ENGINEERING WORK. 423 Projectors thought themselves fortunate who could secure his name, and he had only to propose his terms to obtain them. The work which he performed at this period of his life was indeed enormous, and his income was large beyond any previous instance of engineering gain. But much of the labor done was mere hackwork of a very uninteresting character. Diudng the sittings of the committees of Parliament, much time was also occupied in consultations, and in preparing evidence or in giving it. The crowded, low-roofed committee-rooms of the old houses of Parliament were altogether inadequate to accommodate the press of perspiring projectors of biUs, and even the lobbies were some- times choked with them. To have borne that noisome atmos- phere and heat would have tested the constitutions of salaman- ders, and engineers were only human. With brains kept iu a state of excitement during the entire day, no wonder their ner- vous systems became unstrung. Their only chance of refresh- ment was during an occasional rush to the bun and sandwich stand in the lobby, though sometimes even that resource failed them. Then, with mind and body jaded — ^probably after under- going a series of consultations upon many bills after the rising of the committees^the exhausted engineers would seek to stim- ulate nature by a late, perhaps a heavy dinner. What chance had any ordinary constitution of surviving such an ordeal? The consequence was, that stomach, brain, and liver were alike injured, and hence the men who bore the heat and brunt of those strug- gles — Stephenson, Brunei, Locke, and Errington — ^have already all died, comparatively young men. In mentioning the name of Brunei, we are reminded of him as the principal rival and competitor of Robert Stephenson. Both were the sons of distinguished men, and both inherited the fame and followed in the footsteps of their fathers. The Stephensons were inventive, practical, and sagacious ; the Brunels ingenious, imaginative, and daring. The former were as thoroughly En- glish in their characteristics as the latter perhaps were as thor- oughly French. The fathers and the sons were alike successful in their works, though not in the same degree. Measured by practical and profitable results, the Stephensons were unquestion- ably the safer men to follow. Eobert Stephenson and Isambard Kingdom Brunei were des- 4:24 THE GREAT WESTERN GAUGE. [Paet H. lined often to come into collision in the course of their profes- sional life. Their respective railway districts "marched" with each other, and it became their business to invade or defend those districts, according as the policy of their respective boards might direct. The gauge of 7 feet fixed by Brunei for the Great Western Eailway, so entirely different from that of 4 feet 8f inches adopted by the Stephensons on the Northern and Midland lines,* was from the first a great cause of contention. But Brunei had always an aversion to follow any man's lead; and that an- other engineer had fixed the gauge of a railway, or built a bridge, or designed an engine in one way, was of itself often a suflBcient reason with him for adopting an altogether different course. Eobert Stephenson, on his part, though less bold, was more prac- tical, preferring to follow the old routes, and to tread in the safe steps of his father. Mr. Brunei, however, determined that the Great Western should be a giant's road, and that traveling should be conducted upon it at double speed. His ambition was to make the best road that imagination could devise, whereas the main object of the Ste- * The original width of the coal tram-roads in the North virtually determined the British gauge. It was the width of the ordinaiy road-track — not fixed after any scientific theory, l^ut adopted simply because its use had already been established. George Stephenson introduced it without alteration on the Liverpool and Manchester Railway, and the lines subsequently formed in that district were laid down of the same width. Stephenson from the first anticipated the general extension of railways through- out England, and one of the ideas with which he started was the essential importance of preserving such a uniformity as would admit of perfect communication between them. When consulted about the gauge of the Canterbury and Whitstable, and Lei- cester and Swannington Railways, he said, " Make them of the same width : though they may be a long way apart now, depend upon it they will be joined together some day. " All the railways, therefore, laid down by himself and his assistants in the neigh- borhood of Manchester, extending from thence to London on the south, and to Leeds on the east, were constructed on the Liverpool and Manchester, or narrow gauge. Be- sides the Great "Western Railway, where the gauge adopted was seven feet, the only other line on which a broader gauge than four feet eight and a half inches was adopt- ed was the Eastern Counties, whore it was five feet, Mr. Braithwaite, the engineer, being of opinion that an increase of three and a half inches in the width of the line would afford better space for the machinery of the locomotive. But when the north- em and eastern extension of the same line was formed, which was to work into the narrow-gauge system of the Midland Eailway, Eobert Stephenson, its new engineer, strongly recommended the directors of the Eastern Counties Line to alter their gauge accordingly, for the purpose of securing uniformity, and they adopted his recommend- ation. Chap.XVIL] ROBERT STEPHENSON'S caution. 425 phensons, both father, and son, was to make a road that would ;pay. Although, tried by the Stephenson test, Brunei's magnifi- cent road was a failure so far as the shareholders in the Great Western Company were concerned, the stimulus which his am- bitious designs gave to mechanical invention at the time proved a general good. The narrow-gauge engineers exerted themselves to quicken their locomotives to the utmost. They improved and reimproved them. The machinery was simplified and perfected. Outside cylinders gave place to inside ; the steadier and more rapid and effective action of the engine was secured, and in a few years the highest speed on railways went up from thirty to about fifty miles an hour. For this rapidity in progress we are in no small degree indebted to the stimulus imparted to the narrow- gauge engineers by Mr. Brunei. It was one of the characteristics of Brunei to helieve in the success of the schemes for which he was professionally engaged as engineer, and he proved this by investing his savings largely in the Great Western Railway, in the South Devon Atmospheri- cal line, and in the Great Eastern steam-ship, with what results are well known. Robert Stephenson, on the contrary, with char- acteristic caution, toward the latter years of his life avoided hold- ing unguaranteed railway shares ; and though he might execute magnificent structures, such as the Victoria Bridge across the St. Lawrence, he was careful not to embark any portion of his own fortune in the ordinary capital of these concerns. In 1845 he shrewdly foresaw the inevitable crash that was about to succeed the mania of that year, and while shares were still at a premium he took the opportunity of selling out all that he held. He urged his father to do the same thing, but George's reply was character- istic. " K"o," said he, " I took my shares for an investment, and not to speculate with, and I am not going to sell them now be- cause people have gone mad about railways." The consequence was, that he continued to hold the £60,000 which he had invest- ed in the shares of various railways until his death, when they were at once sold out by his son, though at a great depreciation on their original cost. One of the hardest battles fought between the Stephensons and Brunei was for the railway between Newcastle and Berwick, forming part of the great East Coast route to Scotland. As early 426 EAST COAST ROUTE TO SCOTLAND. [Part U. » as 1836 George Stephenson had surveyed two lines to connect Edinburg with Newcastle ; one by Berwick and Dunbar along the coast, and the other, more inland, by Carter Fell, up the vale of the Gala, to the northern capital. Two years later he made a farther examination of the intervening country, and reported in favor of the coast Mne. The inland route, however, was not with- out its advocates. But both projects lay dormant for several years longer, until the completion of the Midland and other main lines as far north as Newcastle had the effect of again reviving the subject of the extension of the, route as far as Edinburg. On the 18th of June, 1844, the Newcastle and Darlington line — an important link of the great main highway to the north — was completed and publicly, opened, thus connecting the Thames and the Tyne by a continuous line of railway. On that day George Stephenson and a distinguished party of railway men traveled by express train from London to Newcastle in about nine hours. It was a great event, and was worthily celebrated. The population of Newcastle held holiday ; and a banquet given in the Assembly Eooms the same evening assumed the form of an ovation to Mr. Stephenson and his son. After the opening of this railway, the project of the East Coast line from Newcastle to Berwick was revived, and George Ste- phenson, who had already identified himself with the question, and was intimately acquainted with every foot of the ground, was again called upon to assist the promoters with his judgment and experience. He again recommended as strongly as before the line he had previously surveyed ; and on its being adopted by the local committee, the necessary steps were taken to have the scheme brought before Parliament in the ensuing session. The East Coast line was not, however, to be allowed to pass with- out a fight. On the contrary, it had to encounter as stout an op- position as Stephenson had ever experienced. We have already stated that about this time the plan of sub- stituting atmospheric pressure for locomotive steam-power in the working of railways had become very popular. Many eminent engineers avowedly supported atmospheric in preference to loco- motive lines ; and many members of Parliament, headed by the prime ministers, were strongly disposed in their favor. Mr. Bru- nei warmly espoused the atmospheric principle, and his persua- CHAP;XVn.] BRUNEL'S PROPOSED ATMOSPHERIC LINE. 427 sive manner, as .well as his admitted scientific ability, miquestion- ably exercised considerable influence in determining the views of many leading members of both houses. Among- others, Lord Howick, one of the members for Northumberland, advocated the new principle, and, possessing great local influence, he succeeded in forming a powerful confederacy of the landed gentry in favor of Brunei's atmospheric railway through the country. George Stephenson could not brook the idea of seeing the lo- comotive, for which he had fought so many stout battles, pushed to one side, and that in the very county in which its great powers had been first developed. Nor did he relish the appearance of Mr. Brunei as the engineer of Lord Howick's scheme, in opposi- tion to the line which had occupied his thoughts and been the object of his strenuous advocacy for so many years. When Ste- phenson first met Brunei in Newcastle, he good-naturedly shook him by the collar, and asked " what business he had north of the Tyne ?" George gave him to understand that they were to have a fair stand-up fight for the ground, and shaking hands before the battle like Englishmen, they parted in good-humor. A pub- lic meeting was held at Newcastle in the following December, when, after a full discussion of the merits of the respective plans, Stephenson's Hue was almost unanimously adopted as the best. The rival projects went before Parliament in 1845, and a se- vere contest ensued. The display of ability and tactics on both sides was great. Eobert Stephenson was examined at great length as to the merits of the locomotive line, and Brunei at equally great length as to the merits of the atmospheric. Mr. Brunei, in his evidence, said that, after numerous experiments, he had arrived at the conclusion that the mechanical contrivance of the atmospheric system was perfectly applicable, and he believed that it would likewise be more economical in most cases than lo- comotive power. " In short," said he, " rapidity, comfort, safety, and economy are its chief recommendations." Notwithstanding the promise of Mr. Sergeant Wrangham, the counsel for Lord Howick's scheme, that the Northumberland at- mospheric was to be " a respectable line, and not one that was to be converted into a road for the accommodation of the coal-own- ers of the district," the locomotive again triumphed. The Ste- phenson Coast line secured the approval of Parliament, and the 428 INTERVIEW WITH LORD HOWICK. [Pakt II. shareholders in the Atmospheric Company were happily prevent- ed investing their capital in what would unquestionably have proved a gigantic blunder. For, less than three years later, the whole of the atmospheric tubes which had been laid down on other lines were pulled up and the materials sold, including Mr. Brunei's immense tube on the South Devon Railway* — to make way for the working of the locomotive engine. George Stephen- son's first verdict of " It won't do" was thus conclusively con- firmed. Eobert Stephenson used afterward to describe with gusto an interview which took place between Lord Howick and his father, at his office in Great George Street, during the progress of the bill in Parliament. His father was in the outer office, where he used to spend a good deal of his spare time, occasionally taking a quiet wrestle with a friend when nothing else was stirring.f On the day in question, George was standing with his back to the fire, when Lord Howick called to see Eobert. Oh J thought George, he has come to try and talk Eobert over about that at- mospheric gimcrack ; but I'll tackle his lordship. '^ Come in, my lord," said he ; " Robert's busy ; but I'll answer your purpose quite as well ; sit down here, if you please." George began, " Now, my lord, I know very well what you have come about : it's that atmospheric line in the North ; I will show you in less than' five minutes that it can never answer." " If Mr. Eobert Stephenson is not at liberty, I can call again," said his lordship. * The atmospheric lines had for some time been working very irregularly and very expensively. Robert Stephenson, in a letter to Mr. T. Sopwith, F. R. S. , dated the 8th of January, 1846, wrote : " Since my return [from Italy] I have learned that your atmospheric friends are very sickly. A slow typhus has followed the high fever I left them in about three months ago. I don't anticipate, however, that the patient will expire suddenly.. There is every appearance of the case being a protracted one, though a fatal termination is inevitable. When the pipes are sold^by auction, I in- tend to buy one and present it to the British Museum." During the last half year of the atmospheric experiment on the South Devon line in 1848, the expenditure ex- ceeded the gross income (£26,782) by £2487, dr about 9f per cent, excess of work- ing expenses beyond the gross receipts. t "When my father came about the office," said Robert, "he sometimes did not weU know what to do vrith himself. So he used to invite Bidder to have a quiet wrestle with him, for old acquaintance sake. And the two wrestled together so often, and had so many ' falls' (sometimes I thought they would bring the house down be- tween them), that they broke half the chairs in my outer office. I remember once sending my father in a joiner's bill of about £2 10s. for the mending of broken chairs." Chap.XVIL] N-EWCASTLE and BERWICK railway. 429 " He's certainly occupied on important business just at present," was George's answer, " but I can tell you far better than he can what nonsense the atmospheric system is : Eobert's good-natured, you see, and if your lordship were to get alongside of him you might talk him over ; so you have been quite lucky in meeting with me. Now just look at the question of expense,''' and then he proceeded in his strong Doric to explain his views in detail, until Lord Howick could stand it no longer, and he rose and walked toward the door. George followed him down stairs to finish his demolition of the atmospheric system, and his parting words were, "You may take my word for it, my lord, it will nev- er answer." George afterward told his son with glee of " the settler" he had given Lord Howick. So closely were the Stephensons identified with this measure, and so great was the personal interest which they were both known to take in its success, that, on the news of the passing of the bill reaching Newcastle, a sort of general holiday took place, and the workmen belonging to the Stephenson Locomotive Fac- tory, upward of eight hundred in number, walked in procession through the principal streets of the town, accompanied by music and banners. It is unnecessary to enter into any description of the works of the Newcastle and Berwick Eailway. There are no fewer than a hundred and ten bridges of all sorts on the line — some under and some over it — the viaducts over the Ousebum, the Wansbeck, and the Coquet being of considerable importance. But by far the most formidable piece of masonry work on this railway is at its northern extremity, where it passes across the Tweed into Scotland, immediately opposite the formerly redoubtable castle of Berwick. Not many centuries had passed since the district amid which this bridge stands was the scene of almost constant warfare. Berwick was regarded as the key of Scotland, and was fiercely fought for, being sometimes held by a Scotch and some- times by an English garrison. Though strongly fortified, it was repeatedly taken by assault. On its capture by Edward I., Boe- tius says, 1Y,000 persons were slain, so that its streets " ran with blood like a river." Within sight of the ramparts, a little to the west, is Halidon HiU, where a famous victory was gained by Ed- ward III. over the Scottish army under Douglas ; and there is 430 ROYAL BORDER BRIDGE. [Part II. KOVAL BOitDKR BRIDGE, BERWICK. [By R. P. Lcitcb, after his original Drawing.] scarcely a foot of ground in the neighborhood but has been the scene of contention in days long past. In the reigns of James I. and Charles I., a bridge of fifteen arches was built across the Tweed at Berwick ; and now a railway bridge of twenty-eight arches was built a little above the old one, but at a much high- Chap. XVII.] NEWCASTLE HIGH-LEVEL BRIDGE. 431 er level. The bridge built by the kings out of the national re- sources cost £15,000, and occupied twenty-four years and four months in the building ; the bridge built by the Eailway Com- pany, with funds drawn from private resources, cost £120,000, and was finished in three years and four months from the day of laying the foundation stone. This important viaduct, built after the designs of Eobert Ste- phenson, consists of a series of twenty-eight semicircular arches, each 61 feet 6 inches in span, the greatest height above the bed of the river being 126 feet.- The whole is built of ashlar, with a hearting of rubble, excepting the river parts of the arches, which are constructed with bricks laid in cement. The total length of the work is 2160 feet. The foundations of the piers were got in by coffer-dams in the ordinary way, Nasmyth's steam-hammer being extensively used in driving the piles. The bearing piles, from which the foundations of the piers were built up, were each capable of carrying 70 tons. Another bridge, of still greater importance, necessary to com- plete the continuity of the East Coast route, was the master-work erected by Kobert Stephenson between the north and south banks of the Tyne, at Newcastle, commonly known as the High-Level Bridge. Mr. E. W. Brandling, George Stephenson's early friend, is entitled to the merit of originating the idea of this bridge, as it was eventually carried out, with a central terminus for the northern railways in the Castle Garth. The plan was first pro- mulgated by him in 1841 ; and in the following year it was re- solved that George Stephenson should be consulted as to the most advisable site for the proposed structure. A prospectus of a High- Level Bridge Company was issued in 1843, the names of George Stephenson and George Hudson appearing on the committee of management, Kobert Stephenson being the consulting engineer.i The project was eventually taken up by the Newcastle and Dar- lington Eailway Company, and an act for the construction of the bridge was obtained in 1845. The rapid extension of railways had given an extraordinary stimulus to the art of bridge-building ; the number of such struct- ures erected in Great Britain alone, since 1830, having been above thirty thousand, or far more than all that previously existed in the country. Instead of the erection of a single large bridge consti- 432 PROGRESS OF BRIDGE-BUILDING. [Paet II. tuting, as formerly, an epoch in engineering, hundreds of exten- sive bridges of novel design were simultaneously constructed. The necessity which existed for carrying rigid roads, capable of bearing heavy railway trains at high speed, over extensive gaps free of support, rendered it apparent that the methods which had up to that time been employed for bridging space were altogether insufficient. The railway engineer could not, like the ordinary road engineer, divert his road, and make choice of the best point for crossing a river or a valley. He must take such ground as lay in the line of his railway, be it bog, or mud, or shifting sand. Navigable rivers and crowded thoroughfares had to be crossed without interruption to the existing traffic, sometimes by bridges at right angles to the river or road, sometimes by arches more or less oblique. In many cases great difficulty arose from the lim- ited nature of the headway ; but, as the level of the original road must generally be preserved, and that of the railway was in a measure fixed and determined, it was necessary to modify the form and structure of the bridge in almost every case, in order to comply with the public requirements. Novel conditions were met by fresh inventions, and difficulties of an unusual character were one after another successfully surmounted. In executing these extraordinary works, iron has been throughout the sheet-anchor of the engineer. In the various forms of cast and wrought iron it offered a valuable resource where rapidity of execution, great strength and cheapness of construction in the first instance were elements of prime importance, and by its skillful use the railway architect was enabled to achieve results which thirty years since would scarcely have been thought possible. In many of the early cast-iron bridges the old form of the arch was adopted, the stability of the structure depending wholly on compression, the only novel feature consisting in the use of iron instead of stone. But in a large proportion of cases, the arch, with the railroad over it, was found inapplicable in consequence of the limited headway which it provided. Hence it early oc- curred to George Stephenson, when constructing the Liverpool and Manchester Eailway, to adopt the simple cast-iron beam for the crossing of several roads and canals along that line — this beam resembling in some measure the lintel of the eai'ly temples — the pressure on the abutments being purely vertical. One of Chap. XVII.] THE TYNE VALLEY AT NEWCASTLE. 433 the earliest instances of this kind x)f bridge was that erected over Water Street, Manchester, in 1829 ; after which, cast-iron girders, with their lower webs considerably larger than their upper, were ordinarily employed where the span was moderate, and wrought- iron tie-rods below were added to give increased strength where the span was greater. The next step was the contrivance of arched beams or bow- string girders, firmly held together by horizontal ties to resist the thrust, instead of abutments. Numerous excellent specimens of this description of bridge were erected by Kobert Stephenson on the original London and Birmingham Kailway ; but by far the _ grandest work of the kind — perfect as a specimen of modem con- structive skill — was the High-Level Bridge, which we owe to the genius of the same engineer. The problem was. to throw a railway bridge across the deep ravine which lies between the towns of Newcastle and Gateshead, at the bottom of which flows the navigable river Tyne. Along and up the sides of the valley — on the Newcastle bank especially — run streets of old-fashioned houses, clustered together in the strange forms peculiar to the older cities. The ravine is of great depth — so deep and gloomy-looking toward dusk, that local tradi- tion records that when the Duke of Cumberland arrived late in the evening, at the brow of the hill overlooking the Tyne, on his way to CuUoden, he exclaimed to his attendants, on looking down into the black gorge before him, " For God's sake, don't think -of taking me dovm that coal-pit at this time of night !" The road down the Gateshead High Street is almost as steep as the roof of a house, and up the Newcastle Side, as the street there is called, it is little better. During many centuries the traffic north and south passed along this dangerous and difficult route, across the old bridge which spans the river in the bottom of the valley. For some thirty years the Newcastle Corporation had discussed vari- ious methods of improving the communication between the towns ; and the discussion might have gone on for thirty years more, but for the advent of railways, when the skill and enterprise to which they gave birth speedily solved the difficulty and bridged the ra- vine. The local authorities adroitly took advantage of the op- portunity, and insisted on the provision of a road for ordinary vehicles and foot passengers in addition to the railroad. In this 434 FOUNDATIONS OF THE BRIDGE. [PaetII. circumstance originated one of the most remarkable peculiarities of the High-Level Bridge, whicli serves two purposes, being a rail- way above, with a carriage roadway underneath. The breadth of the river at the point of crossing is 515 feet, but the length of the bridge and viaduct between the Gateshead station and the terminus on the Newcastle side is about 4000 feet. It springs from Pipewell Gate Bank, on the south, directly across to Castle Garth, where, nearly fronting the bridge, stands the fine old Norman keep of the Wew Castle, now nearly eight hundred years old ; and a Httle beyond it is the spire of St. Nicholas Church, with its light and graceful Gothic crown, the whole form- ing a grand architectural group of unusual historic interest. The bridge passes completely over the roofs of the houses which fill both sides of the valley, and the extraordinary height of th§ up- per parapet, which is about 130 feet above the bed of the river, offers a prospect to the passing traveler the like of which is per- haps nowhere else to be seen. Far below lie the queer chares and closes, the wynds and lanes of old Newcastle ; the water is crowded vrith pudgy, black coal keels ; and, when there is a lull in the great clouds of smoke which usually obscure the sky, the funnels of steamers and the masts of the shipping may be seen far down the river. The old bridge lies so far benealii that the passengers crossing it seem lilce so many bees passing to and fro. The first difficulty encountered in building the bridge was in securing a soHd foundation for the piers. The dimensions of the piles to be driven were so huge that the engineer found it neces- sary to employ some extraordinaiy means for the purpose. He called Nasmyth's Titanic steam-hammer to his aid — ^the first oc- casion, we believe, on which this prodigious power was employed in bridge pile-driving. A temporary staging was erected for the steam-engine and hammer apparatus, which rested on two keels, and, notwithstanding the newness and stiffness of the machinery, the first pile was driven on the 6th of October, 1846, to a depth of 32 feet in four minutes. Two hammers of 30 cwt. each were kept in regular use, making from 60 to 70 strokes per minute, and the results were astounding to those who had been accus- tomed to the old style of pile-driving by means of the ordinary pile-frame, consisting of slide, ram, and monkey. By the old sys- tem the pile was driven by a comparatively small mass of iron descending with great velocity from a considerable height — the Chap. XVII.] PILE-DRIVING BY STEAM. 435 velocity being in excess and tlie mass deficient, and calculated, like the momentum of a cannon-baU, rather for destructive than impulsive action. In the case of the steam pile-driver, on the con- trary, the whole weight of a heavy mass is dehvered rapidly upon a driving-block of several tons weight placed directly over the head of the pile, the weight never ceasing, and the blows being repeated at the rate of a blow a second, until the pile is driven home. It is a curious fact, that the rapid strokes of the steam- hammer evolved so much heat, that on many occasions the pile- head burst into flame during the process of driving. The elastic force of steam is the power that lifts the ram, the escape permit- ting its entire force to faU upon the head of the driving-block; while the steam above the piston on the upper part of the cylin- der, acting as a buffer or recoil-spring, materially enhances the effect of the downward blow. As soon as one pile was driven, the traveler, hovering, overhead, presented another, and down it went into the solid bed of the river with almost as much ease as a lady sticks pins into a cushion. By the aid of this formidable machine, what before was among the most costly and tedious of en- gineering operations was rendered simple^ easy, and economical. When the piles had been driven and the coffer-dams formed and puddled, the water within the inclosed spaces was pumped out by the aid of powerful engines, so as to lay bare the bed of the river. Considerable difficulty was experienced in getting in the foundations of the middle pier, in consequence of the water forcing itself through the quicksand beneath as fast as it was re- moved. This fruitless labor went on for months, and many ex- pedients were tried. Chalk was thrown in in large quantities outside the piling, but without effect. Cement concrete was at last put within the coffer-dam until it set, and the bottom was then found to be secure. A bed of concrete was laid up to the level of the heads of the piles, the foundation course of stone blocks being commenced about two feet below low water, and the building proceeded without farther difficulty. It may serve to give an idea of the magnitude of the work when we state that 400,000 cubic feet of ashlar, rubble, and concrete were worked up in the piers, and 450,000 cubic feet ia the land-arches and ap- proaches. The most novel featui'e of the structure is the use of cast and wrought ii'on in forming the double bridge, which admirably com- Eb 436 PLAN OF THE BRIBGE. [Paet II. bines- the two principles of the arch and suspension, the railway being carried over the back of the ribbed arches in the usual manner, while the carriage-road and footpaths, forming a long gallery or aisle, are suspended from these arches by wrought-iron vertical rods, with horizontal tie-bars to resist the thrust. The suspension-bolts are inclosed within spandril pillars of cast iron, which give great stiffness to the superstructure. This system of longitudinal and vertical bracing has been much admired, for it not only accomplishes the primary object of securing rigidity in the roadway, but at the same time, by its graceful arrangement, heightens the beauty of the structure. The arches consist of four main ribs, disposed in pairs, with a clear distance between the two inner arches of 20 feet 4 inches, forming the carriage-road, while between each of the inner and outer ribs there is a space of 6 feet 2 inches, constituting the footpaths. Each arch is cast in five separate lengths or segments, strongly bolted together. The ribs spring from horizontal plates of cast iron, bedded and secured on the stone piers. All the abutting joints were carefully executed by machinery, the fitting being of the most perfect kind. In or- der to provide for the eRpansion and contraction of the iron arch- ing, and to preserve the equilibrium of the piers vrithout disturb- ance or racking of the other parts of the bridge, it was arranged that the ribs of every two adjoining arches resting on the same pier should be secured to the springiag-plates by keys and jog- gles ; while on the next piers, on either side, the ribs remained free, and were at liberty to expand or contract according to tem- HIGH-LBVEL BBIDGE— ELEVATION OF ONE ASOH, ^r TT- y. ■\jf ij ^;p \j ij i_i — I II N ■ 1 I r ) n ' PtAN OF ONE AHOH. Chap. XVII.] THE "LAST ACT OF THE UNION." 437 perature — a space being left for, the purpose. • Hence each arch is complete and independent in itself, the piers having simply to sustain their vertical pressure. The arches are six in number, of 126 feet span each, the two approaches to the bridge being form- ed of cast-iron pillars and bearers in keeping v?ith the arches. The result is a bridge that for massive solidity may be pro- nounced unrivaled. It is one of the most magniiicent and strik- ing of the bridges to vrhich railways have given birth, and has been worthily styled " the King of railway stnictures." It is a monument of the highest engineering skill of our time, with the impress of power grandly stamped upon it. It will also be ob- served from the drawing placed as the frontispiece to this Life, that the High-Level Bridge forms a very fine object in a picture of great interest, full of striking architectural variety and beauty. The bridge was opened on the 15th of August, 1849. A few days after, the royal train passed over it, halting for a few min- utes to enable her majesty to survey the wonderful scene below. In the course of the following year the queen opened the exten- sive stone viaduct across the Tweed above described, by which the last link was completed of the continuous line of railway be- tween London and Edinburg. , Over the entrance to the Berwick station, occupying the site of the once redoubtable Border for- tress, so often the deadly battle-ground of the ancient Scots and English, was erected an arch under which the royal train passed, bearing in large letters of gold the appropriate words, "The last act of the TJnionr The warders at Bervsdck no longer look out from the castle walls to descry the glitter of Southron spears. The bell-tower, from which the alarm was sounded of old, though still standing, is deserted ; the only bell heard vWthin the precincts of the old castle being the railway porter's bell announcing the arrival and departure of trains. Tou see the Scotch Express pass along the bridge and speed southward on the wings of steam. But no alarm spreads along the Border now. Northumbrian beeves are safe. Chevy Chase and Otterburn are quiet sheep-pastures. The only men-at-arms on the battlements of Alnwick Castle are of stone. Bamborough Castle has become an asylum for -shipwreck- ed mariners, and the Norman Keep at Newcastle has been con- verted into a Museum of Antiquities. The railway has indeed consummated the Union. 438 BAILWAY FROM CHESTER TO HOLYHEAD. [Pakt II. CHAPTER XVIII. CHESTER AND HOLYHEAD EAELWAT MENAI AMD CONWAY EEmGES. We have now to describe briefly another great undertaking, begun by George Stephenson, and taken np and completed by his son, in. the course of which the latter carried out some of his greatest works — we mean the Chester and Holyhead Railway, completing the railway connection with Dublin, as the Newcastle and Berwick line completed the connection with Edinburg. It will thus be seen how closely Telford was followed by the Ste- phensons in perfecting the- highways of their respective epochs ; the former by means of turnpike roads, and the latter by means of railways. George Stephenson surveyed a line from Chester to Holyhead in 1838, and at the same tinie reported on the line through North "Wales to Port Dynallen, as proposed by the Irish Railway Com- missioners. His advice was strongly in favor of adopting the line to Holyhead, as less costly and presenting better gradients. A public meeting was held at Chester in January, 1839, in sup- port of the latter measure, at which he was present to give expla- nations. Mr. TJniacke, the mayor, in opening the proceedings, ob- served that it clearly appeared that the rival line through Shrews- bury was quite impracticable. Mr. Stephenson, he added, was present in the room, ready to answer any questions which might be put to him on the subject; and "it would be better that he should be asked questions than required to make a speech ; for, though a very good engineer, he was a bad speaker." One of the questions then put to Mr. Stephenson related to the mode by which he proposed to haul the passenger-carriages over the Menai Suspension Bridge by horse-power ; and he was asked whether he knew the pressure the bridge was capable of sustain- ing. His answer was that " he had not yet made any calcula- tions, but he proposed getting data which would enable him to arrive at an accurate calculation of the actual strain upon the bridge during the late gale. He had, however, no hesitation in Chap. XVIH.] MENAI SUSPENSION BRIDGE. 439 saying that it was more than twenty times as much as the strain of a train of carriages and a locomotive engine. The only reason why he proposed to convey the carriages over by horses was in order that he might, by distributing the weight, not increase the wavy motion. All the train would be on at once, but distributed. This he thought better than passing them linked together, by a locomotive engine." It will thus be observed that the practica- bility of throwing a rigid railroad bridge across the Straits had not yet been completed. The Dublin Chamber of Commerce passed resolutions in favor of Stephenson's line after hearing his explanations of its essential features. The project, after undergoing much discussion, was at length embodied in an act passed in 1844, and the work was brought to a successful completion by his son, with several im- portant modifications, including the grand original feature of the tubular bridges across the Menai Straits and the estuary of the Conway. Excepting these great works, the construction of this line presented no .unusual features, though the remarkable terrace cut for the accommodation of the railway under the steep slope of Penmaen Mawr is worthy of a passing notice. About midway between Conway and Bangor, Penmaen Mawr forms a bold and almost precipitous headland, at the base of which, in rough weather, the ocean dashes with great fury. There was not space enough between the mountain and the strand for the passage of the railway ; hence in some places the rock had to be blasted to form a terrace, and in others sea walls had to be built up to the proper level, on which to form an embankment of sufficient width to enable the road to be laid. A tunnel of 10{- chains in length was cut through the headland itself ; and on its east and west sides the line was formed by a terrace cut out of the cliff, and by embankments protected by sea walls, the terrace being three times interrupted by embankments in its course of about a mile and a quarter. The road lies so close under the steep mountain face that it was even found necessary at certain places to protect it against possible accidents from falling stones, by means of a covered way. The terrace on the east side of the headland was, however, in some measure, protected against the roll of the sea by the mass of stone run out from the tunnel, which formed a deep shingle-bank in front of the waU. uo WORKS AT PENMAEN MA WR. [Part II. I'ENMAEN MAWE. [By Percival Skelton, after his original Draiving.] The part of the work which lies to the westward of the head- land penetrated by the tunnel was exposed to the full force of the sea, and the formation of the road at that point was attended with great difficulty. While the sea wall was still in progress, its strength was severely tried by a strong northwesterly gale which blew in October, 1846, accompanied with a spring tide of 17 feet. On the following morning it was found that a large portion of the rubble was irreparably injured, and 200 yards of tlie wall were then replaced by an open viaduct, with the piers placed edgeways to the sea, the openings between them being spanned by ten cast-iron girders 42 feet long. This accident far- ther induced the engineer to alter the contour of the sea wall, so Chap. XVIII.] CBOSSING OF THE MENAI STRAIT. 441 that it should present a diminished resistance to the force of the waves. But the sea repeated its assaults, and made farther havoc with the work,,entailing heavy expenses and a complete reorganization of the contract. Increased solidity was then given to the mason- ry, and the face of the wall underwent farther change. At some points outworks were constructed, and piles were driven into the beach about 15 feet from the base of the wall for the purpose of protecting its foundations and breaking the force of the waves. The work was at length finished after about three years' anxious labor ; but Mr. Stephenson confessed that if a long tunnel had been made in the first instance through the solid rock of Pen- maen Mawr, a saving of from £25,000 to £30,000 would have been effected. He also said he had arrived at the conclusion that in railway works engineers should endeavor as far as possi- ble to avoid the necessity of contending with the sea ;* but if he were ever again compelled to go within its reach, he would adopt, instead of retaining walls, an open viaduct, placing all the piers edgeways to the force of the sea, and allowing the waves to break upon a natural slope of beach. He was ready enough to admit the errors he had committed in the original design of this work ; but he said he had always gained more information from studying the causes of failures and endeavoring to surmount them, than he had done from easily-won successes. While many of the latter had been forgotten, the former were indelibly fixed in his memory. But by far the greatest difficulty which Kobert Stephenson had to encounter in executing this railway was in carrying it across the Straits of Menai and the estuary of the Conway, where, like his predecessor Telford, when forming his high road through North "Wales, he was under the necessity of resorting to new and altogether untried methods of bridge construction. At Menai, the waters of the Irish Sea are perpetually vibrating along the precipitous shores of the Strait, rising and falling from 20 to 25 * The simple fact that in a heavy storm the force of impact of the waves is from one and a half to two tons per square foot, must necessarily dictate the greatest pos- sible caution in approaching so formidable an element. Mr. R. Stevenson (Edin- burg) registered a force of three tons per square foot at Skerryvore during a gale in the Atjantic, when the waves were supposed to run twenty feet high. 442 THE FIRST PROPOSED BRIDGE. [Paet II. feet at each successive tide, the width and depth of the channel , being such as to render it available for navigation by the largest ships. The problem was to throw a bridge across this wide chasm — a bridge of unusual span and dimensions — of such strength as to be capable of bearing the heaviest loads at high speeds, and of such a uniform height throughout as not in any way to interfere with the navigation of the Strait. From an early period Mx. Ste- phenson had fixed upon the spot where the Britannia Eock oc- curs, nearly in the middle of the channel, as the most eligible point for crossing, the water width from shore to shore at high water being there about 1100 feet. The engineer's first idea was to construct the bridge of two cast-iron arches of 350 feet span each. There was no novelty in this idea; for, as early as the year 1801, Mr. Eeimie prepared a design of a cast-iron bridge across the Strait at the SwiUy Rocks, the great centre arch of which was to be 450 feet span ; and at a later period, in 1810, Tel- ford submitted a design of a similar bridge atlnys-y-Mdch, with a single cast-iron arch of 500 feet. But the same ob- jections which led to the re- jection of Kennie's and Tel- ford's designs proved fatal to Eobert Stephenson's, and his iron -arched railway bridge was rejected by the Admiral- ty. The navigation of the Strait was under no circum- stances to be interfered with ; and even the erection of scaffolding from below, to support the bridge during construction, was not to be permitted. The idea of a suspension bridge was dismissed as inapplicable, a degree of rigidity and strength greater than could be secured by any Chap. XVHI.] PLAN OF SUSPENDED CENTERING. 443 bridge erected on the principle of suspension being considered an iadisperisable condition of the proposed structure. Mr. Stephenson next considered the expediency of erecting a bridge by means of suspended centering, after the ingenious meth- od proposed by Telford in 1810,* by which the arching was to be carried out by placing equal and corresponding voussoirs on op- posite sides of the pier at the same time, tying them together by horizontal tie-bolts. The arching, thus extended outward from each pier and held in equilibrium, would haye been connected at the crown with the extremity of the arch advanced in like man- ner from the adjoining pier. It was, however, found that this method of construction was not applicable at the crossing of the Conway, and it was eventually abandoned. Various other plans were suggested ; but the whole question remained unsettled even down to the time when the company went before Parliament in 1844 for power to construct the proposed bridges. No existing kind of structure seemed to be capable of bearing the severe ex- tension to which rigid bridges of the necessary spans would be subjected, and some new expedient of engineering therefore be- came necessary. Mr. Stephenson was then led to reconsider a design which he had made in 1841 for a road bridge over the Eiver Lea at Ware, with a span of 5Q feet, the conditions only admitting of a plat- 'form 18 or 20 inches thick. For this purpose a wrought-iron plat'form was devised, consisting of a series of simple cells, form- ed of boiler-plates riveted together with angle-iron. The bridge was not, however, carried out after this design, but was made of separate wrought-iron girders composed of riveted plates.f Re- curring to his first idea of this bridge, the engineer thought that a stiff platform might be constructed, with sides of strongly-trussed frame-work of wi-ought iron, braced together at top and bottom with plates of like material riveted together with, angle-iron, after a method adopted by Mr. Eendel in stiffening the suspension *See "Lives of the Engineers," vol. ii.,p. 445. It appears that Mr. Fairbaim suggested this idea in his letter to Mr. Stephenson, dated the 3d of June, 1845, accom- panied by a drawing. See his "Account of the Construction of the Britannia and Conway Tubular Bridges," etc. London, 1849. t Robert Stephenson's narrative of the early history of the design, in Edwin Clark's " Britannia and Conway Tubular Bridges," vol. i., p. 25, London, 1850. M4 A TUBULAR BEAM PROPOSED. [Paet II. bridge at Montrose with -wooden trellis-work a few years before ; and that such platform might be suspended by strong chains on either side to give it increased security. " It was now," says Mr. Stephenson, " that I came to regard the tubular platform as a beam, and that the chains should be looked upon as auxiHaries." It appeared to him, nevertheless, that without a system of diag- onal struts ioside, which of course would have prevented the pas- sage of trains through it, this kind of structure was ill suited for maintaining its form, and would be very Hable to become lozenge- shaped. Besides, the rectangular figure was deemed objection- able, from the large surface which it presented to the wind. It then occurred to him that circular or elliptical tubes might better answer the intended purpose ; and in March, 1845, he gave instructions to two of his assistants to prepare drawings of such a structure, the tubes being made vsith a double thickness of plate at top and bottom. The results of the calculations made as to the strength of such a tube were considered so satisfactory, that Mr. Stephenson says he determined to fall back upon a bridge of this description on the rejection of his design of the two cast-iron arches by the Parliamentary Committee. Indeed, it became evi- dent that a tubtdar wrought-iron beam was the only structure which combined the necessary strength and stability for a rail- way, with the conditions deemed essential for, the protection of the navigation : " I stood," says Mr. Stephenson, " on the verge of a responsibility from which, I confess, I had nearly shrunk. The construction of a tubular beam of such gigantic dimensions, on a platform elevated and supported by chains at such a height, did at first present itself as a difficulty of a very formidable nature. Reflection, however, satisfied me that the principles upon which the idea was founded were nothing more than an extension of those daily in use in the profession of the engineer. The method, moreover, of calculating the strength of the structure which I had adopted was of the sim- plest and' most elementary character; and whatever might be the form of the tube, the principle on which the calculations were founded was equally applicable, and could not fail to lead to equal- ly accurate results."* ♦Robert Stephenson's narrative in Clark's "Britannia and Conway Tubular Bridges," vol. i,, p. 27. CHAP.XVin.] STRENGTH OF THE WROUGHT-IRON BEAM. M5 Mr. Stephenson accordingly announced to the directors of the railway that he was prepared to carry out a bridge of this general description, and they adopted his views, though not without con- siderable misgivings. While the engineer's mind was still occupied with the subject, an accident occurred to the Prince of Wales iron steam-ship, at Blackwall, which singularly corroborated his views as to the strength of wrought-iron beams of large dimensions. When this vessel was being launched, the elect on the bow gave way in con- sequence of the bolts breaking, and let the vessel down so that the bilge came in contact with the wharf, and she remained sus- pended between the water and the wharf for a length of about 110 feet, but without any injui'y to the plates of the ship, satisfac- torily proving the great strength of this form of construction. Thus Mr. Stephenson became gradually confirmed in his opinion that the most feasible method of bridging the strait at Menai and the river at Conway was by means of a hollow tube of wrought iron. As the time was approaching for giving evidence before Parliament on the subject, it was necessary for him to settle some defibiite plan for submission to the committee. " My late revered father," says he, " having always taken a deep interest in the various proposals which had been considered for car- rying a railway across the Menai Straits, requested me to explain fully to him the views which led me to suggest the use of a tube, and also the natijre of the calculations I had made in reference to it. It was during this personal conference that Mr. William Fairbaim accidentally called upon me, to whom I also explained the princi- ples of the structure I had proposed. He at once acquiesced in their truth, and expressed confidence in the feasibility of my project, giving me at the same time some facts relative to the remarkable strength of iron steam-ships, and invited me to his works at Mill- wall to examine the construction of an iron steam-ship which was then in progress."* The date of this consultation was early in April, 1845, and Mr. Fairbaim states that, on that occasion, "Mr. Stephenson asked whether such a design was practicable, and whether I could accomplish it ; and it was ultimately arranged * "Robert Stephenson's narrative in Clark's "Britannia and Conway Tubular Bridges," vol. i., p. 27. 446 EXPERIMENTS ON TUBES. [Paet H. that the subject should be investigated experimentally, to deter- mine not only the value of Mr. Stephenson's original conception (of a circular or egg-shaped -wrought-iron tube, supported by chains), but that of any other tubular form of bridge which might present itself ia the prosecution of my researches. The matter was placed unreservedly in my hands ; the entire conduct of the investigation was intrusted to me ; and, as an experimenter, I was to be left free to exercise my own discretion in the investigation of whatever forms or conditions of the structure might appear to me best calculated to secure a safe passage across the Straits."* Mr. Palrbaim then proceeded to construct a number of experi- mental models, for the purpose of testing the strength of tubes of different forms. The short period which elapsed, however, be- fore tlie bill was in committee, did not admit of much progress being made with those experiments ; but from the evidence in chief given by Mr. Stephenson on the subject on the 5th of May following, it appears that the idea which prevailed in his mind was that of a bridge with openings of 450 feet (afterward in- creased to 460 feet), with a roadway formed of a hollow wrought- iron beam about 25 feet in diameter, presenting a rigid platform suspended by chains. At the same time, he expressed the confi- dent opinion that a tube of wrought iron would possess sufficient strength and rigidity to support a railway train running inside of it without the help of the chains. While the bill was still in progress, Mr. Fairbaim proceeded with his experiments. He first tested tubes of a cyHndrical form, in consequence of the favorable opinion entertained by Mr. Ste- phenson of tubes in that shape, extending them subsequently to those of an elHptical form.-|- He found tubes thus shaped more or less defective, and proceeded to test those of a rectangular kind. After the bill had received the royal assent, on the 30th of June, 1845, the directors of the company, with great liberality, voted a simi for the purpose of enabhng the experiments, to be * "Account of the Construction of the Britannia and Conway Tubular Bridges." By "W. Fairbaim, C.E., London, 1849. t Mr. Stephenson continued to hold that the elliptical tube was the right idea, and that sufficient justice had not been done to it. A year or two before his death, Mr. Stephenson remarked to the author that, had the same arrangement for stiffening been adopted to which the oblong rectangular tubes owe a great part of their strength, a very different result Would hare been obtained. Chap. XVIII.] MR. FAIRBAIRN.—MR- HODGKINSON. 447 prosecuted, and upward of £6000 were thus expended to make the assurance of their engineer doubly sure. Mr. Fairbaim's tests were of the most elaborate and eventually conclusive character, bringing to light many new and important facts of great practical value. The due pro|||>rtions and thick- nesses of the top, bottom, and sides of the tubes were arrived at after a vast number of separate trials, one of the results of the experiments being the adoption of Mr. Fairbairn's invention of rectangular hollow cells in the top of the beam for the purpose of giving it the requisite degree of strength. About the end of August it was thought desirable to obtain the assistance of a matherhatician, who should prepare a formula by which the strength of a full-sized tube might be calculated from the re- sults of the experiments made with tubes of smaller dimensions. Professor Hodgkinson was accordingly called in, and he pro- ceeded to verify and confirm the experiments which Mr. Fair- bairn had made, and afterward reduced them to the required formulae, though Mr. Fairbaim states that they did not appear in time to be of any practical service in proportioning the parts of the largest tubes.* Mr. Stephenson's time was so much engrossed with his exten- sive engineering business that he was in a great measure pre- cluded from devoting himself to the consideration of the practi- cal details, which he felt were safe in the hands of Mr. Fairbairn — " a gentleman," as he stated to the Committee of the Com- mons, "whose experience was greater than that of any other man in England." The results of the experiments were communi- cated to him from time to time, and were regarded by him as exceedingly satisfactory. It would appear, however, that while Mr. Fairbaim urged the sufficient rigidity and strength of the tubes without the aid of chains, Mr. Stephenson had not quite made up his mind upon the point. Mr. Hodgkinson, also, was strongly inehned to retain them.f Mr. Fairbairn held that it * "Mr. Tairbaim's Account," p. 22. t The following passage occurs in Eobert Stephenson's report to the directors of the Chestgf and Holyhead Railway, dated the 9th of Februajy, 1846: "You will ob- serve in Mr. Fairbairn's remarks that he contemplates the feasibility of stripping the tube entirely of all the chains that may be required in the erection of the bridge ; whereas, on the other hand, Mr. Hodgkinson thinks the chains will be an essential, or, at all events, a useful auxiliary, to give the tube the requisite strength and rigid- 448 ROBERT STEPHENSON'S CAUTION. [PaetH. was quite practicable to make the tubes " sufficiently strong to sustain not only their own weight, but, in addition to that load, 2000 tons equally distributed over the surface of the platform — a load ten times greater than they will ever be called upon to support." M It was thoroughly characteristic of Mr, Stephenson, and of the caution with which he proceeded in every step of this great un- dertaking — probing every inch of the ground before he set his foot down upon it — that he should, early in 1846, have appointed his able assistant, Mr. Edwin Clark, to scrutinize carefully the results of every experiment, whether made by Mr. Fairbairn or Mr. Hodgkinson, and subject them to a separate and independent analysis before finally deciding upon the form or dimensions of the structure, or upon any mode of procedure connected with it. That great progress had been made by the two chief experiment- ers before the end of 1846 appears from the papers on the sub- ject read by Messrs. Fairbairn and Hodgkinson before the British Association at Southampton in September of that year. In the course of the following month. Mr. Stephenson had become satis- fied that the use of auxiUary chains was unnecessary, and that the tubular bridge might be made of such strength as to be en- tirely seK:^upporting.* ity. This, however, ■will be determined by the proposed additional experiments, and does not interfere with the construction of the masonry, which is designed so as to admit of the tube, with or without chains. The application of chains as an auxiliary has occupied much of my attention, and I am satisfied that the ordinary mode of ap- plying them to suspension bridges is wholly inadmissible in the present instance ; if, therefore, it be hereafter found necessary or desirable to employ them in conjunction with the tube, another mode of employing them must be devised, as it is absolutely essential to attach them in such a manner as to preclude the possibility of the small- est bscillatioD. " * In a letter of Mr. Fairbairn to Mr. Stephenson, dated July 18th, 1846, he says : " To get rid of the chains will be a desideratum ; and I have made the tube of such strength, and intend putting it together upon such a principle, as will insure its carry- ing a dead weight, equally distributed over its hollow smface, of 4000 tons. With a bridge of such powers, what have we to fear ? and why, in the name of truth and in the face of conclusive facts, should we hesitate to adopt measures calculated not only to establish the principle as a triumph of art, but, what is of infinitely mdft import- ance to the shareholders, the saving of a large sum of money, nearly equal to half the cost of the bridge ? I have been ably assisted by Mr. Clark in all these contrivances ; but in a matter of such importance we must have your sanction and support." — " Mr. Pairbairn's Account," p. 93. Chap. XVIII.] THE WORKS BEGUN. 449 While these important discussions were in progress, measures were taken to proceed with the masonry of the bridges simulta- neously at Conway and the Menai Strait. The foundation-stone of the Britannia Bridge was laid by Mr. Frank Forster, the resi- dent engineer, on the 10th of April, 1846 ; and on the 12th of May following that of the Conway Bridge was laid by Mr. A. M- Ross, resident engineer at that part of the works. Suitable plat- forms and workshops were also erected for proceeding with the punching, fitting, and riveting of the tubes ; and when these oper- ations were in full progress, the neighborhood of the Conway and Britannia Bridges presented scenes of extraordinary bustle and industry. On the 11th of July, 1847, Mr. Clark informed Mr. Stephenson that "the masonry gets on rapidly. The abutments on the Anglesea side resemble the foundations of a great city rather than of a single structure, and nothing appears to stand still here." About 1500 men were employed on the Britannia Bridge alone, and they mostly lived upon the ground in wooden cottages erected for the occasion. The iron plates were brought in ship-loads from Liverpool, Anglesea marble from Penmon, and red sandstone from Euncorn, in Cheshire, as wind and tide, and shipping and convenience, might determine. There was an im- remitting clank of hammers, grinding of machinery, and blasting of rock going on from morning to night. In fitting the Britan- nia tubes together not less than 2,000,000 of bolts were riveted, weighing some 900 tons. The Britaiuiia Bridge consists of two independent continuous tubular beams, each 1511 feet in length, and each weighing 4680 tons, independent of the cast-iron frames inserted at their bear- ings on the masonry of the towers. These immense beams are supported at five places, namely, on the abutments and on three towers, the central of which is known as the Great Britannia Tower, 230 feet high, built on a rock in the middle of the Strait. The side towers are 18 feet less in height than the central one, and the abutments 35 feet lower than the side towers. The de- sign of the masonry is such as to accord with the form of the tubes, being somewhat of an Egyptian character, massive and gigantic rather than beautiful, but bearing the unmistakable im- press of power. The bridge has four spans — two of 460 feet over the water, 450 MAIN BRITANNIA TUBE. [Paet IL CONSTBUCTION OI' ■rill^ MAIN BRITANNIA. TUBE ON THE STAGING. and two of 230 feet over the land. The weight of the longer spans, at the points where the tubes repose on the masonry, is not less than 1587 tons. On the centre tower the tubes lie solid ; but on the land towers and abutments they lie on roller-beds, so as to allow of expansion and contraction. The road within each tube is 15 feet wide, and the heiglit varies from 23 feet at the ends to 30 feet at the centre. To give an idea of the vast size of the tubes by comparison with other structures, it may be mentioned that each length constituting the main spans is twice as long as London Monument is high ; and if it could be set on end in St. Paul's Church-yard, it would reach nearly 100 feet above the cross. The Conway Bridge is, in most respects, similar to the Britan- nia, consisting of two tubes of 400 feet span, placed side by side. Chap. XVIH.] THE CONWAY BRIDGE. 451 each weighing IISO tons. The principle adopted in the construc- tion of the tubes, and the mode of iioating and raising them, was nearly the same as at the Britannia Bridge, though the general arrangement of the plates is in many respects different. It was determined to construct the shorter outer tubes of the Britannia Bridge on scaffoldings in the positions in which they were permanently to remain, and to erect the larger tubes upon wooden platforms at high-water-mark on the Caernarvon shore, from whence they were to be floated in pontoons — in like man- ner as Eennie had floated into their places the centerings of his Waterloo and other bridges — and then raised into their proper places by means of hydraulic power, after a method originally suggested by Mr. Edwin Clark. The tubes of the Conway Bridge also were to be constructed on shore, and floated to their places on pontoons, as in the case of the main centre tubes of the Britan- nia Bridge. OONWAT BEiDGE. [By Percival Skelton.] Ff 452 THE CONWAY AND BRITANNIA TUBES. [Part II. The floating of these tubes on pontoons, from the places where they had been congtructed to the recesses in the masonry of the towers, up which they were to bfe hoisted to the places they were permanently to occupy, was an anxious and exciting operation. The first proceeding of this nature was at Conway, where Mr. Stephenson directed it in person, assisted by Captain Claxton, ]Vfr. Brunei, and other engineering friends. On the 6th of March, 1848, the pontoons bearing the first great tube of the up-hne were floated routid quietly and majestically into their place between the towers in about twenty minutes. Unfortunately, one of the sets of pontoons had become slightly slued by the stream, by which the Conway end of the tube was prevented from being brought home, and flve anxious days to all concerned intervened before it could be set in its place. In the mean time, the presses and rais- ing machinery had been fitted in the towers above, and the lift>- ing process was begun on the 8th of April, when the immense mass was raised 8 feet, at the rate of about 2 inches a minute. On the 16th the tube had been raised and finally lowered into its permanent bed ; the rails were laid within it ; and on the 18th Mr. Stephenson passed through with the first locomotive. The second tube was proceeded with on the removal of the first from the platform, and was completed and floated in seven months. The rapidity, with which this second tube was constructed was in no small degree owing to the Jacquard punching-machine, con- trived for the purpose of punching the holes for the rivets by Mr. Roberts, of Manchester. The tube was flriaUy fixed in its perma- nent bed on the 2d of January, 1849. The fioating and fixing of the great Britannia tubes was a still more formidable enterprise, though the experience gained at Con- way rendered it easy compared with what it otlierwise would have been. Mr. Stephenson superintended the operation of fioating the first in person, giving the arranged signals from the top of the tube on which he was mounted, the active part of the business being performed by a numerous corps of sailors, under the imme- diate direction of Captain Claxton. Thousands of spectators hned the shores of the Strait on the evening of the 19th of June, 1849. On the land attachments being cut, the pontoons began to float off ; but one of the capstans having given way from the too great strain put upon it, the tube was brought home again for the night. Chap.XVIII.] floating OF THE FIRST BRITANNIA TUBE. 453 By next morning the defective capstan was restored, and all was in readiness for another trial. At half past seven in the evening the tube was afloat, and the pontoons swung out into the cm-rent like a monster pendulum, held steady by the shore guide-lines, but increasing in speed to almost a fearful extent as they neared their destined place between the piers. " The success of this operation," says Mr. Clark, " depended main- ly bn properly striking the ' butt' beneath the Anglesey tower, on which, as upon a centre, the tube was to be veered round into its position across the opening. This position was determined by a 12-uich line, which was to be paid out to a fixed mark from the Llanfair capstan. The' coils of the rope unfortunately overrode each other upon this capstan, so that it could not be paid out. In resisting the motion of the tube, the capstan was bodily dragged out of the platform by the action of the palls, and the tube was in imminent danger of being carried away by the stream, or the pon- toons crushed upon the rocks. The men at the capstan .were all knocked down, and some of them thrown into the water, though they made every exertion to arrest the motion of the capstan-bars. In this dilemma, Mr. Charles Rolfe, who had charge of the capstan, with great presence of mind called the visitors on shore to his as- sistance; and handing out the spare coil of the 12-inch line into the field at the back of the capstan, it was carried with great rapidity up the field, and a crowd of people, men, women, and children, hold- ing on to this huge cable, arrested the progress of the tube, which was at length brought safely against the butt and veered round. The Britannia end was then drawn into the recess of the masonry by a chain passing through the tower to a crab on the far side. The violence of the tide abated, though the wind increased, and the Anglesey end was drawn into its place beneath the corbeling in the masonry ; and as the tide went down, the pontoons deposited their valuable cargo on the welcome shelf at each end. The successful issue was greeted by cannon from the shore and the hearty cheers of many thousands of spectators, whose sympathy and anxiety were but too clearly indicated by the unbroken silence with which the whole operation had been accompanied."* By midnight all the pontoons had been got clear of the tube, which now hung suspended over the waters of the Strait by its * "The Britannia and Conway Tubular Bridges." By Edwin Clark. "Vol. ii., p. 683-4. 454 THE ENGINEER 'S GREA T ANXIETY. [Pari II. two ends, which rested upon the edges cut in the rock for the purpose at the base of the Britannia and Anglesey towers respect- ively, up which the , tube had now to be lifted by hydraulic power to its permanent place near the summit. The accuracy with which the gigantic beam had been constructed may, be inferred from the fact that, after passing into its place, a clear space re- mained between the . iron plating and the rock outside of it of only about three quarters of an inch ! Mr. Stephenson's anxiety was, of course, very great up to the time of effecting this perilous operation. When he had got the first tube floated at Conway and saw all safe, he said to Captain Moorsom, " Now I shall go to bed." But the Britannia Bridge was a still more diflicult enterprise, and cost him many a sleep- less night. Afterward describing his feehngs to his friend Mr. Gooch, he said, " It was a most anxious and harassing time with me. Often at night I would lie tossing about, seeking sleep in vain. The tubes flUed my head. I went to bed with them and got up with them. In the gray of the morning, when I looked across the Square,* it seemed an immense distance across to the houses on the opposite side. It was nearly the same length as the span ,of my tubular bridge !" When the first tube had been floated, a friend observed to him," This great work has made you ten years older." " I have not slept sound," he replied, " for three weeks." Sir F. Head, however, relates that, when he revisited the spot on the following morning, he observed, sitting on a platform overlooking the suspended tube, a gentleman, reclining entirely by himself, smoking a cigar, and gazing, as if indolently, at the aerial gallery beneath him. It was the engineer himself, con- templating his newborn child. He had strolled down from the neighboring village, after his first sound and refi-eshing sleep for weeks, to behold in sunshine and solitude that which, during a weary period of gestation, had been either mysteriously moving in his brain, or, like a vision — sometimes of good omen and some- times of evil — had, by night as well as by day, been flitting across his mind. • The next process was the lifting of the tube into its place, which was performed very deliberately and cautiously. It was raised by powerful hydraulic presses, only a few feet at a time, * No. 34 Gloucester Square, Hyde Park, where he hved. CHAp.XVm.] FALL OF THE MAIN TUBE I 455 and carefully under-built, before being raised to a farther height. When it had been got up by successive stages of this kind to about 24 feet, an extraordinary accident occurred, during Mr. Ste- phenson's absence in London, which he afterward described to the author in as nearly as possible the following words : " In a work of such novelty and magnitude, you may readily imagine how anxious I was that every possible contingency should be pro- vided for. Where one chain or rope was required, I provided two. I was not satisfied with ' enough :' I must have absolute security, so far as that was possible. I knew the consequences of failure would be most disastrous to the company, and that the wisest economy was to provide for all contingencies, at whatever cost. When the first tube at the Britannia had been successfully floated between the piers, ready for being raised, my young engi- neers were veiy much elated ; and when the hoisting apparatus had been fixed, they wrote to me, saying, ' We are now all ready for raising her : we could do it in a day, or in two at the most.' But my reply was, ISTo ; you must only raise the tube inch by inch, and you must build up under it as you rise. Every inch must be made good. Nothing must be left to chance or good luck. And fortunate it was that I insisted upon this cautious course being pursued ; for, one day, while the hydraulic presses were at work, the bottom of one of them burst clean away ! The cross- head and the chains, weighing more than 50 tons, descended with a fearful crash upon the press, and the tube itself fell down upon the pacldng beneath. Though the fall of the tube was not more than nine inches, it crunched solid castings, weighing tons, as if they had been nuts. The tube itself was slightly strained and deflected, though it still remained suiBciently serviceable. Bift it was a tremendous test to which it was put, for a weight of up- ward of 5000 tons falling even a few inches must be admitted to be a very serious matter. That it stood so well was extraordi- nary. Clark immediately wrote me an account of the circum- stance, in which he said, ' Thank God you have been so obstinate ; for if this accident had occurred without a bed for the end of the tube to fall on, the whole would now have been lying across the bottom of the Straits.' Five thousand pounds extra expense was caused by this accident, slight though it might seem. But care- ful provision was made against future failure ; a new and im- 456 STEPHENSON CAIRN.— BYDRAULIC PRESSES. [Paet II. proved cylinder was provided ; and the work was very soon ad- vancing satisfactorily toward completion."* Wlien the queen first visited the Britannia Bridge, on her re- turn from the North in 1852,E.obert Stephenson accompanied her majesty and Prince Albert over the works, explaining the prin- ciples on which the bridge had been built, and the difficulties which had attended its erection. He conducted the royal party to near the margin of the sea, and, after describing to. them the incident of the fall of the tube, and the reason of its preservation, he pointed with pardonable pride to a pile of stones which the workmen had there raised to commemorate the event. While nearly all the other marks of the woi'k during its progress had been obliterated, that cairn had been left standing in commemo- ration of the caution and foresight of their chief. The floating and raising of the remaining tubes need not be described in detail. The second was floated on the 3d of De- cember, and set in its permanent place on the 7th of January, 1850. The othersf were floated and raised in due 'course ; on * The hydraulic presses were of an extraordinary charkcter. The cylinders of those first constructed were of wrought iron (cast iron being found altogether useless), not less than 8 inches thick. They were tested by being subjected to an internal pressure of 3 or 3 J tons to the circular inch. The pressure was such that it squeezed the fibres of the iron together ; so that, after a few tests of this character, the piston, which at first fitted it quite closely, was found considerably too small. "A new pis- ton," says Mr. Clark, "was then made to suit the enlarged cylinder; and a farther enlargement occurring again and again with subsequent use, the new pistons became as formidable an obstacle as the cylinders. The wrought-iron cylinder was on the point of being abandoned, when Mr. Amos (the iron manufacturer), having carefully gauged the cylinder inside and out, found to his surprise that, although the internal diameter had increased considerably, the external diameter had retained precisely its Ojdginal dimensions. He consequently persevered in the construction of new pistons, and ultimately found that the cylinder enlarged no longer, and to this day it contiQ- ues in constant use. Layer after layer having attained additional permanent set, sufficient material was at length brought into play, with sufiicient tenacity to with- stand the pressure; and thus an obstacle, apparently insurmountable, and which threatened at one time to render much valuable machinery useless, was entirely over- come. The workman may be excused for calling the stretched cylinder stronger than the new one, though it is only stronger as regards the amount of its yielding to a given force." — Clark, vol. i., p. 306. The hydraulic presses used in raising the tubes pf the Britannia Bridge, it may be remembered, were afterward used in starting the Great Eastern from her berth on the shore at Milwall, wher^she had been built. t While the preparations were in progress for fioating the third tube, Mr. Stephen- son received a pressing invitation to a public railway celebration at Darlington, in honor of his old friend, Edward Pease. His reply, dated the 15th of May, 1850, was CiiAp. XVIII.] THE MENAI BRIDGE. 457 -^:i&;i^3sl&^>,«^^ MENAI BRIDGE. [By Percival Skelton, after his original Drawing.] the 5th of March Mr. Stephenson put the last rivet in the tube, and passed through the completed bridge, accompanied by about as follows : "I am prevented haring the pleasiu'e of a visit to DarKngton on the 22d, owing to that or the follomng day having been fixed upon for floating the next tube at the Menai Straits ; and as this movement depends on the tide, it is, of course, im- possible for me to alter the arrangements. I sincerely regret this circumstance, for every early association connected with my profession woidd have tended to render my visit a gratifying one. It would, moreover, have given me an opportunity of say- ing publicly how much the wonderful progress of railways was dependent upon the successful issue of the first great experiment, and how much that issue was influenced by your great discernment, and your confidence in my late revered father. In my remembrance you stand among the foremost of his patrons and early ad^^sers ; and I know that throughout his life he regarded you as one of his very best friends. One of the things in which he took especial delight was in frequently and veiy graphically describing his first visit to Darlington, on foot, to confer -nith you on the subject of the Stockton and Darlington Railway. " 458 THE BRITANNIA BRIDGE A MONUMENT [Pari n. a thousand persons, drawn by three locomotives. The bridge was found almost entirely rigid, scarcely showing the slightest deflection. When, in the course of the day, a train of 200 tons of coal was allowed to rest with all its weight, for two hours, in the centre of the eastern land tube, the deflection was only four tenths of an inch, or less than tHat produced upon the structure by half an hour's sunshine ;* while the whole bridge might with safety, and without injury to itself, be deflected to the extent of 13 inches. The bridge was opened for public traffic on the 18th of March. The cost of the whole work was £234,450. The Britannia Bridge is one of the most remarkable monu- ments of the enterprise and skill of the present century. Kobert Stephenson was the master spirit of the undertaking. To him belongs the merit ©f first seizing the ideal conception of the structure best adapted to meet the necessities of the case, and of selecting the best men to work out his idea, himseK watching, controlling, and testing every result by independent check and counter-check. And, finally, he organized and directed, through his assistants, the vast band of skilled workmen and laborers who were for so many years occupied in carrying his magnificent original conception to a successful practical issue. But it was not accomplished without the greatest anxiety and mental pressure. Mr. Clark has weU observed that few persons who merely witness the results of the engineer's labors can form any conception of the real difficulties overcome, and the intense anxiety involved in their elaboration. "If the stranger," he says, " who contemplates the finished reality, requires so much thought * The effect of sunshine in deflecting the bridge is very curious. When the first main tube was tested, ballast-wagons loaded with iron were drawn into the centre and left standing there. The first 20 tons increased the deflection an eighth of an inch, and with 50 tons the deflection was 9 inches. After standing all night, the de- flection in the morning was found to be only 8| inches. IIow was this to be accounts ed for ? Mr. Clark says : " This was attributed at the time to an error made in the reading ; but this, and many other anomalies in the deflection, were afterwai-d fully accounted for by local changes of temperature. A gham of sunshine on the top of the tube raised it on one occasion nearly an inch in half an hour with 200 tons at the. centre, the top plates being expanded by increase of temperature, while the lower plates remained constant from radiation to the water immediately beneath them. In a similar manner, the tube was drawn sidewise to the extent of an inch from the sun shining on one side, and returned immediately as clouds passed over the sun, being, in fact, a most delicate thermometer in constant motion, both vertically and laterally." Chap. XVIII.] OF SKILL AND INDUSTRY. 459 to appreciate its principles and comprehend its detail, what wea- ry hours must he have undergone who first conceived its bold proportions — who, combating, almost alone, every prejudice that assailed him, and with untiring labor discussing every objection, listening to every opinion, and embodying every inquiry, at length matured, step by step, this noble monument V On the occasion of raising the last tube into its place, Mr. Stephenson declared, in reply to the felicitations of a large company who had witnessed the proceedings with intense interest, that not all the triumph which attended this great work, and the solution of the difficult problem of carrying a rigid roadway across an arm of the sea at such a height as to allow the largest vessels to pass with all their sails set beneath it, could repay him for the anxieties he had gone through, tlie fiiendships he had compromised, and the unworthy motives which had been attributed to him ; and that, were an. other work of the same magnitude offered to him with like con- sequences, he would not for worlds undertake it ! The Britannia Bridge was indeed the result of a vast combi- nation of skill and industry. But for the perfection of our tools, and the ability of om- mechanics to use them to the greatest ad- vantage — but for the matured powers of the steam-engine — but for the improvements in the iron manufacture, which enabled blooms to be puddled of sizes before deemed impracticable, and plates and bars of immense size to be rolled and forged — but for these, the Britannia Bridge would have been designed in vain. Thus it was not the product of the genius of the railway engi- neer alone, but of the collective mechanical genius of the English nation. COmVAY BEIDGE — FLOATING THE FIKBT TFBE, VIEW Ls TAPTON GARDENS. [By Fercival Skclton.] CHAPTER XIX. CLOSENG YEAES OF GEOEGE STEPHENSOn's LIFE — ILLNESS AXD DEATH CHAEACTEE. In describing the completion of the series of great works de- tailed in the preceding chapter, we have somewhat anticipated the closing years of George Stephenson's life. He could not fail to take an anxious interest in the success of his son's designs, and he paid many ^dsits to Conway and to Menai during the progress of the bridges. He was present on the occasion of the floating and raising of the first Conway tube, and there witnessed a proof of the somidness of Robert's judgment as to the efficiency and strength of the structm'e, of which he had at first expressed some doubt ; but before the like test could be applied at the Britannia Bridge, George Stephenson's mortal anxieties were at an end, for he had then ceased from all his labors. Toward the close of his life, George Stephenson ahnost entirely withdrew from the active pursuit of his profession. He devoted himself chiefly to his extensive collieries and hme-works, taking a local interest only in such projected railways as were calculated ' to open up new markets for their products. At home he lived the life of a country gentleman, enjoj'ing his garden and grounds, and indulging his love of nature, which, through ^11 his busy life, had never left him. It was not until the year 1845 that he took an active interest in horticultural pur- suits. Then he began to build new melon-houses, pineries, and Chap. XIX.] GAFDENING AT TAPTON. 461 vineries, of great extent ; and he now seemed as eager to excel all other growers, of exotic plants in his neighborhood, as he had been some thirty years before to surpass the villagers of Killing- worth in the production of cabbages and cauliflowers. He had a pine-house built 68 feet in length and a vinery 140 feet. "Work- men were constantly employed in enlargiag them, until at length he had no fewer than ten glass forcing-houses. He did not take so much pleasure in flowers as in fruits. At one of the county agricultural meetings he said that he intended yet to grow pine- apples at Tapton as big as pumpkins. The only man to whom he would " knock under" was his friend Paxton, the gardener to the Duke pf Devonshire ; but he was so old in the service, and so skillful, that he could scarcely hope to beat him. Yet his " Queen" pines did take the first prize at a competition with the dulce, though this was not until shortly after his death, when the plants had become fully grown. • Stephenson's grapes also took the first prize at Eotherham, at a competition open to all England. He was extremely successful in producing melons, having invent- ed a method of suspendiag them in baskets of wire gauze, which, by relieving the stalk from tension, allowed nutrition to proceed more freely, and better enabled the fruit to grow and ripen. He also took much pride in his growth of cucumbers. He raised them very fine and large, but he could not make them grow straight. Place them as he would, notwithstanding all his propping and humoring of them by modifying the application of heat and the admission of Hght, they would still insist on grow- ing crooked in their own way. At last he had a number of glass cylinders made at Newcastle, and into these the growing cucum- bers were inserted, when at last he succeeded in growing them perfectly straight. Carrying one of the new products into his house one day, and exhibiting it to a party of visitors, he told them of the expedient he had adopted, and added, " I think I have bothered them noo !" Farming operations were also carried on by him with success. He experimented on manure, and fed cattle after methods of his own. He was very particular as to breed and build in stock- breeding. "You see, sir," he said to one gentleman, "I like to see the coo's back at a gradient something like this" (drawing an imaginary hne with his hand), " and then the ribs or girders will 462 BIItDS AND BEES. [Pam II. carry more flesh than if they were so — or so." When he attend- ed the county agricultural meetings, which he frequently did, he was accustomed to take part ia the discussions, and he brought the same -vigorous practical mind to bear upon questions of till- age, drainage, and farm economy which he had before been ac- customed to exercise on mechanical and engineering matters. All his early affection for birds and animals revived. He had favorite dogs, and cows, and horses ; and again he began to keep rabbits, and to pride himself on the beauty of his breed. There was not a bird's nest in the grounds that he did not know of; and from day to day he went round watching the progress which the birds made with their building, carefully guarding them from harm. His minute knowledge of the habits of British birds was the result of a long, loving, and close observation of nature. At Tapton he remembered the failure of his early experiment ia hatching birds' eggs by heat, and he now performed it success- fully, being able to secure a proper apparatus for maintaining a uniform temperature. He was also curious about the breediag and fattening of fowls ; and when his friend Edward Pease, of Darlington, visited him at Tapton, he explained a method which he had invented of fattening chickens in half the usual time. The chickens were confined in boxes, which were so made as to exclude the Hght. Dividing the day iuto two or three periods, the birds were shut up at the end of each' after a heavy feed, and went to sleep. The plan proved very successful, and Mr. Stephenson jocularly said that if he were to devote himself to chickens he could soon make a little fortune. !Mjs. Stephenson tried to keep bees, but f omid they would not thrive at Tapton. Many hives perished, and there was no case of success. The cause of failure was long a mystery to the en- gineer ; but one day his acute powers of observation enabled him to unravel it. At the foot of the hill on which Tapton House stands, he saw some bees trying to rise up from among the grass, laden with honey and wax. They were already exhausted, as if with long flying ; and then it occurred to him that the height at which the house stood above the bees' feeding-ground rendered it difficult for them to reach their hives when heavy laden, and hence they sank exhausted. He afterward incidentally men- tioned the circumstance to Mr. Jesse, the naturalist, who concm'- Chap. XIX.] LOVE OF CONVERSATION. 463 red in his view as to the cause of failure, and was much struck by the keen observation which had led to its solution. George Stephenson had none of the habits of the student. He read very little ; for reading is a habit which is generally ac- quired in youth, and his youth and manhood had been, for the most part, spent in hard work. Books wearied him and sent him to sleep. Novels excited his feelings too much, and he avoided them, though he would occasionally read through a philosophical work on a subject in which he felt particularly interested. He VTTote very few letters with his own hand. Nearly all his letters were dictated, and he avoided even dictation when, he could. His greatest pleasure was in conversation, from which he gather- ed most. of his imparted information. It was his practice, when about to set out on a journey by rail- way, to walk along the train before it started, and look into the carriages to see if he could find " a conversible face." On one of such occasions, at the Euston Station, he discovered in a car- riage a very handsome, manly, and intelligent face, which he af- terward found was that of the late Lord Denman. He was on Ms way down to his seat at Stony Middelton, in Derbyshire. Stephenson entered the carriage, and the two were shortly en- gaged in interesting conversation. It turned upon chronometry and horology, and the engineer amazed his lordship by the ex- tent of his knowledge on the subject, in which he displayed as much minute information, even down to the latest improvements in watch-making, as if he had been bred a watchmaker and hved by the trade. Lord Denman was curious to know how a man whose time must have been mainly engrossed by engineering had gathered so much knowledge on a subject quite out of his own line, and he asked the question. " I learned clockmaking and watchmaking," was the answer, "while a working-man at Kilbng- worth, when I made a httle money in my spare hours by clean- ing the pitmen's clocks and watches ; and since then I have kept up my information on the subject." This led to farther ques- tions, and then he proceeded to tell Lord Denman the interesting story of his life, which held him entranced during the remainder of the journey. Many of his friends readily accepted invitations to Tapton House to enjoy his hospitality, which never failed. With them 464 HOSPITALITY AT TAPTON HOUSE. [Part II. he would " fight his battles o'er again," reverting often to his battle for the locomotive ; and he was never tired of telling, nor were his auditors of listening to, the Uvely anecdotes with which he. was accustomed to illustrate the struggles of his early career. While walking in the woods or through the grounds, he would arrest his friends' attention by allusion to some simple object — such as a leaf, a blade of grass, a bit of bark, a nest of birds, or an ant carrying its eggs across the path — and descant in glowing terms on the creative power of the Divine Mechanician, whose contrivances were so exhaustless and so wonderful. This was a theme upcxn which he was often accustomed to dwell in reveren- tial admiration when in the society of his more intimate friends. One night, when walking under the stars, and gazing up into, the field of suns, each the probable centre of a system, forming the Milky "Way, a friend observed, "What an insignificant creat- ure is man in sight of so immense a creation as this !" "Yes !" was his reply: "but how wonderful a creature also is man, to be able to think and reason, and even in some measure to compre- hend works so infinite !" A microscope which he had brought down to Tapton was a source of immense enjoyment, and he was never tired of contem- plating the minute wonders which it revealed. One evening, when some friends were visiting him, he induced each of them to puncture his skin so as to draw blood, in order that he might examine the globules through the microscope. One of the gen- tlemen present was a teetotaler, and Stephenson pronounced his blood to be the most lively of the whole. He had a theory of his own about the movement of the globules in the blood, which has since become familiar. It was, that they were respectively charged with electricity, positive at one end and negative at the other, and that they thus attracted and repelled each other, caus- ing a circulation. No sooner did he observe any thing new than he immediately set about devising a reason for it. His training in mechanics, his practical familiarity with matter in all its forms, and the strong bent of his mind, led him first of aU to seek for a mechanical explanation ; and yet hef was ready to admit that there was a something in the principle of Ufe — so mysterious and inexplicable — which bafiled mechanics, and seemed to dominate over and control them. He did not care much, either, for ab- Chap. XIX.] LOYE OF FUN.— A "C'ROWDIF" NIGHT. 465 struse mechanics, but only for the experimental and practical, as is usually the case with those whose knowledge has been self -ac- quired. Even at his advanced age the spirit of fi-olic had not left him. Wlien proceeding from Chesterfield Station to Tapton House with his friends, he would almost invariably challenge them to a race up the steep path, partly formed of stone steps, along the hill-side. And he would struggle, as of old, to keep the fi-ont place, though by this time his "wind" greatly failed him. He would occasion- ally invite an old friend to take a wrestle with him on the lawn, to keep up his skill, and perhaps to try some new "knack" of throwing. In the evening- he would sometimes in- dulge his visitors by recit- ing the old pastoral of " Damon and PhyUis," or singing his favorite song of " John Anderson my Joe." But his greatest enjoyment on such occasion was " a crowdie." "Let's have a crowdie night," he would say; and forthwith a kettle of boiUng water was ordered in, with a basin of oatmeal. Taking a large bowl, containing a sufficiency of hot water, and placing it between his knees, he poured m oatmeal with one hand, and stirred the mixture vigorously with the other. When enough meal had been added, and the stirring was completed, the crowdie was made. It was then supped with new milk, and Mr. Stephenson generally pronounced it " capital !" It was the diet to which he had been accustomed when a working-man, and all the dainties with which he had become familiar in recent years V;*4. 466 VISITS TO LONDON. [Part II. had not spoiled Ids simple tastes. To enjoy crowdie at his years, besides, indicated that he still possessed that quality on which no doubt much of his practical success in life had depended — a strong and healthy digestion. He would also frequently invite to his house the humbler com- panions of his early life, and take pleasure in talking over old times with them. He never assumed any of the bearings of the great man on such occasions, but treated his visitors with the same friendliness and respect as if they had been his equals, sending them away pleased with themselves and delighted with him. At other times, needy men who had known him in their youth would knock at his door, and they were never refused ac- cess. But if he had heard of any misconduct on their part, he would rate them soundly. One who knew him intimately in private life has seen him exhorting such backsliders, and de- nouncing their misconduct and imprudence, vdth the tears streaming down his cheeks. And he would generally conclude by opening his purse, and giving them the help which they need- ed " to make a fresh start in the world." His life at Tapton during his later years was occasionally di- versified by a visit to London. His engineering business having become limited, he generally went there for the purpose of visit- ing friends, or "to see what there was fresh going on." He found a new race of engineers springing up on all sides — ^men who knew hira not ; and his London journeys gradually ceased to yield him pleasure. A friend used to take him to the opera, but by the end of the first act he was generally obsei-ved in a profound slumber. Yet on one occasion he enjoyed a visit to the Haymarket, with a party of friends on his birthday, to see T. P. Cooke in " Black-eyed Susan" — if that can be called enjoy- ment which kept him in a state of tears during half the perform- ance. At other times he visited Newcastle, which always gave him great pleasure. He would, on such occasions, go out to Kil- lingworth and seek up old friends, and if the people whom he knew were too retiring and shrunk into their cottages, he went and s.ought them there. Striking the floor with his stick, and holding his noble person upright, he would say, in his ovm kind way, " Well, and how's all here to-day ?" To the last he had al- ways a warm heart for Newcastle and its neighborhood. Chap. XIX.] VISIT TO DRAYTON MANOR. 467 Sir Kobert Peel, on more than one occasion, invited George Stephenson to his mansion at Drayton, where he was accustomed to assemble romid him men of the highest distinction in art, sci- ence, and legislation, during the intervals of his Parliamentary life. The first invitations were respectfully declined; but Sir Eobert again pressing him to come down to Tamworth, where he would meet Buckland, FoUett, and others well known to both, he at last consented. Stephenson's strong powers of observation, together with his native humor and shrewdness, imparted to his conversation at all times much vigor and originality. Though mainly an engineer, he was also a profound thinker on many scientific questions, and there was scarcely a subject of speculation or a department of recondite science on which he had not employed his faculties in such a way as to have formed large and original views. Mr. Sopwith, r.E,.S., has informed us that the conversation at Dray- ton, on one occasion, turned on the theory of the formation of coal, in the course of which Stephenson had an animated discus- sion with Dr. Buckland. But the result was, that Dr. Buckland, a much greater master of tongue-fence, completely silenced him. Next morning, before breakfast, when he was walking in the grounds deeply pondering. Sir William FoUett came up and ask- ed what he was thinking about. " Why, Sir William, I am think- ing over that argument I had with Buckland last night. I know I am right, and that, if I had only the command of words which he has, I'd have beaten him." " Let me know all about it," said Sir William, " and I'll see what I can do for you." The two sat down in an arbor, where the astute lawyer made himself thor- oughly acquainted with the points of the case, entering into it with the zeal of an advocate about to plead the interests of his client. After he had mastered the subject, Sir WiUiam said, "Now I am ready for him." Sir Robert Peel was made ac- quainted with the plot, and adroitly introduced the subject of the controversy after dinner. The j-esult was, that in the argument which followed, the man of science was overcome by the man of law. " And what do you say, Mr. Stephenson ?" asked Sir .Eob- ert, laughing. " Why," said he, " I say this, that of aU the powere above and under the earth, there seems to me to be no power so great as the gift of the gab." Gg 468 THEORY ABOUT THE SUN'S LIGHT. [Paht II. One Sunday, when the party had just returned from church, they were standing together on the terrace near the Hall, and observed in the distance a railway flashing along, tossing behind its long white plume of steam. " Now, Buckland," said Stephen- son, " I have a poser for you. Can you tell me what is the pow- er that is driving that train ?" " Well," said the other, " I suppose it is one of your big engines." " But what drives the engine ?" " Oh, very likely a canny ]*f ewcastle driver." " "What do you say to the light of the sun ?" " How can that be ?" asked the doctor. " It is nothing else," said the engineer : "it is light bottled up in the earth for tens of thousands of years — flight, absorbed by plants and vegetables, being necessary for the condensation of carbon during the process of their growth, if it be not carbon in another form — and now, after being buried in the earth for long ages in fields of coal, that latent light is again brought forth and liberated, made to work as in that locomotive, for great human purposes."* During the same visit Mr. Stephenson one evening repeated his experiment with blood drawn from the fiager, submitting it to the microscope in order to show the curious circmlation of the globules. He set the example by pricking his own thumb ; and the other guests, by turns, in like manner gave up a small portion of their blood for the purpose of ascertaining the comparative liveliness of their circulation. When Sir Kobert Peel's turn came, Stephenson said he was curious to know " how the blood * This was a favorite notion of George Stephenson's, and he held that what pro- duced light and heat had originally been light and heat. Mr. Fearon, solicitor, has informed the author that he accompanied Stephenson on one of his visits to Belgium, when it seemed to him that the engineer did not take much interest in the towns, churches, or public buildings of Belgium, probably because he knew little of history, and they recalled no associations with the past. One day the party went to see the beautiful Hotel de Ville at Brussels, but Stephenson did not seem moved by it. On passing out of the square, however, by the little street which leads toward the Mon- tague de la Cour, his interest was thoroughly roused by the sight of an imcmense fat pig hung up in a butcher's shop. He immediately took out his foot-rule, measured the pig, and expressed a desire to have some conversation with the butcher as to how it had been fed. The butcher accordingly waited upon them at the hotel, and told all he knew about the feeding of the pig ; and then, says Mr. Fearon, " George went off into his favorite theory of the sun's light, which he said had fattened the pig ; for the light had gone into the pease, and the pease had gone into the fat, and the fat pig was like a field of coal in tliis respect, that they were, for the most part, neither more nor less than bottled sunshine." Chap. XIX.] STEPHENSON'S LAST RAILWAY OPENING. 469 globules of a great politician would conduct themselves." Sir Robert held forth his jSnger for the purpose of being pricked ; but once and again he sensitively shrunk back, and at length the ex- periment, so far as he was concerned, was abandoned. Sir Robert Peel's sensitiveness to pain was extreme, and yet he was destined, a few years after, to die a death of the most distressing agony. In 1847, the year before his death, George Stephenson was again invited to join a distinguished party at Drayton Manor, and to assist in the ceremony of formally opening the Trent Valley Railway, which had been originally designed and laid out by himself many years before. The first sod of the railway had been cut by the prime minister in November, 1845, and the for- mal opening took place on the 26th of June, 1847, the line hav- ing thus been constructed in less than two years. What a change had come over the spirit of the landed gentrj' since the time when George Stephenson had first projected a rail- way through that district ! Then they were up in arms against him, characterizing him as the devastator and spoiler of their es- tates, whereas now he was hailed as one of the greatest benefac- tors of the age. Sir Robert Peel, the chief political personage in England, welcomed him as a guest and friend, and spoke of him as the chief among practical philosophers. A dozen members of Parliament, seven baronets, with all the landed magnates of the district, assembled to celebrate the opening of the railway. The clergy were there to bless the enterprise, and to bid aU hail to railway progress, as " enabling them to carry on with greater fa- cility those operations in connection with religion which were calculated to be so beneficial to the country." The army, speak- ing through the mouth of General A'Court, acknowledged the vast importance of railways, as tending to improve the military defenses of the country. And representatives from eight corpo- rations were there to acknowledge the great benefits which rail- ways had conferred upon the merchants, tradesmen, and working classes of their respective towns and cities. In the spring of 1848 George Stephenson was invited to Whit- tington House, near Chesterfield, the residence of his friend and former pupil, Mr. Swanwick, to meet the distinguished American, Emerson. On being introduced to each other they did not imme- diately engage in conversation ; but presently Stephenson jumped 470 MEETING WITH EMERSON.— LAST ILLNESS. [Paet II. Tip, took Emerson by the collar, and, giving him one of his friend- ly shakes, asked how it was that in England we could always tell an American. This led to an interesting conversation, in the course of which Emerson said how much he had every where been struck by the haleness and comeliness of the English men and women, from which they diverged into a discussion of the influences which air, climate, moisture, soil, and other conditions exercised on the physical and moral development of a people. The conversation was next directed to the subject of electricity, on which Stephenson launched out enthusiastically, explaining his views by several simple and some striking illustrations. From thence it gradually turned to the events of his own life, which he related in so graphic a manner as completely to rivet the atten- tion of the American. Afterward Emerson said "that it was worth crossing the Atlantic were it only to have seen Stephenson — he had such force of character and vigor of intellect." The rest of George Stephenson's days were spent quietly at Tapton, among his dogs, his rabbits, and his birds. When not engaged about the works connected with his collieries, he was oc- cupied in horticulture and farming. He continued proud of his flowers, his fruits, and his crops, while the old spirit of competi- tion -was still strong within him. Although he had for some time been in delicate health, and his hand shook from nervous debility, he appeared to possess a sound constitution. Emerson had observed of him that he had the lives of many men in him. But perhaps the American spoke figuratively, in reference to his vast stores of experience. It appeared that he had never com- pletely recovered from the attack of pleurisy which seized hina during his return from Spain. As late, however, as the 26th of July, 1848, he felt himself sufficiently well to be able to attend a meeting of the Institute of Mecharacal Engineers at Birmingham, and to read to the members his paper " On the Fallacies of the Eotatory Engine.*' It was his last public appearance. Shortly after his return to Tapton he had an attack of intermittent fever, from which he seemed to be recovering, when a sudden effusion of blood from the lungs carried him off, on the 12th of August, 1848, in the sixty-seventh year of his age. When all was over, Eobert wrote to Edmund Pease, " With deep pain I inform you, as one of his Chap. XIX.] DEATH AND BURIAL. 471 oldest fi-iends, of the death of my dear father this morning at 12 o'clock, after abont ten days' illness from severe fever." Mr. Starbuck, who was also present, wrote : " The favorable symp- toms of yesterday morning were toward evening followed by a serions change for the worse. This continued during the night, and early this morning it became evident that he was sinking. At a few minutes before 13 to-day he breathed his last. All that the most devoted and unremitting care of Mrs. Stephenson* and the skill of medicine coiild accomplish has been done, but in vain." George Stephenson's remains were followed to the grave by a large body of his work-people, by whom he was greatly admired and beloved. They remembered him as a kind master, who was ever ready actively to promote all measures for their moral, phys- ical, and mental improvement. The inhabitants of Chesterfield evinced their respect for the deceased by suspending business, closing their shops, and joining in the funeral procession, which was headed by the corporation of the town. Many of the sur- rounding gentry also attended. The body was interred in Trin- ity Church, Chesterfield, where a simple tablet marks the great engineer's last resting-place. TRINITY CHUKCn, CHESTERFIELD. * The second Mrs. Stephenson having died in 1845, George married a third time in 1848, about six months before his death. The third Mrs. Stephenson was an in- telligent and respectable lady, who had for some years officiated as his housekeeper. 472 MEMORIAL STATUES. . Pakt II. The statue of George Stephenson, which the Liverpool and Manchester and Grand Junction CompanieB had commissioned, was on its way to England when his death occurred ; and it served for a monument, though his best monument will always be his works. The statue referred to was placed in St. George's Hall, Liverpool. A full-length statue .of him, by Bailey, was also erect- ed, a few years later, in the noble vestibule of the London and Northwestern Station, in Euston Square. A subscription for the purpose was set on foot by the Society of Mechanical Engineers, of which he had been the founder and president. A few adver- tisements were inserted in the newspapers, inviting subscriptions ; and it is a notable fact that the voluntary offerings included an average of two shillings each from 3150 working-men, who em- braced this opportunity of doing honor to their distinguished fel- low-workman. But the finest and most appropriate statue to the memory of George Stephenson is that which was erected in 1862, after the design of John Lough, at Newcastle-upon-Tyne. It is in the im- mediate neighborhood of the Literary and Philosophical Institute, to which both George and his son Eobert were so much indebted in their early years; close to the great Stephenson locomotive f oundery established by the shrewdaess of the father ; and in the vicinity of the High-Level Bridge, one of the grandest products of the genius of the son. The head of Stephenson, as expressed in this noble work, is massive, characteristic, and faithful ; and the attitude of the figure is simple, yet manly and energetic. It stands on a pedestal, at the respective corners of which are sculpt- ured the recumbent figures of a pitman, a mechanic, an engine- driver, and a plate-layer. The statue appropriately stands in a very thoroughfare of working-men, thousands of whom see it daily as they pass to and from their work ; and we can imagine them, as they look up to Stephenson's manly figure, applying to it the words addressed by Eobert McoU to Eobert Bums, with per- haps still greater appropriateness : "Before the proudest of the earth We stand, with an uplifted hrow ; Like us, thou wast a toiling man — And we are noble, now !" The portrait prefixed to this volume gives a good indication of Chap. XIX.] PERSONAL C'HAIiA CTEIUSTIC'S. 473 George Stephenson's shrewd, kind, honest, manly face. His fair, clear countenance was ruddy, and seemingly glowed with health. Tlae forehead was large and high, projecting over the eyes, and there was that massive breadth across the lower part which is usually observed in men of eminent constructive skill. The mouth was firmly marked, and shrewdness and humor lurked there as well as in the keen gray eye. His fi-ame was compact, well knit, and rather spare. His hair became gray at an early age, and toward the close of his hfe it was of a pure silky white- ness. He dressed neatly in black, wearing a white neckcloth ; and his face, his person, and his deportment at once arrested at- tention, and marked the Gentleman. TABLET IN TRINITY CEUKOH, CHESTEIIFIELD. VIOTOEIA BKIDGE, MONTEEAL. CHAPTER XX. KOBEET Stephenson's victoeia beidge, lowee cahaha — illness AND DEATH. Geoege Stephenson bequeathed to his son his valuable collier- ies, his share in the engine manufactory at Newcastle, and his large accumulation of savings, which, together with the fortime he had himself amassed by railway work, gave Kobert the posi- tion of an engineer millionaire — the iirst of his order. He con- tinued, however, to live in a quiet style ; and although he bought occasional pictures and statues, and indulged in the luxury of a yacht, he did not live up to his income, which went on acciunu- lating until his death. There was no longer the necessity for applying himself to the laborious business of a Parliamentary engineer, in which he had now been occupied for some fifteen years. Shortly after his fa- ther's death, Edward Pease recommended him to give up the more harassing work of his profession ; and his reply (15th of June, 1850) was as follows : "The suggestion which your kind note contains is quite in ac- cordance with my own feelings and intentions resi^ecting retire- ment ; but I find it a very difficult matter to bring to a close so complicated a connection in business as that which has been estab- lished by twenty-fivo years of active and arduous professional duty. Comparative retirement is, however, my intention, and I trust that your prayer for the Divine blessing to grant me happiness and quiet comfort will be fulfilled. I can not but feel deeply grateful to the Great Disposer of events for the success which has hitherto attend- Chap. XX.] EGYPTIAN BRIDGES.— CANADIAN RAILWAYS. ^YS ed my exertions in life, and I trust that the future will also be marked by a continuance of His mercies." Although Eobert Stephenson, in conf omaity with this express- ed intention, for the most part declined to undertake new busi- ness, he did not altogether lay aside his harness, and he lived to repeat his tubular bridges both in Egypt and Canada. The suc- cess of the tubular system, as adopted at Menai and Conway, was such as to recommend it for adoption wherever great span was reqtiired, and the peculiar circumstances connected with the nav- igation of the Nile and the St. Lawrence may be said to have compelled its adoption in carrying railways across both those rivers. Two tubular bridges were built after our engineer's designs across the Nile, near Damietta, in Lower Egypt. That near Ben- ha contains eight spans or openings of 80 feet each, and two cen- tre spans, formed by one of the largest swing-bridges ever con- structed, the total length of the swing-beam being 157 feet, a clear waterway of 60 feet being provided on either side of the centre pier. The only novelty in these bridges consisted in the road being carried upon the tubes instead of within them, their erection being carried out in the usual manner by means of workmen, materials, and plant sent out from England. The Tu- bular Bridge constructed in Canada, after Mr. Stephenson's de- signs, was of a much more important character, and deserves a fuller description. The important uses of railways had been recognized at an ear- ly period by the inhabitants of North America, and in the course of about thirty years more than 25,000 miles of railway, mostly single, were constructed in the United States alone. The Cana- dians were more deliberate in their proceedings, and it was not until the year 1840 that their first railway, 14 miles in length, was constructed between Laprairie and St. John's, for the purpose of connecting Lake Champlain with the Eiver St. Lawrence. From this date, however, new lines were rapidly projected ; more particularly the Great Western of Canada, and the Atlantic and St. Lawrence (now forming part of the Grand Trunk), until in the course of a few years Canada had a length of nearly 2000 miles of railway open or in course of construction, intersecting the provinces almost in a continuous line from Eivi^re du Loup, 476 PROPOSED BRIDGE AT MONTREAL. [PixiU. near the mouth of the St. Lawrence, to Port Samia, on the shores of Lake Huron. But there still remained one most important and essential link to connect the hnes on the south of the St. Lawrence with those on the north, and at the same time place the city of Montreal in direct railway connection with the western parts of Canada. The completion of this link was also necessary in order to maintain the commercial communication of Canada with the rest of the world during five months in every year ; for, though the St. Law- rence in summer affords a splendid outlet to the ocean — toward which the commerce of the colony naturally tends — the frost in winter is so severe, that during that season Canada is completely frozen in, and the navigation hermetically closed by the ice. The Grand Trunk Eailway was designed to furnish a line of land communication along the great valley of the St. Lawrence at all seasons, following the course of the river, and connecting the principal towns of the colony. But stopping short on the north shore, nearly opposite Montreal, with which it was connect- ed by a dangerous and often impracticable ferry, it was felt that, until the St. Lawrence was bridged by a railway, the Canadian system of railways was manifestly incomplete. But how to bridge this wide and rapid river ! Never before, perhaps, was a problem of such diflBculty proposed for solution by an engineer. Opposite Montreal, the St. Lawrence is about two miles wide, running at the rate of about ten miles an hour ; and at the close of each win- ter it carries down the ice of 2000 square miles of lakes and riv- ers, with their numerous tributaries. As early as the year 1846, the construction of a bridge at Mont- real was strongly advocated by the local press as the only means of connecting that city with the projected Atlantic and St. Law- rence Eailway. But the difficulties of executing such a work seemed almost insurmountable to those best acquainted with the locality. The greatest difficulty was apprehended from the tre- mendous shoving and pressure of the ice at the breaJc-up of win- ter. At such times, opposite Montreal, the whole river is packed with huge blocks of ice, and it is often seen piled up to a height of from 40 to 50 feet along the banks, placing the surrounding country under water, and occasionally doing severe damage to the massive stone buildings erected along the noble river front of the city. Chap. XX.] ROBERT STEPHENSON APPOINTED ENGINEER. 477 But no other expedient presented itself bnt a bridge, and a survey was made accordingly at the instance of the Hon. John Young, one of the directors of the railway. A period of colonial depression having shortly after occurred, the project slept for a time, and it was not until six years later, ia 1852, when the Grand Trunk Railway was under construction, that the subject was again brought under discussion. In that year, Mr. Alexander M. Eoss, who had superintended the construction of Robert Stephenson's tubular bridge at Conway, visited Canada, and inspected the site of the proposed structure, when he at once formed the opinion that a tubular bridge carrying a railway was the most suitable means of crossing the St. Lawrence, and connecting Montreal with the lines on the north of the river. The directors felt that such a work would necessarily be of a most formidable and diiEcult character, and before coming to any conclusion they determined to call to their assistance Mr. Robert Stephenson, as the engineer most competent to advise them in the matter. Mr. Stephenson considered the subject of so much inter- est and importance that, iu the summer of 1853, he proceeded to Canada to inquire as to all the facts, and examine carefully the site of the proposed work. He then formed the opinion that a tubular bridge across the river was not only practicable, but by far the most suitable for the purpose intended, and early in the following year he sent an elaborate report on the whole subject to the directors of the railway. The result was the adoption of his recommendation and the erection of the Victoria Bridge, of which Robert Stephenson was the designer and engineer, and Mr. A. M. Ross the joint and resident engineer in directly super- intending the execution of the undertaking. The details of the plans were principally worked out in Mr. Stephenson's oflSce in London, under the superintendence of his cousin, Mr. George Rob- ert Stephenson, while the iron-work was for the most part con- stnicted at the Canada Works, Liverpool, from whence it was shipped, ready for being fixed in position on the spot. The Yictoria Bridge is, vdthout exception, the greatest work of its kind in the world. For gigantic proportions, and vast length and strength, there is nothing to compare with it in an- cient or modem times. The entire bridge, with its approaches, is only about sixty yards short of two miles in length, being five 478 THE VICTORIA BRIDGE. [Part II. times longer than the Britannia Bridge across the Menai Straits, seven and a half times longer than Waterloo Bridge, and more than ten times longer than Chelsea Bridge. The two-mile tube across the St. Lawrence rests on twenty-four piers, which, with the abutments, leave twenty-five spaces or spans for the several parts of the tube. Twenty-four of these spans are 242 feet wide ; the centre span — ^itself a huge bridge — being 330 feet. The road is carried within the tube 60 feet above the level of the river, so as not to interfere with its navigation. As one of the principal difficulties apprehended in the erection of the bridge was that arising from the tremendous " shoving" SIDB ELEVATION OT PIEB. and ramming of the ice at the, break-up of winter, the plans were carefully designed so as to avert all danger from this cause. Hence the peculiarity in the form of the piers, which, though greatly increasing their strength for the purpose intended, must be admitted to detract considerably from the symmetry of the structure as a whole. The western face of each pier — ^that is, the up-river side — ^has a large wedge-shaped cutwater of stone-work, presenting an inclined plane toward the current, for the purpose of arresting and breaking up the ice-blocks, and thereby prevent- ing them from piling up and damaging the tube carrying the railway. The piers are of immense strength. Those close to the Chap. XX.] FOUNDATIONS AND CONSTRUCTION OF PlERS. 479 abutments contain about 6000 tons of masonry each, while those which support the great centre tube contain about 12,000 tons. The former are 15 feet wide, and the latter 18. Scarcely a block of stone used in the piers is less than seven tons in weight, while many of those opposed to the force of the breaMng-up ice weigh fully ten tons. As naight naturally be expected, the gettiag in of the founda- tions of these enormous piers in so wide and rapid a river was attended with many difficulties. To give an idea of the water- power of the St. Lawrence, it may be mentioned that when the river comes down in its greatest might, large stone boulders weighing upward of a ton are rolled along by the sheer force of the current. The depth of the river, however, was not so great as might be supposed, varying from only five to fifteen feet dur- ing summer, when the foundation- work was carried on. The method first employed to get in the foundations was by means of damS or caissons, which were constructed on shore, floated into position^ and scuttled over the places at which the foundations were to be laid, thus a^t once forming a nucleus from which the dams aould be constructed. The fLret of such dams was floated, got into position, scuttled, and sunk, and the piling fairly begun, on the 19th of June, 1854. By the 15th of the fol- lowing month the sheet-piling and puddling was finished, when the pumping of the water out of the inclosed space by steam- power was proceeded with, and in a few hours the bed of the river was laid almost dry, the toe of every pile being distinctly visible. By the 22d the first stone of the pier was laid, and on the 14th of August the masonry was above water-level. The getting in of the foundations of the other piers was pro- ceeded with in like manner, though frequently interrupted by storms, inundations, and collisions of timber-rafts, which occasion- ally carried away the moorings of the dams. Considerable diffi- culty was in some places experienced from the huge boulder- stones lying in the bed of the river, to remove which sometimes cost the divers several months of hard labor. In getting in the foundations of the later piers, the method first employed of sink- ing the fioating caissons in position was abandoned, and the dams were constructed of " crib-work,"* which was found more con- * The dams of "crib-work" were formed by laying flattened pine logs along the 480 ERECTION OF TEE TUBES. ]PaetII. venient, and less liable to interruption by accident from collision or otherwise. By the spring of 1857 a suflBcient number of piers had been finished to enable the erection of the tubes to be proceeded with. The operations connected with this portion of the work were also of a novel character. Instead of floating the tubes between the piers and raising them into position by hydraulic power, as at Conway and Menai, which the rapid current of the St. Lawrence would not permit, the tubes were erected im, situ on a staging prepared for the pui-pose, as shown in the following engraving. Floating scows, each 60 feet by 20, were moored in position. W0HK8 IN PKOGEEBS, 1857 — VIEW FBOM ABOVE THE BOTTTH ABUTUENT. whole outer edge of the work, and at intervals of from 5 to 10 feet parallel therewith throughout the whole of the breadth, connected with transverse timbers firmly tree- nailed and notched into them. When one course was formed, another was laid upon and firmly treenailed to it. After two or three courses were laid, transverse timbers were placed over them close together, so as to form a flooring, on which stone was placed to suit the crib as the wOrk progressed. When the under side of the crib touched the bottom, it was carefully filled with loose stones and clay puddle to the water level. The process of puddling and pumping out the water, and building up the pier within the dam thus formed, then proceeded in the usual manner. In some cases a powerful steam dredge was employed to clear out the puddle-chambers. Chap. XX.] BREAKING UP OF THE ICE. 481 and kept in their place by piles sliding in grooves. These piles, when firmly fixed in the bed of the river, were bolted to the sides of the scows, and the tops were leveled to receive the sills upon which the framing carrying the trass and platform was erected. Timbers were laid on the lower chords of the truss, forming a platform 24 feet wide, closely planked with deals. The upper chords carried rails, along which moved the " travelers" used in erecting the tubes. The plates forming the bottom of each tube having been accurately laid and riveted, and adjusted to level and centre, by oak wedges, the erection of the sides was next pro- ceeded with, extending outward from the centre on either side, this work being closely followed by the plating of the top. Each tube between the respective pairs of piers was in ^he fiirst place erected separate and independent of its adjoining tubes ; but aft- er completion, the tubes were joined in pairs and firmly bolted to the masonry over which they were united, their outer ends being placed upon rollers so arranged on the adjoining piers that they might expand or contract according to variations of temperature. The work continued to make satisfactory progress down to the spring of 1858, by which time fourteen out of the twenty- four piers were finished, together with the formidable abutments and approaches to the bridge. Considerable apprehensions were entertained as to the security of the piers and the unfinished parts of the work at the usual breaking-up of the ice. We take the following account from a letter vrritten by Mr. Eoss to Mr. Ste- phenson descriptive of the scene. " On the 29th of March, the ice above Montreal began to show signs of weakness, hut it was not until the 31st that a general move- ment became observable, which continued for an hour, when it sud- denly stopped, and the water rose rapidly. On the following day, at noon, a grand movement commenced ; the waters rose about four feet in two minutes, up to a level with many of the Montreal streets. The fields of ice at the same time were suddenly elevated to an in- credible height; and so overwhelming were they in appearance, that crowds of the townspeople, who had assembled on the quay to watch the progress of the flood, ran for their lives. This movement lasted about twenty minutes, during which the jammed ice destroy- ed several portions of the quay wall, grinding the hardest blocks to atoms. The embanked approaches to the Victoria Bridge had tre- 482 OPERATIONS IN WINTER. [Paet II. mendous forces to resist. In the full channel of the stream, the ice in its passage between the piers was broken up by the force of the blow immediately on its coming in contact with the cutwaters. Sometimes thick sheets of ice were seen to rise up and rear on end agaiast the piers, but by the force of the current they were speedily made to roll over into the stream, and in a moment after were out of sight. For the two next days the river was still high, until on the 4th of April the waters seemed suddenly to give way, and by the following day the river was flowing clear and smooth as a n:yll- pond, nothing of winter remaining except the masses of bordage ice which were strewn along the shores of the stream. On examina- tion of the piers of the bridge, it was found that they had admira- bly resisted the tremendous pressure ; and though the timber " crib- work" erectediito facilitate the placing of floating pontoons to form the dams was found considerably disturbed and in some places seriously damaged, the piers, with the exception of one or two heavy stone blocks, which were still unfinished, escaped uninjured. One block of many tons' weight was carried to a considerable dis- tance, and must have been torn out of its place by sheer force, as several of the broken fragments were found left in the pier." Toward the end of January, 1859, the plating of the bottom of the great central tube was begun. The execution of this part of thie undertaking was of a very formidable and difficult character. The gangs of men employed upon it were required to work night and day, though the season was mid- winter, as it was of great im- portance to the navigation that the staging should be removed by the time that the ice broke up and the river became open. The night gangs were lighted at their work by wood-fires filling huge braziers, the bright glow of which illumined the vast snow-cover- ed ice-field in the midst of which they worked at so lofty an ele- vation; and the sight as well as the sounds of the hammering and riveting, the puflSng of the steam-engines, and the various op- erations thus carried on, presented a scene the like of which has rarely been witnessed. The work was not conducted without considerable risk to the men, arising from the intense cold. The temperature was often 20° below zero, and notwithstanding that they all worked in thick gloves, and that care was taken to pro- tect every exposed part, many of them were severely frostbitten. Sometimes, when thick mist rose from the river, they would be- come covered with icicles, and be driven from their work. Chap. XX.] ERECTION OF THE CENTRAL TUBE. 483 Notwithstanding these diiBcuhies, the laying of the great cen- tral tube made steady progress. By the 17th of February the first pair of side-plates was erected ; on the 28th, the bottom was riveted and completed ; 180 feet of the sides was also in place, EKEOTION OF MAIN CENTRAL TUBE. and 100 feet of the top was plated ; and on the 21st of March the whole of the plating was finished. A few days later the wedges were knocked away, and the tube hung suspended be- tween the adjoining piers. On the 18th of May following the Hh 484 ROBERT STEPHENSON'S LATER YEARS. [Paet H. staging was all cleared away, with the moored scows and the crib-work, and the centre span of the bridge was again clear for the navigation of the river. The first stone of the bridge was laid on the 22d of July, 1854. The works continued in progress for a period of five and a half years, until the 17th of December, 1859, when the first train pass- ed over the bridge ; and on the 25th of August, 1860, it was formally opened for traflSc by the Prince of Wales. It was the greatest of Eobert Stephenson's bridges, and worthy of being the crowning and closing work of his life. But he was not destined to see its completion. Two months before the bridge was finish- ed he had passed from the scene of all his labors. We have little to add as to the closing events in Eobert Ste- phenson's Hfe. Retired in a great measure from the business of an engineer, he occupied himself for the most part in society, in yachting, and in attending the House of Commons and the Clubs. It was in the year 1847 that he entered the House of Commons as member for Whitby ; but he does not seem to have been very regular in his attendance, and only appeared on divisions when there was a " whip" of the party to which he belonged. He was a member of the Sewage and Sanitary Commissions, and of the Commission which sat on Westminster Bridge. He very seldom addressed the House, and then only on matters relating to engi- neering. The last occasions on which he spoke were on the Suez Canal* and the cleansing of the Serpentine. * Mr. Stephenson entertained a very strong opinion as to the inexpediency of mak- ing this canal, and the impracticability of keeping it open except at an enormous ex- pense. Of course it was possible to make the canal provided there was money enough raised for the purpose. But, even if made, he held that it would not long he used, for there would not be traffic enough to pay working expenses. In 1846, Mr. Stephenson carefully examined the country along the line of the proposed canal, from Tineh on the Mediterranean, to Suez on the Bed Sea, in company with the agents of M. Talabot, a French engineer, and M. de Negrelli, an Austrian engineer. They as- certained that there was no difference of level between the two seas, and that conse- quently a canal capable of being scom-ed by the waters of either was impracticable. On the occasion of Captain Pirn's reading a paper on the subject of the revived proj- ect of the canal before the Geogi-aphical Society on the 11th of April, 1859, Mr. Ste- phenson took part in the discussion which followed. He held that any harbor con- structed at Port Said, however far it might be extended into the sea, would only act as a mud-trap, and that it would be impracticable to keep such a port open. Mr. George Eeunie had compared the proposed breakwater at Pelusium with the break- Chap. XX.] FOREIGN SERVICES. 485 Besides constructing the railway l^etween Alexandria and Cairo, he was consulted, like his father, by the King of Belgium as to the railways of that country ; and he was made Knight of the Order of Leopold because of the improvements which he had made in locomotive engines, so much to the advantage of the Belgian system of inland transit. He was consulted by the King of Sweden as to the railway between Christiana and Lake Miosen, and in consideration of his services was decorated with the Grand Cross of the Order of St. Olaf . He also visited Switzerland, Piedmont, and Denmark, to advise as to the system of railway communication best suited for those countries. At the Paris Ex- hibition of 1855 the Emperor of Erance decorated him with the Legion of Honor in consideration of his public services ; and at home the University of Oxford made him a Doctor of Civil Laws. In 1855 he was elected President of the Institute of Civil Engi- neers, which office he held with honor and filled with distinguish- ed abihty for two years, giving place to his friend Mr. Locke at the end of 185V. Mr. Stephenson was frequently called upon to act as arbitrator water at Portland, on which Mr. Stephenson observed, "Why, at Portland, the stones are carried out from the shore and thro^vn into the sea, btit at Pelusium there is no solid shore, and all the stones must be brought 100 miles. Can there be any com- parison between a breakwater at Portland and one in the Mediterranean on a lee- shore, where there is no stone and no foundation whatever ? It is only the silt of the Nile. The Nile brings down millions of tons of mud yearly, and hence the Delta formed at its moiith. The moment you construct a harbor at Port Said and project piers into the sea, you immediately arrest the course of the mud, and will never be able to keep the port open. It would be the most extraordinary thing in the world to project two jetties into an open sea on a lee-shore, which has for almost three months in the year a northeast wind blowing upon it. There is no seaman, except in fair weather, who would venture to approach such a place. To render it at all ac- cessible and safe, there must be a harbor of refuge made, and we know from experi- ence in our own country what a large question that would open up. But even sup- pose such a harbor to be majP. The current carries the mud of the Nile in an east- erly direction ; and if you provide a harbor of refuge, which means a quiescent har- bor, it will act merely as a gigantic mud-trap. I believe it to be nearly if not abso- lutely true, that there is no large harbor in the world maintained on the delta of a large river. Any such harbor would be silted up in a few years. And whoever has traveled over the district between Port Said and Suez, and seen the moving sands, must see that it would be necessary to dredge, not only that harbor, but the canal it- self." Mr. Stephenson's conclusion accordingly was that the scheme was impracti- cable, that it would not justify the expenditure necessary to complete it, and that, if ever executed, it would prove a commercial failure. 486 ROBERT STEPHENSON'S LATER YEARS. [Past II. between contractors and railway companies, or between one com- pany and another, great value being attached to his opinion on account of his weighty judgment, his great experience, and his upright character ; and we believe his decisions were invariably stamped by the qualities of impartiality and justice. He was al- ways ready to lend a helping hand to a friend, and no petty jeal- ousy stood between him and his rivals in the engineering world. The author remembers being with Mr. Stephenson one evening at his house in Gloucester Square when a note was put into his hand from his friend Brunei, then engaged in his fruitless efforts to launch the Cheat Eastern. It was to ask ptephenson to come down to Blackwall early next morning, and give him the benefit of his judgment. Shortly after six next morning Stephenson was in Scott Eussell's building-yard, and he remained there until dusk. About midday, while superintending' the launching operations, the balk of timber on which he stood canted up, and he fell up to his middle in the Thames mud. He was dressed as usual, without great-coat (though the day was bitter cold), and with only thin boots upon his feet. He was urged to leave the yard and change his dress, or at least dry himself ; but, with his usual disregard of health, he replied, " Oh, never mind me ; I'm quite used to this sort of thing ;" and he went paddling about in the mud, smoking his cigar, until almost dark, when the day's work was brought to an end. The result of this exposure was an at- tack of inflammation of the lungs, which kept him to his bed for a fortnight. He was habitually careless of his health, and perhaps he in- dulged in narcotics to a prejudicial extent. Hence he often be- came " hipped," and sometimes ill. When Mi\ Sopwith accom- panied him to Egypt in the Titania, in 1856, he succeeded in persuading Mr. Stephenson to limit his indulgence in cigars and stimulants, and the consequence was that%y the end of the voy- age he felt himself, as he said, " quite a new man." Arrived at Marseilles, he telegraphed from thence a message to Great George Street, prescribing certain stringent and salutary rules for observ- ance in the office there on his return. But he was of a facile, social disposition, and the old associations proved too strong for him. When he sailed for Norway in the autumn of 1859, though then aihng in health, he looked a man who had still plenty of life Chap. XX.] CHARACTERISTICS OF GEORGE STEPHENSON. 487 in him. By the time he returned his fatal illness had seized him. He was attacked by congestion of the liver, which first developed itself in jaundice, and then ran into dropsy, of which he died on the 12th of October, in the fifty-sixth year of his age. He was buried by the side of Telford in Westminster Abbey, amid the departed great men of his country, and was attended to his rest- ing-place by many of the intimate friends of his boyhood and his manhood. Among those who assembled round his grave were some of the greatest men of thought and action in England, who embraced the sad occasion to pay the last mark of their respect to this illustrious son of one of England's greatest working-men. It would be out of keeping with the subject thus drawn to a conclusion to pronounce any panegyric on the character and achievements of George and Kobert Stephenson. These, for the most part, speak for themselves ; and both were emphatically true men, exhibiting in their lives many valuable and sterling qualities. No beginning could have been less promising than that of the elder Stephenson. Bom in a poor condition, yet rich in spirit, he was from the first compelled to rely upon himself, every step of advance which he made being conquered by patient labor. Whether working as a brakesman or an engineer, his mind was always full of the work in hand. He gave himself thoroughly up to it. Like the painter, he might say that he had become great " by neglecting nothing." Whatever he was engaged upon, he was as careful of the details as if each were itself the whole. He did all thoroughly and honestly, There was no " scamping" with him. When a workman, he put his brains and labor into his work ; and when a master, he put his conscience and charac- ter into it. He would have no slop-work executed merely for the sake of profit. The materials must be as genuine as the workmanship was skillful. The structures which he designed and executed were distinguished for their thoroughness and so- lidity ; his locomotives were famous for their durability and ex- cellent working qualities. The engines which he sent to the United States in 1832 are still in good condition ; and even the engines built by him for the KilHngworth Colliery, upward of thirty years since, are working there to this day. All his work was honest, representing the actual character of the man. 488 CHARACTERISTICS OP GEORGE STEPHENSON. [Paet II. He was ready to turn his hand to any thing — shoes and clocks, railways and locomotives. He contrived his safety-lamp with the object of saving pitmen's lives, and periled his own life in test- ing it. "With him to resolve was to do. Many men knew far more than he, but none was more ready forthwith to apply what he did know to practical purposes. It was while working . at Wilhngton as a brakesman that he first learned how best to han- dle a spade in throwing ballast out of the ships' holds. This cas- ual employment seems to have left upon his mind the most last- ing impression of what " hard work" was ; and he often used to revert to it, and say to the young men about him, " Ah, ye lads ! there's none o' ye know what wa/rh is." IVtr. Gooch says he was proud of the dexterity in handhng a spade which he had thus ac- quired, and that he has frequently seen him take the shovel from a laborer in some railway cutting, and show him how to use it more deftly in filling wagons of earth, gravel, or sand. Su- Joshua "Walmsley has also informed us that, when examining the works of the Orleans and Tours Railway, Stephenson, seeing a large number of excavators filling and wheehng sand in a cutting, at a great waste of time and labor, went up to the men and said he would show them how to fill their barrows in half the time. He showed them the proper position in which to stand so as to exer- cise the greatest amount of power with the least expenditure of strength ; and he filled the barrow with comparative ease again and again in their presence, to the great delight of the workmen. When passing through his own workshops he would point out to his men how to save labor and get through their work skillfully and with ease. His energy imparted itself to others, quickening and influencing them as strong characters always do, flowing down into theirs, and bringing out their best powers. His deportment to the workmen employed under him was fa- mihar, yet firm and consistent. As he respected their manhood, so they respected his masterhood. Although he comported him- self toward his men as if they occupied very much the same lev- el with himself , he yet possessed that peculiar capacity for gov- erning which enabled him always to preserve among them the strictest discipline, and to secure their cheerful and hearty serv- ices. Mr. Ingham, M.P. for South Shields, on going over the workshops at Newcastle, was particularly struck witla this quality' Chap. XX.] CBARAOTERISTICS OF GEORGE STEPHENSON. 489 of the master in his bearing toward his men. " There was noth- ing," said he, " of undue familiarity in their intercourse, but they spoke to each other as man to man ; and nothing seemed to please the master more than to point out illustrations of the ingenuity of his artisans. He took up a rivet, and expatiated on the skill with which it had been fashioned by the workman's hand — its perfectness and truth. He was always proud of his workmen and his pupils ; and, while indifferent and careless as to what might be said of himself, he fired up in a moment if disparage- ment were thrown upon any one whom he had taught or trained." In manner, George Stephenson was simple, modest, and unas- suming, but always manly. He was frank and social in spirit. When a humble workman, he had carefully preserved his sense of self-respect. His companions looked up to him, and his exam- ple was worth much more to many of them than books or schools. Hia devoted love of knowledge made his poverty respectable, and adorned his humble calling. When he rose to a more elevated station, and associated with men of the highest position and influ- ence in Britain, he took his place among them with perfect self- possession. They wondered at the quiet ease and simple dignity of his deportment ; and men in the best ranks of life have said of him that " he was one of Nature's gentlemen." Probably no military chiefs were ever more beloved by their soldiers than were both father and son by the ai-my of men who, under their guidance, worked at labors of profit, made labors of love by their earnest will and purpose. True leaders of men and lords of industry, they were always ready to recognize and en- courage talent in those who worked for and with them. Thus it was pleasant, at the openings of the Stephenson Hues, to hear the chief engineers attributing the successful completion of the works to their assistants ; while the assistants, on the other hand, ascribed the principal glory to their chiefs. George Stephenson, though a thrifty and frugal man, was es- sentially unsordid. His rugged path in early Kfe made him care- ful of his resources. He never saved to hoard, but saved for a purpose, such as the maintenance of his parents or the education of his son. In his later years he became a prosperous and even a wealthy man ; but riches never closed his heart, nor stole away the elasticity of his soul. He enjoyed life cheerfully, because 490 CHARACTERISTICS OF GEORGE STEPHENSON. [Paet H. hopefully. When he entered upon a commercial enterprise, whether for others or for himself, he looked carefully at the ways and means. Unless they would "pay," he held back. " Bfe would have nothing to do," he declared, " with stock-jobbing spec- ulations." His refusal to sell his name to the schemes of the railway mania — his survey of the Spanish lines without remuner- ation — his offer to postpone his claim for payment from a poor company until their affairs became more prosperous, are in- stances of the imsordid spirit in which lie acted. Another marked feature in Mr. Stephenson's character was his patience. Notwithstanding the strength of his convictions as to the great uses to which the locomotive might be applied, he wait- ed long and patiently for the opportunity of bringing it into no- tice ; and for years after he had completed an efficient engine, he went on quietly devoting himself to the ordinary work of the colliery. He made no noise nor stir about his locomotive, but allowed another to take credit for the experiments on velocity and friction which he had made with it upon the Killingworth railroad. By patient industry and laborious contrivance he was enabled, with the powerful help of his son, almost to do for the locomotive what James Watt had done for the condensing en- gine. He found it clumsy and inefficient, and he made it pow- erful, efficient, and useful. Both have been described as the im- provers of their respective engines ; but, as to all that is admira- ble in their structure or vast in their utility, they are rather enti- tled to be described as their inventors. They have both tended to increase indefinitely the mass of human comforts and enjoy- ments, and to render them cheap and accessible to all. But Ste- phenson's invention, by the influence which it is daily exercising upon the civilization of the world, is even more remarkable than that of Watt, and is calculated to have still more important con- sequences. In this respect it is to be regarded as the grandest application of steam-power that has yet been discovered. George Stephenson's close and accurate observation provided him with a fullness of information on many subjects which often appeared surprising to those who had devoted to them a special study. On one occasion the accuracy of his knowledge of birds came out in a curious way at a convivial meeting of railway men in London. The engineers and railway directors present knew Chap. XX.] CHABACTERISTICS OF GEORGE STEPHENSON. 491 each other as railway men and nothing more. The talk had been all of railways and railway politics. Stephenson was a great talker on those subjects, and was generally allowed, from the in- terest of his conversation and the extent of his experience, to take the lead. At length one of the party broke in with, " Come, now, Stephenson, we have had nothing but railways ! can not we have a change, and try if we can talk a little about something else ?" " Well," said Stephenson, " I'll give you a wide range of subjects ; what shall it be about ?" " Say hirds' nests !" rejoined the other, who prided himself on his special knowledge of the subject. " Then birds' nests be it." A long and animated conversation ensued: the bird-nesting of his boyhood — the blackbird's nest which his father had held him up in his arms to look at when a child at Wylam — the hedges in which he had found the thrush's and the linnet's nests — the mossy bank where the robin built — the cleft in the branch of the young tree where the chaffinch had reared its dwelling — all rose up clear in his mind's eye, and led him back to the scenes of his boyhood at Callerton and Dewley Burn. The color and number of the birds' eggs — ^the period of their incubation — ^the materials employed by them for the walls and lining of their nests, were described by him so vividly, and illustrated by such graphic anecdotes, that one of the party re- marked that, if George Stephenson had not been the greatest en- gineer of his day, he might have been one of the greatest natu- rahsts. His powers of conversation were very great. He was so thoughtful, original, and suggestive. There was scarcely a de- partment of science on which he had not formed some novel and sometimes daring theory. Thus Mr. Gooch, his pupil, who lived with him when at Liverpool, informs us that when sitting over the fire, he would frequently broach his favorite theory of the sun's light and heat being the original source of the light and heat given forth by the burning coal. " It fed the plants of which that coal is made," he would say, " and has been bottled up in the earth ever since, to be given out again now for the use of man." His son Eobert once said of him, " My father flashed his bull's eye full upon a subject, and brought it out in its most vivid light in an instant : his strong common sense and his varied experience, operating on a thoughtful mind, were his most pow- erful illuminators." 492 CHARACTERISTICS OF GEORGE STEPHENSON. [Part II. The Bishop of Oxford related the following anecdote of him at a recent public meeting in London : " He heard the other day of an answer given by the great self-taught man, Stephenson, when he was speaking with something of distrust of what were called competitive examinations. Stephenson said, ' 1 distrust them for this reason — they will lead, it seems to me, to an un- limited power of cram ;' and he added, 'Let me give you one piece of advice — ^never to judge of your goose by its stuffing !' " George Stephenson had once a conversation vrith a watch- maker, whom he astonished by the extent and minuteness of his knowledge as to the parts of a watch. The watchmaker knew him to be an eminent engineer, and asked how he had acquired so extensive a knowledge of a branch of business so much out of his sphere. " It is very easily to be explained," said Stephen- son ; " I worked long at watch-cleaning myself, and when I was at a loss, I was never ashamed to ask for information." His hand was open to his former fellow-workmen whom old age had left in poverty. To poor Bobeii; Gray, of Newbum, who acted as his brideman on his marriage to Fanny Henderson, he left a pension for life. He would slip a five-pound note into the hand of a poor man or a widow in such a way as not to of- fend their delicacy, but to make them feel as if the obligation were all on his side. When Farmer Paterson, who married a sister of George's first vnfe, Fanny' Henderson, died and left a large young family fatherless, poverty stared them in the face. "But ye ken," said our informant, "George struck vn, fayther for themP And perhaps the providential character of the act could not have been more graphically expressed than in these simple words. On his visit to Newcastle, he would frequently meet the friends of his early days, occupying very nearly the same station in life, while he had meanwhile risen to almost world-wide fame ; but he was not less hearty in his greeting of them than if their rela- tive position had remained the same. Thus, one day, after shak- ing hands with Mr. Brandling on alighting from his carriage, he proceeded to shake hands with his coachman, Anthony Wigham, a still older friend, though he only sat on the box. Eobert Stephenson inherited his father's kindly spirit and be- nevolent disposition. We have already stated that he was often Chap. XX.] CHARACTERISTICS OF ROBERT STEPHENSON. 493 called in as an umpire to mediate between conflicting parties, more partictdarly between contractors and engineers. On one occasion Brunei complained to him that he could not get on with his contractors, who were never satisfied, and were always quar- reling with him. " You hold them too tightly to the letter of your agreement," said Stephenson ; " treat them fairly and liber- ally." " But they try to take advantage of me at all points," re- joined Brunei. " Perhaps you suspect them too much ?" said Ste- phenson. " I suspect all men to be rogues," said the other, " till I find them to be honest." " For my part," said Stephenson, " I take aU men to be honest till I find them to be rogues." " Ah ! then, I fear we shall never agree," concluded Brunei. Eobert almost worshiped his father's memory, and was ever ready to attribute to him the chief merit of his own achieve- ments as an engineei". " It was his thorough training," we once heard him say, " his example, and his character, which made me the man I am." On a more public occasion he said, " It is my great pride to remember that, whatever may have been done, and however extensive may have been my own connection with rail- way development, all I know and aU I have done is primarily due to the parent whose memory I cherish and revere."* To Mr. Lough, the sculptor, he said he had never had but two loves — one for his father, the other for his wife. Like his father, he was eminently practical, and yet always open to the influence and guidance of correct theory. His main consideration in laying out his lines of railway was what would best answer the intended purpose, or, to use his own words, to se- cure the maximum of result with the mininlum of meajas. He was pre-eminently a safe man, because cautious, tentative, and ex- perimental ; following closely the lines of conduct trodden by his father, and often quoting his maxims. In society Eobert Stephenson was simple, unobtrusive, and modest, but charming and even fascinating in an eminent degree. Sir John Lawrence has said of him that he was, of all other8,the man he most dehghted to meet in England — ^he was so manly yet gentle, and withal so great. While admired and beloved by men of such cahbre, he was equally a favorite with women and chil- dren. He put himself upon the level of all, and charmed them * Address as President of the Institution of Civil Engineers, January, 1856. 494 POLITICS OF THE TWO STEPHENSONS. [Pakt II. no less by his inexpressible kindliness of manner than by his sim- ple yet impressive conversation. His great wealth enabled him to perform many generous acts in a right noble and yet modest manner, not letting his right hand know what his left hand did. Of the numerous kindly acts of his which have been made public, we may mention the graceful manner in which he repaid the obligations which both himself and his father owed to the Newcastle Literary and Phil- osophical Institute when working together as fellow experiment- ers many years before in their humble cottage at KUlingworth. The Institute was strugghng under a debt of £6200, which im- paired its usefulness as an educational agency. Mr. Stephenson offered to pay one half the sum provided the local supporters of the Institute would raise the remainder, and conditional also on the annual subscription being reduced from two guineas to one, in order that the usefulness of the institution might be extended. His generous offer was accepted and the debt extin- guished. Both father and son were offered knighthood, and both de- clined it. During the summer of 1847, George Stephenson was invited to offer himself as a candidate for the representation of South Shields in Parhament. But his politics were at best of a very undefined sort. Indeed, his life had been so much occupied with subjects of a practical character that he had scarcely troub- led himself to form any decided opinion on the party poHtical topics of the day, and to stand the cross-fire of the electors on the hustings might possibly have proved an even more distressing or- deal than the cross-questioning of the barristers in the Commit- tees of the House of Commons. "Pohtics," he used to say, " are aU matters of theory — ^there is no stability in them ; they shift about like the sands of the sea ; and I should feel quite out of my element among them." He had, accordingly, the good sense respectfully to decline the honor of contesting the representation of South Shields. We have, however, been informed by Sir Joseph Paxton that, although George Stephenson held no strong opinions on political questions generally, there was one question on which he enter- tained a decided conviction, and that was the question of Free Trade. The words used by him on one occasion to Sir Joseph Chap. XX.] AD VANTA GES OF RAIL WA YS. 495 were very strong. " England," said he, " is, and must be, a shop- keeper ; and our docks and harbors are only so many wholesale shops, the doors of which should always be kept wide open." It is curious that his son should have taken precisely the opposite view of this question, and acted throughout with the most rigid party among the Protectionists, supporting the Navigation Laws and opposing Free Trade, even to the extent of going into the lobby with Colonel Sibthorp, Mr. Spooner, and the fifty-three " cannon-balls," on the 26th of November, 1852. Kobert Ste- phenson to the last spoke in strong terais as to the " betrayal of the Protectionist party" by their chosen leader, and he went so far as to say that he " could never forgive Peel." But Kobert Stephenson will be judged in after times by his achievements as an engineer rather than by his acts as a politi- cian ; and, happily, these last were far outweighed in value by the inunense practical services which he rendered to trade, com- merce, and civilization, through the facilities which the railways constructed by him afforded for free intercommunication between men in all parts of the world. Speaking in the midst of his friends at Newcastle in 1850, he observed : "It seems to me but as yesterday that I was engaged as an as- sistant in laying out the Stockton and Darliagton Railway. Since then, the Liverpool and Manchester, and a hundred other great works have sprung into existence. As I look hack upon these stu- pendous undertakings, accomplished in so short a time, it seems as though we had realized in our generation the fabled powers of the magician's wand. Hills have been cut down and valleys filled up ; and when these simple expedients have not suflSced, high and mag- nificent viaducts have been raised, and, if mountains stood in the way, tunnels of unexampled magnitude have pierced them through, bearing their triumphant attestation to the indomitable energy of the nation, and the unrivaled skill of our artisans." As respects the immense advantages of railways to mankind there can not be two opinions. They exhibit, probably, the grandest organization of capital and labor that the world has yet seen. Although they have imhappily occasioned great loss to many, the loss has been that of individuals, while, as a national system, the gain has already been enormous. As tending to mul- tiply and spread abroad the conveniences of Hf e, opening up new i'M A WANTAGES OF RAILWAYS [Part II. fields of industry, briuging nations nearer to each other, and thus promoting the great ends of civilization, the founding of the rail- way system by George Stephenson and his son must be regarded as one of the most important events, if not the very greatest, in the first haK of this nineteenth century. THE STEPHENSON MEMOEIAL 60IIOOL8) "VVILLINQTON QUAY. INDEX. AootDENT, G. Stephenson's stage-coach, 389. Accidents in coal-mines, 175, 196, Adam, Mr., counsel for Liverpool and Man- chester Railway Bill, 265. Adhesion of wheel and rail, 82, 152, 156, 165. Albert, Prince, an early traveler by rail, 390. Alderson, Mr., counsel against Liverpool and Manchester EaUway Bill, 268, 271, 274, 275. Allcard, Wm., 283. Alton Grange, G. Stephenson's house at, 344. Amhergate, laud-slip at, 372 ; lime-works at, 394, 395. Anderson, Dr., his early advocacy of railroads, 73. Arnold, Dr., on railways, 390. Atmospheric railways, 402, 403, 426-428. Bald, Eohert, mining engineer, 198, 212. Barrow, Sir John, on railway speed, 262. Beaumont, Mr., his wooden wagon-ways, 48. Belgium, railways in, 382 ; G. Stephenson's vis- its to, 382, 383, 416. Benton Colliery and village, 138, 140, 151. Berkeley, Mr., on railways, 341. Berwick, Eoyal Border Bridge at, 430. Bird-nesting, G. Stephenson's love of, 106, 109, 380, 491. Black Callerton Colliery, 109, 116, 117. Blackett, Mr.Wylam, 102, 163, 154, 167-161. Blast, the steam, its invention, 170. Blenkinsop, Mr., Leeds, his locomotive,, 155- 157, 162. Blisworth Cutting, 355. Boiler, the multitubular, its invention, 316-318. Booth, Henry, 256, 312, 318, 319. Boulton, Matthew, his tubular boiler, 316-318. Boulton and Watt, and the locomotive, 63-68. Bradshaw, Mr., his opposition to Liverpool and Manchester line, 265, 268. Braithwaite and Ericsson's "Novelty," 322- 324. Brake, G. Stephenson's self-acting, 334, 898. Brakeing of colliery engines, 116-118, 131. Brandling, Messrs., 184, 191, 192, 431. Brandreth's " Cycloped," 322. Bridge building, rapid projgress of, 431, 432. Bridges— Eoyal Border, 430; High-Level,New- castle, 431 ; Britannia (Menai), 439-442 ; Con- way, 451 ; Victoria, Lower Canada, 476. Britannia Bridge, North Wales, 449, 452-459. Brougham,William, counsel for Liverpool and Manchester Bill, 262, 266. Bruce, Mr., E. Stephenson's schoolmaster, 141. Brunei, I. K., 423-427, 486. Brunton's " Mechanical Traveler," 157. Brussels, railway celebrations at, 388, 416. Buckland, Dr., 467. Bull Bridge, near Amhergate, 373. Bull, Edward, his Cornish engine, 76 ; Wil- liam, partner of Trevithick, 76, 88. Burrell, G. Stephenson's partner, 207. Burstall's "Perseverance," 322, 826. Callerton Colliery and village, 109, 116, 117. Canada, railways in, Pnf., v., 476. Canal Companies' opposition to railways, 260, 341. Cardiff and Merthyr Eailroad, 73. Carrying stock of railways, Pnf.^ ix., 334. Cattle brought to London by rail, Pr«/., xx. Chapman's locomotive, 157, 163. "Charlotte Dundas," the first practical steam- boat, 70. Chat Moss, surveying on, 252, 264 ; railway constructed on, 283-288. Chester and Birkenhead Eailway, 402; and Holyhead Eailway, 438. Chesterfield, town of, 395, 471. Clanny, Dr., his safety-lamp, 179, 196. Clark, Edwin, R. Stephenson's assistant, 448. Claycross Colliery, 394, 420. Coach, first railway, 240. Coal, working of, 100, 101 ; supply of, to Lon- don, Pref., XXV. ; haulage of; 153, 161 ; sup- ply of, by railways, )oaIB •• - Coal Eailways, G. Stephenson on, 893. Cochrane, Lord, and Peruvian revolution, 89. Coe, William, 116, 117, 121, 125. CofiSn, Sir Isaac, on railways, 280. Collieries, G. Stephenson's, at Suibston, 344; at Claycross, 392. Colombia, E. Stephenson's residence in, 301- 308. Companies, joint-stock railway, 339, 404. Contractors and railways, 853, 360, 361, 493. Conversation, G. Stephenson's love of, 463, 491. Conway, tubular bridge at, 450, 461. Cooper, Sir A., E. Stephenson's interview with, 360. Cornish engineers, early, 75, 76. Correspondence, G. Stephenson's, 297, 379, 380. Crib-work, Victoria Bridge, 479, 480. Cropper, Isaac, Liverpool, 293, 313, 825. " Crowdie night," a, 465. Croydon and Merstham Railroad, 74, 216. Cubitt, W., evidence of, on Liverpool and Man- chester Eailway, 272. Cugnot, N., his road locomotive, 60. Curr, John, his cast-iron tram-way, 50. Cuttings— Olive Mount, 291 ; Tring, 354; Blis- worth, 355; Amhergate, 372; Oakenshaw, 372. Darlington, railway projected at, 218. Darwin, Erasmus, his fiery chariot, 53-59. Davy, Sir H., on Trevithick's steam-carriage, 79 ; his paper on fire-damp, 179 ; his safety- lamp, 189 ; testimonial to, 191 ; his lamp com- pared with Stephenson's, 195. Denman, Lord, 463. Derby, Earl of, and Liverpool and Manchester Eailway, 262, 258, 280. Dewley Burn Colliery, 107-111. Direct lines, rage for, 408. Dixon, John, assists in survey of Stockton and 498 INDEX. Darlington Railway, 219, 236 ; resident en- gineer Liverpool and Manchester Bailway, Dodds, Ealph, Killingworth, 132, 139. Dntton Viadnct, 360. East Coast route to Scotland, 426. Edgeworth, B. L.', early speculations on rail- ways, 66, 67. Eggs, brought to London by rail. Pre/., xxii. Egypt, E. Stephenson's tubular bridges in, 607; Suez Canal, 484, 485. Electric telegraphing on railwajjs, Pre/., xiii. Emerson, G. Stephenson's meeting with, 469, 470. Ericsson's "Novelty," 322-324. Evans, Oliver, his steam-carriage, 71, 72 ; his boiler, 77. Explosions from fire-damp, 175. Pairbaim, William, C.E., early friendship with 6. Stephenson, 124, 125 ; experiments on iron tubes for E. Stephenson, 446. Fire-damp, explosions of, 176. Fish brought to London by rail, JVe/., xxi. Fitch, John, American engineer, 71. Food brought to London by rail, Pref., xix. Forth-Street Works, Newcastle, 232, 396. Foster, Jonathan, Wylam, 158. Foundations — of bridge on the Derwent, 372 ; of High -Level Bridge, Newcastle, 434; of Victoria Bridge, Montreal, 479. Free Trade, G. Stephenson's notions of, 494, 495. Friction, G. Stephenson's early experiments in, 202; and gradients, 400. Frolic, G. Stephenson's love of, 135, 875, 465. Gauge of railways, 234, 424. "Geordy" safety-lamp, 175-195. Gilbert, Davies, and Trevithick, 79, 82, 83. Giles, Francis, C.E., his evidence against Liv- erpool and Manchester Eailway Bill, 273, 276, 289. Gooch, Thomas, C.E., 277, 296, 328, 330. Government and railways, 337, 838. Gradients and friction, 202, 400. Grand Allies, Killingworth, 135. Grand Junction Eailway, 341, 305. Grand Trank Railway, Canada, 476. Gray, Thomas, and the locomotive, 156, 311. Great Western Eailway, 340, 842, 424. Greenwich Eailway opened as a "show," Fref.^ XV. Gnmey, Goldsworthy, 171, 317. Hackworth, T., and the steam-blast, 174 ; his locomotive " Sanspareil," 322, 324, 326, 326. Half-lap joint, Q. Stephenson's, 200. Harrison, Mr., counsel against Liverpool and Manchester Bill, 266, 272, 276. Harvey, Mr., engineer, Hayle, 76. Hedley, William, Wylam, 159, 160, 171. Henderson, Fanny, 6. Stephenson's fli'st wife, 118, 123, 125, 127. Heppel, Kit, Killingworth, 132, 135. Hetton Eailway constructed by 6. Stephenson, 208. High-Level Bridge, Newcastle, 433. Hindmarsh, Miss, G. Stephenson's second wife, 214. Hodgkinson, Professor, his calculations as to strength of iron tubes, 447. Holyhead, railway to, 438. Homblower, Jonathan, 76, 76. Horticulture, G. Stephenson's experiments in, 460, 461. Horse traction on railways, 48, 67, 74, 153, 166, 234,240. Howick, Lord, his support of atmospheric rail- ways, 427 ; G. Stephenson's interview with, 428, 429. Hudson, George, the "Eailway King," 407, 411. Huskisson, Mr., an early advocate of railways, 278, 280 ; fatal accident to, 331. Hydraulic press used to lift the tubes at the Britannia Bridge, 496. Ice-flood at Montreal, 481, 482. Inclined planes, self-acting, 149, 150, 162. India, railways In, Pref., iv. Iron bridge buildmg, progress in, 432, 443. Italian railways, Pre/., iv. James, William, surveys Liverpool and Man- chester Eailway, 248 ; visit to Killingworth, 250 ; arrangement with Stephenson and Losh, 251 ; compelled to relinquish the sur- vey, 263, 264. James, W. H., his tubular boiler, 317. Jameson, Professor, Edinburg, 213. Jessop, William, his cast-iron edge-rail, 51. Joy, Mr., counsel for Liverpool and Manches- ter BUI, 266, 268. Keelmen of the Tyne, 101, 102. Kent, opposition to railways in, 343. KiUingworth, 126, 129 ; High Pit, 131 ; loco- motive, 168; nndergronnd machinery 198; visited by Edward Pease, 230 ; W. James, 250 ; promoters of Liverpool and Manchester Eailway, 257. Kilmarnock and Troon tram-road, 206. Kilsby Tunnel, 342, 357-361, 363. Lambton, Mr. (Earl of Durham), 225. Lamp, invention of the safety, 175. Land-slip at Ambergate, 372. Landlords and railways, 223, 252, 341, 362, 469. Lardner, Dr., on undulating lines, 400. Leicester and Swannington Eailway, 343. Leopold, King, G. Stephenson's interviews with, 382, 383, 416. Lime-works at Ambergate, 394, 395. Littleborongh Tunnel, 868. Liverpool and Manchester Eailway projected, 247 ; survey by W. James, 249 ; George Ste- pheuson appointed engineeer, 254 ; virulent opposition, 259, 260 ; the bill in committee, 265 ; rejected, 277 ; renewed application, 278 ; the bill passed, 230 ; the railway construct- ed, 2S1 ; discussion as to the power to be employed to work the line, 311 ; prize offer- ed for the best locomotive, 314 ; the com- petition at Eainhill, 322 ; triumph of the "Eocket," 326; public opening of thf rail- way, 330 ; its success, 332. , Locke, Joseph, C.B., resident engineer on Liv- erpool and Manchester Eailway, 283. Locomotive engine gradually perfected, 47 ; Sir I. Newton's idea, 53 ; Darwin's, 68-69 ; Cug- not's, 60-63 ; James Watt's, 60, 64 ; William Murdock's model locomotive, 66 ; William Symington's model, 68-70; Oliver Evans's 71 ; Bichard Trevithick's steam-carriage and first locomotive, 77-82 ; Blenkinsop's Leeds locomotive, 156 ; Blackett's Wylam locomo- tive, 157-161 ; Stephenson's Killingworth lo- comotive, 164-170 ; farther Improvements by Stephenson, 201, 202 ; locomotives construct- ed for Stockton and Darlington Eailway, 236 ; the " Eocket," 319 ; farther improvements in locomotives, 335 ; number of locomotives in the United Kingdom, iV^., ix., x. ; self-feed- ing apparatus of, ib., xiv. Locomotive workshops at Newcastle, the Ste- pheusons', 232, 396. INDEX. 499 London and Birmingham Eailway, 349-364 London, railways in, opening of the Green- wich line, Pref., xv. ; magnitude of suburb- an traflSc, i6., xvi. ; new lines opened, i&., xvi. ; population increased by, i&., xviii. ; provisioning of London, ib., xix. ; coal sup- ply 0^ ib., XXV. Losh, Mr. Stephenson's partner, 201, 233. Lough's statue of G. Stephenson, 4T2. Mackworth, Sir H., his sailing wagon, 52. Mail service by railway, Pr^/"., xxvi. Manchester, railways projected in connection with, 340 ; and Leeds Eailway, 366. Mania, the railway, 405, 406. Maps — of Newcastle district, 98 ; Stockton and Darlington Eailway, 224 ; Liverpool and Manchester Eailway, 250-251 ; Leicester and Swanniugton Eailway, 343 ; London and Birmingham Eailway, 354 ; Midland Eail- way, 370 ; Straits of Menai, 442. Mechanics' Institutes, G. Stephenson at meet- ings of, 39T. Menai, bridge over Straits of, 439. Merchandise, trafdc of London, iVe/., xxvi. Merstham tram-road, 74, 217. Merthyr tram-road, 73 ; Trevithick's locomo- tive tried on, 80. Middlesborough-on-Tees, growth of, 245. Midland Eailway, 370. Milk brought to London by rail, iVe/., xxiv. Miller, Mr., Dalswinton, and steam naviga- tion, 70. Montreal, Victoria Bridge at, 476. Moore, Francis, his patent for steam-carriages, 63. Morecambe Bay, G. Stephenson's proposed line across, 37b. Moss, Chat (see Chat Moss). Multitubular boiler, invention of the, 318. Murdock, William, his model locomotive, 66 ; Watt discourages his application to the sub- ject, 67, 77. Murray, Matthew, and the Leeds locomotive, 155. Nasmyth's steam-hammerflrst applied to pile- driving, 434. Navvies, Eailway, 362. Newcastle-on-Tyne, early history, 97 ; Liter- ary and Philosophical Institute, 142, 185, 189, 209, 494 ; Mechanics' Institute, 397 ; High- Level Bridge, 431. Newcastle and Berwick Eailway, 426. Newcomen's atmospheric engine, 100. Neville's tubular boiler, 317, 318. Newton, Sir I., his idea of steam locomotion, 53. Nicholson's steam-jet, 82, 171. Nile, E. Stephenson's tubular bridges over the, 475. North Midland Eailway, 370, 373, 374. North, Eoger, description of early tram-roads, 49. Northampton, opposition of, to railways, 342. Northumberland Atmospheric Eailway, 427. " Novelty" locomotive, 323. Oaks Pit Colliery explosion, 195. Offices, Stephenson's London, 381, 407. Old Quay Navigation, Liverpool, 256. Olive Mount Cutting, 291. Openings of railways— Hetton, 209 ; Stockton and Darlington, 236 ; Liverpool and Man- chester, 330 ; London and Birmingham, 384 ; in Midland Counties, 384 ; East Coast route to Scotland, 426, 437 : Britannia Bridge, 458 ; Trent Valley, 469. Opposition to railways— in country districts. 337, 341 ; at Northampton, 342 ; in Kent, 342 ; at Eton, 342 ; to London and Birmingham, 350. Organization— of early railways, 330, 333 ; of modern railways, Pre/., xi. Outram's railway, first use of stone blocks, 51. Parliament and railways, 338, 406, 410. Parr Moss, railway across, 288. Passenger-carriage, the first, 240. Passenger-traffic, beginnings of, Pref., vii., xv., 240, 241, 333, 338 ; of London, Pnf., xvii. Pease, Edward, promotes Stockton and Dar- lington Eailway, his character, 222; anticipa- tions concerning railways, 225; intercourse with George Stephenson, 227, 229, 230, 231, 232 ; assists George Stephenson with capital, 232; faith in the locomotive, 236, 246; letter to Eobert Stephenson, 306, 307. Peel, Sir E., on undulating lines, 409, 410; G. Stephenson's visit to, 467. Penmaen Mawr, railway under, 439. Pen-y-darran, Trevithick's locomotive made and tried at, 80-82. Permanent way, Pref., viii., xi., 159, 200. Peruvian mining, Trevithick's adventures in connection with, 87. Petherick, J., his description of Trevithick's steam-carriage, 78, 79. Phillips, Sir Eichard, on railroads, 217. Pile-di'iving by steam, 434. Pitmen, habits and character of Newcastle, 100, 101. Plate-ways, 60, 82. Politics, G. and E. Stephenson's, 494. Population of London, how influenced by rail- ways, Pref., xviii. Postal service and railways, Pref., xxvii. Potatoes brought to London by rail, Pref., xxiii. Poultry brought to London by rail, Pref., xxii. Primrose Hill Tunnel, 356. Professional charges, G. Stephenson's, 382. Provisioning of London, Pref., xix. Pyrenean pastoral, 418. Quarterly Review on railway speed, 263. Queen, the, her first use of the railway, 390 ; opens the High-Level and Eoyai Border Bridges, 437; visits the Britannia Bridge, 456. Eails— stone blocks first used, 48 ; planks, 48 ; plates of iron, 60 ; cast-iron rails, 60 ; flanch- ed rails, 61 ; tram-plates at Merthyr, 81 ; Wy- 1am wagon-way, 153 ; rack rail, 166, 157, 159, 160 ; heavier cast-iron rails used, 160 ; rough- ly laid, 200 ; Stephenson's half-lap joint, 200 ; Stephenson recommends wrought-iron rails, 233 ; temporary rails in constructing roads, 284 ; VignoUes's and Ericsson's central fric- tion, 311 ; strained by high speed, 399. Eailway locomotive (.see Locomotive). Eailway king, the, 407, 411. Eailway speed (see Speed). Eailway speculation and mania, 374, 401-405. Eailways, length of, constructed, Pref., iii. ; in India, ib., iv. ; in United States, ib., vi. ; car- rying stock of, ib., ix. ; effects of, ib., xv. ; in London, ib., xv. ; number of workmen em- ployed on, ib., xsviii. Eailways constructed and opened— Cardiff and Merthyr, 73 ; Sirhowy, 78 ; Wandsworth, Croydon, and Merstham, 73, 74; Wylam, 100 ; Kilmarnock and Troon, 206 ; Hetton, 207 ; Stockton and Darlington, 224 ; Liver- pool and Manchester, 247 ; Canterbury and Whitstable, 339 ; Grand Junction, 340, 365 : Leicester and Swannington, 343 ; London I 500 INDEX. and Birmingham, 349 j Manchester anfl Leeds, 366 ; Midland, 3T0 : in Belgium, 382 ; Chester and Birlienheaa, 402; Newcastle and Darlington, 412: Newcastle and Ber- wick, 414, 426 ; Koyal North of Spain, 417 ; Chester and Holyhead,438 ; TrentValley Bail- way, 469 ; Grand Trunk, Lower Canada, 476. Eainhill, locomotive contest at, 322. Kamsbottom's locomotive self-feeding appar ratus, Pref., xiv. Rastrick, Mr., C.E., 163, 312, BJ5. Bavensworth, Lord, 133, 192. Bennie, John, CB;, 220, 221 ;, Messrs. Bennie and Liverpool and Manchester line, 279, 281. Besidential area of London, enlarged by rail- ways, iVe/., xvii. Bichardson, Thomas, Lombard Street, 230, 232, 266, 267, 307. Road locomotion— Stevin's sailing-coach, 52 ; Mackworth's and Bdgeworth's sailing-wag- ons, 52, 63, 57 ; Cugnot's road locomotive, 61 ; Murdock's modelj 66 ; Symington's steam- carriage, 68 ; Oliver Evans's locomotive, 71, 72 ; Trevithick's steam.carriage, 77 ; G. Ste- phenson's views of locomotion on common roads, 202-205 ; House of Commons report in favor of, 338. Eoblns at Alton Grange, anecdote of, 381. "Rocket" locomotive, the, 319-328. Eoscoe, Mr., his farm on Chat Moss, 282, 283. Boss, A.M., joint engineer of Victoria Bridge, Montreal, 477. Royal Border Bridge, Berwick, 429. Safety-lamp— Dr. Clanny's, 179; George Ste- phenson's fli'st lamp, 180 ; second and third lamps, 186 ; Sir H. Davy's paper on fire-damp, 179 ; his lamp, 187 ; dates when lamps pro- duced, 188 ;' controversy Davy v. Stephenson, 187 ; comparative merits of lamps, 195. Safety of railway traveling, Pref.yX. Sailing-coaches and wagons, 52, 53, 57. Saint Fond on colliery wagon roads, 49. Saint Lawrence River, Victoria Bridge across, 476^84. Sandars, Mr., Liverpool and Manchester Bail- way, 248, 253, 2B4, 255, 262, 263, 297, 313. Sankey Viaduct, 292, 293. "Sanspareil" locomotive, Hackworth's,- 324, 325. Scarborough, railway to, 374. Screw-propeller patented by Trevithick, 86. Segoin, M., his tubular boiler, 317, 318. Self-feeding apparatus of boilers, Pr^., xiv. Sheep earned to London by rail, Pref., xxi. Sibthorp, Col., on railways, 341, 390, 391. Signaling^ of railway trains, jfVe/., xi. SimplonlMidland Railway compared with road over the, 371. Sirhowy Railroad, 73. Snibston, George Stephenson's sinking for coal at, 344. Sopwith, Mr., F.R.S., 416, 46T. South Devon atmospheric railway, 428. Spain, George Stephenson's visit to, 418. Spankie, Mr. Sergeant, counsel for Liverpool and Manchester Railway Bill, 271. Speculation In railways, 874, 401 ; G. Stephen- son on, 406, 407 ; B. Stephenson and, 425. Speed, railway, Pref., viii. ; on Liverpool and Manchester line, 332; George Stephenson on, 398, 399. Spur-gear, George Stephenson's, 164, 165. Stage-coach traveling, Pref., vii., 337, 387, 389. Statues of George Stephenson, 472. Steam-blast, invention of the, 168, 170 ; rival • claims, 170, 171 ! of the " Rocket," 320. Steam-boat, the first working, 70. Stephenson family, the— Robert and Mabel, George's father and mother, 103-105 ; broth- ers and sisters. 111, 112 ; old Robert, 123 ; maintained by his son George, 129. Stephenson, George, birth and birthplace, 103, 104; his parents, 105; boyhood, 107-110 ; fire- man and engine-man, 109-113 ; learns to read, 114; learns to brake, 116, 117; makes and mends shoes and " falls in love," 118 ; thrash- es a bully, 119, 120 ; self-improvement, 121 ; removes to Willington, 122 ; marries Fanny Henderson, 123 ; studies mechanics, perpetual motion, 124 ; cleans clocks, 125 ; birth of only son and removal to Killingworth, 126 ; death of his wife, 127 ; goes to Scotland, his pump boot, 128; returns to Killlngworthj ibid.; brakesman at West Moor pit, 129 ; joins in a brakeing contract, 130, 131 ; cures a pumping- engine, 132-134 ; appointed engine -wright, 135; edncation of his son, 139-141; his cot- tage at West Moor, 146 ; the sun-dial, 148, 149 ; studies the locomotive, 151, 161-163 ; his first traveling-engine, 163-170 ; invents his safety-lamp, 179-186 ; improves underground machinery at Killingworth, 198 ; patent for improved rails and chairs, 200, 201 ; experi- ments on friction, 202 ; constructs Hetton Railroad, 208; marriesElizabethHindmarsh, 214 ; appointed engineer of the Stockton and Darlington Railway, 228, 229 ; commences lo- comotive factory at Newcastle, 232 ; supplies locomotives to Stockton and Darlingijon Bail- way, 235 ; appointed engineer to Liverpool and Manchester Bailway, 254 ; obstmctions to the survey, 259, 260 ; his evidence in com- mittee, 266 ; bill rejected, 277 ; reappointed engineer, 281 ; construction of Liverpool and Manchester Railway, 282-295 ; battle of the locomotive, 310.^15 ; triumph of the "Rock- et" at Rainhill, 319-328 ; organization of the railway traffic, 333 ; improvements of the lo- comotive, 335: the self-acting brake, 334, 398 ; leases the Snibston estate, 344 ; engineer of Manchester and Leeds Railway, 366 ; engi- neer of North Midland, 371 ; of York and North Midland, 373 ; quickness of observa- tion, 375; proposed line across Morecambe Bay, 376; immense labors, 377; extensive correspondence, 379, 380 ; London ofilce, 381 ; visits to Belgium, 382, 383 ; leases Claycross estate and colliery, 394 ; on railway specula- tion, 406, 407 ; third visit to Belgium, 415 ; visit to Spain, 417 ; interview with Lord How- iok, 428, 429 ; life in retu-ement at Tapton, 460 ; visit to Sir Robert Peel, 467 ; theory about sun's light, 468 ; illness and death, 470 ; stat- ues of, 472 ; characteristics, 487-492. Stephenson, Robert, his birth, 126 ; boyhood and education, 140-143 ; boyish tricks, 143, 144 ; scientific amusements, 145 ; teaches al- gebra, 148 ; joint production with his father of a sun-dial, 148, 149 ; assists his father in safety-lamp experiments, 181, 184 ; Newcastle Institute, 209 ; apprenticed as coal-viewer, 209 ; coal-pit explosion, narrow escapejoint studies with his father, 210 ; sent to Edin- burg University, 211 ; his notes of lectures, 212 ; life in Edinburg, 213 ; geological excm'- sion in the Highlands, return to Killing- worth, 213, 214 ; assists Mr. James in survey of Liverpool and Manchester Railway, 252 ; makes drawings for engines, 301 ; engages with Colombian Mining Association, and residence in South America, 801-306 ; resigns, hie situation, 806; meeting vrith Trevithick at Cartagena, 308; shipwreck, 808; tour in the United States, and return home, 309 ; co- operates with his father in the locomotive competition, 315; builds the "Rocket," 319 ; engineer of Leicester and SwanningtonBail- INDEX. 501 way, 343 ; engineer of London and Birming- ham Railway, 349 ; marriage to Miss Sander- son, 353 ; report on atmospheric system, 404 ; succeeds his father generally as engineer, 421 ; his extensiTe practice, 422, 423 ; his cau- tion, 426, 448, 456 ; engineer of High-Level Bridge, Newcastle, 431 ; engineer of Chester and Holyhead Hallway, 438 ; designs the first iron tubular bridge; 444 ; opens the Britan- nia Bridge, 457 ; designs tubular bridges over the Nile, 475 ; designs the Victoria Tubular Bridge, Lower Canada, 477 ; member of ' House of Commons, 484 ; honors, 485 ; pres- ent at launch of "Great Eastern," 486 ; ill- ness and death, 487 ; characteristics, 492-494. Stevin's sailing-coach, 52. Stocliton and Darlington Railway projected and surveyed, 222 ; Edward Pease, promoter, 222 ; act obtained, 224 ; George Stephenson reaurveys and constructs line, 228, 229 ; line opened, 336; coal-trafflc, 239 ; first passenger- trafflc, 240, 241 ; growth of Middlesborough, 245. Straits of Menai, bridge over, 441. Strathmore, Earl of, 135, 192. Suez Canal, Robert Stephenson's opinion of, 484, 485. . Summers and Ogle's tubular boiler, 317. Sun-dial at Killingworth, 148, 149, 396. Sun's light and coal formation, G. Stephenson's ideas on, 468, 491. Sunshine, effect of, on tubes of Britannia Bridge, 458. Superheated steam, Trevithick's use of, 91. Swanwick, Frederick, G. Stephenson's secre- tary, 297, 299, 316. Sylvester, Mr., on maximum speed, 264. Symington^ William, his working model of a roadlocomotive, 68 ; co-operation with Mil- ler of Dalswinton in applying power to boats, 70 ; his misfortunes and death, 70. Tapton House, George Stephenson's residence at, 392, 396, 460. Telegraph signaling on railways, Pref.y xiii. Thames Tunnel begun byTrevithlck, 85, 86. Thirlwall, William, engineer, 108. Thomas, Mr., of Denton, on railways, 73. Traihc, passenger, beginnings of, Pref., vi., XV., 240, 241, 333, 385, 388 ; cattle, Pref., xx. ; coal, ib., XXV., 153, 161, 386, 392 ; food, Pref., xix. ; merchandise, ih., xxvi. ; poultry, etc., z&., xxii. ; postal, i&., xxvi. Train service of London, Pref., xvii. Tram-ways, early, 48, 49, 73, 106, 152. Trevithick, Richard, birth and education, 74 ; engineering ability in youth, 75; partner with Andrew Vivian at Camborne, 76 ; his improved engine and boiler, 77 ; his steam- carriage for roads, 77-79 ; carriage exhibited in London, 79, 80 ; constructs the fli-st rail- way locomotive, 80 ; dredges the Thames by steam-power, 83 ; his high-pressure engines and new patents, 83, 84 ; partly constructs a Thames tunnel, 85, 86 ; returns to Camborne, new patents, 86 ; his tubular boiler, engines for Peru, 86, 87 ; goes to Lima, received with honors, 88 ; civil war and ruin, 89 ; meets Robert Stephenson at Cartagena, 90 ; ship- wreck and return to England, 91 ; new in- ventions, his last days and death in poverty, 92, 93 ; his character, his important inven- tions, aid. ,• his locomotive, 152, 163, 170, 317. Tring Cutting, 354. Trinity Church, Chesterfield, G. Stephenson's burial-place, 471. " Tubbing" in coal-pits, 344. Tubes, floating of, at Conway, 451, 452 ; at Menal Strait, 452 ; lifting of the, 455 ; erec- tion of, at Victoria Bridge, Montreal, 480.' Tubular boilers by various inventors, 317. Tubular bridges— over Menai Straits, 443 ; at Conway, 451, 452 ; at Damietta and Benha, Lower Egypt, 475 ; at Montreal, 480. Tunnels— at Liverpool, 290 ; at Primrose Hill, 356; at Kilsby, 357 ; at Littleborough, 368. Turner, Rev. William, Newcastle, 186. Undulating Railways, theory of, 400. United States, railways in, Pref., v- UviU6, M., and Trevithick, 87-89. Vegetables carried to London by rail, Pref., xxiii. Viaducts— Sankey, 292 ; Dutton, 366 ; Berwick, 430; Newcastle, 431. Victoria Bridge, Montreal, 477. Vignolles, Charles, C.E., 279, 291, 311. Vivian, Andrew, Trevithick's partner, 76. Walker, James, C.B., report on fixed and loco- motive engines, 312. Wallsend, 97. Walmsley, Su- Joshua, 418, 419. Waters, Mr., Gateshead, 158. Watt, James, his model locomotive, 60; his scheme of 1784, 64, 65 ; discourages apphca- tion of steam to locomotion, 67. " Way-leave" tram-ways, 49. Wellington, Duke of, and railways, 830-332, 390. West Moor ColUery, 177, 214. WhamcUffe, Lord, and George Stephenson, 135, 367. Wheat carried to London by rail, Pref., xx. Whinfleld, Mr., Gateshead, 154. Wigham, John, G- Stephenson's teacher, 138. Williams, Mr. Scorrier, his gratitude to Trev- ithick, 77. Willington Quay, G. Stephenson at, 122. Wind, power of, employed in locomotion, 52, 67. Wood, Nicholas, testimony concerning Ste- phenson's invention of the steam-blast, 171- 173 ; makes drawing for Stephenson's safety- lamp, 180 ; assists m experiments, 180, 185, 189, 196, 198 ; in colliery explosions, 210 ; on the locomotive, 262, 314, 315. Woolf, Cornish engineer, 84, 817. Workmen, railway, Pref., xxviii., 336, 362. Wylam Colliery and village, 102-104 ; wagon- way, 153, York and North Midland Railway, 373, 374 ; public opening of, 384. Young, Arthur, on early tram-waye, 49. THE END. BOOKS OF TEAYEL AND ADYENTUEE PtJIBLISHED BY HAEPER & BROTHERS, New Yoek. Habpeb & Bbothebs will send any of the following Works by mail, postage free, to any pait of the United States, on receipt of the Price. Haepek's Catalogue of Travel-Books is one of the literary curiosities of the day, exhibiting at a glance the contributions of modern travel to geographical and other knowledge. Commencing with South Africa, and marking mi a map the tracks of these travelers, the reader will be astonished to see how thorottghly they cover the length and breadth of Africa. 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