J n >-^ .^. a/ CORNELL UNIVERSITY LIBRARY Cornell University Library Q 141.W18 Memoirs of the distinguished men of scie 3 1924 012 222 414 "jj •iZ-t^ -^^-^ /' /^ ^ r ^ /^. /- . ■ ^ ^ < ,-. . /l^TK-C ^-«^j50 Cornell University Library The original of tiiis book is in tine Cornell University Library. 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Thomson 43 Oharles Tennard: ■f4 UrSdmu^n d Oartwri^M 45 Francis If ona Ids 46 Wd-liam Syrninflti?Ti ' 47 TcU-rick-MaUr 4S Alea:a^d^r Jfr/sryevtlt 4& Oha^ritis E'dyrP St^6mfwp-e/ 30 Joseph Briinudi of wTwnvthere' -is rw portrait extunt' ^ ■ LONDOIT: PTIBLISHI--'.^ MA^ Z0T''1!*6 ? , « Y MK C S ■:■' WALEEH&SON, 64 MAR&ARF.T ST. CAVKNDISH SQ. "W MEMOIRS OF THE DISTINGUISHED MEN OF SCIENCE OF GREAT BEITAIN LIVING IN THE YEAKS 1807-8. WITH AN INTRODUCTION BY ROBERT HUNT, F.R.S., F.S.S., Keeper of the Mining Mecords. COMPILED AND ARBANGBD BY WILLIAM WALKEE, JUNIOE, " The evil, that men do, lives after them; The good is oft interred with their bones." Shakspeare. LONDON: W. WALKER & SON, U, MAEGAEET STREET, CAYENDISH SQUARE, W. 1863. PREFACE. The following brief memoirs were origiaally compiled for the purpose of accompanying the Engraving of " The Dis- tiaguished Men of Science of Grreat Britain living in 1807-8, assembled at the Royal Institution," to which the outline at the commencement of this work is intended to serve as a key. As, however, there may be some who might like to possess the book, apart from the engraving, it has been thought advisable to publish it separately. With the exception of the notices of Trevithick, Tennant, Maudslay, and one or two more, these memoirs necessarily contain little information which has not been previously published in some shape or other. The authorities from which the present particulars have been taken are given at the end of each memoir ; and the writer claims no further merit than that of having compiled and arranged the works of others, whose language, in most cases, it would indeed be presumption in him to alter, further than was necessary to present to the public in a clear, brief and (it is hoped) readable form, the doings of men who must ever be held in the grateful remembrance of their country. In conclusion, the authors of this undertaking gladly avail themselves of the present opportunity to return their IT PREFACE. sincere thanks to the following gentlemen, who haye aided -them in bringing to a successful termination a work which has occupied a period of fiye years : — ^William Fairbaim, D.C.L., Mr. Samuel Crompton, Mr. Benjamin Fothergill, C.E., Dr. Angus Smith of Manchester, Mr. George Eennie, F.R.S., Sir John Rennie, F.R.S., Mr. Patrick Muirhead, M.A., Mr. R. W. Mylne, F.R.S., Dr. William Sharpey, F.R.S., Mr. Bennet Woodcroft, F.R.S., Mr. Charles Manby, F.R.S., Mr. S. Smiles, Mr. Henry Maudslay, F.R.S., Mr. J. F. Fitz- patrick, Mr. William Buckle, Mr. Francis and Mr. F. H. Trevithick, and Messrs. Donkin of Bermondsey; also Mr. John Tennant and Mr. WiUiam Couper of Glasgow, and Messrs. Spon, the scientific booksellers, of Bucklersbury. CONTENTS. Introduction ..... Allen, William . Baily, Francis .... Banks, Sir Joseph Bentham, Brigadier-General Sir Samuel BouLTON, Matthew Bramah, Joseph Brown, Robert .... Brunel, Sir Mark Isambard Cartwright, Edmund, D.D. Cavendish, Hon. Henry' Chapman, William Congreve, Sir William Crompton, Samuel Dalton, John Davy, Sir Humphry DoLLOND, Peter DoNKiN, Bryan Frodsham, William James . Gilbert, Davies Giddy . Hatchett, Charles . Henry, Dr. William Herschbl, Sir William Howard, Edward Charles Huddart, Captain Joseph . PAGE vii 1 3 4 10 19 22 25 30 34 38 43 49 51 60 65 72 75 78 79 83 86 91 96 98 a 2 vi CONTENTS. PAQE Jenner, Dr. Edward . • ■ ^^^ Jessop, William . ■ . . HI Katee, Captain Henry . ■ ■ .116 Leslie, Sir John ... . • 119 Maskelyne, Dr. Nevil ... . • 125 Maudslay, Henry . . 129 Miller, Patrick ....... 132 MuRDOCK, William ... . 134 Mylne, Egbert . . . • ■ 138 Nasmyth, Alexander . . 140 Playfair, John .... . . 142 Rennie, John . . . 148 Ronalds, Francis . . . . .154 RuMFORD, Count . . . . 155 Rutherford, Dr. Daniel . . . 163 Smith, William . . . 164 Stanhope, Charles, Earl 171 Symington, William . . 174 Telford, Thomas . . .178 Tennant, Charles . . . . 186 Thomson, Dr. Thomas ". . . 190 Trevithick, Richard . . . 193 Troughton, Edward . . . . 201 Watson, Richard, Bishop of Llandaff . . 205 Watt, James . . . . . .210 Wollaston, Dr. William H. .... 216 Young, Dr. Thomas . . . . 221 INTEODIJCTIOK The influences of human thouglit, on the Physical Forces which regulate the great phenomena of the Universe, and the powers of mind, on the material constituents of the planet, which is man's abiding place, form subjects for studies, which have a most exalting tendency. Thought has made the subtile element of the thunderstorm its most obedient mes- senger. Thought has solicited the sunbeam to betray its secrets ; and an invisible agent, controlled by Light, delineates external Nature at man's request. Thought has subdued the wUd impulses of fire, and Heat is made the willing power, to propel our trains of carriages with a bird-like speed, and to urge — in proud independence of winds or tides — our noble ships from shore to shore. Thought has penetrated VIU INTRODUCTION. the arcana of Nature, and, by learning her laws, has imitated her works. Thus, Chemistry takes a crude mass, rejected as unworthy and offensive ; — it recom- bines its constituent parts, and gives us, the grateful odours of the sweetest flowers, while it rivals nature in the iutensity and the beauty of its dyes. No truth was ever developed to man, in answer to his laborious toils, which did not sooner or later benefit his race. Every such development has been the result, of the continuous efforts, of an individual mind; therefore it is that we desire to possess some memorial of the casket, in which the jewel was contained. "We have advanced to our present position in the scale of nations by the efforts of a few chosen minds. Every branch of human industry has been benefited by the discoveries of science. The Discoverers are therefore deserving of that hero-worship which, sooner or later, they receive from all. We have possessed portraits — many of them ex- cellent ones— of our men of science, but it is only now that we have the advantage of seeing those who lived in the early part of the present century grouped together. Mr. Walker, of 64, Margaret Street, Cavendish Square, has, after many years of labour, completed a large Historical Engraving. It is dedi- INTRODUCTION. IX cated to those men whose names shine forth from the bead-roll of science, surrounded with the glory which belongs to the Priests of Nature and Truth. In the upper library of the Eoyal Institution, where these men really gathered when in life, they have been brought together by the artist in this picture; and as a memorial of the Astronomers, Chemists, Engineers, Naturalists, and other men of science, who were living in 1807-8, this plate stands alone — a spealdng record of a band of men to whose thought and industry, we are all most especially indebted. This engraving, and the following pages, which are iatended to convey a brief, but correct account, of the illustrious dead whose names are for ever, may be considered as a record of the most brilliant era in British science. It will be remembered that, in the period embraced, the world witnessed the control and application of steam by "Watt, Symington and Trevi- thick ; — the great discoveries in Physics and Chemistry by Dalton, Cavendish, WoUaston and Davy; — in Astronomy by Herschel, Maskelyne and BaUy; — the inventions of the spimiing-mule and power-loom by . Crompton and Cartwright ; — the introduction of machi- nery into the manufacture of paper, by Bryan Donkin and others ; — the improvements in the printing-press, and invention of stereotype printing, by Charles Earl INTRODTJCXION. Stanhope ; — the discovery of vaooination by Jenner ; — the introduction of gas into general use by Murdock ; and the construction (in a great measure) of the present system of canal communication by Jessop, Chapman, Telford and Eennie. During the same period of time were likevsdse living, Count Eumford, Brown, the botanist, William Smith, "The Father of English Geology," Thomas Young, the natural philosopher, Brunei, Bentham, Maudslay, Francis Eonalds, who, by securing perfect insulation, was the first to demonstrate the practicability of passing an electric message through a lengthened space ; together with many others, introduced into the picture, the fruits of whose labours we are now reaping. The following pages briefly record the births, deaths, and more striking incidents in the lives of those benefactors, whose living images are mirrored in the artist's work. This book requires no further notice from my pen. One who has devoted a long life to the cause of liberty and truth — one who began early to investigate Nature, and who is now, in the evening of his days, inquiring into the mysterious phenomena of Light — one who never forgot, when . political excitement was the highest, the pleasures of " Divine Philosophy," has recorded his opinion. Lord Brougham writes as follows : — INTUODtrCTION. XI Ch. Eleanor Louise, (Provence). 21 March, 1862. Dear Mr. W., I kave received your most kind present of tlie Print, wMcli is one of the finest I ever saw ; and from its subject most interesting. So think several who have seen it, and so will all others think who may afterwards see it. I have directed it to be framed immediately, and shall give it the best place in the Library, for which it will be a great ornament, and a useful addition besides. Unfortunately, being confined to the men of science at the beginning of the century, the greatest of them all, Black, is omitted, he having died at the end of 1799. The Book of your Son seems very well done indeed. In one or two articles he might have found additional informa- tion in my "Lives of Philosophers," but he has evidently had recourse to good sources of information. Yours sincerely, H. BROUGHAM. W. Walker, Esq., 64, Margaret-street, Cavendish-square, London. " Lives of great men all remind us, we may make our lives sublime." — This is forced strongly upon every thinking man when he looks upon this imitative re- cord, with which Art supplies us. We look at the group of the fifty-one thoughtM men in Mr. Walker's picture — every face telling its Xll INTE0DT7CTI0X. tale of penetrating power, — every brow heavy with the intensity of Brain-Force, active within it — and we learn to reverence, and to love, those gifted mortals to whom was granted, in answer to their prayerful seek- ing, the discovery of some one of the memhers of the disjointed body of Trnth. May this reverence and love quicken into activity, the awakening powers of the young student, and stimulate him to that exertion which will ensure some weU marked " Footprints on the sands of Time.'' EOBEET HUNT. WILLIAM ALLEN, F.R.S. Portrait taken from the Picture by Madame M. Roniilly. Born August S9, 1770. Died December 30, 1843. "William Allen, the eminent chemist, was bom in London. His father was a silk manufacturer .in Spitalflelds, and a member of the Society of Friends. Having at an early- period shown a predilection for chemical and other pursuits connected with mediciae, WiUiam was placed in the estab- lishment of Mr. Joseph Gnmey Bevan ia Plough Court, Lombard Street, where he acquired a practical knowledge of chemistry. He eventually succeeded to the busiaess, which he carried on in. connection with Mr. Luke Howard, and obtained great reputation as a pharmaceutical chemist. About the year 1804, Mr. Allen was appointed lecturer on chemistry and experimental philosophy at Gruy's Hospital, "at which ia- stitution he continued to be engaged more or less until the year 1827. He was also connected with the Royal Institu- tion of Great Britain, and was concerned in some of the most exact experiments of the day, together with Davy, Babiagton, Marcet, Luke Howard, and Dalton. In conjimction with Ifis friend Mr. Pepys, Allen entered upon his well known chemical investigations, which established the proportion of Carbon in Carbonic Acid, and proved the identity of the diamond with charcoal ; these discoveries are recorded in the ' Philosophical Transactions' of the Royal Society, of which he became a member in 1807. The 'Transactions' for 1829 also contain a paper by him, based on elaborate experiments and calcula- AIXEX. tions, concerning the changes produced by respiration on atmospheric air and other gases. Mr. Allen was mainly instrumental in establishing the Pharmaceutictil Society, of which he was president at the time of his death. Besides his public labours as a practical chemist, he pursued with much delight in his hours of relaxation the study of astronomy, and was one of the origiaal members of the Eoyal ^Vstronomical Society. In connection with this science, he published in 1815 a small work entitled ' A Companion to the Transit Instrument.' Many years before his death Mr. AEen withdrew fi-om business, and piuxihased an estate near Lindfield, Sussex. Here, while still engaged ia public schemes of usefulness and benevolence, he also carried out various philanthropic plans for the improvement of his immediate dependants, and poorer neighbours. He erected commodious cottages on his property, with an ample allotment of land to each cottage, and estab- lished schools at lindfield for boys, girls, and infants, with workshops, outhouses, and play-grounds. About three acres of land were cultivated on the most approved system by the boarders, who also took a part in household work. The subjects taught were land-surveying, mapping, the elements of Botany, the use of the barometer, rain-guage, ttc, and there was a good library with various scientific and useful apparatus. Mr. Allen died at Lindfield, the scene of his zealous benevo- lence, in the seventy-fourth year of his age. — ^nglis/i Cyclo- pf^clia, London, 1856. — Monthly notices of the lioi/al Asf. Soc. vol. 6, Feb., 1844. FRANCIS BAILY, F.R.S., &c., Portrait taken from the Painting hy Thomas Phillips, B.A., in the possession of the Royal Astronomical Society. Born April 28, 1774. Died August 30, 1844. This eminent English astronomer was born at Newbury in Berkshire, and received his education at the school of the E,ev. Mr. Best of that town, where he early showed a pro- pensity to physical inquiry, obtaining anaong his schoolmates the nickname of 'the Philosopher of Newbury.' Francis Baily quitted this school, when fourteen years old, for a house of business in the city of London, and remained there until his twenty-second year, when, desirous of the enlargement of ■views which travel affords, he embarked for America in 1795. Mr. Baily remained there nearly three years, travelling over the whole of the United States and through much of the western countryj experiencing at various times great hard- ships and privations. Shortly after his return to England he commenced business in London as a stockbroker, being taken into partnership by a Mr. Wiiitmore, a.d. 1799. While engaged in this busi- ness he published several works on Life Annuities, one of which entitled ' The Doctrine of Life Annuities and Insur- ances analytically investigated and explained,' was published in 1810, with an appendix in 1813, and continues to this day to be almost the only standard work on the subject, and it may serve to give some idea of the estimation in which it was held, to mention, that when out of print, copies used to sell for four to five times their original value. Although Mr. Baily was thus actively devoting himself to B 2 BAILT. matters of a direct commercial interest, he \ras still able to find time for works of a more general nature : in 1810 lie vrrote his first astronomiail paper on the celebrated Solar Eclipse, said to hare been predicted by Thales, and in 1S13 published a work entitled ' An Epitome of tTniversal History.' Astronomy, however, was his chief pursuit ; and shortly after the celebrated fraud of De Beranger on the Stock Exchange, in 1814 (in the detection and exposure of which Baily had a considerable share), this science absorbed more and more of his attention. To him we owe the fii-st record of that phenomenon attend- ing annular and total eclipses, since known by the name of Baily's beads, as also the peculiar and astonishing fl;une-like, or conical rose-coloured protuberances, seen to project from the surface of the sun's hidden disc, which he obserTed on the occasion of the total eclipse of the 8th of July, 184'2. In January, 18"23, the Royal Astronomical Society was founded chiefly through the suggestions of Francis Baily and I>r. Pearson, and for the first three yeai-s of its existence Mr. Baily filled the office of Secretary, sparing no exertions on its behalf, watching over its early progress with paternal care, and as the Society grew and prospered, contributing to its transactions many copious and valuable papers. In 18'25 Baily retired from the Stock Exchange, having acquii-ed a considerable fortime, and shortly afterwards took a house in Tavistock Place, giving his whole attention to the furtherance of astronomical science. Here, he executed that grand series of labours which has perpetuated his name, and the building in which the Cavendish experiment of weighinw the earth was repeated, its bulk and figure determined, and the standard of British measure perpetuated, miist continue to be a source of interest to scientific men for manv o^nem- tions to come. The chief works to which Mr. Baily devoted himself duriug this later portion of his life are : — 1. The RemodeUing of the Nautical xUmanac. BAILY. 2. The Determination of tL.e length of the Second's Pen- dulum. 3. The Fixation of the Standard of Length. 4. The Determination of the Density of the Earth. 5. The Revision of the Catalogues of the Stars. 6. The Reduction of Lacaile's and Lalande's Catalogues ; and, 7. The Formation of a New Standard Catalogue. The benefits which not only astronomy but all England have derived from these laborious investigations can hardly be too m.uch appreciated. But a short time elapsed, after Baily had completed his observations on the pendulum, and deter- mined the standard of length, — ^being thereby enabled to com- pare his new scale with the imperial standard yard, — when the conflagration of the Houses of Parliament in 1834 took place, and both the latter standard, and the original one by Bird (that of 1758) were destroyed. Thus we owe the preserva- tion of that unit, which has pervaded all our science from its early dawn, to the unremitting and im.wearied labours of this eminent astronomer. When it is considered that this involved the untiriag watching of the oscillations of the pendulum for more than 1200 hours, and this, too, by one who in early life seemed only able to find food for his vigorous mind amidst the hardships and fatigues of travel, it afibrds a remarkable instance how a man, active and full of ardour in early youth, can yet be enabled, by the strength of his character, to con- centrate the full force of his powers upon a series of researches apparently the most wearying and full of disappointment, an example well fitted for the earnest consideration of all who imagine that the energies of their minds can alone be satisfied by stirring scenes or a life full of activity and adventure. — Memoir of Francis Baily, by Sir John Herschel, Bart. — London, 1856. SIR JOSEPH BANXS, BAST., C.B., P.E.S. MEMBBR OF THE INSTITUTE OF FEAXCE. ETC. Fortiaif taken fivm the Fictiiir by T. PhUUps, JS.A., in f,':c possession of the Royal Society. Born February 13, 1743. Died March 19, ISaO. Sir Joseph Banks, Presideiit of the Royal Society for up- wards of forty yeai-s, was bom in Argyle Street, London. He was the eldest son of Mr. TT. Banks, a gentleman of consider- able landed property, whose family was originally of Swedish extraction, although it had been settled in England for several generations. The early life of Joseph Banks was passed principally at Revesby Hall, his father's seat iii Lin- colnshire, and his education was for several years entrusted to a private tutor, after which he went to Hari-ow School, proceeding from thence to Christ's College, Oxford. During his residence at college, he made considerable pro- gress in classical knowledge, but e^-iaeed at the same time a decided predilection for the study of natural history. Botany in particular was his favourite occupation, and one to which his leisure hours were devoted with enthusiastic ardour and perseverance. An anecdote is told of Mr. Banks being on one occasion so intent on exploring ditches and secluded spots, in search of rare plants, as to have excited the suspicions of some countrymen, who, conceiving that he could have no innocent design in acting thus, seized the young naturalist, when he had fidlen asleep exhausted with fatigue, and brovight him as a suspected thief before a neighbotiring magistrate. After a strict investigation he was soon liberated, but the incident occasioned much amusement in the neisrh- botu"hood. BANKS. In the year 1761 Mr. Banks lost his father, and thus at the early age of eighteen succeeded to an ample inheritance, which, resisting the allurements of pleasure, he chiefly devoted to the furtherance of scientific investigations. Soon after the death of her husband, Mrs. Banks removed with her family from Lincolnshire to Chelsea, as a spot likely to afford her son Joseph peculiar advantages in the study of botany, from the numerous gardens in the vicinity devoted to the culture of rare and curious plants of every description. Whilst living at Chelsea, Mr. Banks formed the acquaintance of Lord Sandwich, afterwards first Lord of the Admiralty, to the friendship of whom, he was in after Hfe indebted for essential aid in the furtherance of his nimierous projects for the advancement of scientific knowledge. When Mr. Banks had attained his twenty-first year, he quitted the University, and undertook a voyage to Newfound- land and the Labrador coast for the purpose of exploring the botany of those imfrequented regions. On his return, he brought home valuable collections not only of plants, but also of insects and other natural productions of that district. In 1768 he obtained leave from government, through the interest of Lord Sandwich, to embark in the ship commanded by the great navigator Cook, who had been commissioned to observe the transit of Venus in the Pacific ocean, and to fulfil also the usual object of a vovage of discovery.* In order to turn to the best account all opportimities that might occur during the voyage, Mr. Banks made most careful preparations. He provided himseK with the best instrumejits for making all kinds of scientific observations, and for pre- serving specimens of natural history, and persuaded Dr. Zolander, a distinguished pupil of Linnseus, to become his associate in the enterprise. He also took with him four servants, and two draughtsmen, to delineate all objects of * The portable observatories used in this expedition were constructed by Smeaton the engineer. — Wild's History of the Boy. Soc. vol. 2, p. 37. ^ BAJfKS. interest, that did not admit of being transported or presei"ved. This Toyage occupied three years, and a considerable share of the fitme, which accrued to Captain Cook and his associates in the enterprise, was due to Mr. Banks, who brought homo a splendid collection of specimens ficom Otaheite, Xew Zealand, and Australia. No sooner had 3Ir. Banks returned firom this expedition than he commenced, with unabated yigour, preparations for another. Having been prevented from joining Captain Cook's second expedition, chiefly through the influence of Sir Hugh Pallisser with the admiralty, he undertook the equipment of a ship at his own expense, and taking with him Dr. Zolander, Dr. land, Ton Troil, a Swedish natunvlist, and others, he sailed for Iceland in 177~. After exploring during two months that interesting region of volcanoes he returned to England, enriched with many valuable specimens, and stUl more valuable information respecting the productions of the country. A great part of the knowledge resulting from the various travels of ^Ir. Banks were commimicated by him, at different times, in papers to the Royal Society, of which he had been elected a fellow as early as the year 1766. On the resignation of Sir John Pringle, in 17 7S. Mr. Banks was elected President of this Society, an honour he continued to hold until his death. During the whole of his life Sii- Joseph enjoyed the fevoxir of the king, forming a kind of connecting link between his scientific compeers, and the courtly circles of the aristocjacy. In 17S1 he was made a baronet; in 1795 was invested with the order of the bath ; and, in 1707, became a member of the privy council. He did not, however, enfjiiije much in politics, but used the influence he had acquired chieflv in the promotion of scientific objects, and the encouragement of those who pvirsued them. A great and importent result of Sir Joseph Banks' scientific exertions was, the diffusing BANKS. 9 the productions of other climates over each portion of the globe. Thus he brought over into Europe the seeds of the South Sea lands, having previously distributed to the latter those of Europe. To him are we indebted for many of the beautiful plants which adorn our gardens and shrubberies. The sugar-cane of Otaheite was transplanted by him into the colonies, the bread fruit tree of the Pacific introduced into the tropical soil of America, and the flax of New Zealand brought into Europe. Among animals brought from Aus- tralia and introduced into this country by this eminent man are the black swan and the kangaroo. Sir Joseph Banks was married but had no family. He continued to fill the honourable office of President of the Royal Society for the unprecedented period of nearly forty- two years, enjoying, duriag that time, the correspondence and confidence of most of the distinguished men of learning both of this and other nations. His name was enrolled amongst the associates of almost every academy and learned society in Europe. His house and table were ever open for the reception and entertainment of all those who were emi- nent for their scientific attainments, with that spirit of liberality so conducive to the union of interests and co-opera- tion of efforts, requisite for the cultivation of knowledge. During many of the latter years of his life Sir Joseph Banks was a great sufferer from the gout, which almost deprived him of the use of his feet and legs. He died at his house in Soho Square, in March, 1820, at the age of 77, and was suc- ceeded in the chair of the Royal Society by Dr. Wollaston for the remainder of the year, until the election of Sir Himiphry Davy on the anniversary of the Society in JSTovem- ber. — Memoir of Sir J. Banks, by Br. P. M. Roget, Encyclo- pmdia Britannica, Eighth Edition. — Welds' History of the Royal Society, vdth Memoirs of the Presidents. London, 1848. 10 BBIGADIER-GElfERAL SIR SAMUEL BENTHAM. Portrait taken from the Miniature hy Murphy, in ffw Portrait Gallery of the South Kensington Museum. Bom January 11, 1757. Died May 31, 1831. Sir Samuel Bentham ^-as tlie youngest son of Jereniiali Bentham, and brotlier of Jeremy, the celebrated jm-ist. He was placed when very young at a private school, from whence, at the age of six, he vras sent to Westminster. His father occupied a house in Queen's Square Place, in the stable-yard of which wei-e spacious workshops, let to a carpenter ; here, Samiiel used to spend lUl his leisxire time, and soon acquii-ed considerable sHLL in handling tools, for when only thii-teon years old he had managed to construct with his o^vn hands a carriage, for a yoimg friend and playmate, Miss Cornelia Knight. At the age of fom-teeu he exhibited so sti"ong a taste for naval matters, that his father yielded to his wishes, and bound him apprentice to the master shipwright of "Woolwich Dockyard. At that time the superior officoi-s of a royal dockyard were exempted from keeping tlieir appi-enticcs at hard labour, so that time might be allowed for general instiniction. Samuel, however, soon perceived that pi-actical manipulation was no less essential than theoretical know- ledge, and nsed therefore to work at tie dockside till breakfast-time, and devote the rest of the day to scientific acquirements. In time, Samuel and his master were removed from Woolwich to Chatham Dockyai-d, by which he was enabled to obtain a practical knowledge of the behaA-ioivr of vessels at sea ; for he was often permitted to sail in the British Channel, and sometimes extended his voj-ages fiu'ther. About this period his brother, Jeremy Bentham, had retui-ned BENTHAM. 1 1 from college, and used to instil into him many of the first ideas of political economy : on these occasions Samuel would take advantage of the Saturday afternoons to walk from Chatham to his brother's chambers in Lincoln's Inn. At the end of his seven years' apprenticeship, Samuel spent another year in the other royal dockyards, and at the Naval College at Portsmouth. He then went to sea as Captain Macbridge's guest, whose ship was one of Lord Keppel's fleet, and on this occasion he suggested sundry improvements in the apparatus of a ship, which were executed in Portsmouth Dockyard. In conseq^uence of the abilities manifested by Bentham, many advantageous appointments were offered him. ; these were, however, refused, and in 1780 he embarked for the Continent, in order to obtain greater experience in the different practices of the art of naval con- struction. After having visited Holland, he proceeded to Russia, and was well received at St. Petersburgh by the English Ambassador, Sir James Harris, who introduced him to the best society, and through whose means he became acquainted, among others, with Prince Potemkin, and the celebrated traveller, Pallas. Whilst on a visit to the large manufactory of Count Demidoff, Bentham constructed a sort of amphibious vehicle, in the form of a boat, and capable of serving as an ordinary wheel-carriage, and also, when neces- sity required, of being navigated across, or along a stream of water. This invention he subsequently patented, and like- wise extended its utility by constructing the carriages so as to serve as army baggage-w^aggons, a supply of which Prince Potemkin ordered to be furnished to a regiment at Jassy, They were also introduced into England about the year 1793, when the Duke of York requested that one should be built for the English service, which was successfully tried on the River Thames. In gratitude to Count Demidoff for the facilities which he had afforded him in constructiag this carriage, Bentham invented for the use of the Count's factory 12 BENTHAM. a wood-planing machiae, wMch could also be used for making mouldings by merely cbanging the cutting tool. Bentham's stay in Russia was prolonged for a greater period tban be originally iatended, from bis baving become attached to a Russian lady of considerable rank and beauty ; but altbougb this attachment was mutual, nothing came of it, owing to the opposition of the lady's relatives, on the score of Bentham beiag a foreigner. During this period Bentham had the direction of the Fontanka Canal, in con- nection with which he invented a peculiar form of pile- driving machine, in which the weight was attached to a sort of endless ladder, moved by a man stepping on it, on the principle that a man's weight exceeds considerably his mus- cular strength. After the completion of the canal. Prince Potemkin induced Bentham to accept military service, and appointed him to the command of a battalion stationed at Critcheff, in White Russia, with the rank of lieutenant-colonel. As the prince's manufactories were in the neighboiirhood of Critcheff, Bentham offered to superintend them. This offer was gladly received; and as the management of the works had been previously grossly misconducted, the Keutenant-colonel soon perceived the necessity of his own constant inspection of what was going on, and for this purpose contrived a panop- tican building or inspection-house, the centre of which com- manded a view of all its parts. His brother Jeremy was on a visit whilst he was devising this panoptican, and the con- trivance has frequently on this account been attributed to Jeremy, altbougb in his works Jeremy repeatedly says it was his brother's. Up to this time the panoptican principle has only been adopted in gaols ; but Jeremy Bentham has shown that it is equally desirable for a great variety of buildings. Bentham's next invention was a sort of jointed vessel, for the conveyance of the Empress Catherine down the Dnieper and its affluents, which were shallow, tortuous, and their BENTHAM. 13 navigation much impeded by sandbanks and sunken trees. This vessel was in six links, drawing only six inches of water when loaded, and with 124 men at the oars on board. Many more were constructed on the same principle, for carrying the produce of the prince's estabUshments and manufactories to the Black Sea. On the breaking out of war with Turkey, Bentham was sent to the south with his battalion, of which, according to orders, he had made sailors and shipwrights; and shortly afterwards, by the joint order of Souvaroff and Admiral Mardvinoff, he was commanded to fit out vessels at Cherson to oppose the enemy. It happened that he had the sole command of the arsenal at Cherson, in which he foimd an immense stock of ordnance of aU descriptions, but no better navigable vessels than the pleasure- galleys, which had brought the empress and her suite down the Dneiper. But nothing daunted, Bentham set to work. He reflected that it is not size of vessel which ensures victory, but that it is gained by the fleet that can throw the heaviest weight of missile in the shortest time, joined to the facUity of manoeuvriug vessels. Strengthening his vessels as well as he could, he fitted them with as heavy artillery as they could possibly bear, and when all was finished, took the coromand of the flotilla himself, and had the satisfaction of engaging the Turks on three separate days, in all of which actions he was equally victorious, notwithstanding that the enemy's flotilla were doubly as numerous and powerful. For these three- victories Bentham received from the empress a like nimiber of honourable rewards — rank in the army, a gold-hilted sword, and the Cross of the Order of St. George. Sir Samuel Bentham now returned to the army, and by his own choice was appointed to the protection of the eastern frontier of Siberia, his command extending from the northern part of the Ural Moim.tains \o the confines of Russia in the Chinese dominions. After holding this appointment for a 14: BENTHAJI. couple of years, during which period he established schools for his troops, and introduced other improvements into their con- dition, Bentham obtained leave of absence to visit England. Here commences another epoch in Sir Samuel's life. Arrived in England, he found his brother Jeremy absorbed in investigations relative to jurisprudence. Jeremy, however, had not forgotten his brother's Panoptican, but had proposed its adoption for the County Gaol of Middlesex. This led to some explanations with the ministers, who ultimately en- trusted Jeremy Bentham with a thousand convicts, of whose labour he was to make the best use he coidd. In the mean- while Samuel went to visit the principal manufactories ia England ; he found that steam-engines were used for giving motion to machinery for spinning cotton, but ia no case were they applied to machinery for the working of wood, metal, &c. ; nor, ia fact, were there any mechanical appa- ratuses for saving labour, with the exception of turning- lathes, and some boriag tools worked by horses, for makiag ships' blocks. Bentham therefore patented, in 1791, his machinery for planing and making mouldings, specifying the improvements which he had made on the machine con- structed ten years before for Count Demidoff. His brother's arrangements for the industrial employment of convicts having been concluded, Sir Samuel considered that the most profitable means of employing them would be the working of machines for saving manual labour, which at the same time ensured accuracy of work ; he therefore exerted his me- chanical genius to perfect several engiaes he had previously contrived ia Russia, and patented his inventions ia the specification (No. 1951). This specification includes machines for sawiag, boring, and many other operations necessary for the working of wood or metal. Nor did the general confine himself to mere verbal descrip- tions of his machiaes ; many of them were constructed and erected under his own eye, ia Queen's Square Place, amongst BENTHAM. 15 wMch may be mentioned an apparatus for making wheels, and another for makiag aU the parts of a window-sash frame ; both of these leaving nothing for the skiUed work- man to do, saye putting the pieces together. There were also planes of various descriptions, saws for cutting extremely- fine veneers, machines for boring, dovetailing, cutting stone, &c., &c. Machines for metal-work were not, however, attempted, on account of the diflculty of obtaining the neces- sary power for working them, the Queen's Square Place appa- ratus being aU worked by men. The fame of this machinery attracted many visitors, amongst others Mr. Secretary Dundas (afterwards Lord Melville), who stated ia the House of Commons that it opened a new era in the manufacturing prosperity of the country. But the circumstance which completely changed Bentham's future destiny, was the frequent visits of Earl Spencer and the Lords of the Admiralty, who soon perceived the advan- tages which would accrue to the state by engaging the general in the British service. Various proposals were made by the Admiralty to engage him permanently in the public service ; but Bentham refused all in which he had not the individual responsibility. Ultimately a new oflB.ce was created for him, under the name of Inspector-General of Naval Works ; not, however, without the fierce opposition of the Naval Board, who, although unable to change the title of the oflB.ce, managed to reduce the salary from the sum of 2000^. per annum, as originally proposed, to 750?. nominal, with an addition finally agreed upon of 500/. a year — ^in aU, 1260/. per annum. Notwithstanding this opposition, Bentham, convinced of the services he could render, gave up the honours and riches which awaited him in Russia — amongst others, an estate promised him on his return — and determined to devote his energies to his native country, regardless of all pecuniary advantages. During the interval which elapsed before the actual institution of his new oflBce, 16 BENTHA>r. Bentham was authorized by the Lords of the Admiralty, early in 1795, to build seven experimental vessels; iato these he introduced many improvements, amongst which may be mentioned diagonal braces, metallic tanks for water, metallic cannisters for powder, means for filling the magazine with water in case of fire, safety lamps, &c. Appointed Inspector-General of Naval Works in 1796, the whole of Sir Samuel's energies were henceforward directed towards the improvement of naval arsenals, and the intro- duction of his machinery, with steam-power to give it motion. This introduction of steam-power into the naval dockyards of Great Britain experienced at first the most violent oppo- sition; and it was not until 1797 that any progress was made towards the furtherance of his object. During the same year Sir M. Isambard (then Mr.) Brunei presented himseK to the general, for the purpose of bringing before his notice certain machinery for making blocks. Bentham was at that time fully engaged by Lord St. Vincent in organizing a better mode of managing timber in the royal dockyards, and it occurred to him that Brunei would be Hkely to influ- ence the public in favour of machinery for working wood, and therefore proposed that he should be engaged for that purpose, recommending at the same time the adoption of his apparatus for shaping blocks, to which Brunei's machines were solely confined — a measure which has had the efiect of giving almost the entire merit of the Portsmouth machinery to Brunei. This statement is made without any intention of de- tractingfrom Sir Isambard's well-earned reputation, but simply in justice to Bentham, who, singularly free from an inventor's jealousy, himseK oflS.cially stated : — " In regard to the machi- nery, I was afterwards satisfied that Mr. Brunei had skill enough to have contrived machinery to have answered the same purposes, had he not foimd mine ready to his hand." To describe aU Bentham's subsequent improvements, not only in machinery, but also in the economy of the manage- BENTHAM. 17 ment of the dockyards, would take too much space. By his energetic efforts and inventive genius, the wood mills, metal mills, and millwrights' shop were established at Portsmouth. In 1800, he proposed to the Admiralty a steam dredging- machine; of which he gave drawings, similar to the ones now in such general use ; and the efficacy of this invention has since realized the most sanguine hopes of its designer. Not- withstanding the great value of Bentham's services, he seems to have experienced little gratitude upon the part of the Government. During the year 1805, he was requested by the Admiralty to proceed to Russia, and commence building in that country ships of war for the British navy. On his consenting, and arriving at St. Petersburgh, he found, much to his surprise, that nothing had been done to facUitate his mission ; and although personally received with great kind- ness by the emperor, he was unable to obtain the required permission to bmld vessels of war for Great Britain. Eeturning to England in 1807, he learnt that his office had been abolished, and that henceforth he would be amal- gamated with the Naval Board. Nothing but the necessity of supporting his family, made Bentham accept this new post, which gave him the title of Civil Engineer and Architect of the Navy — an employment for which he had manifested peculiar talents, although not educated for it, but excluding him at the same time from all interference in ship-building, for which he had served a regular apprentice- ship, and had subsequently manifested extraordinary talents. When this office also was abolished, about the year 1812, by the desire of Lord Melville, Sir Samuel applied for some compensation for loss of office, and likewise for a remunera- tion for his services. On account of the loss of office, Bentham's salary was continued ; but during the discussion which arose regarding the statement of services which Sir Samuel had drawn up at the request of the Admiralty, although, on coming to the metal mills, Lord Melville said. 18 BENTHAM. " There Sir Samuel stands upon a rock," it proved a slippery one ; for under the pretext that it would be necessary to apply to Parliament for so large a sum as a year's savings effected by the introduction of the metal mills, no remu- neration was ever accorded to Bentham for any one of his services. After the restoration of peace in 1814, Sir Samuel retired to France for the economical education of his children. In 1827 he returned to England, where he remained until his death in 1831, at the age of seventy-four. — Papers and Prac- tical Bhistratiotis of Public Works of Recent Coiistniction, 8fc. London, 1856. 19 MATTHEW BOULTOH, F.R.S., L. and E., &c. Portrait taken from the Picture by Sir William Beechey, R.A.f in the possession of J. W. Gibson Watt, Esq. Bom at Birmingham, Sept. 8, 1728. Died Aug. 7, 1809. This skilful, energetic, and farseeing man, who, by his extended views and liberal spirit of enterprise, contributed so greatly towards the successful introduction of Watt's con- densing steam-engine, commenced life at Birmingham, as a maker of buttons and shoebuckles. Matthew Boulton received an ordinary education at a school at Deritend. Nature had, however, gifted him with rare endowments, and of these he made the best use ; with a thorough knowledge of business, great prudence, and admirable tact, he combined boldness of spirit, quickness of thought, and promptitude of action. At the death of his father, Boulton became possessed of con- siderable property, and desirous of extending his commercial operations, purchased, about the year 1762, a lease of Soho, near Handsworth, where he foimded that establishment which has become renowned as the nursery of English mechanics. The hiU. from which this place derived its name was, at that time, a bleak and barren heath, at the bottom of which rippled a small stream. Boulton's instiactive mind saw the uses to which these waters might be turned. By collecting them into a pool, and pouring their united weight upon a water wheel, he became possessed of a motive-power sufficient to set in motion various machines, by whose agency were fabricated articles in gold, silver, and tortoise- shell, and plated and ialaid works of the greatest elegance and perfection. On the side of the hill, Boulton built exten- sive workshops, and dwellings capable of holding many c 2 20 BOTTITON. hundreds of workmen, and erected a mansion for himself surronnded hy beautiful groimds, where he lived as a prince among his people, extending hospitality to all around. In 1773, Mr. Boulton entered into partnership with James Watt (with whom sometime previous to this he had been in coramunication), and induced him to settle at Soho and superintend personally the erection of his new steam-engines. This bold but clear-sighted act of Boulton was destined to crown with honour a reputation, already rising, and built \ipon the firm foundation of uprightness and integrity. " Had Watt searched all Europe," says Playfair, " he could not have found another man so calculated to introduce the machine to the public in a manner worthy of its reputation." Its sale as an article of commerce was entirely conducted by him, and the skilful and Hberal way in which he performed this difficult task brought in time its own reward ; yet so great a sum as 47,000/. had to be expended upon the steam- engine before any profit resulted to its owners. In process of time, however, wealth flowed into the hands of Boulton and Watt ; and in the year 1800 Mr. Watt was enabled to retire from the firm possessed of a large competency, and leaving the exclusive privilege of the sale of the engine to Boulton. BosweU, who visited Soho in 1776, shortly after the manufacture of steam-engines had been commenced there, was greatly struck by the vastness and contrivance of the machinery. " I shall never forget," he says, " Mr. Boulton's expression to me when surveying the works : ' I sell here, sir, what all the world desires to have — Power.' He had," continues BosweU, " about 700 people at work ; I contemplated him as an iron chieftain, and he seemed to be the father of his tribe."* In 1785 Mr. Boulton was elected a Fellow of the Royal Society, and two or three years after this turned his attention to the subject of coining, to the improvement of which art * QnJjrterly Revieto, October, 1858. BOULTON. 21 he devoted the last twenty years of his Hfe. He erected extensive machinery for this purpose, and by uniting some processes originating in France with new kinds of presses, he was enabled to obtain great rapidity of action combined with the utmost perfection in the articles produced ; so much so, that having been employed by the British Grovernment to recoin the whole of the British specie, he rendered counter- feits nearly . impossible by the economy and excellence of his work. In addition to this Mr. Boulton planned and directed the arrangement of the machinery in the British Mint, and executed that for the coining department. He also con- structed the machinery for the great national mints of St. Petersburgh and Copenhagen ; his son, to whom the estab- lishment at Soho devolved upon his death, doing the same for the extensive and splendid establishments of the East India Company at Bombay and Calcutta. Boulton died Augvist 7, 1809, in his eighty-first year, and his remains were borne to the grave by the oldest workmen connected with the works at Soho ; five hundred persons belonging to that estabKshment joined in the procession, which numbered among its ranks several thousand in- dividuals, to whom medals were given recording the age of the deceased and the date of his death. — Btuarfs Anecdotes of the Steam Engine, London, 1829. — Muirhead's Translation of Arago's Life of J. Watt, London, 1839. 23 JOSEPH BRAWAH. Bom April 13, 1749. Died December 9, 1814. This emment practical engineer and machinffit was bom at Stainborougli, in Yorkshire. His father rented a farm on the estate of Lord Strafford, and Joseph, being the eldest of five children, was intended for the same employment ; but fortunately for his subsequent career, an accidental lameness, which occurred when he was sixteen years old, prevented his following agricultural pursuits. When quite a boy, Bramah exhibited unusual mechanical talent ; he succeeded in con- structing two violencellos, which were found to be very tolerable instruments, and also managed to cut a violin out of a single block of wood, by means of tools which were forged for him by a neighbouring smith, whom in after life he engaged in London as one of his principal workmen. After having served an apprenticeship to a carpenter and joiner, Bramah obtained employment in the workshop of a cabinetmaker in London, and soon afterwards established himself as a principal in the business. The history of his Hfe after this is perhaps best given by a record of his numerous inventions, all of which are, more or less, of a highly useful character. For the manufacture of these, Bramah first took up his residence in Denmark Street, Soho, but subsequently removed to Piccadilly, and established the various branches of his manufactory in some extensive premises at Pimlico. In 1783 he took out a patent for an improved watercock, and in the year following completed the invention of his famous lock, which for many years stood unrivalled in ingenuity of construction, workmanship, and powers of resistance against all attempts to pick.* For • For Maudslay's connection with this lock, see Maudslay. BRAMAH. 23 different modifications of pumps and fire-engines Mr. Bramali took .out three successive patents, the two last being dated ia 1790 and 1798. Between these two years (in 1796) he produced and patented the most important of aU his inyen- tions, namely, ' The Hydraulic Press,' a machine which gives to a child the strength of a giant, enabling him to bend a bar of iron as if it were wax. The beer machine, a simple but very convenient arrangement of small pumps and pipes, now in general use at public-houses, was patented by Bramah in 1797. In the description of this patent he in- cludes a mode of converting every cask in a cellar into a force pump, and thus raisiag the Kquor to any part of the house ; a filtering machine ; a method of making pipes ; a vent peg and a new form of stop-cock. In 1801, Mr. Bramah obtained a patent for some improvements in the construction of steam-engines, particularly relating to boilers ; and in 1802, one for a very elaborate and accurate machine for pro- ducing smooth and parallel surfaces on wood and other materials. This was erected on a large scale at Woolwich Arsenal, and proved perfectly successftd. The specification of the patent includes the description of a mode of turning spherical surfaces either convex or concave, by a tool move- able on an axis perpendicular to that of the lathe, and of cutting out concentric shells, by fixing in a similar manner a curved tool, nearly of the same form as that employed by common turners for making bowls. Bramah also invented machinery for making paper in large sheets, and for priat- ing by means of a roUer, composed of a number of circular plates, each turning on the same axis, and bearing twenty- six letters capable of being shifted at pleasure, so as to express any single line by a proper combination of the plates. This was put in practice to number bank-notes, and enabled twenty clerks to perform the labour which previously had required one hundred and twenty. In 1812 he projected a scheme for main-pipes, which was, however, in many respects. 24 BRAMAH. more ingenious than practicable. In describing this he men- tions having employed a hydrostatic pressure equal to that of a column of water twenty thousand feet high (about three and a half tons per square inch). Mr. Bramah made several im- provements in the bearings of wheels, and suggested the use of pneumatic springs, formed by pistons sliding in cylinders, in place of the usual metal springs for carriages. He like- wise improved the machines for sawing stones and timber^ and suggested some alterations in the construction of bridges and canal locks. He died in his sixty-sixth year, his last illness having been occasioned by a severe cold caught during the month of November, while making some experi- ments with his hydraulic press on the tearing up of trees in Holt Forest. He was a cheerful, benevolent, and affectionate man, neat and methodical in his habits, and knew well how to temper liberality with economy ; greatly to his honour, he often kept his workmen employed, solely for their sate, when the stagnation of trade prevented him from disposing of the products of their labour. As a manufacturer he was dis- tinguished for his promptitude and probity, and was celebrated for the exquisite finish which he gave to his productions. At his death he left his family in affluent circumstances, and his manufacturing estabKshments have since his death been continued by his sons. Unfortunately, Mr. Bramah had an invincible dislike to sitting for his portrait, and there consequently exists no likeness of this distinguished man ; and although a posthumous cast of his face was taken after death by Sir Francis Chantrey, this, together with many others, was destroyed by Lady Chantrey after the death of her husband. The general appearance of the figure in the present picture has, however, been repre- sented in accordance with particulars given by his grandson, Mr. E. H. Bramah. — Memoir by Dr. Brown. — Shart's Anec- dotes of the Steam Engine, London, 1829. 25 ROBERT BROWN, D.C.L., F.R.S., P.I.S., &c. MEMBEK OF THE INSTITUTE OF FRANCE. Portrait taken from the Picture hy W. JET. Pickersgill, R.A., in the possession of the Linnean Society. Bom December 21, 1773. Died June 10, 1859. Robert Brown, whom Humboldt bas designated as tbe " Prince of Botanists," was tbe second and only surviYing son of tbe E,ev. James Brown, Episcopalian Minister of Mon- trose. Several generations of bis maternal ancesters were, lite bis fatber, ministers of tbe Scottisb Episcopalian Cbiircb, and from tbem be appears to bave inberited a strong attacb- ment to logical and metapbysical studies, tbe effects of wbicb are so strikingly manifested in tbe pbilosopbical character of bis botanical investigations. At an early age be was sent to tbe grammar-scbool of bis native town, and in 1787 entered at Mariscbal College, Aberdeen, wbere be immediately ob- tained a Ramsay Bursary in pbilosopby. About two years afterwards, on bis fatber quitting Montrose to reside ia Edinburgb, be was removed to tbe University of that city, in wbicb be continued bis studies for several years, but with- out taking a degree, although destined for tbe medical pro- fession. In tbe year 1791, at tbe age of seventeen. Brown laid before the Natural History Society, of which he was a member, his earliest paper, wbicb contained, together with critical notes and observations, an enumeration of such plants as had been discovered in North Britain subsequent to the publication of Ligbtfoot's 'Flora Scotica.' Although this paper was not intended for publication, it brought the young 26 BROWN. botanist into comnmnication with Dr. Withering, and laid the foundation of a warm and intimate friendship between them. In the year 1795, soon after the embodiment of the Fifeshire Regiment of Fencible Infantry, Brown obtained in it the double commission of ensign and assistant surgeon, proceeding with the regiment to the north of Ireland, in various parts of which he was stationed until the summer of 1798, when he was detached to England on recruiting service. Fortunately for himself and for science, this service enabled hiTn to pass some time in London, where his already established botanical reputation secured him a cordial recep- tion from Sir Joseph Banks, of whose library and collections he availed hunself to the utmost. In 1799 he returned to his regimental duties in Ireland, from which he was finally recalled, in December of the following year, by a letter from Sir Joseph Banks, proposing for his acceptance, the post of naturalist in the expedition for surveying the coasts of New Holland, then fitting out under the command of Captain Flinders. In the summer of 1801 he embarked at Portsmouth and set out on this expedition. His absence from England lasted more than four years, during which period, the southern, eastern, and northern coasts of New Holland, and the southern part of Van Diemen's Land were thoroughly explored; and he arrived in Liverpool, in the month of October, 1805, enriched with a collection of di-ied plants amounting to nearly 4000 species, a large proportion of which were not only new to science, but likewise exhibited extraordinary combinations of character and form. Immedia- tely on his arrival in England, Brown was appoiated librarian of the Linnean Society, of which he had been elected an associate in 1798. The materials which he had been indefatigable in collecting during this voyage, and the vast store of facts and observations in relation to their structure and affinities which BROWN. 27 he had accumulated, opened out to him new views upon a multitude of botanical subjects, which he was enabled by his position in the Linnean Society to enlarge, and to perfect, and ultimately to lay before the world in a series of masterly publications, which at once stamped upon him the character of the greatest and most philosophical botanist that England had ever produced. In 1810 appeared the first volume of his ' Prodromus Florae novae HoHandise et Insulae Van Diemen.' This important work, together with his memoirs on Proteaciae and Ascle- piadeae, which immediately followed, and his ' Greneral Re- marks, Geographical and Systematical, on the Botany of Terra Australis,' appended to the 'Narrative of Captain FMnder's Voyage,' published in 1814, by displaying in the most instructive form the superior advantages of the Natural System, gave new life to that system, which had hitherto found little favour in France, and speedily led to its imiversal adoption. A series of memoirs followed the above works, chiefly in the Transactions of the Linnean Society, or in the appendices to various books of travel and survey, which gave fuller and more complete development to his views upon almost every department of botanical science, and induced the illustrious Humboldt not only to confer upon Brown the title mentioned at the beginning of this memoir, but also to designate him as the " GHory and Ornament of Great Britain."* At the close of the year 1810, on the death of his learned and intimate friend Dryander, Mr. Brown succeeded to the office of Librarian to Sir Joseph Banks, who (on his death in 1820) bequeathed to him for life the use and enjoyment of his library and collections. These were subsequently, with Mr. Brown's consent, and in conformity with the proAdsions of Sir Joseph's will, transferred, in 1827, to the British * In the dedication of the 'Synopsis Plantarum Orhis Novi,' Roberto Brownie, Britanniarmn Glorise atque Ornamento, totam Botanices Scientiam ingenio mirifieo oomplectenti. 28 BROWN. Museum ; and from this latter date, until his death, he con- tinued to fill the office of Keeper of the Botanical Collections in the National establishment. In 1849 Mr. Brown was elected President of the Lionean Society, of which, soon after the death of Sir Joseph Banks he had resigned the Librarian- ship, and had become a fellow. In 1811 he had been made a fellow of the Royal Society ; and ia 1839 received its highest honour in the Ooply medal awarded to him " for his discoveries during a series of years on the subject of vegetable impregnation." In the mean- time, honours and titles flowed in upon him from all quarters. In 1832 the University of Oxford conferred on him, in con- junction with Dalton, Faraday, and Brewster, the honorary degree of D.C.L. ; and, in the succeeding year, he was elected one of the eight foreign associates of the Academy of Sciences of the Institute of France, his name being selected from a list, including those of nine other savans of world-wide repu- tation, nearly every one of whom has since been elected to the same distinguished honour. During the administration of Sir Robert Peel, he received, in recognition of his great eminence in botanical science, a pension on the Civil List of 200^. per annum, and shortly afterwards the King of Prussia decorated him with the cross of the highest Prussian Civil Order — ' Pour le Merite.' Of Mr. Brown's later publications the most important are, his ' Botanical Appendix to Captain Burt's Expedition into Central Australia,' published in 1849 ; and his Memoir ' On Triplosporite, an undescribed Fossil Fruit,' published in the Linnean Transactions for 1851. The pervading and distin- guishing character of all these wi'itings, is to be found in the combination of the minutest accuracy of detail with the most comprehensive generaKzation, and no theory is propounded which does not rest for its foundation on the most circum- spect investigation of all attainable facts. Among the most important anatomical and physiological subjects of which BKOWN. 29 they treat, particiilar mention is due to the discoTery of the nucleus of the vegetable cell, the development of the stamina, together with the mode of fecundation in Asclepiadece and Orchideoe ; the development of the pollen and of the ovulum in Phoenogamous plants, and the hearing of these facts upon the general subject of impregnation; also the origin and development of the spores of mosses ; and the discovery of the peculiar motions which take place iu the " active m.ole- cules" of matter when seen suspended in a fluid under the microscope. Of structural investigations the most important are those which establish the relation of the flower to the axis from, which it is derived, and of the parts of a flower to each other, as regards both position and mmiber ; the analogy between stamina and pistilla ; the neuration of the corolla of composites, their oestivation and inflorescence; and the structure of the stems of cycadeoe, both recent and fossil. Mr. Brown was also strongly attached to the study of fossil botany, and with a view to its prosecution he formed an extensive and valuable collection of fossil woods, which he has bequeathed, under certain conditions, to the British Museum.. After the death of Sir Joseph Banks, who bequeathed to bim his house in Soho Square, Mr. Brown contiuued to occupy that portion of it which opened upon Dean Street ; and it was in the library of that illustrious man, the scene of his labours for sixty years, surrounded by his books and by his collections, that Robert Brown breathed his last, on the 10th of June, 1859, in the eighty-flfth year of his age. — Memoir hy John J. Bennett, F.R.S., read at the Anniversary Meeting of the Linnean Society, May, 1859. 30, SIR M. ISAMBARD BRUNEL, V.P.R.S., &c. Portrait taken from the Picture by James Northcote, B.A., in the possession of Mrs. Brunei. Born April 25, 1769. Died December 12, 1849. Tliis celebrated engineer was born at Haqueville, in Nor- mandy, wbere his family bad for several centuries held an honourable position, mmibering among its members the eminent French painter Nicholas Poussin. Brunei was educated at the seminary at Rouen, with the intention of his entering holy orders, but he displayed so decided a taste for mathematics and mechanics, that by the advice of the supe- rior of the establishment he was removed to foUow a more congenial career. His father then destined him for the naval service, which he entered on the appointment of the Mareschal de Castries, the Minister of Marine, and made several voyages to the West Indies. While in this position, although only fifteen years old, his mechanical talents showed themselves on many occasions, and he siirprised his captain by the production of a sextant of his own manufacture with which he took his observations. In 1792 Brunei returned to France, where he found the revolution at its height, and Kke aU. who entertained Royalist principles was compelled to seek safety by flight, which with considerable difficulty he effected, taking refuge in the United States of America. Here, driven by necessity to the exercise of his talents, he followed the bent of his inclination, and became a civil engineer and architect. His first engage- ment in this capacity was on the survey of a tract of land near Lake Erie ; he then became engaged in cutting canals. BRUNEL. 31 and was employed to erect an arsenal and cannon foundry at New York, where he erected several new and ingenious machines. He was also engaged to design and superintend the building of the Bowery Theatre, JSTew York, since de- stroyed by fire, the roof of which was peculiar and original in its construction. Previously to this the idea of substitutiag machinery for manual labour in making ships' blocks had long occupied Brunei's mind, and in 1799, having matured his plans, he determined upon coming to England, finding that the United States were unable to afford full occupation for his inventive genius. Earl St. Vincent was at that time at the head of the Ad- miralty, and after many delays and difficulties, which were ultimately overcome chiefly through the iafluence of Earl Spencer and Sir Samuel Bentham, Brunei's system was adopt- ed ; and he was enabled to erect the beautiful and effective machinery, which has contiaued imtil the present time, with- out any alteration or improvement, to produce nearly all the blocks used in the Eoyal Navy. The construction of this block machinery, com.pleted in 1806, was entrusted to the late Mr. Henry Maudslay, it was erected in Portsmouth Dockyard, and the economy produced by the first year's use of these machines was estimated at about 24,000/., two-thirds of which sum was awarded to the ingenious inventor, who was soon after engaged by the government to erect extensive saw mills, on improved principles, at Chatham and Wool- wich. While occupied on these more important works, Brunei also found time to invent an ingenious little machine for winding cotton thread into balls ; an instrument for com- bining the use of several pens in order to produce simultane- ously a number of copies of a manuscript; a simple and portable copying machine ; a contrivance for making the small boxes used by druggists, and a nail-making machine. He Kkewise introduced the system of cutting veneers by circular saws of a large diameter, to which is mainly due the 32 BRUNEL. present extensive application of veneers of wood to orna- mental furniture. A short time before the termination of the war with France he devised a plan for making shoes by machinery, and under the countenance of the Duke of York the shoes so manufac- tured were introduced for the use of the army on account of their strength, cheapness, and durability ; but at the peace in 1815, the machines were laid aside, manual labour having become cheaper, and the demand for military equipments ha^'ing in a measure ceased. . Steam navigation also attracted Brunei's attention, and he became deeply interested in estab- lishing the Ramsgate steam vessels, which were among the first that plied effectively on the River Thames. About this period, after much labour and perseverance, he induced the Admiralty to permit the appKcation of steam for towing vessels to sea, the experiments being made chiefly at his own expense, a small simi in aid having been promised, but even- tually withdrawn before the completion of the trials, the Admiralty considering the attempt too chimerical to be seriously entertained. In the year 1824 Brunei, undeterred by the two previous failures of Dodd and Trevethick, commenced his great work — the Thames Tunnel. It is said that the original idea occurred to him as applied to the Neva at St. Petersburg, in order to avoid the inconvenience arising from the floating ice ; a plan which he ofiered to the Emperor Alexander, on the occasion of his visit to this country in 1814. During the above men- tioned year a company was formed for the execution of this work, under the auspices of the Duke of WeUington, who had always entertained a favourable view as to its practica- bility ; and after numerous accidents, and frequent suspen- sions of the works, this great and novel undertaking was suc- cessfully accompKshed, and opened to the public in the year 1843. In the prosecution of this imdertaking Sir Isambard derived great assistance from his son the late Mr. I. K. Brunei. BRUNEL. 33 The shield, as it was termed, under shelter of which the excavation beneath the bed of the river was carried forward, required very peculiar contrivances to adapt it to its purpose. It was made in sections or compartments contained ia a strong square frame, each section or compartment being moved for- ward by screws, as the men working in them proceeded with the excavation; the entire shield was thus enabled to be moved forward, and the brickwork, consisting of two tunnels, was built up to the extent that it had been advanced. After the completion of the Tunnel, Brunei's health became seriously unpaired from the labours he had undergone in its execution, and he was unable to mix in active life ; he ex- pired on the 12th of December, 1849, in his eighty-first year, after a long illness. He received the honour of Knighthood in 1841, and the order of the Legion of honour in 1829 ; he was also a corresponding member of the French Institute, a Fellow of the Royal Society, and a member of the Institution of Civil Engineers, which he joined in the year 1823. — Annual Rejoort of the Institution of Civil Engineers. December 17, 1850. 34 EDMUND CARTWRIGHT, D.D., F.R.S., &c. Portrait taken from the Migrating by J. Thomson, in the Portrait Gallery of the South Kensington Museum. Bom April 24, 1743. Died October 30, 1833. Dr. Cartwriglit, whose invention of the power-loom may be considered as one of the valuable elements of onr national manufacturing superiority, was born at Marnham ia Not- tiughamshire, and was the yovmgest of three brothers, all of whom were remarkable men. He was educated under Dr. Clarke, at the Grammar School of Wakefield, and had he been permitted to foUow the bent of his own incHnation in the choice of a profession, would have preferred the navy ; but two of his brothers being already designed for that service, it was thought advisable that Edmund should enter the church. Dr. Cartwright began his academical studies at University College, Oxford, where he was entered at fourteen years of age, and d\iring the vacations was placed tmder the private tuition of Dr. Langhorne, the editor of ' Plutarch's Lives.' In process of time he became distinguished for his literary abilities, and was elected a Fellow of Magdalen College. He Kkewise evinced a considerable taste for poetry, and published in 1770 a legendary tale, entitled ' Armine and Elvira,' which went through seven editions in little more than a year, and was greatly admired for its pathos and elegant simplicity. Some years subsequent to this, Cartwright wrote ' The Prince of Peace,' published in 1779, and was also for several years a principal contributor to the ' Monthly Peview.' In the year 1772 he married the daughter of Richard Whittaker, Esq., of Doncaster, and after his marriage resided CARTWRIGHT. 35 first at Marnliain, and afterwards at Brampton in Derbyshire, to the perpetual curacy of which he was presented by the Dean of Lincoln, Dr. Oust. It was while attending to his clerical duties at this latter place, that Cartwright discovered the appli- cation of yeast as a remedy for typhus-fever. In 1779 he was presented to the living of Goadby Marwood in Leicester- shire, and continued to reside there until the summer of 1796, when he removed with his family* to London, as being a situation more favourable for the cultivation of the scientific pursuits in which he had by that time become engrossed. Dr. Cartwright had attained the mature age of forty, before his attention was drawn towards the subject of weaving, by the following accidental occurrence : — In the summer of 1784, he happened to be on a visit at Matlock, in Derbyshire, and in the company of some gentlemen from Manchester. The conversation turned upon Arkwright's spinning machinery ; and fears were expressed by one of the company, that, in consequence of the recent unprovements, so much cotton would soon be spim, that hands would not be found to weave it. To this the doctor replied, that the only remedy for such an evil would be to apply the power of machinery to weaving as well as spinning. The discussion which ensued upon the practicability of doing this, made such an impression on Cartwright's mind, that on returning home he determined to try and see what he could do. His first attempts, as might be supposed, were very clumsy, but he at length succeeded in constructing a machine (for which he took out a patent in 1785), which, although rude and cumbersome in its action, was yet capable of weaving a piece of cloth. Up to this time he had never turned his mind to anything mechanical, either in theory or practice, and his invention was consequently susceptible of great im- provement. To accompKsh this, he now examined with care * Dr. Cartwright was married twice. His first wife died in 1785, and in 1790 he married the youngest daughter of the Eev. Dr. Kearney. D 2 36 CARTWEIGHT. the contrivances already in use among the weavers, and availing himself of their general principles, produced in the year 1787 a far more complete and valuahle machine, since known as the power-loom. Shortly after he had brought his loom to perfection, a manufacturer, who had called upon him to see it at work, after expressing his admiration at the ingenuity displayed in it, remarked, that wonderful as was Dr. Cartwright's skill, there was one thiug that woidd effectually baffle him, and that was, the weaving of patterns in checks, or, in other words, the combining in the same web a pattern or fancy figure vsdth the crossing colours which constitute the check. The doctor made no reply to this at the time ; but some weeks afterwards, on receiving a second visit from the same person, he showed him a piece of muslin, of the description mentioned, beautifully executed by machinery, which so astonished the man, that he roundly declared his conviction that some more than human agency must have been called in on the occasion.* Dr. Cartwright being precluded by his clerical character from entering himself iato the manufacture of his machines, a weaving factory was erected at Doncaster, by some friends, with his licence, but it was unsuccessful ; and another estab- lishment, built at Manchester, containing 500 looms, was destroyed by an exasperated mob in 1790. Cartwright, how- ever, still continued his inventions, and shortly afterwards" contrived a wool-combing machine, which met with even fiercer opposition from the working-classes, who went the length of petitioning Parliament to suppress all such ob- noxious machines. Their great utility, however, caused them by degrees to be generally adopted; and at the time of Cartwright's death, steam-looms had increased so rapidly, that they were performing the work of 200,000 men. Notwithstanding the great advantages which the cotton * Pursuit of Knowledge, vol. 2. CARTWEIGHT. 37 and wool manufacturers reaped from these inventions, their author had as yet obtained no emolument from them, but, on the contrary, had incurred a heavy loss. In consideration of this, and on the petition of several influential cotton-spinners. Parliament in 1810 made the doctor a grant of 10,000^. — a sum which, although munificent as a present, hardly covered what he had expended in his experiments. Having received the sum awarded by Parliament, and being now sixty-six years of age. Dr. Cartwright was desirous of passing the remaiader of his Hfe in retirement and tranquillity, and for this purpose purchased a small farm at Hollenden, in Kent. At this place he spent the remainder of his Hfe, occupied in various scientific and mechanical experiments. Dr. Cartwright was the author of many other iaventions in the arts and agriculture, for some of which he received premiums from the Board of Agriculture and Society of Arts. He also contrived an ingenious modification of the steam- engine, in which he made use of surface condensation, and metallic spring packing for the piston. Till within a few days of his death, Dr. Cartwright retained full possession of his mental faculties, and attained, at the time of his decease in 1823, the age of eighty-one. His remains were iaterred ia the church at Battle, in Sussex. — Memoir of Br. Edmund Cartwright, London, 1843. — Stuart's Anecdotes of the Steam-Engine, London, 1829. 38 THE HON. HENRY CAVENDISH, F.R.S. Portrait taken from the Brauing hy Tomlimon, in the Print Room of the British Museum. Bom October 10, 1731. Died February 34, 1810. Henry Cavendisli, the third in order of time among the four great English pneumatic chemists of the eighteenth century,* was the younger son of Lord Charles Cavendish, whose father was the second Duke of Devonshire. His family trace back their descent in unbroken and unquestionable links to Sir John Cavendish, Lord Chief Justice during the reign of Edward III. The great majority of the distinguished chemists of Great Britain have sprung from the middle and lower ranks of the people, but in this respect Henry Caven- dish presents a remarkable exception ; yet no one could well be more m-different than he, to the external advantages which are conferred by birth and fortune. Few particulars are known of his early Hfe. He was born at Nice, whither his mother, who died when he was two years old, had gone for the sake of her health. In 1742 Cavendish became a pupil at Dr. Newcome's school at Hackney, continuing his studies there until he had reached his seventeenth year, when he went to Cambridge, where he matriculated in the first rank on the 18th of December, 1749. He remained at this university until 1753, but did not graduate. After leaving Cambridge, the personal history of Cavendish becomes a blank for the next ten years. He joined the Royal Society in 1760, but did not contribute anything to its * The other three heiag Hales, Black, and Priestly. CAVENDISH. 39 ' Transactions' until the year 1766, when he published his paper ' On Factitious Airs,' which contains the first distinct exposition of the properties of hydrogen, and the first full account of those of carbonic acid ; a paper published by him in the following year may be considered as a stiU further extension of his research into the properties of this acid. For some considerable time after this. Cavendish appears to have laid aside chemistry for other departments of physics. In 1771 he published an elaborate paper on the theory of the principal phenomena of electricity; and in 1776 appeared the curious and interesting account of his attempts to imitate the effects of the torpedo, by an apparatus constructed in imitation of the living fish, and placed in connection with a frictional electrical machine and a Leyden battery. In this imitation he succeeded so well, that aU. doubts were removed as to the identity of the torpedinal benumbing power with common electricity. In 1776 Cavendish was selected by the Royal Society, in whose ' Transactions' aU his previous papers had been published, to describe the various meteorological instruments which were made use of in their apartments ; and the succeeding year to this marks the period when he commenced his most important chemical researches, entitled ' Experiments on Air,' which were carried on with frequent and sometimes long interruptions until 1788, no part of them, however, having been published before the year 1783. They led to the discovery of the constant quantitative com- position of the atmosphere, the compound nature of water, and the composition of nitric acid. To solve the important problems, whether the atmosphere is constant in its com- position, and if so, what is its composition? Cavendish ex- perimented in 1781 for some sixty successive days, making many himdred analyses of air. The honour of the discovery of the compound nature of water, by which perhaps his name has become most famous, is also claimed by James Watt. 40 CAVENDISH. CaTendish, however, seems at all events entitled to the honour of having first supplied the data on which that discovery was founded, whilst Watt appears to have supplied the conclusion. Between the years 1783 and 1788, Cavendish published three papers, all of them relating to the phenomena of con- gelation, and embodying some of the results of experiments made as early as the year 1764. The first of these papers refer to quicksilver, demonstrating the true freezing-point of that metal to be 39° or 40° below zero, while the second and third refer to the freezing of the mineral acids and of alcohol. In 1798 appeared the celebrated enquiry into the density of the earth, communicated by Cavendish, in a paper, to the Royal Society, in which he determined, by means of an apparatus constructed by the Rev. John Mitchell, the density of our globe to be 5*4, — or, in other words, nearly five-and-a- half times heavier than the same bulk of water would be. No greater compHment to his accuracy in this experiment can be afforded, than the slight difierence which appeared when the experiment was repeated at a later period by Francis Baily, who, with extraordinary precautions to ensure a correct result, and with all the improvements which forty fertile years had added to mechanical contrivances, determined the density to be 5 '6, or a little more than five-and-a-half times that of water. The last paper which Cavendish published, on an improve- ment in the manner of dividing astronomical instruments, appeared in 1809, — a yeai* before his death. His published papers give, however, but an imperfect notion of the great extent of groimd over which he travelled in the course of his investigations, and of the success with which he explored it. He was an excellent mathematician, electrician, astronomer, meteorologist, and geologist, and a chemist equally learned and original. His private character has been thus described CAVENDISH. 41 by Dr. George Wilson, from whose comprehensive life of Cavendish the present memoir has been chiefly taken : — " Morally it was a blank, and can only be described by a series of negations. He did not love, he did not hate, he did not hope, he did not fear, he did not worship as others do. He separated himself from his fellow men, and apparently from Grod. There was nothing earnest, enthusiastic, heroic or chivalrous in his nature ; and as little was there anything mean, grovelling or ignoble. He was almost passionless. An intellectual head thinking, a pair of wonderfully acute eyes observing, and a pair of very skilful hands experimenting or recording, are all that I recognize in his memorials. His brain seems to have been but a calculating engine ] his eyes inlets of vision, not fountains of tears ; his hands instruments of manipulation, which never trembled with emotion, or were clasped together in adoration, thanksgiving or despair ; his heart only an anatomical organ necessary for the circulation of the blood. A sense of isolation from his brethren made bim shrink from their society and avoid their presence ; but he did so as one conscious of an infirmity, not boasting of an excellence. He was like a deaf mute, sitting apart from a circle whose looks and gestures show that they are uttering and listening to music and eloquence, in producing or wel- coming which he can be no sharer. Wisely therefore he dwelt apart. He was one of the unthanked benefactors of his race, who was patiently teaching and serving mankind, whilst they were shrinking from his coldness or mocking his peculiarities. He could not sing for them a sweet song, or create a ' thing of beauty,' which would be ' a joy for ever,' or touch their hearts, or fire their spirits, or deepen their reverence or their fervour. He was not a poet, a priest, or a prophet, but only a cold clear intelligence, raying down pure white light, which brightened everything on which it fell, but warmed nothing — a star of at least the second, if not of the first magnitude in the intellectual firmament." 42 . CAVENDISH. As Cavendish had lived, so he died — alone. Calmly, and without a struggle, he appears to have left this world for the unseen. Although in many respects of a highly Kberal character, so great was the frugality of his ordinary mode of living in comparison to his income, that at his death Cavendish left the enormous sum of 1,200,000^. to be divided among his relations. — Life of the Hon. Henry Cavendish, by George Wilson, M.D., F.R.S.B., London, 1851, 43 WILLIAM CHAPMAN, M.R.I.A. Portrait taken from a Bratoing in the possession of the Family. Born 1749. Died May 89, 183S. William Chapman, Civil Engineer, was born at Wliitby, in Yorkshire, of a respectable and wealthy family, who had resided in that town for several generations. He inherited the freedom of Newcastle-upon-Tyne from his father, who, in common with all the chief people of Wliitby, was en- gaged in shipping, and was besides particularly distinguished for his attainments in mathematics and other scientific pur- suits. William Chapman derived great advantage from his father's knowledge of these subjects, contracting a strong taste for similar occupations. After receiving a liberal edu- cation at different pubKc schools, he was put in command, at the early age of eighteen, of a merchant vessel, in which he enjoyed the opportunity of visiting numerous harbours both in Great Britain and other countries. He continued thus occupied for a period of three years, losing no opportunity of making himself acquainted with the circumstances of the various harbours he was in the habit of visiting, and he thus acquired that valuable practical knowledge on the subject of these works for which he became afterwards so highly dis- tinguished. After leaving the merchant service, Mr. Chapman was fortunate enough to become acquainted with James Watt, with his partner Matthew Boulton, and also with Mr. Wooller, Engineer to the Board of Ordnance. By these eminent men he was strongly advised to become an engineer, and follow as a profession that which he had already closely studied as an amusement. Chapman accordingly accompanied Mr. 44 CHAPMAN. Boulton into Ireland about the close of the year 1783, but although well introduced, was unable to obtain any employ- ment of consequence in that country, until he had written a prize essay on the effects of the river Dodder on the Harbour of Dublin. Shortly after this he was appointed resident engraeer to the Coimty of Kildare Canal, the works of which were carried on Tinder the surveillance of the Duke of Leinster, the county members, and other leading men. In the execution of this undertaking Mr. Chapman was re- quested not to alter the direction of the roads intersected by it, although one of them deviated from the right angle across the canal upwards of 50 deg. To meet this difficulty, and knowing that a bridge of the ordinary construction, with any considerable obliqidty, could not possibly stand. Chap- man invented, and put into practice, the method of building obKque or skew bridges, which has since been so generally adopted throughout the country, in railway, canal, and other bridges. Before this period (1787), whenever a road crossed the course of a canal or river requiring the construction of a bridge, it had been usual to deviate the course either of the road or the object it crossed, so that the crossing should be at right angles ; a practice which occasioned a great waste of land and considerable expense, as well as awkward and dan- gerous bends in the roads thus treated. In some few cases where the bridge was only required to be of a small opening, no alteration in the direction was made, but a bridge built of an oblique form, that is with abutments forming oblique angles with the road passing over it, the courses of the arch being built in lines parallel with the abutments, and the ends of the voussoirs bevelled off to coincide with the direc- tion of the road. Bridges built in this manner consequently became highly dangerous when the span was great or the obliquity considerable. The value of Chapman's invention consists in this, that he gave the means of building bridges on the skew principle, in any required situation, without CHAPMAN. 45 altering the direction of the roads or wasting material, and at an expense little above that of ordinary rectangular bridges. This he accomplished by the principle of building the courses of voussoirs at right angles to the face of the arch, meeting the abutments at obKque angles, being the very reverse of the system previously practised. During the progress of the KUdare Canal, Mr. Chapman, at the request of the Duke of Leinster, became overseer, con- jointly with him and the Hon. Mr. Ponsonby Moore, for the building of a bridge of five arches over the Liffey, to replace the former one which had been carried away by a flood. The bridge itself was a plain structure, but the means employed in forming and securing the foundations attracted general attention, and brought Mr. Chapman into still greater notice. From this time the number and importance of his professional engagements continued to increase, and he was engaged to survey and report upon several projects for the improvement of the navigations of various rivers, of which plans the most important was the navigation of the river Barrow from Athy downwards. During this period he was appointed consulting engineer to the Grand Canal of Ireland, of which undertaking Mr. Jessop was directing engineer ; and under the joint superintendence and surveys of these two gentlemen, the extension of the Grand Canal from Robarts Town to Tullamore was laid out, as weU as the Dock between Dublin and E-ingsend, and the canal of communication by the line of the circular road. The projected canal from near Tullamore passed through extensive bogs, some of which were thirty feet in depth, and in consequence of its diffi- culties was laid out by Mr. Chapman himself. The directors of the Grand Canal had expended upwards of 100,000^. in a very short space of ground between Robarts Town and Bathangar, from not being acquainted with the extent of the subsidence of bogs under superincumbent weight, or when laid dry by drainage. Mr. Chapman, therefore, availed 46 CHAFMAX. himself of their dearly bought experieuce, and adopted the following ingenious method of comparing different kinds of bogs and their relative subsidence. He provided himself Trith a cylindric implement of steel plate, sharp at the lower edges, and containing exactly one hundredth part of a cubic foot, and having divided the strata of the bogs into as many leading classes and subdivisions as were necessary, he filled the cylinders with a spedmen of each, by twisting them round so as to cut the fibres of the bog. The samples thus taken were carefully cut off at the level of the cylindric guage, and their weight having been ascertained, they were left to dry during the space of several months ; and when in a firm state and consequently greatly contracted, were again weighed, the result being that the originally wettest bog was found to have lost 10-llths of its weight, and the firmest 2-3rds, the rest in due progression between. It therefore became a simple process to ascertain pretty nearly the extent of subsidence in any bog to be passed through, and of course to lay out the line of the canal with such levels, that after subsidence, its surface should be at the required depth below the surface of the bog. Amongst Mr. Chapman's other extensive employments in Ii-eland, he caused, at the instance of the Irish Government, a survey to be made of the harbour of DubHn to beyond the Bar at Howth ; and on this occasion projected a pier iram the Clontarf shore to a due distance from the lighthouse, and then to the westward to a proper distance from the north wall, so as to confine all the tidal water coveriag that vast space, and to cause it to pass down the channel of Pool Beg, in place of being permitted to flow inwards and outwards over the North Bull. • In the year 1794 Mr. Chapman returned from Ireland, and fitsed his general residence at Newcastle-upon-Tyne. About this time the great project of a canal communication between the German Ocean and the Irish Sea, was enaaffinw CHAPMAN. 47 general attention in the North of England, and Mr. Chapman was fixed upon to survey the line of country for this proposed canal between Newcastle and the Solway Firth. His reports on this subject, which were made during the years 1795 and 1796, are still extant ; and although the work to which they relate was never executed, the documents connected with it are of a very interestiag nature. In 1808 this project, which had lain dormant for many years, was again revived, and Mr. Telford was employed to survey and report upon the best line of canal between Carlisle and a suitable port on the Solway Firth. Although Mr. Telford's plan was highly approved of, the time had not yet arrived for the carrying out of even this smaU portion of the original great scheme ; and it was not until the year 1818, when Mr. Chapm.an drew up a plan and report upon this Hne from Carlisle to Bowness, that a Bill was brought into Parliament, for which an Act was obtained early in 1819. The canal, which has been in suc- cessful operation for many years, is eleven-and-a-half miles in length, and cost about 120,000^. It commences on the south-eastern side of Carlisle, and falls into the sea, through a height of seventy feet, by means of nine locks. About the year 1796 Mr. Chapman became a member of the Society of Civil Engineers, which at that time numbered amongst its members Watt, Jessop, and Rennie, and amongst its honorary associates Sir Joseph Banks and other leading men of the day. In conjunction with Mr. Rennie, Chapman was then occupied in designing the London Docks, and sub- sequently the southern dock and basin at Hull. He was also engaged as engineer for the construction of Leith, Scar- borough, and Seaham Harbours, the last named work being imdertaken for the Marquis of Londonderry. In addition to his regular professional occupations, Mr. Chapman devoted a portion of his time to the publication of works bearing on engineering. Amongst the most important of these were the following : ' A Treatise on the various in- 48 CHAPMAN. ventions for effecting ascents in rivers;' 'Hints on the necessity of Legislative interference for registering the extent of workings in the Coal Seams, and preventing such accidents as arise from want of that knowledge ; ' ' An Essay- on Cordage ; ' and ' A Treatise on the preservation of Timber from premature decay.' Mr. Chapman also took out a patent for an improvement upon Captain Hnddart's system of manu- facturing ropes. This method was successfully carried into effect in all the rope grounds on the river Tyne, and in some of those on the Wear and Tweed. His next invention was for an expeditious and easily practicable method of lowering coal waggons, with their contents, immediately over the hatchways of ships, so as to prevent the great breakage of coals which attended the usual method of shooting them through long spouts ; this system, after the expiration of the patent, became universal upon the Tyne. Mr. Chapman possessed a robust constitution, and prac- tised through life the most temperate habits ; he was thus enabled to retain the full enjoyment of his faculties, and to continue employed upon various public works, in drainages, canals, and harbours, up till within a very short period of his decease, which occurred in 1832, in the eighty-third year of his age. — Life of Chapman, London, John Weale, 49 SIR WILLIAM CONGKEVE, BART., F.R.S. Portrait taken from a Picture in. the possession of Lady Congreve Whitin Bom in Middlesex, May 30, 1773. Died May 3, 1838. Sir WilKam Congreve was tlie son of the first baronet, an Artillery officer of the same name. He entered early iato the branch of military service his father had pursued, and, in 1816, attained in it the rank of Lieutenant- Colonel. He was also at this time equerry to the Prince Regent, which office he retained on the occasion of his quittiag the military service in 1820. Congreve very early distiaguished himself by his inventions ia the construction of missiles. He invented the rocket which bears his name in the year 1808, and suc- ceeded in establishing this destructive engine of warfare as a permanent instrument in military and naval tactics, both at home and abroad. It was used by Lord Cochrane in his attack on the French squadron in the Basque roads, in the expedition against Walcheren, at "Waterloo, and with most serviceable effect in the attack on Algiers. It was also used at the battle of Leipzig in 1813, and for its service on this occasion the Order of St. A Tine was conferred on Sir William by the Emperor of Russia. Since that time the rocket has been much improved and modified, and has become an essential part of every armament, not ia England alone, but universally. Sir William Congreve was elected a Fellow of the Royal Society in the year 1811. In 1812 be became a member of Parliament for Gatton, and in 1820 and 1826 for Plymouth. He succeeded his father as baronet in 1814. Besides the above important invention, Sir William wrote and published 50 CONGKEVE. in 1812 an ' Elementary Treatise on tlie Moimting of Kaval Ordnance,' and in 1815 ' A Description of the Hydro Pneuma- tic Lock.' Duriag the course of the same year he obtained a patent for a new mode of manufacturing gunpowder. This invention consisted, first, of a machine for producing as perfect a mixture as possible of the ingredients ; and, secondly, of an improved mode of passing the mill-cake under the press, and a new granulating machine. In 1819 a patent was granted to him for an improved mode of inlaying or combining different metals, and another for certain improvements in the manufacture of bank-note paper for the prevention of forgery. The last public service performed by Sir William was the drawing np and publishing, in 1823, a very interesting report on the gaslight establishments of the metropolis. In 1826 he became mixed up in the speculative mania which prevailed at that period, and on the ebbing of the tide, was compelled to seek refuge on the continent at Toulouse, where he shortly afterwards died at the age of fifty-six. — Annual Register, 1828. 51 SAMUEL CROMPTON. Portrait taken from the Picture hy Allingham, in the possession of Mrs. Kennedy. Born December 3, 1753. Died June 36, 1827. Few men, perhaps, have ever conferred so great a benefit on their country and reaped so Kttle profit for themselves as Samuel Crompton, inventor of the Spinning Mule. He was born at Firwood, in the township of Tonge near Bolton, where his parents occupied a farm, and spent their leisure hours according to the custom of the period — ^in the opera- tions of carding, spinning, and weaving. Soon after the birth of Samuel, the Cromptons removed to a cottage near Lower "Wood in the same township, and afterwards, when their child was five years old, to a portion of the neighbour- ing ancient mansion called Hall-in-the-Wood. Almost im- mediately after this last removal Samuel's father died, at the early age of thirty-seven, and he was left to be brought up under the care of his mother, a prudent and virtuous woman, who took care that her son should have the benefit of all available means of education. Samuel first attended the school of Mr. Lever in Ohuich Street, Bolton, but was very early removed to the school of William Barlow, a master well known at. that time for his success as a teacher of writ- ing, arithmetic, and the higher branches of mathematics. From the exigences of her situation, Mrs. Crompton was compelled to take advantage of her son's assistance, as soon as she possibly could, and there is little doubt that Samuel's legs must have been accustomed to the loom almost as soon as they were long enough to touch the treddles. Little, however, is known of his early life until the year 1769. He E 2 62 CllOMPTON. •was tlien sixteen years old, and continued to reside witli his mother, occupied during the day at the loom, and spending his evenings at a school in Bolton, where he advanced his knowledge of algebra, mathematics, and trigonometry. For some years previous to this period there had been a greatly increased demand for aU kinds of cotton goods, particularly for imitations of the fine muslins imported from India ; and m.any attempts were made by the manufacturers in Lanca- shire and Scotland to produce similar fabrics but without success. The handspun yarn of this country could not com- pete with the deKcate filaments produced by Hindoo fingers. Still, the demand for fine cottons of various kinds was so con- siderable, that the weavers, for the sake of high wages, were stimulated to make great exertions. But they were continu- ally impeded by the scarcity of yam for weft, which often kept them idle half their time, or compelled them to collect it in small quantities from the cottages round about. Another important cause of this scarcity had been the invention of the fly-shuttle, by Kay of Bury, in 1738, which by doubling the speed of the weaver's operations, had de- stroyed the arrangement which, up to that time, existed between the quantity of yarn spim, and the weavers' demand for it. This natural balance, the fly-shuttle suddenly dis- turbed, and, notwithstanding the great efforts of others, it was not again adjusted until after Crompton's invention was" in full operation. Such was the weavers' state of starvation for yarn, when, in 1767, Hargreaves invented the jenny, which enabled a number of threads to be spim at the same time. It was on one of these machines with eight spindles, that Samuel Crompton was in the habit of spuming the yarn which he afterwards wove into quilting, and he contiaued thus occupied for the five following years. During this period, being debarred from company and accustomed to solitude, he began to show a taste for music; to gratify CROMPTON. .53 wHcli he was led to the first trial of his mechanical skill in makiag a violin, upon which he (jommenced learning to play. With this musical friend Crompton would beguile many a long winter night, or during the summer evenings wander contemplatively among the green lanes, or by the margin, of the pleasant brook that swept round the romantic old resi- dence, of Hall-in-the-Wood. . He had, however, little leisure in general to spend with his favourite instrimient ; the neces- sities of his situation compelled hiTn to perform daily a certain amount of weaving, and he only succeeded in per- forming this at the expense of much time lost in mending the ever breaking ends of the yarn spun on Hargreave's machine, which was of a very soft natiire, and qidte unfitted for warps or for the muslins so much in demand. During this same period Arkwright had risen to eminence, by adopting the. inventions of Highs, and one Kay a clock- maker, and had constructed his water-frame, which by means of rollers produced thread of a very superior texture and firmness. It remained, however, for Crompton to combine in his machine the improvements of Hargreaves and Ark- wright, and hence was derived the name given to it of the Spinning-Mule. ■ Crompton commenced the construction of this machine, which for many years was known by the name of the 'Hall-i'- th'-Wood Wheels,' in the year 1774. His first spinning-mule was constructed chiefly in wood, by the aid of a scanty supply of tools which had been left by his father, who, enthusiastically fond of music, had shortly before his death commenced making an organ. With the help of these tools, and the assistance which a small wayside smithy afibrded him, Samuel Crompton completed that invention which, from the extended benefits it has conferred upon our commerce, entitles him to rank amongst the greatest inventors Britain has ever pro- duced. The important part of his invention was the spindle carriage, and the principle of there being no strain upon the 54 CROMPTON. tliread until it was completed. This was accomplished by caiising the carriage with the spindles to recede by the move- ment of the hand and knee, just as the rollers delivered out the elongated thread in a soft state, so that it would allow of a considerable stretch, before the thread had to encounter the stress of winding upon the spiadle. " This," as the late Mr. Kennedy of Manchester truly said, "was the corner stone of his invention." When Crompton was on the eve of completing his first mule, about the year 1779, the Blackburn spinners and weavers, who had previously driven Hargreaves from his home, again commenced their riotous proceedings, and began to destroy all the Jennys round about, which had more than twenty spindles. Crompton, fearful lest his new machiae should meet with a similar fate, took it to pieces and kept it hid in a loft above the ceiling of his room during several weeks. In the course of the same year, however, the Hall- i'-th'-Wood AVheel was completed, and the yarn spun on it proved fit for the manufacture of muslins of an extremely fine and delicate texture. Shortly before this, Crompton had married Mary Pimlott, the daughter of a gentleman residing at New Keys Hall near Warrington. After his marriage he lived in a cottage attached to the old Hall, though he still continued to occupy part of the mansion, in one of whose large rooms he now operated upon the mule with the utmost secrecy and with perfect success, startling the mantifacturing world by the production of yarn which both in fiiieness and firmness had hitherto been unattainable. This seems to have been the happiest portion of Crompton' s life. He was then twenty- seven years of age, and the acknowledged inventor of a machine which, from the first hour of its operation, altered the entire system of cotton manufacture in this country. Its merit was tmiversaUy acknowledged by all engaged in the trade who had an opportunity to examine the yarn spun on CKOMPTON. 55 it, or the fabrics made from that yarn ; but paradoxical as it may appear, the very perfection of Ms prineipk of spinning, was in a measure instrumental in depriving Tn'm of the harvest for which he had so laboriously worked. The demand for his yarn became so extensive and urgent, that the old HaU was literally besieged by manufacturers and others from the surrounding districts — ^many of whom came to purchase yarn, but many more to try and penetrate the mystery of the new wheel, and to discover if possible the principle of its operations. All kindB of stratagems were practised in order to obtain admission to the house ; and one inquisitive adventurer is said to have ensconced himself for some days in the cockloft, where he watched Samuel at work through a gimlet-hole pierced through the ceiling. Crompton, at length wearied out, and seeing the utter impossibility of retaining his secret, or of spinning upon the machine with the undisturbed secrecy he desired, yielded to the urgent solicitations, and liberal but deceitftd promises of numerous manufacturers, and surrendered to them not only the secret of the principle upon which he spun the much prized yarn, but likewise the machine itself. This he did on the faith of an agreement drawn up by themselves, in which they promised to subscribe certain sums as a reward for his improvement in spinning. No sooner, however, was the mule given up to the public than the subscriptions entirely ceased, and many of those who had previously put down their names evaded or refused payment ; some actually denounced Crompton as an impostor, and when he respectfully put before them their own written agreement, asked biTn how he dared to come on such an errand ! The gross sum of money realized by this subscription amounted to between 50 and 100/. Mr. Crompton him- self says : "I received as much by way of subscription as built me a new machine, with only four spindles more than the one I had given, up — ^the old one having forty-eight, and 56 CROMPTON. the new one fifty-two spindles." This shameful treatment rested in Crompton's memory through Hfe, and to the morbid distrust of his feUow-men, which it engendered, may be ascribed many of the misfortimes which attended his suc- ceeding Hfe. About the year 1785 Mr. Crompton removed from the 'Hall-in-the-Wood' to a farmhouse at Oldhams, in the town- ship of Sharpies, about two miles from Bolton. Here he farmed several acres of land, and kept three or four cows ; while in the upper story of the house was erected his spin- ning-mule, upon which he continued to spin with as much privacy as possible. He was, nevertheless, still troubled by many curious visitors, who were desirous of seeing the im- provements he was supposed to have made on it. Among others he received two visits from the first Sir Robert Peel, then an eminent though im.titled manufacturer, who came with the hope of inducrag Crompton to join his establish- ment, and on his second visit made him an offer of partner- ship. It is much to be regretted that this offer was declined, as Mr. Peel's enterprising business character was exactly that most suited for supporting Crompton's great inventive genius. Had these two men continued as partners at this particular time, the successful development of the cotton trade would have been hastened by at least twenty years, while a large and well deserved fortune might have been secured to Crompton and his children. Excelling aU other spinners in the quality and fineness of his yarn, Crompton continued to obtain a high price for all he could produce, but his production was restricted to the work of his own hands, (an increasing family having deprived him of the aid of his wife) ; for whenever he commenced' to teach any new hands to assist him in his work, no matter how strictly they were bound to serve bi'm by honour, by grati- tude, or by law, as soon as they acquired a little knowledge and experience under his tuition, they were invariably CROMPTON. 57 seduced from his service by his wealthy competitors ; so that he was iiltimately compelled to renoimce the use of his mules, and betake himself to his original occupation of weaving, or at least to spin only such yarn as he could employ in his own looms as a small manufacturer. In 1800 some gentlemen of Manchester, among whom ought to be mentioned Mr. George Lee and Mr. Kennedy, sensible that Mr. Crompton had been illused and neglected, agreed, without his knowledge, to promote a subscription on such a scale as would result in a substantial reward for his labours. But this scheme, although generous and noble in its intention, in a great measure failed. Before it could be carried out, the country suffered severe distress from a failure in the crops ; in addition to this the horrors of the French Revolution approached their crisis ; war broke out, and trade was all but extinguished. Ultimately, all that coiild be realized amounted to about 450^., and this was handed over to Crompton to enable him to increase his operations in spuming and weaving. In October, 1807, Mr. Crompton, in the hopes of gaining the patronage of Sir Joseph Banks, wrote a letter to him, but imfortunately addressed it to Sir Joseph Banks, President of the Society of Arts, and it is probable that Sir Joseph never read the letter, but transmitted it to the Society to which it was addressed ; in any case, no notice was taken of this letter, and Crompton' s too m.orbidly sensitive mind thus received an additional woimd. Two or three years after this, his family circumstances became very precarious, and in the tmdefined hope of yet obtaining some recompense for his labours which might better his position, Crompton, in the year 1811, commenced a statistical investigation into the residts of his invention. For this purpose he visited the various manufacturiag- dis- tricts of Great Britain, and from the information he obtained, calculated that between four and five millions of mule spindles 58 CKOMPTON. were then in actual use. But this estimate was afterwards found to be much too low, as it did not include any of the numerous mules used in the manufacture of woollen yarn. A story is told of Mr. Crompton, that, when at Grlasgow engaged in collecting this information, he was invited to a compHmentary dinner, but his courage was unable to carry him through so formidable an ordeal ; and so when the time came for going, to use his own words, " rather than face up, I first hid myself and then fairly bolted from the city." Mr. Crompton laid the result of his investigations before some kind friends* at Manchester, who undertook to draw up a memorial to Parliament on his behalf. But in this matter Crompton's continued ill-fortune was singularly displayed. When the time came for the grant to be proposed to Parlia- ment (May 11, 1812), Mr. Percival, the Chancellor of the Exchequer, who had intended proposing 20,000/. as the sum to be awarded, was assassinated while entering the lobby of the House of Commons. Crompton's petition was conse- quently postponed, and ultimately 5000/. was all that was awarded to the Inventor of the Spinning-Muk; and thus, after having haunted the lobby of the House of Commons for five wearisome months, Samuel Crompton went back to Bolton with this shadow of a national reward. Late in Life Mr. Crompton's family became dispersed, and as old age crept on he became less and less fitted for business, and now for the first time sank into actual poverty. A noble efibrt was, however, made by some of the inhabi- tants of Bolton to rescue him from his distressing position, and by their efforts an annuity of 63/. per annum was secured to him for the remainder of his life. In the year 1827 Samuel Crompton's melancholy life came to an end. He died at his house in King Street, Great Bolton, aged seventy-three, of no particular complaint, but « Mr. Lee, Mr. Kennedy, and Mr. George Duckworth. . ., CKOMPTON. 59 by tlie gradual decay of nature. His body was placed in a grave near tbe centre of the parish cliurcliyard, underneatb. a flagstone with tbe following inscription : — " Beneath this stone are interred tbe mortal remains of Samuel Crompton, of Bolton, late of Hall-i'-tb'-Wood, in tbe township of Tonge, inventor of tbe spinning machine called tbe Muk ; who de- parted this Hfe the 26th day of June, 1827, aged seventy-two years."* — The Idfe and Times of Samuel Crompton, 8[c., by Gilbert J. French, F.8.A., &c. Manchester and London, 1860. * There is an unaccountable mistake of one year in Mr. Crompton's age as eugrayed on his tombstone. 60 JOHN DALTON, D.C.L., L.L.D., F.E.S., L. and E. MEMBER OF THE INSTITUTE OF FRANCE. Portrait taken from the Picture hy Allen, in the possession of the Literary and Philosophical Society of Manchester. Born September 5, 1766. Died July 37, 1844. John Dalton was born at Eaglesfield, a small village in Cumberland. His father, Joseph Dalton, was a woollen- weaver, and at the birth of his second son, John, gained but a scanty subsistence by weaving common country goods. At the death of his elder brother, however, he inherited a small estate of sixty acres, which enabled him to give up weaving. John Dalton had consequently few opportunities of obtaining a good education ; he was emphatically self-taught, and from his very childhood began to acquire those habits of stem self- reliance and indomitable perseverance which in after life, rather than any direct inspirations of genius (as Dalton himself used to affirm), enabled him to work out his grand discovery of the "Atomic Theory." Dalton attended the schools in the neighbourhood of Eaglesfield until eleven years old, by which time he had gone through a course of mensuration, surveying, and navi- gation. At the age of twelve he begun to teach in the village school, and for the next two or three years continued to be partially occupied in teaching and in working on his father's farm. When fifteen years old he removed to Kendal, to become an assistant in df boarding school established there ; and, after remaining in this capacity for four years, he determined to undertake, with the assistance of his elder brother, the management of the same school. Dalton con- DALTON. 61 tinued to be connected with this school for the next eight years", during which time he occupied his leisure in studying Greek, Latin, French, and Natural Philosophy, and was also a fre- quent contributor to the ' Gentleman's and Lady's Diaries,' two periodicals then in considerable repute. While residing at Kendal, Dalton became acquainted with Mr. Gough, a man who, though blind from infancy, was yet possessed of high scientific attainments. "With this gentleman he con- tracted an intimate friendship, and in 1793 was inAdted, chiefly through Mr. Gough's favourable recommendation, to join a college, established in Manchester by a body of Protestant dissenters, as tutor in the department of mathe- matics and natural philosophy. He resigned this appoint- ment after holding it for a period of sis years, but continued to reside in Manchester during the whole of his subse- quent life. In September 1793 Dalton published his first work, en- titled ' Meteorological Observations and Essays,' the materials of which were, however, collected, and the work entirely completed during his residence at Kendal. A second edition was printed in 1834, and he continued to pay much attention to this subject until within a short period of his death, by which time he had recorded upwards of 200,000 meteorolo- gical observations. In the year 1794 Dalton became a member of the Literary and Philosophical Society of Manchester, of which, during the course of his life, he iilled ia succession all the more im- portant offices ; including that of the presidentship, which he held from the period of his election in 1817, until his death in 1844. On the 31st of October, 1794, he read his first paper to this Society, entitled, 'Extraordinary Facts relating to the Vision of Colours,' in which he gives an account of a singular defect in his own vision, known by the name of colour-blindness, which rendered him. incapable of distinguishing certain colours, such as scarlet and green. 62 DALTON. He first became aware of this defect in his sight from the following circiimstance. When a boy he had gone to see a review of troops, and being surprised to hear those arOimd him expatiating on the gorgeous effect of the military cos- tume, he asked, " In what a soldier's coat differed from the grass upon which he trod," a speech which was received by his companions with derisive laughs and exclamations of wonder.* Until Dalton had announced his own case, and described the cases of more than twenty persons similarly circumstanced, this peculiar form of blindness was supposed to be very rare. In the annals of the above-mentioned Society, Dalton published a long series of important essays, among the most remarkable of which are some papers read in the year 1801, entitled, 'Experimental Essays on the Constitution of Mixed Grases ; ' ' On the Force of Steam or Yapour and other liquids at different temperatures in a vacuum and in air ; ' ' On Evaporation,' and ' On the Expan- sion of Gases by Heat.' In January 1803 he read to the same Society an inquiry ' On the tendency of Elastic fluids to diffusion through each other,' and in October of the same year wrote an Essay containing an outline of his speculations on the subject of the composition of bodies, in which he gave to the world for the first time a ' Table of Atomic Weights.' In the following year he communicated his views on the theory of definite proportions to Dr. Thomas Thomson, of Glasgow, who at once published an abstract of them ; and in 1808 Dalton himself published the first volume of his new system of Chemical Philosophy, in which he placed the Atomic Theory on a firm and clear basis, and established the law of Multiple Proportions. The value of Dalton' s researches on this great subject is immense ; by the promulgation of his views Chemistry became for the first time a science, and one great law or theory was seen to govern its actions; heretofore it was a series of separate * Memoir, by Dr. T. S. Trail, Bncyclopcedia Britanniea. BALTON. 63 facts, but by tbis fondamental law and its branebes, and by tbis only, it is preserved as a science. During bis later life Dalton continued to gain bis living as professional cbemist, lecturer, and teacber of Cbe- mistry and Matbematics, and contributed to tbe advance^ ment of science many valuable papers cbiefly relating to Cbemistry ; be was also accustomed in bis analytical re- searcbes to use tbe graduated dropping tube, and may be considered as tbe originator of analysis by volume. About tbe year 1833, at tbe meeting of tbe Britisb Association in Cambridge, it was announced by Professor Sedgewick tbat tbe King bad conferred on Dalton a pension of 150^. per annum, wbicb was increased in 1836 to 300/. ; and bis brotber Jonatban dying about tbe same time leaving bim beir to tbe paternal estate, be became comparatively wealtby. He, bowever, still contiaued working according to bis strengtb, and so late as 1840 pubbsbed four Essays, entitled, ' On tbe Pbospbates and Arseniates;' ' Microcosmic Salt;' 'Acids, Bases, and Water;' and 'A New and Easy Metbod of Analysing Sugar.' In 1837-8 Dalton was attacked by paralysis, wbicb greatly enfeebled bim; be, bowever, lived tiU tbe year 1844, wben a tbird attack occurred, from wbicb be never recovered, but died sbortly afterwards in bis seventy- eigbtb year. Dr. R. Angus Smitb tbus describes Dalton's mode of life wbile living witb tbe family of tbe Rev. W. Jobns, of George Street, Mancbester, witb wbom Dalton continued to reside for twenty-six years : " He rose at about eigbt o'clock in tbe morning ; if in winter, went witb bis lantern in bis band to bis laboratory, ligbted tbe fire, and came over to breakfast wben tbe family bad nearly done. Went to tbe laboratory and staid tUl dinner-time, coming in a burry wben it was nearly over, eating moderately, and drinking water only. Went out again and returned about five o'clock to tea, still in a burry, wben tbe rest were finisbiug. Again to bis 64 DALTON. laboratory till nine o'clock, when he returned to supper, after which he and Mr. Johns smoked a pipe, and the whole family seems much to have enjoyed this time of conversation and recreation after the busy day. — Life of J. Datton, by William Charles Henry, M.D., F.R.8., &c., London, 1854.— Life of J. Dalton, by Robert Angus Smith, Ph.D., F.R.S., &c., London, 1856. 65 SIR HUMPHRY DAVY, BART., LL.D., P.R.S., &c., MEMBER OF THE INSTITUTE OF FRANCE, ETC. Portrait taken from the Picture by Sir Thomas Lawrence, P.R.A., in the possession of the Royal Society. Born December 17, 1778. Died May 30, 1829. Tliis emiaent philosoplier was born at Penzance, in Corn- wall. As a child lie was remarkably healthy and strong, displaying at the same time great mental capacity. The iirst school he ever attended was that of Mr. BusheU, at which reading and writing only were taught. In these rudimentary branches of education he soon made such progress, that he was rem.0Ted, by the master's advice, to the grammar school kept by the Rev. Mr. Coryton. He was then only six years old. Here Davy received the elements of his education until 1793, when he went to the grammar school of Truro, con- ducted by the Rev. Mr. Cardew, at which place he continued for about a year. Both Davy and his family received much assistance from the disinterested friendship of Mr. Tonkin, a respectable medical practitioner at Penzance, who had adopted the mother of Davy and her sisters, under circumstances of deep distress, extending his kindness to aU her family, particularly to Hujnphry. Soon after leaving Dr. Cardew's school, Davy's father died, in 1794 ; and in the following year Humphry was appren- ticed to Mr. Bingham Borlace, a gentleman at that time practising as a surgeon-apothecary in Penzance. While yet very young, Davy had exhibited traces of an ardent and inquisitive mind, displaying also a great predilection for 66 DAVY. poetry ; but from this period lie directed his attention more particularly to the study of chemistry and natural philosophy. His efforts at attaining an experimental knowledge of the above sciences were, however, greatly retarded by the defects of his apparatus, which was necessarily very limited, and consisted chiefly of phials, wine-glasses, tobacco-pipes, and earthen crucibles. But about this time he had the good fortune to make the acquaintance of Mr. Davies Giddy Gtilbert and Mr. Gregory Watt, by whose instrumentahty the subject of our memoir was introduced to Dr. Beddoes, who engaged him to superintend a pneumatic medical insti- tution, which that able but eccentric man had just then established at Clifton, for the purpose of trying the effects of gases upon various diseases. This event took place in 1798, Mr. Borlace readily giving up Davy's indenture, which had not as yet expired. During his residence at Clifton, Davy was placed in a sphere where his genius could expand ; he was associated with m.en engaged in similar pursuits, was provided with suitable apparatus, and enabled to speedily enter upon that brilliant career of discovery which has ren- dered his name illustrious among philosophers. Soon after he had removed to the neighbourhood of Bristol, Davy's first published paper, on ' Heat, Light, and Respira- tion,' appeared in 'Beddoes' West Country Contributions.' His earliest scientific discovery was the detection of siliceous earth in the epidermis of canes, reeds, and grasses. About the same period, he began to investigate the pro- perties of gases, and discovered the respirabUity of nitrous oxide, giving, in a letter to his friend Mr. Davies Gilbert (dated April 16, 1799), the first intimation of the intoxicating qualities of that gas. Shortly afterwai'ds he examined its properties more accurately, administering it to various indi- viduals, and published an account of his discoveries in a volume entitled ' Researches Chemical and Philosophical, chiefly concerning Nitrous Oxide and its Respiration.' While DAVY. 67 the favourable impression from this publication was still fresh on the public mind, the establishment of the Royal Institution, under the auspices of Count Rumford, had taken place, and a lecturer of talent was wanting, to fill the chemi- cal chair. Through the recommendation of Dr. Hope of Edinburgh, with whom he had become acquainted, Davy received the appointment, and became lecturer to the insti- tution and director of the laboratory. Although endowed with few personal advantages, Davy, by his ingenuity and happy facility of illustration, soon rendered his lectures highly popular, and at the early age of twenty- two, found his company courted by the choicest society of the metropolis. An anecdote is told illustrative of his popu- larity, even among the more humble classes. While passing through the streets one fine night, he observed a man showing the moon through a telescope to the surrounding bystanders; Davy stopped to have a look, and having satisfied his curiosity, tendered a penny to the exhibitor. The man had, however, in the m^eanwhile, learnt the name of his customer, and exclaimed, with an important air, that he could not think of taking money from a 'brother philosopher.' Davy's style of lecturing was animated, clear, and impressive, notwithstanding the naturally inharmonious tones of his voice ; whilst the ingenuity of his happily devised experi- ments, and the neatness of their execution, were calculated to fix the attention of his hearers. At this time, experim^ental chemistry began to be the fashion of the day. Voltaic electricity had just been fouad to possess extraordinary powers in efiecting the decomposition of chemical compounds ; and by the liberaKty of the Royal Institution, Davy was put in possession of a battery con- sisting of 400 5-inch plates, and one of 40 plates, 1-foot in diameter, with which batteries his early and most brilliant investigations were conducted. His first communication to the Royal Society was ' An F 2 68 DAVY. Account of some Galvanic Combinations formed by an Arrangement of Single Metallic Plates and Fluids,' read ia June, 1801. In this paper, he showed that the usual galvanic phenomena might he energetically exhibited by a siagle metallic plate, and two strata of diflPerent fluids ; or that a battery might be constructed of one metal and two fluids, provided one of the fluids was capable of oxidizing the sur- face of the metal. In the following year to this, Davy was appointed professor to the Board of Agriculture, and ia 1803 was admitted a member of the Royal Society, of which he became first the secretary, and ultimately the president. To the ' Philosophical Transactions' of this society he con- tinued to contribute papers on different branches of experi- mental philosophy ; and it is on these papers that his claims to celebrity almost entirely rest. From 1802 to 1805, Davy published several minor papers ; but in the following year appeared his first Bakerian lecture, read to the Royal Society in November, 1806, in which he detailed the phenomena of electro-chemical decomposition, and laid down its laws ; while in his second lecture, read in the November following, he announced the successful application of these principles, and the discovery of the metallic bases of the fixed alkalies, witnessed by the production of two new metals, which he named potassium and sodium. This splendid discovery was fully confirmed by Guy Lussac and Thenard, who, in the following year, succeeded in decomposing potash by iron filings, in a red-hot gun barrel. From 1808 to 1810, Davy gave three more lectures, in which he annoimced the residts of his further chemical investigations. It may be interesting to remark that the original batteries of the institution were so worn during the course of his experiments, as to be unserviceable ; a liberal voluntary subscription, however, amongst the members, in July 1808, put hiin in possession of the most powerful voltaic battery ever constructed, con- sisting of 2000 double plates, with a surface equal to 128,000 DAVY. 69 square inches. The results produced by this tremendous power did not, however, add to science one new fact of any importance. All Davy's great voltaic discoveries were made before it was in use, and it only served to show the phe- nomena of galvanism with greater brilliancy. Mr. Davy's reputation was now at its height, and he was invited by the Dublin Society to give a course of lectures on electro-chemical science. For these lectures, which were com- menced on the 8th, and concluded on the 29th of November, 1810, he received 600 guineas. In the following year he was invited to give two more courses, on: the Elements of Chemical Philosophy, and on Geology, for which he received 750/., — the Provost and Fellows of Trinity CoUege also con- ferring on him the degree of LL.D. In 1812, Davy dissolved his connection with the Eoyal Institution, by giving a fare- well lecture on the 9th of April ; on the preceding day he had received the honour of knighthood from the hands of the Prince Regent, and on the 11th of the same month was married to Mrs. Apreece, daughter and heiress of Charles Kerr, of Kelso, and the possessor of an ample fortune. During the next two or three years. Sir Himiphry communicated several papers to the Royal Society, but they contained little of importance to science. Whilst experimenting, in the latter part of 1812, upon azote and chlorine, he was severely wounded in the eye by the explosion of these substances ; and it is a strong proof of his energy, that when his eye was sufficiently recovered, he renewed his experiments upon the same bodies, and was again wounded in the head and hands, but this time slightly, as he had taken the precaution of defending his face by a plate of glass. In the autumn of 1813 he obtained the permission of Napoleon to travel in France, whither he proceeded, accom- ■ panied by his lady and Mr. Faraday. From France, Davy proceeded to Italy, where he spent the winter, returning to 70 DAVY. London on the 23rd of April, 1814. During his stay in Italy, he collected specimens of the colours used by the ancients in their pictures. This formed the subject of a memoir to the Royal Society, the most interesting part of the paper being the announcement that the fine blues of the ancients were formed of silex, soda, and copper, and that they may be exactly imitated by strongly heating together, for the space of two hours, three parts of copper filings, fifteen of carbonate of soda, and twenty of powdered flint. In the year 1816, Davy turned his attention to a m.ethod of preventing the dreadful accidents in coal mines, from explosions of the fire-damp. After considerable investigation, he found that this gas would not explode when mixed with less than six times or more than fourteen times its volume of atmospheric air ; also, that if a candle be burnt in a close vessel, with small apertures above and below the flame, no explosion will take place, even in an explosive mixture, but that ia this case the flame within will be enlarged, but will not extend outwards. Working from these principles, he proposed several kinds of lamps, but all were finally super- seded by the simple one known as the Davy safety-lamp, in which a small oil light is covered by a cylinder of wire gauze, through the small apertures of which flame will not pass through, and the explosion is thus prevented from extending outside the wire gauze. The introduction of this beautiful invention, although freely given to the public, was for a time violently opposed by prejudice and passion. Experience, however, showed the comparative safety which the miners who used it possessed, and the coal-owners of Newcastle and the vicinity presented Davy with a superb service of plate, as some recognition of the important benefit he had conferred on therd. During the later years of Sir Humphry Davy's Hfe, various commttnications appeared from him to the Royal Society, none, however, presentiag any very remarkable features. In DAVY. 71 November, 1820, a few montlis after the death of Sir Joseph Banks, he was elected president of the above society. In 1823 he repeated the interesting experiment of Mr. Faraday, as to the condensation of gases by mechanical pressure, and succeed- ed in converting sulphurous acid and prussic acid gases into liquids, by heating them in strong sealed tubes. During the same year he investigated the causes of the rapid decay of copper sheathing on ships, and attributing this to electro- chemical action, succeeded in preventing it, by attaching plates of iron or zinc to the copper. This, however, on being tried practically, was found to introduce a new and unlooked for evil, viz., excessive fouling of the bottoms of ships so protected. Davy's plan was thus rendered utterly useless, much to his mortification. During the later portion of his life. Sir Humphry was in very infirm health, and in 1828 he determined to go abroad. Proceeding into Italy, he fixed his residence at Rome, whence he sent his last comm.unication to the Royal Society, viz., ' Remarks on the Electricity of the Torpedo.' The chief peculiarity of this paper was the discovery that the electricity of this curious creature had no effect on the most delicate galvanometer. "While staying at Rome, Sir Humphry was seized with a paralytic attack, which greatly alarmed his friends. Shortly afterwards he left Rome for Greneva, on reaching which city an attack of apoplexy seized him during the night, which terminated fatally. The funeral took place on the 1st of June, 1829, with all the honour and respect the inhabitants of Greneva could testify. His remains were deposited in the burying-ground of the city, without the walls, the spot being marked by a simple monument, with a Latin inscription, erected by Lady Davy. — lAfe of Sir H. Davy, by his brother, John Davy, M.D., F.R.S. London, 1839. — Memoir hy Br. Thomas Trail, Encyckpcedia Britannica. — Weld's History of the Royal Society, with Memoirs of the Presidents. London^ 1848. 72 PETER DOLLOND. Portrait taken from the Picture hy J. Soppner, R.A. Born February 2, 1731. Died July 9, 1830. Peter Dollond, the subject of the present memoir, was the eldest son of John Dollond, the celebrated inventor of the Achromatic E-efracting Telescope, who, during the greater portion of his life, was engaged in the business of a silk- manufacturer, in Stuart Street, Spitalfields. Here Peter Dollond was born and spent the early portion of his life. On reaching manhood he engaged in the same occupation as his father, and for several years they carried on their manufac- tures together in Spitalfields. Peter Dollond had, however, acquired some knowledge of the theory of Optics, and he determined, if possible, to tujrn the knowledge he had gained to the improvement of himself and his family. He accord- ingly commenced business as an optician, under the direction of his father, in the year 1750, occupying a small house in Vine Street, Spitalfields. In 1752 John DoUond, who up till then had pursued his original occupation, grew weary of pursuits so little in accordance with the natural bent of his mind, and entered into partnership with his son, in a house near to Exeter Change, ia the Strand. Here father and son began and continued that series of experimental researches which, in June 1758, . led to the memorable conclusion on which was founded the construction of the Achromatic Re- fracting Telescope. In the following year a patent was obtained for the exclusive sale of these telescopes, but so limited were the means of the authors of this invention, that, in order to defray the expenses of the patent, they were com- pelled to sell a moiety of its value to an optician, with whom DOLLOND. 73 they entered into partnership. Notwithstanding the great practical value of this discovery, it produced little benefit for some years to the owners of the patent. In 1761 John DoUond died, leaving to his son Peter the task of carry- ing on the business in partnership with the optician who had paid for the patent. This connection was, however, of short duration, for the conduct of his partner was so un- satisfactory, that in 1763 Mr. DoUond purchased from him his share in the business for 200/., the full commercial value of this most important discovery being considered at that time to be worth only 400/. Peter Dollond was now in possession of the entire patent, and he was soon called upon to contest its validity with the very man who had so lately been con- cerned in protecting it. These suits were uniformly decided in favour of Dollond, and although vexatious in their cha- racter, were of advantage to him, not only in their immediate issue, but also in extending the name, reputation, and sale of the object whose right of ownership was contested. Mr. Dollond now began to be more generally known, and made the acquaintance of many of the philosophical men of the time, becoming intimate with Dr. Maskelyne, the As- tronomer Royal at that period, and with Mr. James Short, a man highly distinguished in arts and science. To this latter gentleman he, in 1765, proposed an improvement in the Achromatic Telescope, which Mr. Short laid before the Royal Society, at the same time signifying that it had his entire concurrence and approval. Among other works of Dollond are an improvement of Headley's Quadrant, communicated to the Royal Society, in 1772, by the Astronomer Royal ; and an apparatus for the improvement of the Equatorial instru- ment, laid before the Society, through the same medium, in 1779. Mr. DoUond had now earned for himself a weU-deserved reputation. In 1786 the American Philosophical Society, un- 74 DOLLOND. soliciteS, and with the approval of Benjamin FranMin, elected him a member of their Society. About the year 1766 the optical business had been removed from the Strand to St. Paul's Churchyard, where it became so extensive and prosperous, that Mr. DoUond took into partnership his brother John. For nearly forty years the brothers resided here, endeavouring, by their cordial and united efforts, to improve and extend each branch of their profession. In 1804 John, the younger brother, died, and in the following year his place was supplied by a nephew, George Huggins, who, on being admitted into partnership, changed his name to Dollond, and eventually succeeded to the whole concern. In 1817 Peter DoUond took up his residence at Richmond HiU, remaimng there tiU June 1820, when he removed to Kennington Common, where he breathed his last, having arrived at his 90th year. — Memoir iy the Rev. Dr. Kelly. 75 BRYAN DONKIN, F.R.S., &c. Portrait taken from a Baguerrotype hy Beard. Born March S3, 1768. Died February S7, 18S5. Bryan Donkin was born at Sandoe, in Nortlmmberland. His father, who followed the husiaess of a surveyor and land agent, was acquainted with John Smeaton, the eminent engineer, from having had occasion to consult hi-m frequently on questions relating to the bridges and other works on the Tyne. Donkin early showed a taste for science and mechanics, and when almost a child was to be found continually occupied in making various ingenious mechanical contrivances. He commenced life in the same business as his father, being en- gaged for a year or two as land agent to the Duke of Dorset. Donkin, however, soon showed the bent of his- natural genius by quitting this agency, and going to consult Smeaton as to how he coidd best become an engineer. By Smeaton's advice, he apprenticed himself to Mr. Hall, of Dartford, in the carrying on of whose works he was soon able to take so active a part, that in 1801-2 he was princi- pally entrusted with the construction of a model of the first m.achine for making paper, the execution of which had been put into Messrs. Hall's hands by the Messrs. Fourdrinier. The idea of this machine originated with Mr. Roberts, and formed the subject of a patent, which was assigned to Messrs. Bloxam and Fourdrinier. After considerable expense had been incurred, and many trials made with the model, the paper produced was found to be of too inferior a quaKty for sale. The model remained at Mr. Hall's works for some time, till at length Donkin agreed with the owners to take the matter in hand himself, and for this purpose took 76 DONKIN. premises at Bermondsey (still occupied by his sons). In 1804 lie succeeded in produciag a machine which, on being erected at Frogmore, Herts, and set to work, was found to be successful, although still far from perfect. A second one, in which still further improvements were introduced, was consequently made the following year and erected at Two- waters ; and in 1810 eighteen more of these complex machines were erected at various mills, some of which are even now at work. The practical difficulties having been at length over- come, these machines soon superseded, both at home and abroad, the ordinary method of m.aking paper by hand ; and although the original idea was not Mr. Donkin's, still to him the credit is due of having developed, and practically intro- duced into general use, these most useful and complete mechanical contrivances, by means of which the process of making paper is carried on uninterruptedly from the liquid pulp to the perfect sheet ready for writing or printing. About the year 1812 Donkin's attention was turned to the subject of the preservation of m.eat and vegetables in air- tight cases, and he erected a considerable manufactory for this purpose at Bermondsey. Mr. Donkin was also one of the first to introduce improvements into printing machinery. In 1813 he, in conjunction with Mr. Bacon, secured a patent for a Polygonal printing machine, and in the sam.e year invented and brought into use composition rollers, by which some of the greatest difficulties experienced at that time in printing by machinery were overcome. Among other inven- tions and mechanical contrivances of Donkin's are a very beautiful screw-cutting and dividing machine ; an instru- ment to measure the velocity of the rotation of machinery ; and a counting engine : for the two last gold medals were awarded by the Society of Arts. In 1820 Mr. Donkin was much engaged with Sir William Congreve in contriving a method of printing stamps in two colours, with compound plates, for the prevention of forgery ; and with the aid of DONKIN. 77 Mr. Wilks, who was at that time his partner, he produced the beautiful machiae now used at the Excise and Stamp Offices, and by the East India Company at Calcutta. During the last forty years of his life Donkin was greatly occupied as a civil engineer, and was one of the originators and a -vice-president of the Institution of Civil Engineers, which was founded by one of his pupils, Mr. Henry Palmer, and a few other gentlemen, the Royal Charter being obtaiued by Mr. Telford and himseK. He died in his eighty-seventh year, having passed a long life in an almost uninterrupted course of useftdness and good purpose. — From the Proceed- ings of the Royal Society, Nov. 30, 1855, 78 WIILIAM JAMES FRODSHAM, F.R.S. Portrait taken from the Picture hy W. Yelhwlees, in tlie Portrait Gallery of the South Kensington Museum. Bom July 95, 1778. Died June 29, 1850. William J. Frodsham was bom in London, and brought up under tbe care of his grandfather, a great admirer of John Harrison, the inventor of the timekeeper for ascertaining the longitude at sea. From thus spending his early life with his grandfather, young Frodsham acquired a strong desire to engage ia the business of chronometer making, he was con- sequently apprenticed to a man eminent in that art. Shortly after completing his apprenticeship Mr. Frodsham, in tha year 1800, entered into partnership with Mr. W. Parkinson of Lancaster, and hence arose the celebrated firm of Parkin- son and Frodsham. During .his entire life Mr. Frodsham devoted himself to the advancement of the art he had engaged in, and being ably assisted by his partner effected various improvements in chro- nometers, watches, and other timekeepers, and was also the author of a paper on pendulum experiments. Mr. Frodsham lived to an advanced age, surviving his partner by many years. During his career he acquired a large fortune, which he bequeathed to his family, leaving at the same time a sum of 1000^. to the Olockmakers' Company, of which he had been Master several times during his Kfe. Mr. Frodsham died at Chatham place, Hackney, and was buried in Highgate Cemetery. 79 DAVIES GIDDY GILBERT, D.C.L., P.R.S. Portrait taken from the Picture hy S. Soward, B.A., in the possession of the Royal Society. Born March 6, 1767. Died December 94, 1839. DaTies Griddy Q-ilbert was bom at Tredrea, in tlie parish, of St. Ertli, in the west of Cornwall. His paternal name was Griddy, his father being the Rev. Edward Giddy of St. Ertb. His mother, an heiress of very considerable property, was Catberiae Davies, allied to the noble family of Sandys, and a descendant of William Noye, attorney-general ia the reign of Charles the First. Toimg Gfiddy, not beiag of very robust health, was reared with great care, and his education chiefly superintended by his father, who was an accompKshed scholar, and a man of acknowledged ability and attainments. As Gfilbert grew up, it was thought desirable to place bim in the grammar school at Penzance; and for this purpose his parents removed for about eighteen months to that town. In 1782 they went to Bristol, where their son's studies were assisted for some time by Mr. Benjamin Donne. In 1785 Gilbert matriculated at Oxford, and became a gentleman-com- moner of Pembroke College. He was already master of a con- siderable amount of mathematical and physical knowledge, the greater portion of which he had acquired by almost unassisted application. WMle residing at the University he associated with the senior menibers of his coUege, preferring their company to that of students of his own age ; and con- sideriag the natural bent of his tastes, which led him to prefer the study of the severer sciences to the elegancies of classical literature, it is not surprising that such should be the case. Dr. Parr, writing at this time to the late Master 80 GILBEKT. of Pembroke, speaks of Mr. Giddy, then twenty-three years old, as ' the Cornish Philosopher,' and adds that he deserved that name. Duriag his residence at Oxford, Gilbert was a regular attendant at the lectures on anatomy and mineralogy, de- liTered by Dr. Thompson, at Christ Church. He also attended with assiduity the lectures on chemistry and botany of Drs. Beddoes and Sibthorp, with whom he contracted a friendship, which terminated only with their lives. To the former of these two gentlemen Gilbert subsequently introduced his friend Sir Humphry Davy, at that time in comparatively humble life, but whose extraordinary combination of poetical and philosophical genius had attracted Gilbert's attention, and he thus had the merit and good fortune of contributing to rescue from obscurity one of the greatest discoverers in modem chemistry. Mr. Gilbert continued to reside principally at his college until the year 1793, when having previously taken the hono- rary degree of M.A., he returned to Cornwall to serve as sheriff, and to divide his time, between the cultivation of science and Kterature, and the duties of a magistrate in a populous and busy town. Previous to this, in the year 1791, he had been elected a Fellow of the Royal Society, his certi- ficate describiQg him as being " devoted to mathematical and philosophical pursuits." It was signed by Thomas Hornsby, Savilian professor of astronomy, G. Shuckburgh, N. Mas- kelyne, George Staunton, and other Fellows. In 1804 Mr. Gilbert became member of Parliament for Helstone, and at the general election ia 1806, was chosen to represent Bodmin, continuing to sit for that borough until December, 1832. He was emphatically the representative of scientific interests in the House of Commons, and was continually appointed to serve on committees of inquiry touching scientific and finan- cial questions. He acted as Chairman of the committee for rebuilding London Bridge, causing it to be widened ten feet GILBERT. 81 more than originally proposed, and he greatly contributed by his exertions to carry many very important pubKc projects, amongst which may be mentioned, the Breakwater at Ply- mouth, and the bill for the revision of weights and measures, of which he was appointed a commissioner. He w^s also a member of the Board of Longitude. On the 8th of April, 1808, he married Mary Arm Gilbert, only niece of Charles filbert of Eastbourne in Sussex, under whose will he came into possession of considerable estates in that county; and in compliance with its conjunctions, ob- tained permission to assume the name and arms of Grilbert. Mr. Gilbert contributed several important papers on mathe- matical subjects to the 'Philosophical Transactions.' In July, 1819, he succeeded Samuel Lyons in the office of trea- surer to the Royal Society, which office he retained until elected President in 1828. He was also the author of nmnerous papers in the ' Quarterly Journal of Science and Arts,' and presented the world with the fruits of his labours as an antiquary, by publishing, in 1838, 'The Parochial History of Cornwall,' in four volumes 8vo., founded on the manuscript histories of Mr. Hals and Mr. TonMn. Mr. Gilbert was a diligent collector of ancient traditions, legen- dary tales, songs, and carols, illustrating the manners of the Cornish peasants, and printed various ballads at his house at Eastbourne. He possessed great memory and powers of quota- tion and anecdote ; his conversation has been described as being a continued stream of learning and philosophy, adapted with excellent taste to the capacity of his auditory, and enlivened with anecdotes to which the most listless could not but listen and learn. " His manners," says Dr. Buckland, " were most unaffected, childlike, gentle, and natural. As a friend, he was kind, considerate, forbearing, patient, and generous, and when the grave was closed over him, not one man, woman, or child, G 82 GILBERT. who was honoured with his acqviaintance, but felt that he had a friend less in the world." Mr. GUbert retired from the chair of the Royal Society in 1830, and two years later from Parliament ; he did not, how- ever, resign himself to repose, but continued in many ways still to adyocate the cause of science. In 1839 he became much weaker in health and spirits ; and although he made a journey to Durham, and afterwards into Cornwall, where he presided for the last time at the Anniversary of the Royal Geological Society of Cornwall (of which he had been Presi- dent since its institution in 1814), he was evidently unequal to the exertions he was making. His last visit was to Oxford, which University had some years before conferred on him the title of D.C.L. From that period he never went into public, but bidding farewell to London, retired to his house at Eastbourne on the 7th of November, 1839, where he died on the 24th of the following December. His body was borne to the grave by his own labourers, and followed by Ms widow and family, which consisted of one son (the present J. D. Gilbert, F.R.S.) and two daughters. — Weld's Sistory of the Royal Society, icith Memoirs of the Presidents. London, 1848. 83 CHARLES HATCHETT, F.R.S. Portrait taken from the Picture by T. Phillips, R.A., in the possession of J. M. Brands, Esq., F.R.S. Bom January 3, 1765. Died March 10, 1847. Cliarles Hatchett was bom at a house in Long Acre, where his father carried on the business of a coachmaker. He was sent to a school known by the name of Fountayne's, situated in what was formerly called Marylebone Park. On leaving school, Mr. Hatchett continued to live for some time with his father, purposing to follow the same business ; he, how- ever, never took kindly to it, but spent the chief part of his time in perusing books of science, or in attending lectures on scientific subjects ; and his father, perceiving the bent of his inclination, made him a handsome allowance, to enable Vn'm to prosecute his studies. An amusing story is told by the Eev. Mr. Lockwood, Rector of Kingham, who was an intimate friend of Mr. Hatchett's, that one day he rem.embered asking Hatchett what first led bi-m to turn his attention to the study of chemistry ; he replied, that he believed it was his love for raspberry-jam; for when CLiiite a boy, he used to accompany his mother to the storeroom, and on one occasion, while as usual entreating for some jam, she locked the door, and putting the key in her pocket, told him he might now get as much as he could. This somewhat nettled the lad, and setting his wits to work, he remembered having read of the power of certain acids to dissolve metals. Young Hatchett accordingly purchased what he thought would suit his purpose, and applying it to the lock of the cupboard, gained an entrance, and carried off in triumph a pot of jam. G 2 84 HATCHETT. On the 24th of March, 1786, when just one-and-twenty, Mr. Hatchett married the only daughter of Mr. John ColHck, of St. Martin's Lane, and shortly afterwards, in company with his wife, visited Russia and Poland, where they remained for nearly two years. On returning to England, Mr. Hatchett established himself in a house at Hammersmith, which he fitted with an excellent laboratory, so as to be able to pursue his chemical studies. On the 9th of March, 1807, he was elected into the Boyal Society, his first paper having ap- peared in their ' Transactions ' in 1796 ; it was entitled, ' An Analysis of the Carinthian Molybdate of Lead, with Experi- ments on the Molybdic Acid ; to which are added, some Experiments and Observations on the Decomposition of the Sulphate of Ammonia.' This paper was followed by fifteen others, on various subjects, exhibiting the extent and research of his chemical investigations. Li one of these, published in 1802, and entitled an ' Analysis of a Mineral Substance from North America, containing a metal unknown,' Mr. Hatchett gives an account of his discovery of the metal Colimibium. During the later portion of his life, Mr. Hatchett was often called upon committees, whenever points of chemistry or other sciences were to be discussed. In 1818, he formed one of the commission, comprisiag amongst others Dr. Wollaston, Sir Joseph Banks, Sir Williani Congreve, Davies Gilbert, &c., appointed to authorize an inquiry into the best means of preventing the forgery of bank notes ; he was also one of the chemists (consistiag of Brande, Hatchett, "Wollaston, and Young) who met at Sir Joseph Banks's house, to decide on the respective merits of Sir Humphry Davy and Greorge Stephenson, in the matter of the safety-lamp. Besides his scientific attainments, Hatchett possessed great conversational powers ; he was good-humoured, fidl of droll- ery, and never at fault for some jocular or pleasant story, to amuse the company he might be with. At the Royal Society Club, of which he was a member, he was a great favourite, HATCHETT. 85 particularly with Sir Joseph Banks, who, after Dr. Johnson, used to caU him a clubable man. Sir John Barrow gives the following anecdote : — That " one day, at the club, Hatchett amused us with the story of a dream, which he prefaced by saying that, although it was ' such stuff as dreams are made of,' it still contained a reality in its conclusion, which had very much distressed him. He dreamt that he had lost his way, but came to a dark and dismal-looking building, into which he passed, through a forbidding sort of gate, opened by a black-looking porter, who closed it immediately after him. He walked on, and everywhere observed clumps of ill-looking people skirmishing and fighting, while a little beyond were other groups, weeping and in great distress ; further on still were flames of fire. Begioning to think he had got into a very bad place, he endeavoured to retrace his steps and get out again ; but the black doorkeeper refused to let him pass. A furious fight ensued, and he pummelled the negro- looking rascal, first with one fist and then with another. At length he was brought to his senses by a scream, which, to his dismay, proceeded from his poor wife, and he found that, instead of pummelling the black doorkeeper, he had given Mrs. Hatchett a black eye." In 1809, Mr. Hatchett was elected one of the chosen few of the Literary Club, origiually instituted by Dr. Johnson and Sir Joshua Reynolds ; and on the death of Dr. Bumey, in 1829, was appointed to the chief official station of treasurer to the club. In 1810 he took up his residence at Belle Vue House, Chelsea, where he continued for the remaiuder of his life, which terminated in 1847, Mr. Hatchett having then attained the advanced age of eighty-two. — Sketches of the Royal Society and Royal Society Club, by Sir John Barrow, Bart., F.R.S. London, 1849. 86 WILLIAM HENRY, M.D., F.R.S., &c. Portrait taken from the Picture by J. Lonsdale. Bom December 13, 1774. Died September 3, 1836. Dr. Williain Henry, tlie distingnislied chemical pMlosopher, was bom at Manchester- His father, Mr. Thomas Henry, was a zealous cultivator of chemical science. The earliest impressions of Henry's childhood were, therefore, such as to raspire interest and reverence for the pursuits of science'; and he is said, when very young, to have sought amusement in attemptiag to imitate, with such means as were at his disposal, the chemical experiments which his father had been performing. A severe accident which occuirred ia early Kfe, by disqualifying him for the active sports of boyhood, also contributed to determine his taste for books and sedentary occupations. This injury, occasioned by the faU. of a heavy beam upon his right side, was of a very serious nature, and materially checked his growth ; it left as its consequence acute neuralgic paias, which recurred from time to time, with more or less severity, during the remainder of his Kfe. Dr. Henry's earliest instructor was the Rev. Ralph Har- rison, who possessed considerable repute as a teacher of the ancient languages, and was considered at that period to be one of the best instructors of youth in the North of England. Immediately on leaving Mr. Harrison's academy at Man- chester, Henry had the good fortune to become the private secretary of Dr. Percival, a physician of great general accomplish m eiits and refined taste, whose example and judicious coimsels were most instrumental in guiding the tastes of his young companion, and ia establishing habits of vigilant and appropriate expression. In this improving HENRY. 87 residence Dr. Henry remained for the space of five years ; he was then removed, in the winter of 1795-6, to the Uni- versity of .Edinburgh, after having acquired some preliminary medical knowledge at the Infirmary at Manchester. Pru- dential considerations compelled him to leave the University at the end of a year, and commence general medical practice in company with his father. A few years' experience, how- ever, showed the inadequacy of his deKcate frame to bear up against the fatigues of this branch of the medical profession, and he was permitted, in the year 1805, to return to the University, at that time adorned by the learning of Playfair and Stewart. So powerful was the stimulus given to his mental powers during his residence at the University, that he often declared, that the rest of his life, active as it was, appeared a state of inglorious repose when contrasted with this season of unremitted efibrt. The period intervening between Dr. Henry's two academic residences, although passed in the engrossing occupations of his profession, to which was added the superintendence of a chemical business previously established by his father, was yet marked by several important contributions to science. In 1797 he com- municated to the Royal Society an experimental memoir (the first of a long series with which he enriched the ' Transactions ' of that body), the design of which was to re-establish the title of carbon to be ranked among ele- mentary bodies, which had been denied by Austin, Beddoes, and other eminent chemists. In this paper he subsequently discovered a fallacy in his own reasoning, which he exposed before it had been detected by any other chemist. In 1800 he published in the ' Philosophical Transactions' his experi- ments on muriatic acid gas, and in 1803 made known to the Royal Society his elaborate experiments on the quantity of gases absorbed by water at different temperature and under different pressures, the result of which was the establishment of the law that " water takes up of gas, condensed by one. 88 HENRY. two or more additional atmospheres, a quantity wMcli would be equal to twice, thrice, &c. iie volume absorbed under the ordinary pressure of the atmosphere. In 1808 Henry was elected a FeUow of the Royal Society, and ia the same year described in their ' Transactions ' a form of apparatus adapted to the combustion of larger quantities of gases than could be fired in eudiometric tubes. This apparatus, though now superseded, gave more accurate results than had ever before been attained. In the following year (1809) the Copley gold medal was awarded to hitn for his valuable contributions to the ' Transactions' of the Royal Society. For the next fifteen years Dr. Henry continued his experiments on gases, making known to the Society the results from tinae to time. In his last communication, in 1824, he claimed the m.erit of having conquered the only difficulty that remained in a series of experiments on the analysis of the gaseous sub- stances issuing from, the destructive distUlation of coal and oil — viz., the ascertaining by chemical means the exact pro- portions which the gases, left after the action of chlorine on oil and coal gas, bear to each other. This he accomplished by skilfully availing himself of the property (recently dis- covered by Dobereiner), ia finely divided platinum, of causing gaseous combinations, and he was thus enabled to prove the exact composition of the fire-damp of mines. All the experiments of Dr. Henry which have- been previously alluded to bore upon aeriform bodies; but although these were his favourite studies, his acquaintance with general chemistry is proved by his 'Elements of Experimental Chemistry,' to have been both sound and extensive. This work was one of the first on chemical science published in this country, which combined great literary elegance with the highest standard of scientific accuracy. His comparative analyses of many varieties of British and foreign salts were models of accurate analysis, and were important in dispeUing the prejudices then popular in favour of the latter for HENRY. 89 economical purposes. His ' Memoir on the Theories of Gal- vanic Decomposition' earned the cordial approval of Berzeliiis, as being among the first maintaining that view which he himself so earnestly supported. It is greatly to be regretted that Dr. Henry did not con- tribute more to the literature of science, as he appears to have been eminently fitted, both by natural tastes and by after culture, to excel ia this particular respect ; especially is it to be regretted that he did not Kve to carry out the great literary project for which he had collected materials — a history of chemical discovery from the middle of the last century. He could have made it one of the most popular books in our tongue. In the general intercourse of society Dr. Henry~was dis- tingiQshed by a polished courtesy, by an intuitive propriety, and by a considerate forethought and respect for the feelings and opinions of others; qualities issuing out of the same high-toned sensibility, that guided his. taste in letters, and that softened and elevated his whole moral frame and bearing. His comprehensive range of thought and know- ledge, his proneness to general speculation in contradistinc- tion to detail, his ready command of the refinements of language, and the liveliness of his feelings and imagination, rendered him a most instructive and engaging companion. To the young, and more especially to such as gave evidence of a taste for liberal studies, his manner was peculiarly kind and encouraging. In measuring the amount and importance of his contributions to chemical knowledge, it must be borne in mind, that in his season of greatest mental activity, he never enjoyed that uncontrolled command of time and that serene concentration of thought which are essential to the completion of great scientific designs. In more advanced life, when relieved from the duties of an extensive medical practice and other equally pressing avocations, growing in- firmities and failing bodily power restrained him to studies 90 HENRY. not demanding personal exertion, and even abridged his season of purely mental labour. That amid circTimstances so unfriendly to original and sustained achievements in science, he shoidd have accomplished so much, bears testimony to that energy of resolve, that unsubdued ardour of spirit which ever glowed within him, urging him steadily onwards in the career of honourable ambition, and prompting exer- tions more than commensurate with the decaying forces of a frame that had never been vigorous. At intervals during his whole life, Dr. Henry suffered severely from the effect of the accident already m.entioned. The paroxysms of intense neuralgic agony which attacked him, at length caused the whole nervous system to be so irritated as to deprive him of sleep, and cause his death in September 1836, at the age of sixty-one. — Biographical Account of the late Br. Senry, by his son, William Charles Henry, M.D., F.E.S., &c. — Encyclo- pcedia Britannica, Eighth Edition. 91 SIR WILLIAM HERSCHEL, D.C.L., F.R.S., &c. Portrait taken from the Picture hy Rehherg. Bom November IS, 1738. Died August 33, 1822. Authentic particulars respecting both the early and prirate life of this great astronomer are sadly deficient ; his scientific works are, however, of a world-wide reputation, and it is with these that we are chiefly concerned. WUliam Herschel was bom at Hanover, and was one of a niunerous family, who supported themselves chiefly by their musical talents. At the age of fourteen William was placed, it is said, in the band of the Hanoverian regiment of Guards, which he accom- panied to England at a period variously stated from 1767 to 1759. On his arrival he remained for some time at Durham, and was subsequently, for several years, organist at Halifax, where he was also employed in teaching music and studying languages. At length, about the year 1766, he found him- self in comparatively easy circumstances, as organist of the Octagon Chapel at Bath. Here Herschel began to study earnestly the science of astronomy ; and feeling the necessity of obtaining a good telescope, the purchase of which would be beyond his means, he determined to make one himself. After many trials, he succeeded in 1774 in executing with his own hands a reflecting telescope, and soon acquired so much dexterity, as to construct instruments of ten and twenty feet in focal length. In the year 1780 he contributed his first paper, ' On the Variable Star in Cetus,' to the Royal Society ; and on the 13th of March, 1781, announced to the world his discovery of a supposed comet, which, on further examination, proved 92 HERSCHEL. to be a planet exterior to Saturn, now named Uranus.* This fortunate success, was tlie first addition to tlie number of primary planets since a period of an immemorial antiquity, and it speedily made the name of Herscbel famous. George III. took tbe new astronomer under his protection, and attached Tn'm to his court, bestowing on him the title of astronomer to the king, with a salary of 400^. a year. It is difficult to estimate the amount of benefit thus conferred on astronomy by the award of this pension ; for nothing short of the entire devotion of a lifetime, could have produced such results as we owe to Herschel. His contributions to the ' Philosophical Transactions' alone amount to siKty-nine in number, and may give some idea of the unwearied activity of the author; they range over a period of thirty-five years, commencing in 1780 and terminatiag in 1815. The numerous bodies which he added to the solar system, make that number half as large again as he found it. Including HaUey's comet, and the four satellites of Jupiter and five of Saturn, the number previously known was eighteen, to which Herschel added nine — ^namely, Uranus and six satellites, and two satellites of Saturn. His discovery of the rotation of Saturn's riag, his measurements of the rotation of Saturn and Venus, his observations of the belts of the former, and his conjectural theory — derived from observation — of the rotation of Jupiter's satellites, with a large number of minor observations, prove that no one individual ever added so much to the facts on which our knowledge of the solar system is founded. His leading discoveries in siderial astronomy include — ^the dis- covery of binary systems of stars, and the orbits of several revolving stars ; the discovery and classification of a pro- digious multitude of nebulee ; the law of groupiag of the entire firmament, and its connection with the great nebula of the Milky Way ; and lastly, the determination of the motion * Called at first Georgium Sidus in honour of George the Third. HEESCHEL. 93 of our sun and system in space, and the direction of that motion. Herschel's magnificent speculations on the Milky Way, the constitution of nebulae, &c., first opened the road to the con- ception, that what was called the imiverse was, in all pro- bability, but a detached and minute portion of that fathomless series of similar formations which ought to bear the name. Imagination roves with ease upon such subjects ; but before Herschel's observations, even that daring faculty would have rejected ideas which afterwards proved to be but sober philosophy. These great and arduous enquiries occupied Herschel during nearly the whole of his scientific career, extending to almost haK a century, and, excepting the con- tinuation of his labours by his illustrious son. Sir John, Kttle has been added to our knowledge of ' the constitution of the heavens' since his death. As an optician, Herschel deserves equal notice for the wonderfol improvements which he effected in the dimensions and magnifying power of telescopes, and by the skill with which he applied them to celestial observations. The reflect- ing telescope was the one to the improvement of which he so successfully devoted himself; and the real secret of his suc- cess in this, was his astonishing perseverance; his deter- mination being to obtain telescopes of twenty feet focal length or more, and of a perfection equal or superior to the small ones then in use. He himseK relates, that whilst at Bath he had constructed 200 specula of seven feet focus, 150 of ten feet, and about 80 of twenty feet ; a proof of extraordinary resolution in a man of limited means, and at that time engaged id. a laborious profession. Herschel at last succeeded in constructing his enormous telescope of forty feet focal length, which he erected in the grounds of his house at Slough. This instrument was begun in 1785, and finally completed on August 28th, 1789, on 94 HERSCHEL. which day Herschel discovered with it tlie siKth satellite of Saturn ; the diameter of the tube was 4 feet 10 inches, the speculum having a useful area of 4 feet ; the total cost was 4000^., which was entirely defrayed by the liberality of George the Third. After the award of the king's pension, Sir William Herschel fixed his residence at Slough, near Windsor, his family consisting at first of one of his brothers, and his sister. Miss Caroline Herschel, who was his coadjutor and assistant in his computations and reductions, and was also actively employed in astronomical observation, being the discoverer of more than one comet. Herschel married a widow lady, Mrs. Mary Pitt, and left one son, the present Sir John, whose name has long- been known to the public as one of the most active and successful adherents of science that our day has produced. Dr. J. D. Forbes thus sums up the philosophical character of Sir William Herschel : — " He united, in a remarkable degree, the resolute industry which distinguishes the Germans, with the ardour and con- stancy which has been thought characteristic of the Anglo- Saxon. From his native country he brought with him the boldness of speculation which has long distinguished it, and it is probable that he had also a vigorous and even poetical imagLnation. Yet he was ever impatient ttntil he had brought his conjectures to the test of experiment, and ob- servation of the most uncompromising kind. He deKghted to give his data a numerical character, and where this was (by their nature) impossible, he confirmed his descriptions by reiterated observation, in different states of weather, with different telescopes, apertures, and magnifying powers ; and with praiseworthy fidelity he enabled his readers to form their own judgment of the character of his results, by copious and literal transcripts from his journals." HEKSCHEL. 95 Herschel died peacefully at Slougli, at the advanced age of eighty-three, on. the 23rd of August, 1822, only one year after the publication of his latest memoir in the ' Trans- actions of the then recently formed Astronomical Society, of which he was the first president. — Sixth Dissertation, by James Dayid Forbes, D.C.L., F.E..S., &c., Encyclapmdia Britt., eighth edition. — English Cychpcedia, London, 1856. — Weld's Hist, of Roy. Society. 96 EDWARD CHARLES HOWARD, F.R.S. Portrait taken from the Profile in Bronze hy Hayes, in the possession of the late Charles Few, Esq. Bom May 38, 1774. Died September 28, 1816. Mr. Howard was bom at Darnell, in the parist of Sheffield, and was the third brother of the twelfth Dute of Norfolk. His name has become intimately connected with the manu- facture of sugar, from the many improvements which he introduced into the old processes for the refinement of this most important article of commerce, and especially by his invention of the vacuum-pan. It is related, on the authority of the late Mr. C. Few, that Mr. Howard's attention was drawn towards this subject by Mr. Charles EUis, who, on the occasion of an immense quantity of "West India sugar being in bond, and for which the revenue could find no market, recommended Howard, whose talents as a practical chemist Mr. Ellis was well acquainted with, to try and see if he could not relieve the G-overnment warehouses, by converting the raw sugar into some kind of manure, and thus avoid the duty and render the article saleable. While experimenting for this purpose, Mr. Howard accidentally discovered his process of purifying sugar, for which, in conjunction with certaia sugar refiners, , he took out patents, and ultimately realized a considerable fortim.e. Howard's vacuum-pan was patented in 1812 ; it depends for its action on the principle that Kquids boil at temperatures dependent on the pressures they have to sustain. Thus water, under the ordinary pressure of the atmosphere (30 inches barometer), boils at 212° F., whereas in vacuo it wiU HOWARD. 97 boil at about 80°; consequently a comparatively low tem- perature will effect the boiling of sugar-syrup in vacuo, evaporati6n wiU proceed far more rapidly tban in the old process of heating the syrup ia open pans, and the percentage of waste will be greatly reduced, renderiag the manufacture highly profitable in a commercial poiat of view. Mr. Howard died at the early age of forty-two, and was buried at St. Pancras, Middlesex. He left one son, and a daughter, Jidia, who was married in the year 1829 to the Hon. Henry Stafford Jerningham, afterwards Lord Stafford. 98 CAPTAIN J. HTJDDAET, F.R.S. Portrait taken from the Painting hy J. Hoppner, B.A., in the possession of Charles H. Turner, Esq. Born Jan. 11, 1740. Died August 19, 1816. Joseph Huddart was born at Allonby in Cumberland. His Father, who was a shoemaker and farmer, desiring to give his son the best education in his power, sent him to a day- school kept by Mr. Wilson, the clergyman of the village. Here young Huddart acquired a knowledge of the elements of mathematics,, including astronom.y, sciences in. which he attained great proficiency in after life. When quite a boy, Huddart gave indications of an original mind, combined with great industry and unwearied patience. Having fallen in with a treatise by Mungo Murray on ship building, he was so pleased with its clear directions, that he set to work and succeeded, after immense labour and ingenuity, in making a model of a seventy-four gun-ship, with ribs, planks, and bolts complete. When engaged in herding his father's cows, he used to carry out into the country a desk of his own manufacture, employing his time in reading, and mathema- tical drawing and calculations. As Huddart grew up he evinced a strong bias for a sea- faring Ufe, and an event occurred in 1756 which decided his future career. In that year large shoals of herrings came into the Solway Frith, and the elder Huddart took advantage of the circumstance to trade in conjunction with a Herring Fishery Company, while his son took his place with others in the boats, and soon displayed so much skill and ability in their management that he became noted among his fellows for superiority of knowledge in nautical matters. Young HUDDART. 99 Huddart continued more or less in tliis new employment until his father's death, in 1762, when he succeeded to a share in the fishery, and at once took the command of a sloop employed in carrying the salted herrings to Cork and other parts of Ireland, for the supply of the West India markets. These Toyages gave him a thorough knowledge of St. Greorge's Channel, convinced him of the insufficiency of the charts then in use, and ultimately, led to his making a complete survey of that sea, and to the subsequent publication of his own most valuable chart. In 1768 Huddart, with the assist- ance of his uncle, designed and bidlt a vessel for himself, and named it the Patience, every timber in it having been moulded with his own hand. In this vessel he made his first voyage to North America, and continued to sail in her imtil the year 1771, when he was induced by Sir Richard Hotham, with whom he had become acquainted, to enter the East India Mercantile Marine, in which service he continued for many years, and realized a considerable independency. Captain Huddart's scientific knowledge and high character introduced him into the Trinity House as an Elder Brother, and also into the Committee of the Ramsgate Harbour Trust, and into the London and East India Dock Directions. At the Trinity House all inquiries relating to lights, lighthouses and charts were chiefly referred to him, while the lighthouses on Hurst Point were built under his superintendence and immediate direction. On retirement from the East India Company's service, Huddart engaged again in his favourite pursuit of ship build- ing, making manypractical experiments to determine the liaes, which consistent with stability and capacity for stowage would give to vessels the greatest velocity through the water. But that which constitutes Captain Huddart's chief claim on the gratitude of posterity are his great improvements and inven- tions in the manufacture of Cordage ; before his time nothing H 2 100 HUDDART. worthy of the name of machinery had been applied to rope- making, and to hiTTi was reserved the honor of bringing the wonderful power of Watt's steam engine to bear upon this most important article of manufacture. Captaia Huddart's attention was first drawn towards the subject during a voyage from India to China through the Straits of Sunda, where the ship he commanded was fre- quently compelled to anchor. When the anchor was weighed, the outer yarns of the cable were often found to be broken, and on opening a piece of cable to find out the cause, Hud- dart's attention was forcibly drawn to the fact that rope as then manufactured, bore almost the entire strain on the outer yarns of the strands, from the yarns being originally of the same length, and the strand in the process of twisting be- coming shortened. He determined to remedy this, and ultimately constructed a machine which, by means of what he called a register plate, gave to every yam the same strain, and its proper position iq. the strand which was compressed through a tube into the desired form. Grovernment refusing to take up this valuable invention, a company was formed by Huddart's friends for the manufac- ture of rope upon his new principle. These gentlemen built a factory at Limehouse, which was established under the name of Huddart & Co. Captain Huddart now devoted himself to the further de- velopment of his valuable invention ; he contrived a register- ing machine whereby the yarns were formed as they came out of the tar-kettle, the tar being kept at the temperature (212-220° Fah.) he found by experiment to be sufficient for the required purpose, without injuring by too great heat the fibres of the rope. He also constructed a laying machine, which gave the same length and twist to every strand, and an uniform angle and pressure to the rope or cable. These improvements involved the manufacture of much beautiful machinery. HUDDAKT. 101 wliich was made after Huddart's design and under his own personal superintendance.* Captain Huddart lived to an advanced old age, and even in his last illness his disposition to inquire into causes and effects did not forsake him, as his body gradually wasted away, he caused himself to be weighed from time to time, noting thereby the quantity of moisture which escaped by the breath and insensible perspiration. He died at Highbury Terrace, London, at the age of seventy-six, and was interred in a vault under St. Martin's Church, in the Strand. — Memoir of Capt. Jos. Huddart, by Wm. Cotton, D.C.L. London, 1855. * This machinery was constructed by John Eennie. — Mechanics' Magazine, Sept. 20, 1861. 102 EDWARD JENNER, M.D., L.L.D., F.R.S., &c. MEMBEB. OF THE INSTITUTE OF FEANCE. Portrait taken from the Picture by James Northcote, R.A., in ^ the National Portrait Gallery. Born May 17, 1749. Died January 26, 1823. Edward Jenner, who by Lis discovery of vaccination lias pre-eminently acquired a right to the title of the " Benefactor of Mankind," was born at the vicarage house of Berkeley, ia Grloucestershire, and was the third son of the Rev. Stephen Jenner, rector of Eockhampton, and vicar of Berkeley. Jenner's father died when he was only five years old, leaving him to be brought up under the care' of his uncle. At eight years of age he was put to school at Wotton-under-Edge, from whence he was removed shortly afterwards to the care of Dr. Washborn, at Cirencester. Jenner early displayed that taste for natural history which afterwards formed so marked a feature in his character. Before he was nine years old he had made a collection of the nests of the dormouse, and when at Cirencester used to spend his hours of recrea- tion in searching for the fossils which abound in that district. After the completion of his scholastic education, Jenner removed to Sudbury, near Bristol, where he acquired the elements of surgery and pharmacy under Mr. Ludlow, an eminent surgeon in the neighbourhood. Having completed his term with this gentleman, he went to London and became a pupil of the celebrated John Hunter, in whose family he resided for two years, laying the foundation of an intimate friendship only broken by Hunter's death. Under the tuition of this distinguished anatomist he acquired an almost un- JENNEE. 103 rivalled skill ia minute dissections and delicate injections of parts ; and when, in the year 1771, Captain Cook returned from his first voyage of discovery, the valuable specimens of Natural History, which had been collected by Sir Joseph Banks, were in a great measure arranged and prepared by Jenner, who was recommended by Mr. Hunter for that pur- pose. In executing this task, he evinced so much dexterity and intelligence, that he was offered the post of Naturalist in the next expedition, which sailed in 1772. Jenner, however, refused the offer, and determined to fix his abode at the place of his birth. He returned to Berkeley when about twenty- four years old, and at once commenced practice as a country surgeon. His first attempts were very successful ; and as he added to his professional skill the manners of a thorough gentleman, and the information of a scholar, he became a welcome guest in the most distingtiished families. He was in the habit at this time of cultivating the art of poetry, and used to send his compositions to his friends in the ordinary interchange of literary correspondence. He was likewise clever at an epigram or a ballad, and had a natural taste for music, being able to play on the flute and violin, and sing his own verses with considerable taste and feeling. Such was the attachment of Jenner' s friends to him at this period of his career, and so highly did they value his amusing and interesting conversation, that, when he had called at their houses, either as a visitor or in his professional capacity, they would accompany him, on leaving, many miles on his way home, and this too, often at midnight, in order that they might prolong the pleasure derived from his company and conversation. Although Jenner's time was chiefly occupied with his professional duties, he still kept up a constant and regular correspondence with his friend John Hunter on different scientific subjects. He managed also to find leisure to in- stitute many experiments and observations in natural history, 104 JENNER. one of the results of whicli was his account of the Cuckoo, a most oareftilly elaborated essay, and which has always been considered as a model of accurate observation. This paper was read to the Roj-al Society on the 10th of March, 1788, and printed iu their ' Transactions.' It explained the habits of this curious bird very satisfactorily, and its publication at once secured the author a considerable reputation as a Naturalist. As this paper appears not to be very generally known, the following account taken from it may be in- teresting : — " The cuckoo furtively deposits her egg in the nest of another bird ; it is done not that her offspring may be a sharer of the care of the foster-parent, but that it may engross it entirely, to the total destruction of its own natural o:&pring. A perversion of all the maternal instincts is a most remarkable result of this vicarious incubation. The hedge-sparrow, or other birds whose nests have been visited by the cuckoo, actually sometimes eject their own eggs to make room for the new guest ; but it occasionally happens that this is not done ; the eggs are not disturbed, and the process of hatching is allowed to go on regularly, and the young sparrows and the cuckoo emerge from the shell about the same time. This event, when it is permitted to happen, does not at all improve the condition of the former ; on the contrary, it only exposes them to greater sufferiags. The size of the egg of the cuckoo does not vary much from that of the bird in whose nest it is deposited. When the young sparrow, therefore, and the intruder first come into life, they are pretty much on an equality; but unhappily for the foster-brethren, this equality does not last long : the cuckoo's growth rapidly outstrips that of his companions, and he immediately exercises his new powers with abundant selfish- ness and cruelty. By a singular configuration of his own body he contrives to lodge his companions, one by one, upon his back, and then scrambling up the sides of the nest, he JENNEE. 105 suddenly throws them from their seat, and completely ejects them from their own home to become food for worms. There is reason to believe that the imnatural parent is often an un- moved witness of this atrocity. Her whole care and affection are absorbed by the iatruder, and her own flesh and blood literally turned out to perish. It sometimes, though very rarely, happens that two cuckoo's eggs are deposited in the same nest. When this occurs, and they are both hatched together, a bitter feud arises, which is only terminated by the ejection of one or other from the nest." All naturalists previous to Jenner were inclined to ascribe the peculiarity in the economy of the cuckoo to its structure ; the largeness of the stomach, which is only protected by a thin covering, they asserted, rendered the pressure attendant upon incubation incompatible with health. This theory is ia- correct, and was adopted without due examination. Jenner observes, " May they not, be owing to the follow- ing circumstances ? — ^namely, the short residence this bird is allowed to make' in this country, where it is destined to pro- pagate its species, and the call that nature has upon it, during that short residence, to produce a numerous progeny. The cuckoo's first appearance here is about the middle of April. Its egg is not ready for incubation till some weeks after its arrival. A fortnight is taken up by the sitting bird in hatching the egg. The young bird generally con- tiuues three weeks in the nest before it flies, and the foster- parents feed it more than five weeks after this period : so that if a cuckoo should be ready with an egg much sooner than the time pointed out, not a single nestHng, even one of the oldest, would be fit to provide for itself, before its parent would be instinctively directed to seek a new residence, and be thus compelled to abandon its young ; for the old cuckoos take their final leave of this coimtry the first week ia July." The domestic incidents of Jenner' s life during this period, although important to himself and his future career, were 106 JENNER. * not otherwise remarkable. Hariiig experienced a disappoint- ment in his affections early in life, lie continued for many- years unmarried. Ultimately, however, on the 6th of March, 1788, he was married to Catherine Kingscote, a descendant of an ancient Gloucestershire family. In 1793 John Himter died, and Jenner was deeply affected by the loss of his esteemed friend. Many years previous to this sad event, Jenner's anxious and affectionate attention to the symptoms of the disease, which as early as 1777 had begun to attack Hunter, had enabled him to detect the true nature of his illness (Angiaa pectoris), and the result of the examination after death fully established the correctness of Jenner's views. In 1792, having determined to give up the general practice of his profession, and practise as a physician only, Jenner obtained the degree of Doctor of Medicine from St. Andrews ; and three years afterwards, on finding that Berkeley by itself could never support a physician, commenced making pro- fessional visits to Cheltenham, a practice which he continued for many years. We now come to the important epoch in the life of this eminent man. On the 14th of May, 1796 (cormnemorated in Berlin as an annual festival), he made his first successful vaccination on a boy of the name of Phipps, eight years old, and announced the event in a letter to a friend named Gardner, in the following words : " But now Ksten to the most delightfiil part of my story. The boy has since been inoculated for the small-pox, which, as I ventured to predict, produced no effect. I shall now pursue my experiments with redoubled ardour." In the year 1798 he made public the result of his continued observations and experiments, pub- lishing during this year his work entitled an ' Inquiry into the Causes and Effects of the Varioloe Vaccinoe,' and hence- forth the imperishable name of Jenner was to be identified with vaccination. Although Jenner announced his discovery ' JENNER. 107 thus late in life, his attention had been drawn forcibly towards the subject when quite a youth, while pursuing his professional education in the house of his master at Sudbury. Duriag that time, a young countrywoman having come to seek advice, the subject of smaU-pox was mentioned in her presence ; she immediately observed, " I cannot take that, for I have had the cow-pox." This incident rivetted the attention of Jenner, and he resolved to let no opportunity escape of procuring knowledge upon so interesting a subject. When, in 1770, he was prosecuting his studies ia London, he mentioned the matter to Hunter, who told him not to think but try, and above all to be patient and accurate. Hunter, however, from the great number of original and important pursuits, which fully engrossed his attention, was never so greatly impressed, as Jenner, with the probable consequences of the successful elucidation of the subject of cow-pox ; while other surgeons and scientific men, to whom the subject was mentioned, ridiculed the idea ; and even when Jenner had drawn up his ' Inquiry,' he was recommended not to send it to the Royal Society, lest it should injure the scientific reputation which he had formerly acquired with that body by his paper on the ' Natural History of the Cuckoo.' Undeterred by this want of sympathy, Jenner, during the time of his practice at Berkeley, patiently continued his investigations as to the nature of cow- pox, and, gradually struggling through the difficulties which he had to encounter on his way, eliminated the following facts : that there were certain people to whom it was im- possible to give the small-pox by inoculation, and that these had all had the cow-pox ; but that there were also others who had had cow-pox, and who yet received smaU-pox. This, after much labour, led him to the discovery that the cow was subject to a variety of eruptions, of which one only had the power of guarding from small-pox, and that this, the true cow-pox, as he called it, could, at only one period of its course, produce, by inoculation, such an influence upon the 108 JENNER. constitution as to render the individual safe from further contagion. This was the basis upon which the fundamental rules for the practice of vaccination were founded. The pub- lication of his ' Inquiry' excited the greatest interest, for the evidence in it seemed conclusive ; yet the practice of vaccina- tion met with opposition, as severe as it was unfair, and its success seemed uncertain until a year had passed, when upwards of seventy of the principal physicians and surgeons ia London signed a declaration of their entire confidence in it. An attempt was then made to deprive Jenner of the merit of his discovery, but it signally failed, and scientific honours began to be bestowed on him from all quarters. Nothing could, however, induce Jenner to leave his native village, and all his correspondence shows that the purest benevolence, rather than ambition, had been the motive which actuated his labours. In a letter to Mr. Clive, who instituted the first successful case of vaccination in London, he says : " Shall I, who, even in the morning of my life, sought the lowly and sequestered paths of life, the valley and not the mountain ; shall I, now my evening is fast approaching, hold myself up as an object for fortune and for fame ? Admitting it as a certainty that I obtain both, what stock should I add to my little fund of happiness ? And as for fame, what is it ? — a gilded butt for ever pierced with the arrows of malignancy." On the Continent Jenner' s claims on the gratitude of mankind were quickly recognised, and the influence of his name and character was very great. On one occasion during the war he addressed a letter to Napoleon, requesting permission for two men of science and literature to return to England ; and it is related that Napoleon, being about to reject the petition, heard Josephine utter the name of Jenner ; on which the Emperor paused for an instant, and exclaimed, " Jenner ! ah, we can refuse nothing to that man." He subsequently made other applications both to the French and other governments, which were uniformly JENNEK. 109 attended with similar success. In fact his name became at length so potent, and his influence so well known, that . persons left England with certificates signed by him, which had aU the force and value of real passports. England, how- eTcr, was more tardy in recogniziag the claims of this great man. He once or twice applied to the "British government on behalf of some French prisoners, but unhappily without success. Nor was he permitted to share in the least degree in the vast patronage at the disposal of the government, and all his attempts to obtaia a living for one of his nephews failed, although he applied where he was quite justified in thinMng he would meet with attention and success. On the occasion of the first parliamentary grant to Jenner in the year 1802, the Chancellor of the Exchequer stated that he thought the " approbation " of the House was the highest reward that coidd be given him, iaasmuch as it wotild lead to an extended and very lucrative practice ; and although it was proved in evidence that 40,000 men were annually pre- served to the State, even at that time, by Dr. Jenner's dis- covery, the proposition of a grant for 10,000^. was carried only by a majority of three. Jenner's feeHngs were deeply wounded by the manner in which this grant was made, and he would gladly have repudiated the whole affair. It re- maiaed unpaid for two years, and when at length the money was paid to him, it was so loaded with taxes and other ex- penses, as to be of little pecuniary benefit. Happily, how- ever, both for Jenner and the credit of Great Britam, the Marquis of Lansdowne (then Lord Henry Petty) was a prin- cipal mover in his second parliamentary grant, and through the able advocacy of this enlightened nobleman, together with Mr. Whitbread, Mr. "Windham, and Mr. Edward Morris and others, a more fitting recompense of 20,000/., free of all charges, was awarded him ia July 1807. Jenner had several attacks of severe illness during his Hfe, but he notwithstanding attained to a good old age. TUl the 110 JENNEE. last day of his life he was occupied in the most anxious labours to difiFuse the advantages of his discovery both at home and abroad ; and he had the satisfaction of knowing that vaccina- tion had even then shed its blessings over every civilised nation of the world, prolonging life, and preventing the ravages of one of the most terrible scourges to which the human race was ever subject. He died suddenly from an attack of paralysis in July 1823, having attained the seventy- fifth year of his age. Shortly after Jenner's death a statue was erected to his memory in Gloucester Cathedral, chiefly through the exer- tions of his friend and biographer, Dr. Baron ; still more recently the statue in bronze, by "William Calder Marshall, R.A., has been erected in Trafalgar Square,* as a 'tribute FEOM ALL nations' to the memory of this distinguished phi- lanthropist. — JAfe of Edward Jenner, by John Baron, M.D., &c., London, 1827. — Memoir hy Br. Thos. Laycock, Encyclo- pcedia Britannica. * This statue has been removed to Kensington Gardens. Ill WILLIAM JESSOP. Portrait taken from a Drawing in the possession of the family. Bom 1745. Died 1814. This engineer forms tlie connecting link between the first and second generations of ci"vil engineers in this country. To the former belong Smeaton and Brindsley, while the latter are headed by the great names of Telford and Rennie. The father of Mr. Jessop was engaged under Smeaton in superintending the erection of the Eddystone Lighthouse, and his son William, the subject of this memoir, was born at Plymouth. "Wh.en he had attained the age of siKteen his father died, leaving the guardianship of his family to Smeaton, who thenceforth adopted William as his pupil, determining to bring him up to his own profession. Young Jessop re- m.ained with Smeaton for a period of ten years, enjoying, during this the busiest part of Smeaton's active career, many opportunities of acquiring an extensive knowledge of the business of civil engineering. After leaving the service of Smeaton, Mr. Jessop was engaged for several years in improving the navigation of the rivers Aire and Calder, and of the Calder and Hebble in Yorkshire. He was also em- ployed on the river Trent in Nottinghamshire, and he appears to have been principally occupied on these works for some time subsequent to his leaving Smeaton. A few years before the retirement of the latter, which took place in 1791, his pupil began to obtain active employment, and we find him about the years 1788 and 1789, reporting on the navigation of the Sussex Ouse, and the drainage of Laughton Level in the same country, being called on, at the same time, by the Commissioners of the Thames and Isis, to 112 JESSOP. advise on tlie works they had undertaken, and were about to execute, for tlie improTement of this important navigation. In the three following years (1790-2) his professional employment greatly increased. He was now actively engaged in prosecuting various important canals in connexion with the great central navigation of the Trent. Amongst these were the Cromford Canal, penetrating amongst the moun- tains of Derbyshire into the rich mineral districts of that wild and romantic country ; the Ifottingham. Canal, which connects the Cromford with the Trent at Nottingham ; the Loughborough and Leicester navigation, connecting the Ashby Coalfield with the navigable part of the Soar and with Nottingham, thus opening an important communication with the Trent on the one hand, and vrith Nottingham and the whole south of England on the other. In addition to this system in connection with the Trent, he projected and com- menced at this time the Homcastle navigation, which, be- sides acting as a valuable draiaage for this part of the fens, was productive of great benefit to a large district, by bring- ing it into communication with the river Witham, which is navigable to the sea in one direction, and in the other through Lincoln to the Trent. But a larger and more important work than these last named, which Mr. Jessop was at this period engaged on, was the Grand Junction Canal, which, joining the Oxford Canal at Braunston, in Northamptonshire, connects the whole inland navigation with the metropolis, by means of a comparatively direct line ninety miles in length, traced in a diagonal direc- tion across the two formidable ranges of hills peculiar to the secondary formations of England. This canal communicates with the Thames by its main line at Brentford, and by a branch starting five miles above at BiiQbridge, stretching to Paddington, from whence the Regent's Canal proceeds round the north side of London to the Tham.es at Limehouse, thus completing the connection JESSOP. 113 between the main line and the lower part of the river. The execution of this canal necessitated the construction of many heavy works, consisting of tunnels, deep cuttings, emhank- ments, aqueducts, reservoirs, and weirs. Of these works one of the most famous is the BHsworth Tunnel, 3080 yards in length, cut through the inferior oolite and the shales of the lias. Its internal width is 16| feet, the depth below the water-line to the inverted arch being 7 feet, while the soffit or crown of the arch is 11 feet above the same Kne. The cost of this great undertaking, with aU its branches and attendant works, amounted to about two millions sterling. During the execution of this work, Mr. Jessop was also called into Ireland, and was taking an active part in carrying on the pubKc works which had been undertaken by the authority of Parhament in that country. The year 1793 originated several great projects, in further- ance of which Mr. Jessop's aid was secured. Am^ongst these were the Grantham Canal, supplied by vast artificial reser- voirs, and extending from the river Trent, through a rich pasture district of the new red sandstone, winding for many miles through the broad and fertile vale of Belvoir, up to Grrantham at the base of the Lincolnshire hills, the furthest point to which it is possible to penetrate in this direction. The Barnsley Canal, which opens up an immense amount of mineral wealth in the Yorkshire coalfield, and brings it into cunmiimication with the river Calder, and the Dearn and Dove Canal ; and finally, the great EUesmere Canal, which completes a communication between the Severn and the Mersey, and ramifies in numerous directions amongst the rugged hills and valleys of North Wales. In the carrying on of this last named undertaking, Mr. Telford was likewise engaged xinder Mr. Jessop. Two of its most important works are the great aqueducts of Chirk and Pont-y-cysylte, the former of which carries the canal over the river Ceriog, at an elevation of 70 feet, while the latter 114 JESSOP. carries it across the Dee at an elevation of 127 feet. The grand peculiarity in these aqueducts consisted in constructing a water-tight trough of cast iron for carrying the canal across the arches, instead of an immense puddled clay trough, as was the practice until that time in use. The execution and management of the numerous works here mentioned occupied the greater part of Mr. Jessop's time during the next few years. But the commencement of the present century was the signal for another torrent of speculation, which, in addi- tion to canals, began now to he directed towards docks and railroads. The promoters of the first great public dock establishment employed Mr. Jessop to conduct their works, and he had the honour of completing the great project of the West India Docks, with their numerous accompanying details, in a manner which alone entitles him to rank among our most eminent engineers. On the completion of these docks his professional services were engaged by the citizens of Bristol, to effect a great and comprehensive measure of harbour improvement, designed to place the port of Bristol at once in the foremost position with respect to commercial advantages. This was the conversion of part of the river Avon into an immense floating dock, capable of accommodating 1400 vessels. Mr. Jessop was also at this time occupied in constructing the Surrey iron rail- ways, which consisted of a double tramroad, from the Thames at Wandsworth to the town of Croydon, with an extension from Croydon to Grodstone and Merstham ; they are princi- pally remarkable as being the first public railroads con- structed in the south of England. The whole of these tram- roads were afterwards bought and taken up by the Brighton Railway Company. Mr. Jessop was likewise connected with the Caledonian Canal, which he was specially called upon to survey before its commencement, and of which he continued to be the consulting engineer for many years. In concluding this brief notice of Mr. Jessop's life, it JESSOP. 115 remains only to be said that with him exclusively originated the idea of taking advantage of the immense floods to which certain districts are subject, by storing these waters up for the gradual and regular supply of his canals. In addition to this he shares with Mr. Telford the honour of first using iron in the construction of the troughs of aqueducts, and for the heads, heel-posts and ribs of lock-gates, as adopted on the Caledonian and Ellesmere canals. — Memoir of William Jessqp, by Samuel Hughes, O.E. I 2 116 CAPTAIN HENRY KATER, F.R.S., &c. Portrait taken from a Miniature hy George Richmond, A.R.A., in the possession of Edward Kater, Esq. Bom April 16, 1777. Died April S6, 1835. Captain Henry Kater, distinguislied by his mathematical and physical researches during the space of nearly half a century, was bom at Bristol ; his father was of a Grerman family, and his mother was the daughter of an eminent architect ; both were distinguished for their scientific attain- ments, and united in imbuing their son with a similar taste. Henry was, however, destined by his father for the law, and had with great reluctance to give up for a time his hitherto exclusive devotion to abstract science. Mr. Kater continued for two years to remain in a pleader's office, during which time he acquired a considerable portion of legal knowledge, on which he valued himself through life ; but the death of his father, in 1794, permitted him to resimae his favourite studies ; and bidding adieu to the law, he obtained a com- mission in the 12th Regiment of Foot, at that time stationed in India. During the following year, Mr. Kater was engaged in the trigonometrical survey of India under Colonel Lambton, contributing greatly, by his untiring labours, to the success of that vast undertaking. . About the same period, he was also occupied in constructing a peculiarly sensible hygro- meter, of which he published a description in the ' Asiatic Researches.' Mr. Kater remained in India seven years, during which time his unremitting study in a hot climate greatly injured his constitution, and was the cause of his KATER. 117 falliiig into a state of ill healtli, from which lie suffered more or less imtil the end of his life. On his return to England, he qualified himself to serve on the general staff, and later in life retired on half-pay, from which period he devoted himself entirely to science. When Parliament, in the years 1818-19, determined on estabKshing an uniform system of weights and measures. Captain Kater, in conjunction with Sir Joseph Banks, Sir George Clerk, Davies Gilbert, and Drs. WoUaston and Young, was appointed to investigate this most important subject ; and he instituted a series of experiments with a pendulum made of a bar of brass, IJ inches wide and | of an inch thick, to which knife- edges of a kind of steel prepared in India, and known by the name of wootz, were attached, playing upon agate plates. These experiments were made in the house of Mr. H. Browne, F.R.8., which was situated in a part of Portland Place not likely to be disturbed by carriages. They occupied Captain Kater's close attention for several years ; and he has permanently attached his name to the beautiftd theorem of Huygens respecting the reciprocity of the centres of oscilla- tion and suspension, and their consequent quality of con- vertibility. Although this was a property already known to belong to the centre of oscillation, it had never hitherto been practically applied to determine the exact length of a pen- dtdum vibrating seconds ; it was therefore highly creditable to his ingenuity, and claims the same order of merit as an original invention. In this, as well as in Kater's laborious inquiries respecting a standard of weights and measures, even where his conclusions have not escaped aU the chances of error, he has led the way to the still more delicate re- searches which have followed. Captain Kater also instituted a series of experiments as to the best kind of steel and shape for compass needles ; it resulted ia the adoption of the shear clock- spring steel, and the pierced rhombus form, in the proportion of five inches 118 KATER. in length to two in -widtli. In the year 1831 he received the gold medal of the Eoyal Astronomical Society, for the construction of his floating collimator, an instrument for ascertaiaing the accurate zero or level poiuts of divided astro- nomical instruments. Most of the learned societies in Great Britaia and on the Continent testified at different times their sense of the value of his services, by enrolling him among their members. The Emperor of Russia employed him to construct standards for the weights and measures of his dominions, and was so pleased with the execution of them, that he presented Kater with the Order of St. Anne and a diamond snufi'-box. The greater part of his publications appeared in the ' Philosophical Transactions ' of the Eoyal Society, to which he was a very constant contributor. Captain. Kater died from a severe affection of the lungs, -at his residence, York Gate, in the fifty-third year of his age. — Athenceum, May 1835. — Weld's Sistory of the Royal Society. London, 1848. — Monthly Notices of the Royal Astronomical Society, vol. 3, February 1836. 119 SIR JOHN LESLIE, F.R.S.E., &c. Portrait taken from the Picture hy Chisholm. Born April 16, 1766. Died November 3, 1832. Sir John Leslie, Professor of Natural Philosophy ia the Umversity of Edinburgh, the son of a poor joiner or cabinet- maker, was born at the village of Largo, in the county of Fife. Although both weak and sickly as a child, he soon acquired considerable knowledge of mathematical and phy- sical science, and at the age of eleven attracted the notice of Mr. OKphant, the minister of the parish, by his precocious attainments. This gentleman kindly lent yoimg Leslie some scientific books, and strongly advised him to contiaue the study of Latin, for which he had a great aversion, although in after life he attained considerable proficiency in that language. He also became known to Professors Robinson and Stewart, of Edinburgh, and by their advice was sent, in his thirteenth year, to the University of St. Andrew's, to study mathematics under Professor Vilant. Here, at the end of the first session, his abnities procured him the second prize, and likewise attracted the notice of the Earl of Kinnoull, then Chancellor of the University, who undertook to defray the expenses of his education, provided that he would enter the Church. Leslie prosecuted his studies at this university during six sessions, and became about this time acquainted with Playfair and Dr. Small. In 1783-4 he quitted St. Andrews and went to Edinburgh, where, though he formally entered the Divinity Hall, he contrived to devote his first session to the sciences, particiilarly 120 LESLIE. chemistry ; in fact, Leslie seems early to have reUnqiiished all thoughts of the Church — a resolution hastened by the death of his patron, the Earl of Kinnoull, shortly after his removal to Edinhurgh. While engaged at the imiversity, he also acted as tutor to Mr. Douglas, afterwards Lord Reston, the nephew of Dr. Adam Smith, and he thus became known to that philosopher, who treated him kindly, and occasionally favoured him with directions as to his pur- suits. Leslie's first essay, ' On the Resolution of Indeter- minate Problems,' was composed about this time, and read to the Eoyal Society of Edinburgh by Mr. Playfair, in 1788, and published in their ' Transactions' for 1790. In 1788, LesHe became tutor to two young Americans of the name of Randolph, and accompanied them to Yirginia, whence, after an absence of about a twelvemonth, during which time he visited New York, Philadelphia, &c., he returned to Scotland. In January 1790, carrying, among other letters of recommendation, one from Adam Smith, he repaired to London, with the intention of delivering a course of lectures on natural philosophy ; but finding, to use his own words, that " rational lectures would not succeed," he employed himself for some time in writing for the ' Monthly Review,' and in other literary occupations. In April 1790, he became tutor to his former feUow- students, the younger "Wedgewoods, of Etruria, in Stafford- shire, where he remained until the close of 1792. Leslie was likewise employed during this period in experimental in- vestigations, and in completing a translation of Buffbn's 'Natural History of Birds,' pubhshed in 1793, in nine volumes, for which he received a considerable sum, — ^the foundation of that pecuniary competency which his indus- trious and prudent habits enabled him ultimately to acquire. During the years 1794-5 he resided at Largo, occupied upon a long series of hygrometrical experiments, during the LESLIE. 121 course of which lie invented his differential thermometer, the parent, as it may be called, of his subsequent inventions — the hygroscope, photometer, pyroscope, aethrioscope, and atmometer. Although Leslie has been accused of having plagiarized this invention either from Van Hehnont, who died in 1644, or from John Christopher Sturmius, who died sixty years later, he at all events showed, by his skilful and fruitful employment of the disputed iuvention, how much he surpassed, and how little he needed the help of, hitn -vV^hom he is ungenerously supposed to have robbed of his legitimate honours. In 1800 he wrote several papers, on different branches of physics, in Nicholson's ' Philosophical Journal,' which re- sulted in the publication at London, in 1804, of his ' Experi- mental Inquiry into the Nature and Propagation of Heat.' The originality and boldness of the peculiar doctrines con- tained in this work, and the number of new and important facts disclosed by its iagenious experimental combinations, rendered it an object of extraordinary interest in the scientific world. The Royal Society of London unanimously adjudged to its author the Rumford medal ; and although paradoxical in many of its theories, defective in arrangement, and over ambitious in style, this work is almost unrivalled in the entire range of physical science, for its indication of vigorous and inventive genius. Previous to this period of life, Leslie had appeared twice as a candidate for an academical chair; first in the University of St. Andrew's, afterwards in that of Grlasgow ; but on both occasions without success. He now became a candidate for the Mathematical chair at Edinburgh, vacant through the promotion of Professor Playfair to the chair of Natural Phi- losophy. After a severe contest, during which much party spirit was displayed, owing to his principal competitor, Dr. Thomas Macknight, one of the ministers of Edinburgh, being 122 LESLIE. supported by the majority of the city clergy, Leslie was, ia March 1805, elected to the Mathematical chair. He entered immediately upon his official duties, which he continued to discharge with zeal and assiduity during the following four- teen years. Notwithstanding the labours which these duties entailed upon him, Leslie continued his experimental inquiries, and in Jime 1810 discovered his beautiful process of artificial congelation, by which he was enabled to produce ice, and even to freeze mercury at pleasure. The process consists of a combination of the powers of rarefaction and absorption, effected by placing a very strong absorbent under the receiver of an air-pump. This experiment was performed in London in 1811, before a meeting of some members of the Eoyal Society; and the discovery was announced in the same year in the ' Memoirs' of the French Institute. He explained his experiments and views on this subject in 1813, in a vol-ume published at Edinburgh, entitled, 'A short small Account of Experiments and Instruments depending on the Eelations of Air to Heat and Moisture.' Closely connected with the subject of this treatise was an ingenious paper, published in 1818, in the ' Transactions' of the Royal Society of Edinburgh, under the title, ' On certain Impressions of Cold transmitted from the Higher Atmosphere ; with a Description of an Instrument to Measure them.' The sethrioscope was the instrument here alluded to. In 1819, upon the death of Playfair, Leslie was called to the chair of Natural Philosophy, when his first care was directed to the extension of the apparatus required in the more enlarged series of experiments which he thought neces- sary for the illustration of the course. " This, indeed," says his biographer, Mr. Napier, "was an object of which he never lost sight ; and it is due to him to state, that, through his exertions, the means of experimental illus- LESLIE. 123 tration in the Natural Philosopliy class were for the first time made wortliy of the place." In 1823 he pubKshed, chiefly for the use of this class, his ' Elements of Natural Philosophy/ a second edition of which was published in 1829, with corrections and additions. Besides the above-mentioned works, LesHe wrote the follow- ing : — ' Elements of Geometry, Geometrical Analysis and Plane Trigonometry,' in 1809 ; ' Observations on Electrical Theories,' pubKshed in 1824, in the ' Edinburgh Philosophical Journal ;' also many articles in the ' Edinburgh Review ;' and the articles on Achrom.atic Glasses ; Acoustics ; Aero- nautics; Andes; Angle and Trisection of Angle; Arithmetic; Atmometer ; Barometer ; Barometrical Measurements ; CK- mate ; Cold and Congelation ; Dew ; Interpolation ; and Meteorology, in the seventh edition of the ' Encyclopsedia Britannica.' Early in the year 1832, on the recommendation of Lord Brougham, then Lord High Chancellor, Leslie was created, along with several other eminent men of science, a Knight of the Guelphic Order. He was also a member of the Royal Society of Edinburgh, and in 1820 had been elected a cor- responding member of the French Institute. During the month of October, whilst engaged in superintending some improvements on his grounds, he caught a severe cold, which was followed by erysipelas in one of his legs, and his neglect of this, owing to a contempt for medicine, and great con- fidence ia his own strength and durabUity, resulted iu his death, at Coates, in the November following, at the age of sixty-siK. Sir John Leslie has been described as rivaUing all his contemporaries in that creative faculty which discovers, often by an intuitive glimpse, the hidden secrets of nature ; but possessing ia a less degree the powers of judgment and reason, being thus often led in his speculations to results 124 LESLIE. glaringly inconsistent. His exqiiisite iastruments, and his experimental combinations, will, however, ever attest the utility, no less than the originality of his labours, and will continue to act as aids to farther discovery. — Encyclopcedia Britannica, eighth edition. — Abstract of Memoir of Sir John Leslie, by Macvey Napier, English Cychpmdia. London, 1856. 125 NEVIL MASKELYNE, D.D., F.R.S., MEMBER OF THE INSTITUTE OF FRANCE, ETC. Portrait taken from the Picture by Russell. Bom October 6, 1739. Died February 9, 1811. This most accTirate and industrious astronomer was born in London, and was the son of Mr. Edmund Maskelyne, a gentleman of respectable family in Wiltshire. At the age of nine Maskelyne was sent to Westminster school, where he early began to distinguish himself, and to display a decided taste for the study of optics and astronomy. The great solar eclipse, which occurred in 1748 was, how- ever, the immediate cause of his directing his attention to these sciences, and from that period he devoted himself with ardour to the study of mathematics as subservient to that of astronomy. It is a curious fact that the same eclipse is said to have produced a similar effect upon the French astronomer Lalande, who was only three months older than his English contemporary. Soon after this Maskelyne entered the University of Cam- bridge as a member of Catherine Hall, removing afterwards to Trinity, where he took the degree of Bachelor of Arts with great credit in 1754, and proceeded regularly through the succeeding stages- of academical rank in divinity. In 1755 he was ordained to a curacy at Barnet, and in the following year obtained a fellowship at Trinity. In the year 1758 he was elected a fellow of the Royal Society, previous to which event he had become acquainted with Dr. Bradley, and had determined to make astronomy the principal pursuit of his 126 MASKELYNE. life, feeling that it was perfectly compatible with an enlight- ened devotion to the duties of his own profession. 1761 marks the period when Maskelyne commenced his puhlic career as an astronomer. During that year he was chosen by the Royal Society to undertake a voyage to the island of St. Helena, for the purpose of observing the transit of Venus ; and in order to make the voyage as useful as pos- sible, Maskelyne undertook to make observations upon the parallax of Sirius. He remained ten months at St. Helena, but the weather hindered his observing the transit to advan- tage, while the inaccuracy of his quadrant, which was of the same construction as was then usually employed, prevented his observations on the stars from being as conclusive as he had expected. His voyage was, however, of great service to navigation, by promoting the introduction of lunar ob- servations for ascertaining the longitude ; and he taught the officers of the ship in which he was in, the proper use of the instruments as well as the mode of making the computations. On his return to England, Maskelyne published, in 1763, his 'British Mariner's Guide,' the earliest of his separate publications, in which he proposes the adoption of a Nautical Almanac according to the plan indicated by LacaUle, after his voyage to the Cape of Good Hope. In the same year he per- formed a second voyage to the island of Barbadoes, in order to determine the rates of Harrison's chronometers. In his report on the results of this voyage Maskelyne, while doing justice to the works of this eminent mechanician, decided in favour of the employment of lunar observations for deter- mining the longitude, strongly supporting the cause of Pro- fessor Mayer, who had computed lunar tables for this purpose. The liberality of the British Government, however, bestowed on Harrison the whole reward that he claimed,* while Mas- kelyne, having been appointed to the situation of Astronomer * 20,0001., the reward offered for a chronometer sufficiently exact to cor- rect the longitude within certain limits required by Act of Parliament. MASKELYNE. 127 Royal which likewise made him a member of the Board of Longitude, was instrumental in procuriag a reward of 5,000/. for the family of Professor Mayer, and a compHment of 300/. for Euler, whose theorems had been employed in the investigation. When the merits of Mayer's tables had been fully estab- lished, the Board of Longitude was induced to promote their application to practical purposes by the annual publication of the Nautical Almanac, which, during the remainder of his Hfe, was arranged and conducted entirely under Maskelyne's direction. Maskelyne held the situation of Astronomer Royal for forty- seyen years, during which period he acquired the respect of all Europe, by the diligence and accuracy of his observations, which he always, if possible, conducted in person, requiring the aid of only one assistant. Up to Maskelyne's time the observations of the Astronomers Royal had been considered as private property ; Plamsted pub- lishing his own, while Bradley's were, very KberaUy, bought of his family, and afterwards printed by the University of Oxford. Dr. Maskelyne, on the contrary, obtained leave from the British G-overnment to have his observations printed at the pubKc expense under the direction of the Royal Society, who are the legal visitors of the observatory, appointed by the royal sign manual; and by thus causing the observations of the Astronomer Royal to be recorded publicly, he supplied a great want which had hitherto existed both ia the English and French estabKshments. He also made several improve- ments in the arrangement and employment of the instruments used in the observatory, particularly by enlarging the sHts through which the light was admitted ; by making the eye- glass of his transit telescope moveable to the place of each of the wires of the micrometer ; and above all, by marking the time to tenths of a second, a refinement which had never been attempted before. 128 MASKELYNE. Maskelyne received his doctor's degree in the year 1777, he also obtaiaed the rare distinction of being made one of the eight foreign associates of the French Academy of Science. In consequence of an unsuccessful attempt made by Bouguer to measure the local attraction of a mountain in South Ame- rica, Maskeljnae determined, in 1772, to ascertaia that of SchehaUien ia Scotland; and this latter undertaking, to- gether with the determination of the lunar orbit from obser- vation, and its application to navigation, may be considered as his most important contributions to the cause of science. In character Dr. Maskelyne was modest and somewhat timid in receiving the visits of strangers, but his ordinary conversation was cheerful and often playful, with a fondness for point and classical allusion. He inherited a good paternal property, and obtained considerable preferment from his college ; somewhat later ia life he married the sister and co- heiress of Lady Booth of Northamptonshire ; his sister was the wife of Robert Lord Clive, and the mother of the Earl of Powis. Dr. Maskelyne died on the ninth of February, 1811, in his seventy-ninth year, leaving a widow and an only daughter. — Notice sur la vie et les travaux de M. Maskelyne par Delamhre. London, 1813. — Memoir by Br. T. Young, Encyclopwdia Britannica. 129 HENRY MAUDSLAY. Portrait taken from the Lithograph hy H. Grevedon. Bom Aug. 23, 1771. Died Feb. 14, 1841. This distingtuslied mecliaiiical engineer was descended from an eminent Lancasliire fanuly, who trace back their origin as far as the year 1200. His father in early life enlisted in the Royal Artillery at Norwich, and afterwards became store-keeper at the Royal Dockyard of "Woolwich, where his son Henry was born and spent his boyhood, acquir- ing in the dockyard the first rudiments of that mechanical knowledge which has siace made him so justly celebrated. Henry Maudslay worked for some years in. the well known house of Bramah & Co. at Pimlico, at which place he earned the reputation of a first-rate workman, to whom operations requiring more than ordinary skill were generally entrusted; and while engaged there he constructed the identical padlock to pick which so severely tested the skill and ability of Mr. Hobbs. About the year 1790 he commenced business on his own account in Wells Street, Oxford Street, removing a few years afterwards to Margaret Street, Cavendish Square. Here he matured and carried out many improvements in tools con- nected with the mechanical arts, bringing into general notice and use planing machines and the sKde rest. So great was the prejudice felt against this last named important adjunct of a lathe, that on the first introduction of the slide rest to the engineers of the period, it was received with great dis- favour, and called by one in derision the ' Go Cart.' Maudslay also directed his attention to the subject of screw cutting, which he eventually brought into a system, and many of those K 130 MAUDSLAY. who have since become emineiit ia this particular branch of mamifacture, acqtiired their first knowledge of the subject in his employ. While residing in Margaret Street he became acquainted with Sir Isambard (then Mr.) Brunei, who was in the habit of bringing drawings of small pieces of machinery for him to construct : this attracted Maudslay's attention, and at last he one day exclaimed to Sir Isambard, " Ah ! I see what you are thinking of — ^you want machinery for making blocks : " this so pleased Brunei, that he became more open of commu- nication, and in the subsequent completion of the beautiful block machinery afterwards erected at Portsmouth Dockyard, Mr. Brunei derived great advantage from the sound mecha- nical knowledge of Maudslay. The friendship commenced thus was never afterwards shaken, and when Brunei began the Thames Tunnel, he consulted his old friend relative to the construction of the shield, as it was termed, under shelter of which the excavation beneath the bed of the river, and the brickwork for forming the Tunnel were proceeded with. In 1810 Mr. Maudslay, finding his business getting too extensive for his premises in Margaret Street, removed to the more capacious ones in Westminster Road, Lambeth. Here he for many years carried on a large business, embracing the manufacture of all kinds of machinery, but more particularly of marine engines, to the construction and improvement of which he early directed his attention, f6reseeing how important a branch of industry they would eventually become ; and it may be interesting to record, that the engines (24 H. p.) of the ' Regent,' the first steamboat which ran be- tween London and Margate, were made at this yard in the year 1816. Mr. Maudslay held for several years the contract for sup- plying the Royal Navy with ship tanks, and this led to his making improved machinery for punching and shearing the iron plates used in their manufacture, reducing the cost MAUDSLAY. 131 of preparing the plates for receiving the rivets from seven shillings, to ninepence, per Tank. Mr. Maudslay died ia his seventieth year, and was buried in Woolwich churchyard, in a vault he had caused to be con- structed there; the monument and tablet erected to his memory were of cast iron. Maudslay married when twenty years old Sarah Tindel, by whom he had four sons and three daughters, of whom now survive only one daughter, and one son Thomas Henry Maudslay. — From particulars communicated by members of the present' firm of Maudslay, Sons and Field. K 2 132 PATRICK MILLER. Portrait taken from the Picture hy Alexander Nasmyth, in the Portrait Gallery of the South Kensington Museum. Bom in Scotland 1730. Died at Dalswinton House, near Dumfries, 1815. Patrick Miller, of Dalswinton, was originally a banker, and ultimately became possessed of considerable independent property. At different periods of his life be embarked in many schemes of great public utility. He made considerable improvements in artillery and naval architecture, and during the course of his various experiments expended upwards of thirty thousand pounds. Mr. Miller constructed double and triple vessels ; was the inventor of the carronade ; the paddle- wheel now in ordinary use ; and, conjointly with Symington, was the first to originate the present system of steam navigation. It is much to be regretted that since the deaths of Mr. Miller and Mr. Symington, statements have been made in which the entire merit of first establishing steam navigation is claimed, on the one hand, for Miller, by his eldest son, in a paper published in the ' Edinburgh Philosophical Journal ' for July 1825 ; and on the other for Symington, by Richard Bowie, in his pamphlet published in 1833 ; whereas these two gentlemen appear to be inseparably connected with, and can only conjointly claim the honour of, first introducing this grand application of steam. As far as it is possible to reconcile the conflicting statements, the facts may be briefly stated thus. Patrick Miller was the first to successfully propel vessels by paddle-wheels moved by manual labour. He then, id conjunction with "WiUiam Symington, applied MILLER. 133 steam to move these paddle-wheels, and constructed two steam-boats, which were puhHcly tried, on the Forth and Clyde Canal, in the years 1788-89. Although these trials triumphantly proved the practicahUity of steam navigation, further improvements were reqidf ed before a really successful steam-boat could be said to have been constructed. At this point, unfortimately. Miller, having already spent large sums of money in his experiments, let the matter drop ; but Symington, about ten years afterwards, under the patronage of Lord Dundas, succeeded in constructing ' The Charlotte Dundas,' a steam-boat which, for the first time, combined together those improvements which constitute the present system of steam navigation. In the narrative written by Patrick Miller, Jun., already referred to, a good deal of praise, in regard to this matter, is given to James Taylor, a tutor in his father's family, and considered by some as having a just claim to participate in the honour awarded to Miller and Symington. Mr. Taylor's merits, however, ap- pear chiefly to consist in having suggested, upon the occasion of a race between one of Miller's boats and a Custom House boat, that they only required the help of a steam-engine to beat their antagonists ; also, in having introduced Syming- ton, whose steam-carriage had rendered biTin famous, to the notice of Mr. Miller ; and although Taylor may have assisted in the subsequent experiments, he seems to have contributed little to their practical success.* — Narrative of Facts relative to Invention and Practice of Steam Navigation, Sfc, by Patrick MiUer, Jun., 'Edinburgh Philosophical Journal, "Vol. 13, July 1825. — Narrative byR. Borne, proving William Symington the Inventor of Steam Land Carriage Locomotion and of Steam Navigation, London, 1833. — Stuart's Anecdotes of the Steam Engine, London, 1829. — Descriptive Catalogue of the Museum of the Commissioners of Patents. * For further account of Miller and Syroington's experiments, see Memoir 134 WILLIAM MURDOCK. Porirait taken from ihe Picture hy Graham Gilbert, R.S.A., in the possession of the Royal Society of Edinburgh. Born 1764. Died November IS, 1839. William Murdock was born at BeUow Mill, near Old Cum- nock, Ayrshire, where Ms father carried on the business of a millwright a-nd miller, and Hkewise possessed a farm on the estate of the Boswell family of Auchinleck. His mother's maiden name was Bruce, and she used to boast of being lineaHy descended from Robert Bruce, of Scottish History. Little is known of Murdoch's life prior to his coming to England, and joining, in the year 1777, Boulton and "Watt's establishment at Soho, at that time in its infancy. He must, howoTer, have had some celebrity in his native country, as he was employed to build a bridge over the river Nith, in Dumfrieshire, a very handsome structure, and still in exist- ence. His talents were soon appreciated at Soho, particularly by James "Watt, with whom he continued on terms of the closest friendship imtil Mr. "Watt's death in 1819. After remaining two years at Soho, Murdock was appointed by Messrs. Boulton and Watt to superintend the erection, and imdertake the general charge, of their new steam-engines in Cornwall, where he erected the first engine, in that part of the country, with a separate condenser. He continued to live in the district for the space of nineteen years, giving great satisfaction to the mining interest ; so much so, that when it became known that, he was about to return to Soho, 1000/. a-year was offered him to remain in Cornwall. During his residence there Murdock contrived and executed a model locomotive, which, as early as the year 1784, he was MURDOCK. 135 in tlie habit of showing to his friends in working order, and drawing a small waggon round a room in his house at Eedruth. He used to tell a story, that while making ex- periments with this engine, he one night determined to test its powers on a level road leading from his house to the church, which was situated about a mile distant from the town; this road was bounded on each side by high hedges, and well suited for the purpose. Murdock accordingly sallied out, and placing his engine on the ground, lit the fire, or rather lamp, under the boiler ; after a few minutes off started the locomotive with the inventor full chase after it ; after continuing the pursuit for a short distance, he heard cries as of a person in great distress ; the night was too dark to per- ceive objects afar off, but on going on, he found that the sounds proceeded from the clergyman of the parish, who had set out for the town on business, and being met on this lonely road by the fiery monster, had taken it for the Evil One in person. This model locomotive was exhibited before a meeting of the Institution of Mechanical Engineers in 1850, sixty-six years after the date of its construction. Mr. Murdock is, however, better known to the public by his application of the light of coal gas to general purposes. Although this gas had been well known, and obtained both naturally and artificially more than haK a century before his time, no attempt had as yet been made to turn the discovery to any useful account. In the year 1792 Murdock first em- ployed coal gas for the purpose of lighting his house and ofiices at Eedruth ; he made it serve also as a lantern, by attaching a bladder with, a tube mouthpiece under the bottom of a glass shade, which contrivance used to light him across the moors when returning home at night from the mining engines he was erecting in different parts of the district. After various experiments which proved the economy and convenience of light so obtained, he perfected his apparatus and made a public exhibition of it by lighting up the front 136 MURDOCK. of Boulton and Watt's manufactory at Solio, on the occasion of the general iUumination for the peace of Amiens, in 1802. He subsequently lighted up some cotton mills at Manchester, begirming with Messrs. Phillips and Lee's, and published a paper on the subject iu the ' Philosophical Transactions ' of 1808, for which the Royal Society presented him with the Rumford gold medal. In 1798 Murdoch returned to take up his permanent residence at Soho, superintending the machinery there, and occasionally the erection of engines at a distance, among which may be mentioned those of the New River Head, Lambeth, Chelsea, Southwark, East London, "West Middle- sex, and other waterworks. In the following year he took out a patent for improvements in boring cylinders and in the manufacture of steam casings ; this patent also included the double D slide valve and a rotary engine. Amongst other inventions and discoveries of Murdoch's are : a plan for boring stone pipes for water, and cutting columns out of solid blocks of stone (for which he took a patent in 1810) ; a pneumatic lift working by compressed air ; and a cast-iron cement, which he was led to discover by the accidental ob- servance of some iron borings and sal-ammoniac, which had got mixed in his tool-chest and rusted a sword blade nearly through. He also made use of compressed air to ring the bells in his house ; a plan which so pleased Sir Walter Scott, to whom it had been described, that he had his house at Abbotsford fitted up in a similar manner. Murdoch likewise discovered a substitute for isinglass, and when in London for the purpose of explaining to the brewers the nature of his discovery, occupied very handsome apartments. Being, how- ever, at all times absorbed in whatever subject he had in hand, he little respected the splendour of his drawing-room, but proceeded with his experiments as if in the laboratory at Soho, quite unconscious of the mischief he was doing. This resulted in his abrupt dismissal from the apartments by the MUEDOCK. 137 enraged landlady, who one morning, on calling in to receive orders, was horrified at seeing all her magnificent paper- hangings covered with wet fish skins hung up to dry, and actually caught him in the act of pinning up a cod's skin to undergo the same process. In the year 1815, while Mr. Murdock was fitting up an apparatus of his own invention for heating the water of the baths at Leamington, a ponderous cast-iron plate fell upon his leg above the ankle, nearly severing it in two. This severe accident laid him up for a long time, and he never entirely recovered from the effects of it. During the latter years of his life Murdock's faculties, both corporeal and mental, experienced a gradual decay, causing him to live in complete retirement. He died in 1839, aged eighty-five years, and his remains were buried in Handsworth Church, near to those of Boidton and James Watt. Mr. Murdock married iu the year 1785 the daughter of Captain Paynter, of Redruth, Cornwall, who died at the early age of twenty-four, having had four children, of whom only one son survives. — Paper read hy Mr. William Buckle, of Soho, lefore a meeting of the Institution of Mechanical Engineers, October 23, 1850. 138 ROBERT MYLNE. Portrait talcen from an original Miniature, lent hy R. W. Mylne, Esq., F.B.8. Born January 4, 1733. Died May 5, 1811. Robert Mylne, the architect of Blackfriars Bridge, was bom at Edinburgh. His father was an architect, and magis- trate of the city; and his family, it has been ascertained, held the office of Master Masons to the Kings of Scotland for a period of five hundred years, until the union of the crowns of England and Scotland. On arriving at man's estate, Mylne travelled for improve- ment ; and his enthusiastic prosecution of his art soon brought him into notice. In 1758 he became a candidate for the honours of the Academy of St. Luke at Rome, and the chief prize in the highest class of architecture was awarded to hiTn ; being the first instance of a native of Great Britain obtaining that honour. Mylne resided at Rome during a space of five years, and on his return to England executed a design for Blackfriars Bridge, which was selected from among twenty others. This bridge was commenced in 1760 ; and on the occasion of the laying of the foimdation-stone by the Lord Mayor, among other medals deposited in the stone was a silver one, the memorial of the young architect's first triumph, viz., the medal (one of two) given him by the Academy at Rome. The bridge was completed in 1769 ; the arches are elliptical in shape, and were the first instances in England in which the form of an ellipse was substituted for a semicircle. The total cost of the bridge itself, exclusive of the approaches, amounted to 152,840^. MYLNE. 139 Mylne's reputation was now established, and his services were employed in the erection or improvement of many edifices throughout the United Kingdom. He received at the hands of the Archbishop of Canterbury, the Bishop of London, and the Lord Mayor, the office of Surveyor of St. Paul's Cathedral ; and while holding this appointment, sug- gested the famous inscription to Sir Christopher Wren — ' Si monumentum quceris circumspice.' He also held the office of Clerk of the "Works at Q-reenwich Hospital for fifteen years, and was Engineer to the New River "Water "Works from the year 1762 until his death, in 1811, when he was succeeded by his son. Towards the close of the eighteenth century, he became acquainted with Mr. John Eennie, whose celebrity as an engineer was then approaching its height ; and the two became from that time inseparable friends.* Mr. Mylne was also an intimate friend of Dr. Johnson, their acquaintance having originated out of a controversy as to the form of the arch for Blackfriars Bridge. Mylne was buried in St. Paul's Cathedral, by the side of his illustrious predecessor, Sir Christopher Wren. — Gateshead Observer, October 20, 1860. — EncyclopoBdia Britannica. * Mechanics' Magazine, Septemljer 20, 1861. 140 ALEXANDER NASMYTH. Portrait taken from the Picture hy A. Oeddes. Born September 7, 1758. Died April 10, 1840. Alexander Ifasmytli, the distinguished Scotch landscape painter, and known also as a man of science, was born at Edinbitrgh. He came early in Hfe to London, where he was for some time the pupil of Allan Ramsay, painter to George III. He resided afterwards ia Rome for several years, during which time he studied portrait, history, and landscape painting. From Rome, Nasmyth returned to Edinburgh, where he settled as a portrait painter, and executed his well-known paiuting of Robert Burns — the most authentic likeness of this great poet. Having, however, a decided taste for landscape painting, he idtimately confined himself to this branch of art ; but much of his time was occupied in teaching, ia which he was very successful. His landscapes, which are very numerous, were, many, of them, reminiscences of Italian scenery, and although wanting in. originality and vigour, possess so much beauty and grace as to have caused their author to acquire the name of the ' Scottish Claude.' Mr. Nasmyth was a favourite in society, and was the leading teacher in art of the highest classes in Scotland ; during his later years being commonly looked up to as the patriarch of Scottish art. He not only took much interest in the proceedings of the artistic societies of Edinburgh, but often raised an influential voice in respect to the alterations making in that city; and was one of the three successful competitors between whom the first prize ofiered for the best NASMYTH. 141 plan for laying out and building the New Town of Edin- burgh was equally divided. Mr. Nasmyth spent much of his time in scientific experi- ments, and was the inventor of ' bow and string bridges,' and of a method of driving the screw-propellers of vessels by direct action, in front of the rudder. Much of his leisure time was spent in a workshop which he had fitted up for himself, and which proved the nursery of the early mecha- nical genius of the present James Nasmyth, the celebrated engineer. Soon after his return from Italy, Alexander Nasmyth married the sister of Sir James Foulis of Woodhall CoHnton, by whom he had a family of three sons and five daughters, all of whom inherited more or less their father's talents, while the eldest, Patrick, has acquired a separate renown of no inconsiderable extent, for the beauty of his landscapes. Alexander Nasmyth died in York Place, Edinburgh, at the age of eighty- three, and was interred in the West Church burying- ground of that city. — English Cyclopcedia. London, 1857. — Catalogue of Gallery of Portraits of Inventors, 8fc., in the South Kensington Museum. 142 JOHN PLAYFAIR, F.R.S. L. and E., PEOFESSOE OF MATHEMATICS AT THE UNIVEKSITY OF EDINBURGH. Portrait taken from the Picture hy . Sir Henry Raeburn, R.A. Bom March 10, 1748. Died July 19, 1819. Jolm. Playfair, a mathematician and philosopher of great eminence and celebrity, was born at Benvie in Forfarshire, and was the eldest son of the Rev. James Playfair, the minister of that place. Playfair resided at home, under the domestic tuition of his father, until the age of fourteen, when he entered the University of St. Andrew's, where he became almost immediately distinguished, not merely for his singular proficiency in mathematical learning, but also for the extent of his general knowledge, the clearness of his judgment, and the dignity and propriety of his conduct. A strong proof of his capabilities at this time is given by the fact, that when Dr. WUkie, the professor of natural philosophy, was pre- vented by indisposition from delivering the regular lectures, he used generally to delegate the task of instruction to his youthful pupil, Playfair. In 1769 Playfair removed to Edinburgh, and while residing there, became acquainted with Adam Smith, Drs. Robertson, Matthew Stewart, Black, and Hutton, with aU of whom he continued on terms of the utmost cordiality during the whole period of their lives. During the course of the year 1772, the death of his father suddenly devolved upon Playfair the burden of supporting his family, and compelled him in a measure to seek a live- lihood by entering the Church. Although he had been PLAYFAIE. 143 educated witli a view to his entering this profession, for which he was in every way qualified, his decided predilection for science had hitherto made him hesitate about engaging in a vocation, the duties of which, he felt, if conscientiously discharged, would necessarily interfere greatly with the studies he was loath to abandon. In this emergency, how- ever, he considered himself no longer entitled to indulge in these predilections, and therefore made an application, which proved successful, to Lord Gray, the patron, for a presentation to the livings of Liff and Benvie, which had been previously held by his father. From this period until 1782, he was constantly resident at Lifif, occupied almost exclusively with the pastoral duties of his office, and with the education of his younger brothers. In the year 1779 Playfair contributed to the ' Transactions' of the Royal Society of London a paper on the ' Arithmetic of Impossible Quantities,' which exhibits, within a very small compass, a striking example of the rare and admirable talent of detaching the sound spirit of science from what may be termed its mysticism. In the year 1782 he was induced by very advantageous ofiers to resign his charge, and to super- intend the education of Ferguson of Raith, and his brother Sir Ronald ; an arrangement which restored him in a great measure to the literary and scientific society of Edinburgh, and enabled him to visit London, where he was gratified by a personal introduction to several of the most eminent cul- tivators of science in that city. Playfair was received into the University of Edinburgh during the course of the year 1785, and, in consequence of an arrangement made between Dr. Adam Ferguson and Mr. Dugald Stewart, was appointed joint-professor of mathematics with Dr. Ferguson, whose delicate state of health prevented him from discharging the active duties of the professorship ; Mr. Stewart filling the chair of moral philosophy, previously held by Dr. Ferguson. 144 PLAYFAIE. Previous to this, lite LesKe, Playfair had been twice a candidate for a similar honour, but unsuccessfully. On the first occasion, when only eighteen years old, he had offered himself, with the approbation of his instructors at St. Andrew's, as candidate for the professorship of mathematics in Marischal College, Aberdeen, and had sustained with much credit a competitive examination which lasted eleven days, and embraced nearly the whole range of the exact sciences. Out of six competitors, two only were judged to have surpassed him — the Rev. Dr. Trail, who was appointed to the office, and Dr. Hamilton, who afterwards succeeded to and long filled it with much reputation. In 1788, Playfair published, in the ' Transactions' of the Royal Society of Edinburgh, a biographical account of Dr. Matthew Stewart, which also contains a singularly clear and interesting account of the labours of Dr. Simson in the resto- ration of ancient geometry. In this year likewise appeared his paper ' On the Causes which affect the accuracy of Barometrical Measurements,' which is written with all the perspicuity, caution, and sagacity, that constitute the great excellence and the great difficulty of such disquisitions, where scientific principles are employed to give precision to physical observations. In 1790 appeared, in the same ' Transactions,' a paper of still greater interest and delicacy, ' On the Astronomy of the Brahmins,' the publication of which attracted very general attention, both in Europe and in Asia, and gave rise to much discussion and research. This was followed in 1794 by a learned and very beautiful treatise on the ' Origin and Investigation of Porisms,' in which the obscure nature of the very comprehensive and indefinite theorems to which this name was appHed by the ancient geometers, is explained with the most lucid simplicity. In 1797 he composed a sequel to his first paper on the Indian astronomy, in the shape of ' Observations on the Trigonometrical Tables of the Brahmins,' and also a masterly PLAYFAIE. 145 collection of ' Theorems on the Figure of the Earth.' During the course of the last-mentioned year, his friend Dr. James Hutton died ; and Playfair, having undertaken to draw up a biographical account of him for the Royal Society, was led to study the doctor's ingenious but crude speculations on the ' Theory of the Earth,' and afterwards to lend them the assistance of his own powerful pen, ia his ' Illustrations of the Huttonian Theory.' This work, upon which he bestowed more time and labour than on any of his other productions, did not appear until 1802 ; and whatever opinion may be formed of the truth or soundness of Dr. Hutton's speculations, it is impossible to doubt that Playfair's illustration of that theory must always be ranked amongst the most brilliant and powerful productions of philosophical genius. Its merits have been universally acknowledged, even by those not con- vinced by its reasonings, and have extorted, even from the fastidious critics of France, the acknowledgment that " Mr. Playfair writes as well as Buffon, and reasons incomparably better." In 1805 he quitted the chair of mathematics to succeed Professor Robison in that of natural philosophy. In the contest which ensued upon the appointment of Leslie as his successor in this chair, he took a very active part ; and amongst the heaviest blows which Leslie's opponents had to sustain, were those that parted from the hand of Mr. Playfair. In 1807 he was elected a Fellow of the E-oyal Society, to which learned body he very soon afterwards presented his ' Account of the Lithological Survey of Schehallien;' this was the result of his investigations during the period of Dr. Maskeljme's visit to Schehallien, to measure the attraction of that mountain, on which occasion Playfair shared the shelter of this distinguished astronomer's tent on the side of the mountain, and contracted with him a friendship which lasted during the remaiader of their lives. In 1809 he contributed to the 'Edinburgh Transactions' 146 PLAYFAIE. an excellent paper on ' Solids of tlie Greatest Attraction/ and in 1812 another, on the ' Progress of Heat in Spherical Bodies.' In 1814 he published, in two volumes octavo, for the use of his class, an elementary work of great value, imder the title of ' Outlines of IS'atural Philosophy.' About the same time he drew up for the ' Encyclopaedia Britannica' an introductory ' Dissertation on the Progress of Mathematical and Physical Science,' a treatise disfinguished for the sound- ness of judgment, beauty of writing, and extent of knowledge displayed in it. In 1815, Playfair wrote for the Royal Society of Edinburgh a very interesting memoir of his dis- tinguished predecessor, Dr. Robison. In the course of the same year he undertook, at the age of sixty-eight, a long journey through France and Switzerland into Italy, and did not return for a period of nearly eighteen months, during which time his principal attention was directed to the mine- ralogical and geological phenomena of the different regions which he visited. On his return from this expedition, he was occupied in drawing up a memoir on the ' Naval Tactics of Clerk of Eldin,' which was published after his death in the ' Philosophical Transactions.' Playfair had for several years suffered from a recurrence at different times of a painful affection of the bladder, which appeared with increased severity in the early part of 1819, but was so far got under as to enable him to complete his course of lectures in the spring. It returned, however, iu a still m.ore distressing form in the summer, and at last put a period to his life on the 19th of July. Though suffering great pain during the last part of his confinement, he retained not only his intellectual faculties quite unimpaired, but also the serenity and mildness of his spirit, occupying himself until within a few days of his death in correcting the proof-sheets of the ' Dissertation' before noticed. Besides the previously mentioned works, Playfair was a frequent contributor to the 'Edinburgh Review,' and also PLAYFAIR. 147 wrote the articles '^pinus' and ' Physical Astronomy,' in the ' Encyclopsedia Britannica.' Francis JefiFrey, of whose elaborate and elegant memoir the above is hut a brief summary, speaks of Playfair as being " one of the most learned mathematicians of his age, and among the first, if not the yery first, who introduced the beautiful discoveries of the later Continental geometers to the knowledge of his countrymen, and gave their just value and true place in the scheme of European knowledge, to those important improve- ments by which the whole aspect of abstract science has been renovated since the days of oxir illustrious Newton ;" also, " as possessing in the highest degree all the characteristics both of a fine and powerful understanding, at once penetrating and vigilant, but more distinguished perhaps for the caution and sureness of its march, than for the briUiancy or rapidity of its movements ; and guided and adorned through all its progress by the most genuine enthusiasm for all that is grand, and the justest taste for all that is beautiful." — Memoir of John Playfair, by Lord Jefirey. Encyclopcedia Britan- nica. T- 2 148 JOHN RENNIE, F.R.S., L. and E., &c. Portrait taken from the Chalk Drawing by Archibald Skerving, in the possession of George Rennie, Esq., F.R.S., 8fc. Bom June 7, 1761. Died October 4, 1831. Jolm Reimie was born at Phantassie, in the parisli of Prestonkirk, in tlie county of East Lothian. His father was a highly respectable farmer, who died in 1766, leaving a widow and nine children, of whom John was the youngest. He acquired the first rudiments of his education at the village school, which was situated on the opposite side of a brook. To cross this at certain seasons of the year it was necessary to make use of a boat, which was kept at the workshop of Andrew Meikle, an ingenious mechanic well known in Scotland as the inventor of the threshing machine. Young Rennie, having thus frequent occasion to pass through Meikle's workshop, became deeply interested in the various mechanical operations that were in progress, and a great part of his leisure and holiday time was spent therein. During the evening he employed himself ia imitating the machines which had particularly attracted his attention, and when only ten years old succeeded in constructing a model of a steam-engine, a windmill, and a pile driving machine. At twelve years of age he left the Preston school and entered the service of Mr. Meikle for a space of two years, at the end of which time, finding that a constant application to manual labour retarded the progress of his intellectual faculties, he determined to place himself under the tuition of Mr. Gibson, an eminent mathematical master at Dunbar. Here young Rennie attained such proficiency in his studies, that when, two or three years afterwards, Mr. Gibson was appointed master to EENNIE. 149 the public academy at Pertt, he was able to undertake the temporary management of the Dunbar school. While at this school he attracted the especial notice of Mr. David Lock, who, iu describing a visit to Dunbar, makes particular mention of him as one likely to prove an honour to his country.* On leaving Mr. Gibson, Rennie returned to Mr. Meikle, contiauing more or less with that ingenious man for the next two or three years, f His first essay in practical mechanics was the repairiag of a corn min in his native village, and he erected two or three others before he had reached the age of eighteen. While occupied in these works Rennie took care at the same time to attend to his other studies, managing occasionally to visit Edinburgh, where he entered himself as a student at the University, and attended the lectures of Professors Robison and Black. With the former gentleman he gradually formed an iatimate acquaint- ance, and was by him introduced to Messrs. Boulton and Watt, of Soho, with whom he remained during the space of twelve months ; it being their wish to have engaged his services for a longer period, but Rennie, conscious of his own powers, determined to make the capitol the theatre of his future efforts. His first practical essay at millwright work in England was the rolling mills at Soho, which were entirely remodelled and rebuilt under his direction. In 1784 he established himself iu London, and commenced work by the erection of the Albion Mills near Blackfriars Bridge, Boulton and Watt, who had the direction of the steam-engines, having, in accordance with the advice of Professors Robison and Black, entrusted to him the execu- * Lock's Essays on the Trade and Commerce, Manufactories and Fisheries, of Scotland. 1779. 3 vols. f According to an article published in the Mechanics' Magazine, Sept. 20, 1861, Mr. Eennie appears likewise to have attended the collegiate academy at Perth. The above brief account of his early life is given on the authority of a Memoir furnished by Mr. George Eennie, F.R.S., and published in the Bnct/- clqpcedia Britamnica. 150 RENNIE. tion of the mill-work. Mr. Watt, in his notes to Professor Robison's accoimt of the steam-engine, says that " in the construction of the millwork and machinery, they derived most valuable assistance from that able mechanician and engineer, Mr. John Rennie, then just entering into business, who assisted in placing them, and under whose direction they were executed." He also adds that the machinery, which used to be made of wood, was here made of cast iron, and considers that this was the commencement of that system of millwork which has proved so beneficial to this country. After executing this undertaking, Eennie was employed on the flour mills at Wandsworth, and the rolling and triturating •mills at the Mint. His mills, and particularly his water wheels, were regarded as models of perfection, while in all hydraulic works he was the worthy successor of Smeaton. From this time until his comparatively early death in 1821, Rennie was constantly employed on various large and splendid under- takings, among which his bridges occupy an important place. Of these structures the finest is the Waterloo Bridge' over the Thames, begun in 1809 and finished in 1817. It is built of Aberdeen granite, and consists of nine equal semi-elliptical arches of 20 feet span, with a level roadway 45 feet wide from outside to outside of parapet, which adds greatly to its beauty. This bridge was opened to the public by the Prince Regent, who ofiered at the time to confer upon Mr. Rennie the honour of knighthood ; this ofier, however, he declined. London Bridge, which he designed but did not live to exe- cute, was finished by his sons, Mr. Greorge and Sir John Rennie. It is biiilt of the finest blue and white granite from Scotland and Devonshire, and consists of five semi-elKptical arches, -two of 130, two of 140, and the centre one of 152i ft. span, being perhaps the largest elliptical arch ever attempted. The beautiful stone bridge over the Tweed at Kelso," and those at Musselburgh and New Galloway, were also designed by him. When speaking of the first named of these bridges. EENNIE. 151 Mr. Rennie used often playfully to declare, that he con- sidered himself a benefactor to his country, inasmuch as one of his earliest public works was to build a bridge across the Tweed ! The iron bridges which he executed are, the one at Boston, oyer the Witham, with a span of 100 feet ; and the noble bridge at Southwark, oyer the Thames, begun in 1815 and opened in 1819. The latter consists of three circular arches of equal curvature, the centre one having a span of 240, and the other two of 210 feet. The total weight of iron in the structure was 5780 tons, and the entire cost, including approaches, &c., 800,000^. The improvement of harbours and the construction of docks occupied much of Mr. Ronnie's attention, and in these operations his diving-bell apparatus was of peculiar value. Smeaton was the first who used the diving-bell effectually for building with stone under water ; the machine he em- ployed for that purpose was, however, very defective, and could only be used in certain situations. But Eennie, by improvements in the instrument itself, and in the machinery by which its movements could be regulated,* was enabled to carry on masonry, and the foundations of sea-walls, piers, and quays, as well under water as above it. He first em- ployed his apparatus in 1813, in building the East Pierhead at Ramsgate, the foundations of which were 17 feet below low water at spring tides. It was afterwards used ia found- ing the pierheads and outer walls of the harbours at Holy- head, Howth, and Sheerness, and other works under his direction. Am.ongst the numerous wet docks introduced at Liverpool in 1716, and since constructed at almost all the principal sea-ports in the kingdom, Mr. Rennie executed the London Docks, and those at Leith, Dublin, Hull, and Greenock, and also the East and West India Docks, in con- * By the invention and employment of what is now well known as the travelling-crane. 152 EENNIE, JTinction with Jessop and "Ralph "Walker. He also con- structed the harbours of Queensferry, Berwick, Howth, Holyhead, and that at Kingston, the largest attempted in this country. At the low water of spriag tide, the depth of this harbour was 26 feet, while the area enclosed amounted to 250 acres. The breakwater at Plymouth for protecting the Sound from the swell of the sea was likewise designed by him and Mr. Whitby, and was the first and largest example of a detached breakwater in this country. One of the most useful works executed by Mr. Eennie was the draiaage of the great Fen district bordering upon the rivers Trent, Witham, New Welland, and Ouse, and extending 60 miles in length by 25 ia breadth. In the carrying out of this great work, by which many hundreds of square miles were rendered productive, and the salubrity of the district im- proved, he was assisted by Mr. Telford and his son. Sir John Rennie. The chief canals of which he was engineer are the Kennet, Avon, Criaan, Rochdale, and Lancaster. The naval dockyards at Portsmouth, Plymouth, Chatham, and Sheerness also attest his skill as an engineer. The latter was a mere quicksand 40 feet deep, mixed with mud and the wrecks of old ships ; the whole of which was excavated, and a magnificent basia constructed with a surrounding wall of granite, with which three large and commodious dry docks communicated. Several magnificent works of great public utility were proposed to the government by Mr. Rennie but never executed. The most remarkable of these is his design for a great naval arsenal on the Thames at Northfleet, in- tended as a substitute for the imperfect naval establishments on the river. It was to consist of six capacious basins, with an area of 600 acres within the walls, and to comprehend machinery for every operation connected with the naval science. The estimated cost of this noble plan was eight millions, which might have amounted to ten or eleven EENNIE. 153 millions, but would even then have been a measure of economy compared with the vast sums expended on the old establishments on the Thames and Medway. Before closing the present brief account of this celebrated engiaeer's life and works, his lighthouse on the Bell Rock must not be passed by without notice. Like the Eddystone, it was built of stone ; commenced in 1806, and findshed in 1811, it still remaias an enduring monument of the skill of its architect. Until within a few years of his death Mr. Rennie enjoyed robust health, but he was cut off in the sixty-first year of his age after a few days' illness. He was buried in St. Paul's Cathedral, his remains beiag interred near to those of Sir Christopher Wren. — Eiicyclopcedia Britannica. — North British Review, February 1861. — Mechanics' Magazine, September 20 and JSTovember 22, 1861. 154 FRANCIS RONALDS, F.R.S. Portrait taken from a Photograph. Of all the distinguished men of science forming the group in the present Picture, Mr. Francis Ronalds of Hammersmith is the only one at present lining. He appears to have de- voted himself very early ia life to the cause of electrical science, and is the iaventor of an electric telegraph, electrical machine, electrometer, mode of electrical insulation, pendu- lum doubler, electric clock, and traciag apparatus to facilitate drawing from nature. In the year 1816 Mr. Ronalds was the first to demonstrate the practicability of passing an electrical message through a comparatively long distance; for this purpose he dug a trench in his garden at Hammersmith, and laid therein a wire from eight to ten miles ia length, through which he was enabled to successfully pass a message by providing means for perfect insulation ; and he thus overcame to some extent the difEculties which had so frequently baf&ed his predecessors. Mr. E-onalds is the author of a work on Perspective, and also wrote in the year 1814 an article in the ' Philosophical Magaziae,' entitled ' An Electro Galvanic Agency employed as a Moving Power ; with a Description of a Galvanic Clock.' In 1823 he wrote another work entitled ' Descriptions of an Electrical Telegraph and of some other Electrical Apparatus.' Mr. Ronalds is at present on the continent, where he has been residing for some years past. — Descriptive Catalogue of tJie Museum of the Commissioners of Patents. Cornhill Maga- zine, July, 1860. 155 COUNT EUMFORD (SIR BENJAMIN THOMPSON), LL.D., V.P.R.S., MEMBER OF THE ROYAL INSTITUTE OF FRANCE, ETC. Portrait taken from the Picture hy Madetnoiselk Math. Born March 36, 17S3. Died Aug. 31, 1814. * Benjamin Thompson, the founder of the Royal Institution, and more generally known by the title of Coimt Rumford, which he afterwards acquired, was born at Woburn ia Mas- sachussets. His ancestors appear to have been among the earliest colonists of this district, and ia aU probability came originally from England. Thompson's father died while his son was a mere infant, and two or three years afterwards his mother married a second husband, Josiah Pierce, also a resident at Woburn. As soon as young Thompson was able to learn his letters he was sent to the school of his native town, kept by a Mr. John Fowle, where he remaiaed until his eleventh year, when he joined the school of a Mr. HOI at Medford. Here Thompson made such advances in mathematics and astronomy as to be able to calculate eclipses. At the age of thirteen he was bound apprentice to Mr. John Appleby, a respectable mer- chant in Salem, the second town in point of size in Massa- chussets. His occupations with Mr. Appleby were princi- pally those of a clerk in the counting house, but he appears to have had sufficient leisure to extend his readiag in scien- tific subjects, and also to indulge a taste, he began to exhibit, for designing and engraving. At this time he was likewise occupied with a contrivance for solving the famous problem of perpetual motion, but was ultimately made to see the 156 EUMFORD. fallacy of Ms expectations, by the arguments of an old friend and sclioolfellow, Loammi Baldwin, -who iaduced him to attempt something more practicable though less magnificent. About this period, 1767, the differences between Grreat Britain and her American colonies were beginning to assume a serious aspect, and there ensued such a stagnation of trade at Salem and other towns, that Mr. Appleby, having no further occasion for the services of a clerk, was glad to give up to young Thompson his indentures, and allow him to return to Woburn. For the next two or three years Thomp- j^Bon's course of life seems to have been wavering and unde- cided. At one time he appears to have had thoughts of entering the medical profession, for he remained during some months under the tuition of Dr. Hay, a physician in Wobum, and entered zealously upon the study of anatomy and physiology. In 1770, however, he resmned his mercantile avocations ia the capacity of a clerk at a dry goods store at Boston, kept by a Mr. Capen, and was thus engaged during the famous riots which took place in. that town, on the attempt to land a cargo of tea from a British vessel, contrary to a resolution of the colonists against admitting British goods. These dis- turbances caused Mr. Capen' s business to decline as Mr. Appleby's had formerly done, and Thompson was again obliged to return to Woburn. He now seriously turned his attention to the acquisition of scientific knowledge, and in company with his friend Baldwin attended a course of lectures on experimental philosophy delivered at Harvard College, instituting at the same time many experiments of his own, some of which proved the germs of valuable conclusions pub- lished in after life. In particular may be mentioned a course of experiments which he began in order to ascertain and measure the projectile force of gunpowder. Thompson, though still only in his seventeenth year, had now acquired a certain amount of reputation ; he was also RUMFOED. 157 endowed with mucli natural grace and many personal advan- tages, whicli subsequently proved the means of gaining him access to the first circles in Europe. Towards the close of the year 1770 he was invited by Colonel Timothy Walker, one of the most important residents in the village of Rumford, now Concord, ia New Hampshire, to take charge of an Academy ia that place. Two years later, at the age of twenty, he married Mrs. Rolfe, a colonel's widow possessed of a considerable fortune. After his mar- riage Thompson took his place as one of the wealthiest inha- bitants of the district in which he resided, mixing with the best society the colony afibrded. Among others he made the acquaintance of the governor John "Wentworth, who, wishing to attach to the British party so influential a colonist, gave Thompson the commission of major ia a regiment of the New Hampshire Militia, in which a vacancy had occurred. This act of attention, while gratifying to Thompson, procured him much iU-will from the officers already in the service, and over whose head he had been promoted. From this period he began to be unpopular in his native country. He was represented as a friend of Great Britain, and an enemy to the interests of the colonies. The public hatred of him at length rose to such a height, that he only escaped by flight from the ignominy of being tarred and feathered ia the open streets. Leaving his wife and an infant daughter, Thompson first took refuge in his native town of Woburn, and then proceeded to Charlestown where he re- mained for several months. From Charlestown he went to Boston, at which place he was well received by Greneral Grage and the officers of the British army at that time in garrison at Boston. Returning in the spring of 1775 to Woburn, he agaia ran the risk of beiag tarred and feathered, but was saved by the interference of his friend Baldwia. The commencement of open hostilities between the Colo- 158 BUMFORD. nists and the British troops ia May, 1775, made Thompson's position still more critical, and finding that he could not overcome the prejudice felt against him, he came to the desperate resolution of quitting his native country, and leaving his wife and child. To effect this he first escaped to Boston, where he remained, with his friend General Gage, until the evacuation of the town by the British troops, when he embarked on board the Scarborough, and set sail for England, with despatches from General Gage to Lord George Germain, the British Secretary of State for Colonial Affairs. Although Thompson arrived in England the bearer of gloomy tidings, and sustaining the equivocal character of a deserter from the American cause, he soon showed that he was a man capable of commanding his fortune anywhere. The capacity in which he had come over introduced him to various public men who were both struck by his abilities and charmed by his manners. But a short time elapsed after his arrival before he was offered a post in the Colonial Office, and four years after, in 1780, was raised by his patron Lord Germain to the post of under secretary for the colonies, an instance of rapid promotion which, considering the circum- stances in which the subject of it stood, is almost unexampled. The income and consequence which Thompson derived from this office gave him admission to the highest metropolitan circles, and he had thus opportimities not only of becoming known, but also of exercising his inventive mind in many pursuits not immediately connected with his official duties. Fertility of resources, and a disposition to propose improve- ments in all departments, appear to have been his most striking characteristics, and it was probably this ready genius for practical reform in everything which came under his notice, that recommended him so much to public men. While engaged generally in a variety of matters, Thompson was at the same time following out certain specific lines of EUMFOUD. 159 scientific investigation. His experiments on tlie heat caused by friction, deduced from tlie boring of cannon, are among the best we possess. In 1777 he made some curious and interesting experi- ments on the strength of solid bodies, which were, however, never published. In 1778 he employed himself in further experiments on the strength of gunpowder and the velocity of military projectiles ; and these were followed up by a cruise of some months ia the Channel fleet, where he pro- posed to repeat his experiments on a larger scale. He com- municated the result of his researches on this subject, in several papers, to the ' Philosophical Transactions' of the Royal Society, of which he became a member ia the last- mentioned year. On the retirement of Lord Greorge Germain from ofiice, Thompson was sent out to New York in the year 1781, with the royal commission of major, afterwards changed to that of lieutenant-colonel, charged with the task of organizing an efficient regiment of dragoons out of the broken and disjointed native cavalry regiments which had been fighting on the royalist side. This regiment was, however, of no avail ; peace was concluded between Great Britaia and the United States, and Colonel Thompson on his return to England obtained leave of absence to travel on the Continent. In crossing from England to France, it happened that he had as a fellow-traveller the celebrated historian Gibbon, who, ia some subsequent correspondence, spoke of him as " the soldier, philosopher, statesman — Thompson." While on his way to Vienna, Thompson attended a review of the garrison of Strasbourg, and, attracting general atten- tion by his superb EngHsh horse and uniform of colonel of dragoons, became introduced to the notice of Prince Maxi- milian, nephew and presumptive heir of the Elector of Bavaria. This prince was agreeably impressed by the manners and address of Thompson, and furnished him with 160 KUMFOKD. letters of introduction to his uncle, the Bavarian Elector. When Thompson arrived at Munich (so great seems to have been his power of conciliating favour), he was offered, on his first iuterview with the elector, an important situation at court, if he would take up his residence there. After a little delay, Thompson accepted this offer, conditional upon receiving permission from his Britannic Majesty. Proceeding to London to obtain the required consent, he was very favourably received by George III., who conferred on him the honour of knighthood, and allowed Tn'm to retaiu his title of lieutenant-colonel, together with the half-pay attached to it. Towards the close of the year 1784, Sir Benjamin Thomp- son, at the age of thirty-one, took up his residence at Munich, and filled the posts of aide-de-camp and chamberlaiu to the Elector ; being thus connected both with the military and civil service of the Bavarian dominions. Into these twin branches of government he soon introduced many important and salutary reforms ; he reorganized the Bavarian army, and introduced many improvements into the art of agri- culture as practised in that part of Europe ; he also took wise and effectual measures for the suppression of mendicancy, and for the ameliorization of the condition of the poor at Munich, introducing among them some excellent plans for the economization of food and fuel. While investigating this latter subject. Sir Benjamin paid particular attention to the construction of grates and fire- places, and to the scientific properties of light and heat. He BO improved the methods of heating apartments and of cook- ing food, as to produce a saving in the precious element of heat varying from one-half to seven-eighths of the fuel pre- viously consumed ; so that it was wittily said, that he would never rest satisfied until he had cooked his dinner with his neighbours' smoke. To him also is the honour due of being the first to explain the manner in which heat is propagated RUMFORD. ' 161 in fluids. In requital of these important services to the Bavarian state, Thompson was decorated with two orders of Polish knighthood ; he also received the appointments of member of the Council of State and lieutenant-general in .the army, was created commander-in-chief of the general staff, minister of war, and superintendent of the police of the electorate, and was finally, in 1790, raised to the dignity of Count of the Holy Roman Empire, by the title of Count Bumford, in memory of the American village where he had formerly officiated as schoolmaster. The scientific part of the community also showed their esteem for him, by electing him a member of the Academies of Munich and Manheim ; and in 1787, when on a .visit to Prussia, he was chosen a member of the Academy of Sciences at Berlin. When the advance of the French army under Moreau compelled the Elector to quit his capital, Count Rumford was for a short time placed at the head of the Regency, and in this capacity succeeded in the arduous task of freeing the Bavarian state from foreign invasion. This important service increased Rumford's reputation with the Elector and the people, and he was permitted to settle one-half of the pension which he enjoyed on his daughter, to be paid during her lifetime. In the year 1798, the Elector appointed him his ambas- sador to the court of Great Britain ; but on arriving in London, Rvimford, much to his mortification, found that, as a British subject, he could not hold that office. Shortly after this, in 1799, his friend and patron the Elector Charles Theodore died. Deeply grieved by the loss he had sustained, Rumford contemplated returning to his native country, in compliance with a formal invitation which he had received from the United States government. He was, however, led to change this design, and remain for several years in London, during which period he devoted the greatest portion of his time to the interests of the Royal Institution, of which he M 162 EUMFORD. may be considered the foxmder. The objects of this institu- tion, now one of the recognised scientific establishments of the world, and which can boast of having given employment to such men as Young, Davy, Brande, and Faraday, were "to diffuse the knowledge and facilitate the general intro- duction of useful mechanical inventions and improvements, and to teach by courses of philosophical lectures and experi- ments the application, of science to the useful purposes of life." Such an institution was precisely the one which Eimiford was qualified to superintend ; and in its early history, the influence of his pecidiar habits of thought is discernible, in the choice of subjects for investigation by the members. Rumford's name will ever be connected with the progress of science in England, from the establishment of this institution, and also from the foundation by him of a perpetual medal and prize in the gifb of the Royal Society, for the reward of discoveries connected with light and heat. During the latter portion of his life. Count Rumford, retaining an income of 1200/. a year from the Bavarian court, resided chiefly at Auteuil, a small villa near Paris. Here he was married again to the widow of the eminent French chemist Lavoisier, his former wife ha^^g died in 1792. Rumford's death took place at Auteuil, on the 21st of August, 1814, in the sixty-second year of his age. His ordy daughter by his first wife inherited the title of Countess of Rumford, with the continuation of her father's Bavarian pension. She married Cuvier the naturalist, and survived until a few years ago, forming a link between the age of Lavoisier and those of the middle of the nineteenth century. — Chambers' Miscellany, No. 161. — Encyclopaedia Britannica, eighth edition. — Voyage de trots mois en Angleterre, en Ecosse, 8fc., par Marc-Auguste Pictet, F.R.S., &c. Geneva, 1802. 163 DANIEL RUTHERFORD, M.D. Portrait taken from the Picture hy Sir Jlenry Maeburn, B.A. Born November 3, 1749. Died November 15, 1819. Daniel Rutherford was born at Ediaburgh and educated at tbe University of Ms native city. He took his degree of M.D. in 1772, and in the Thesis which he published upon this occasion, entitled ' De Aere Fixo,' he pointed out for the first time a new gaseous substance, since distinguished by the name of Azote or Nitrogen. On the 6th of May, 1777, he was admitted a Fellow of the Royal College of Physicians, and in a paper on Nitre, read before the Philosophical Society in 1778, he described, under the name of Vital Air, what is now called Oxygen gas. On the death of Dr. John Hope in 1786, Rutherford was elected Professor of Botany and Keeper of the Botanical Gardens at Edinburgh, a duty which he discharged until the time of his death, in 1819, at the age of seventy. — 1 Philosophical Journal, vol. 3. May 1820. M 2 164 WILLIAM SMITH, LL.D. Portrait taken from the Picture hy Foiirait, in the possession of Professor John Phillips, F.B.S., 8fc. Bom March 93, 1769. Died August 98, 1839. "William Smith, the " Father of English Greology," ^ras bom. at Churchill, a "village in Oxfordshire. His father died when he was eight years old, and his mother marrying again, William was brought up under the care of his imcle, to part of whose property he was heir. From this kinsman, who had little sympathy with his nephew's early displayed taste for collecting specimens of the various stones in the neigh- bourhood, young Smith with difficidty obtained money for the purchase of a few books fit to instruct a boy in the rudi- ments of geometry and surTeying. He, however, continued to prosecute these studies without instruction or sympathy, but stiU with ardour and success until the year 1787, when, having attained the age of eighteen, and being tolerably versed in the geometry and calcidations at that time thought sn£cient for engineers and surveyors, he became assistant to Mr. Edward Webb, of Stow-on-the-Wold, who had been appointed to make a complete survey of the parish of Churchill. Being speedily entrusted with the management of all the ordinary business of a surveyor, Mr. Smith tra- versed in continual activity the counties of Oxfordshire, Gloucestershire, and Warwickshire, carefully noticing all the varieties of soil over which he passed, and comparing them with the general aspect and character of the country. Be- tween the years 1791 and 1793, he also made minute sub- terraneous surveys of the High Littleton collieries, which afforded him an opportunity of confirming views previously SMITH. 165 conceived as to the regularity in formation of the different strata composing the earth's crust. At this period the ser- vices of civil engineers were in great request, and the duties entrusted to them were such as Mr. Smith was well qualified to perform. Several gentlem.en in the neighbourhood in- terested themselves in forwarding his professional career, and he obtained an engagement to make surveys and levels for a proposed line of canal in Somersetshire. In the course of these operations. Smith discovered that the strata lying above coal were not laid horizontally, but inclined in one direction — viz., to the eastward ; resembling on a large scale the ordinary appearance of superposed slices of bread and butter. This fact he had previously imagiued to be the case, and it was now proved to be true. In 1794 the Canal Bill on which he was engaged received the sanction of Parliament, and one of the first steps taken by the committee of management was to depute two of their members to accompany Mr. Smith, their engineer, on a tour of investigation as to the construction and management of other navigations in England and Wales. This journey ex- tended altogether through 900 miles of country, and occupied the space of one or two months ; the party reached Newcastle by one route, and returned by another, through Shropshire and "Wales to Bath. During the whole tour Mr. Smith seized every opportunity of observing all local peculiarities as to the aspect and structure of the country passed through, and was able to verify on a large scale his pre-conceived generalizations regarding a settled order of succession, con- tinuity of range at the surface, and general declitiatioh east- ward of the different strata. During the next six years he was engaged in setting out and superintending the works on the Somersetshire coal canal ; being able, from the knowledge he had acquired, to inform the contractors what would be the nature of the ground to be cut through, and what parts of the canal would require particular care to be kept watertight. 166 SMITH. He also discovered, during the formation of this work, tliat each stratum contained organised fossils peculiar to itself, by examination of which, it might in cases otherwise doubtful be recognised and discriminated from others Kke it, but in a different part of the series. This fact was subsequently still further investigated by him, and he proved that whatever stratum was found in any part of England, the same remains would be found in it and no other. Mr. Smith was now (1795) twenty-six years old, and at this period removed from the village of High Littleton to Bath^ in the vicinity of which city he shortly afterwards purchased a small but beautiful estate. In the following year he first contemplated publishing his discoveries in geology, but it was not until the year 1799, after his en- gagement with the Coal Canal Company had ceased, that he made public his iatention of publishing a work on the Strati- fication of Britain, and prosecuting an actual survey of the Geological structure of England and Wales. About this time he became acquainted with the Rev. Benjamin Richard- son and the Rev. Jos. Townsend, two gentlemen thoroughly competent to estimate the truth and value of his views, and who, in conjunction with him, drew up a tabular statement of the order of the strata, with their imbedded organic remains, in the vicinity of Bath. Copies of this document were extensively distributed, and it remained for a long period the type and authority for the descriptions and order of the superposition of the strata near Bath. The original document, in Mr. Richardson's handwriting, drawn up from Smith's dictation, was presented to the Gf-eological Society in 1831. Mr. Smith now turned all his energies to the prose- cution of his profession, and the tracing out the courses of the strata through districts as remote from Bath as his means would permit. In 1799 an unusual amount of rain prevailed, producing in the neighbourhood of Bath an extraordinary phenomenon. Vast mounds of earth, displaced by the aug- SMITH. 167 mented force of the springs and the direction of water into new channels below the surface, were sliding down the sides of the hills, hearing away with them houses, trees, lawns, and fields. To remedy such disasters and prevent their re- currence was exactly what Smith had learnt from geology, and many operations of this kind were placed under his care and successfully accomplished. His reputation for success in draining on new principles became established, carrying him into Gloucestershire, the Isle of Purbeck, "Wiltshire, &c., and for the next few years he was almost daily occupied in various parts of the country, first in draining land, and secondly in irrigating it when drained. In 1801 he accom- plished the effectual drainage of Prisley Bog, a work which had often been attempted before, but without success. Mr. Smith thoroughly deprived the bog of its stagnant water, and converted this hitherto worthless waste into valuable meadows, by conducting a running stream, over its surface. For the performance of this undertaking he received in 1805 the medal of the Society of Arts. Another great work, on which he was engaged more or less during the space of nine years (1800-1809), was the draining of the marsh lands in East Norfolk, between Yarmouth and Happisburgh. These lands were continually Hable to be flooded by inundations from the German Ocean, which poured in through breaches in the sand-hills lining the coast, and forming a natural barrier against these inroads. Mr. Smith at once saw that the first thing to be done, to prove an effectual remedy, must be the stopping out the sea from the whole region of marsh land. This he accomplished by filling up the vast breaches (amounting altogether to one mile in length) with artificial embankments made of pebbles and sand as like as possible to the natural barriers thrown up by the sea. This simple and effective plan, reqidring almost nothing but labour for its accomplishment, entirely succeeded ; and the sea now being effectually kept out, he was able to suggest to the pro- 168 SMITH. prietors proper inetliods for draining and improving the marslies. In 1806 Mr. Smith's first published work appeared, being entitled ' A Treatise on the Construction and Management of "Watermeadows.' Several years previous to this he had been repeatedly urged by his friends (among whom he now counted Francis, Duke of Bedford, Sir Jos. Banks, Mr. Crawshaw, Thomas W. Coke, of Norfolk, and the Eev. B. Eichardson, before mentioned) to put in force his intention of publishing his discoveries. Many difficidties had, however, occurred; his means were continually exhausted by his scientific inves- tigations ; and an attempt, first made in 1801, to publish by subscription a work on the natural order of the strata of England and Wales, failed, partially from the deaths of his patrons the Duke of Bedford and Mr. Crawshaw, and ulti- mately from his proposed publisher Debrett falling into difficulties. From this period until late in life Mr. Smith continued unceasingly his professional occupations. In 1809 he began to execute the Ouse navigation in Sussex ; ia 1810 he re- stored the hot springs of Bath which had failed ; in 1811 he examined into the causes of leakage on the Kennet and Avon Canal, and reported on trials for coals in Buckinghamshire ; and in 1812-1814 executed the Minsmere drainage in Suffolk. During these and a huadred other engagements of a like nature, which furnished him with the means and occasion for incessant travelUng, Mr. Smith lost no opportunity of com- mitting to paper the result of the day's observations on the direction, dip and aspect of the rocks he passed over during his various journies. In 1812, receiving proposals from Mr. Cary to publish his map of the strata of England and "Wales, Mr. Smith recommenced his efforts to produce the great work on which he had been occupied for the space of twenty years. This map was at length published on the 1st of August, 1815, being dedicated to Sir Joseph Banks, and he SMITH. 169 received from the Society of Arts the premium of 50^., which had long been offered for a work of this description. The fame of its author as a great original discoverer ia English geology was now secured, hut it brought Mr. Smith little pecuniary benefit. Geology had kept him poor all his life by consuming his professional gains ; and an unfortunate speculation, which he at this time entered into, entirely failed, and compelled him to sell the property at Bath which he had purchased in 1798. A load of debt still remained to be discharged, and in order to liquidate this he proposed selling the valuable geological collection he had been making during his past life. This collection, of which the number of species was 693, and of specimens 2657, was purchased by Government for the British Museum for a total sum of 700^. In 1818 Mr. Smith's claims on pubHc notice were fairly and fuUy advocated by Dr. Fitton, and it was chiefly from the favourable light in which this gentleman placed his long and solitary labours, that public iaterest for him was stimulated, and the Geological Society, who had hitherto passed him over, was at length roused to an inapartial estimate of the value of his works. This resulted in the passing of a resolution in February 1831, " That the first Wollaston medal be given to Mr. William Smith, in. consideration of his being a great original discoverer in English Geology ; and especially for his having been the first in this country to dis- cover and to teach the identification of strata, and to deter- mine their succession by means of their imbedded fossils." The following year he received from the Crown a pension of 100^. a-year. Previous to this, however, the state of Mr. Smith's finances compelled him to be unceasingly occupied in various professional engagements ; and on one of these occa- sions, being engaged by Colonel BraddyU to make a general mining survey of some estates belonging to that gentleman, he drew the Colonel's attention to the great probability of there being coal at an attainable depth on part of his property 170 SMITH. situated at Haswell, in Durham. This ultimately led to the foundation of the magnificent works, called the South Hetton Colliery, which rival the greatest establishments of the Lambtons, Vanes, and Russells. During the last few years of his life Mr. Smith lived principally at Scarborough, where, unfettered by any but temporary engagements, he devoted his mind to a review of the circumstances of his life, and the arrangement of his observations and opinions. In 1835 he received the degree of LL.D., which was conferred on him by the members of Trinity College, Dublin. Between the years 1837 and 1838 he was appointed by Government to join Sir Charles Barry and Sir Henry De la Beche in making a tour through a great part of England and Wales, to select the most suitable stone for building the Houses of Parliament. The stone ultimately selected for this purpose was the firm yellow granular mag- nesian limestone, of Bolsover Moor, in Derbyshire. This was the last scientific work on which Dr. Smith was engaged ; a cold caught the following year brought on diarrhoea, which terminated fatally. He died on the 28th of August, in his seventy-first year, and was buried at ]!^orthampton, at the west end of the church of All Saints, in which, at the sugges- tion of Dr. Buckland, a tablet was erected to his memory, the expense of which was defrayed by a subscription among geologists. — Memoirs of William Smith, LL.D., by his nephew, John PhiUips, F.R.S., F.G.S. London, 1844 171 EARL STANHOPE, F.E.S. Portrait taken from the Picture hy John Opie, R.A., in the possession of Lord Holland. Born August 3, 1753. Died December 17, 1816. Charles Staiihope, third earl of that name, was bom at CheTening in Kent, and was sent at a very early period to Eton ; but at the age of ten he removed with his family to Geneva, where he was placed under the tuition of M. Le Sage, a well-known man of letters in that place. There can be but little doubt that the whole political- career of Earl Stanhope was deeply influenced by the circumstance of his receiving his early education in this republican city ; and to this may be ascribed the extreme views which he entertained in after Hfe respecting civil liberty and other points affecting the welfare of great communities. While acquiring these sentiments, Lord Stanhope was at the same time pursuing a course of training which sub- sequently made him so remarkable, as a m.an of science and letters. Natural philosophy was his chief study; and the knowledge which he acquired of this subject was decisively shewn by his gaining, at the early age of eighteen, a prize offered by the Stockholm Society of Arts for the best essay, written in French, on the pendulum ; and this essay was the more remarkable, as being the fruit not only of mere reading, but of numerous original experiments, performed by Tn'm in person. Shortly after attaining his majority, Lord Stanhope, together with his family, left Geneva amidst the regrets of the whole population, while crowds of poor people assembled to take a last look on the noble English residents who had 172 STANHOPE. long been their generous benefactors. On reacbing England, the family rank and influence of the young nobleman speedily procured bim a seat in tbe Hou^e of Commons, which he occupied until his succession to the Stanhope title called him to the Upper House of ParUament. Here it was that he became famous as a politician. Honesty and straightforward- ness were the grand features of his statesmanship ; his Tiews, howeyer, although now entertaiaed by even moderate poli- ticians, were at that time considered extreme, and sub- sequently led to a separation of the earl from his family. But it is chiefly as a man of science, and as an inventor in the field of practical mechanics, that Earl Stanhope has rendered himseK celebrated. Shortly after leaving the Con- tiaent, about the year 1775, he turned his attention to devising some means whereby forgeries in coins and bank- notes might be prevented ; this resulted in his publishing a pamphlet on that subject, in which various processes cal- culated to prevent forgeries on the mint are recommended. In the 'Philosophical Transactions' for 1778, Lord Stan- hope gives a full account of experiments performed by him, on a large scale, in presence of the Lord Mayor and members of the Royal Society, showing that wood could be rendered fireproof, by coating it with a species of stucco or plaster of his own invention. The practical eflElciency of this was still more decisively shown by a fire which broke out in the earl's mansion at Chevening. Having had occasion to rebuild this some time previously. Earl Stanhope had taken care to make use of his new discovery ; a portion of the offices, however, remained unsecured, and here the fire originated ; but on reaching the protected portion, it was at once arrested, and the mansion saved from destruction. Among other works of Lord Stanhope which attracted most attention at that time are his experiments on electricity, his improvements in shipbuilding and navigation, a calculating machine, and the Stanhope printing-press, which to this day STANHOPE. 173 bears his name. He has also been called the inventor of stereotype printing, and had at aU events the merit of greatly improving this most important process, and of intro- ducing it into general use. The application of steam, to navigation was another favourite study of Earl Stanhope ; and, in concert with him, Fulton the American entered into an extensive series of experiments to prove its practicability. Although unsuccessful in this last pursuit, canal navigation owes much to the earl ; the value of his improvements in canal-locks being felt to this day throughout the whole land. He lived in constant pursuit of these philosophical enquiries tUl the age of sixty-three, when he died of dropsy, at his seat in Kent. Lord Stanhope was essentially a practical man, of a firm, upright, and independent character ; and it is related of him, that when advising his children to pursue some useful calling, he remarked of himseK, that " Charles Stanhope, as a car- penter, blacksmith, or millwright, could in any country, or at any time, preserve his iadependence, and bring up his family to honest and industrious courses, without solicitiag either the bounty of friends or the charity of strangers." He merits the grateful remembrance of posterity, not only for the practical results of his genius, but for the indirect influ- ence his noble example exerted on others, and for the generous patronage he bestowed on many poorer fellow- labourers in the same great field. — Chambers' Edinburgh Journal, ISo. 392, August 3, 1839. — Stuart's Anecdotes of the Steam-Engine. London, 1829. 174 WILLIAM SYMINGTON.* Portrait taken from the Crayon Bra/wing hy D. 0. Hill, U.S.A., in the Portrait Gallery of the South Kensington Museum. Born in 1763. Died March 33, 1831. William Symington, claimant conjointly with. Patrick Miller to the honottr of originating the present system of steam nayigation, was a native of Leadhills, in the county of Lanark, Scotland. He was originally destined for the church, but an early predilection for mechanical' philosophy led >n'Tn to abandon his theological studies, and pursue with ardour those connected with his favourite science. His genius soon attracted the notice, and secured the patronage of Gilbert Meason, a gentleman at that time connected with the Wanlock Head lead miiies. Before completing his twenty- first year, Mr. Symington made several improvements on the steam-engine, for which he took out patents, and continued for some time to construct and introduce engines on his prin- ciple, in various parts of England and Scotland. In the year 1784, the idea first occurred to him that steam might be advantageously employed for the propulsion of carriages ; and in 1786 he succeeded in producing a working model of a steam-carriage, which he submitted to the inspec- tion of the professors and other scientific gentlemen in Edinburgh. Although this steam-carriage afforded proofs of considerable capability, it was never proceeded farther with, on account of the state of the roads in Scotland at that period, and the difficulty of procuring fuel and water. In the meanwhile Patrick Miller, a gentleman of property residing on his estate at Dalswinton, Dumfrieshire, had for some time been engaged in making various experiments for * See also Patrick Miller. SYMINGTON. 175 the improvement of naval architecture, and had constructed a double or twin-boat, with paddle-wheels, to be moved by manual labour. At this point Miller was informed by Mr. James Taylor, a tutor iu his family, of Symington's model steam-carriage, and they both called at Mr. Meason's house in Edinburgh to see it. During the course of conversation with Symington, the practicability of advantageously em- ploying steam for the purposes of navigation was talked about, and it was ultimately arranged that Symington should endeavour to construct a steam-engiae to be fitted on board Miller's twin-boat, and capable of moving the paddle-wheels; This was accomplished ia the autumn of 1788, when a trial was made, iu the presence of Mr. Miller and various others, of so satisfactory a nature, that it was immediately determiaed to commence another experiment, upon a larger scale. It may, however*, be satisfactory to state here, that this, the parent engine of steam navigation, after enduring many vicissitudes, was ultimately rescued from destruction by Mr. Bennet Woodcroft, and contributed by him for exhibition in the South Kensington Museum. In the month of October 1789, a second exemplification of the practicability of steam navigation was afibrded by MUler and Symington, on the Forth and Clyde Inland Navigation Canal, in the presence of many hundreds of spectators ; the boat proceeding along at the rate of nearly six miles an hour. In this iastance the machinery was constructed at the Carron "Works, under the direction of Symington, and placed on board a boat which had been used in Miller's previous expe- riments. Unfortunately, Mr. MiUer now withdrew from the concern ; he had already expended nearly thirty thousand pounds on various experiments, and he determined to devote his time to the improveineht of the Dalswinton estate. Symington's pecuniary resources were insufficient to enable him unaided to pursue his experiments, and he was compelled to desist, and turn his attention to the fulfilment of engage- 176 SYMINGTON. ments witli tlie "Wanlock Head company, for constructing macliinery on a large scale. An. interval of ten years tlnis elapsed, at the end of which time Mr. Symington secured the patronage of Thomas, Lord Dundas of Kerse, under whose auspices another series of experiments were commenced, in January 1801, at the cost of 7000/. ; but they placed beyond the possibility of doubt the practicability of steam na-vigation. Symington had ayailed himself of the improvements made in the steam-engine by Watt and others, and he now constructed an improved marine engine, with boat and paddle-wheel after the plan at present adopted. This boat, called the ' Charlotte Dundas,'* was the first practical steamboat ; and for the novel combination of the parts, Symington obtained a patent on the 14th October, 1801. The vessel made her first voyage in March 1803, on the Forth and Clyde Canal, and proceeded upwards of nineteen miles, drawing after her two laden vessels, each of seventy tons burden, although it blew so strong a gale right ahead, that no other vessel in the canal attempted to move to windward during that day. There were on board on this occasion Lord Dundas, the Hon. Captain G-eorge Dundas, R.N., and Archibald Spiers of Elder slee, together with several other gentlemen of their acquaintance. Thus had Symington the undoubted merit of having com- bined together for the first time those improvements which constitute the present system of steam navigation. Although Henry Bell and Fulton the American are both claimants for the above honour, their inventions did not appear until some years afterwards, Fulton establishing his steamboat at New York in 1807, and Bell establishing one on the Clyde in 1811 ; f undoubted proof also exists that both these gentlemen were well acquainted with the result of Miller and Dals- winton's experiment, the ' Charlotte Dundas,' and must have derived considerable advantage from such knowledge. * Named in honour of Lord Dundas's daughter, Lady Milton, t The ' Comet.' SYMINGTON. 177 Shortly after Bell's steamboat, the ' Comet,' had begun plying upon the Clyde, notice was sent by Symington, not only to BeU, but to all other proprietors following his exam- ple, that by so doing they were invading his right ; and legal advice having been taken,* an action for damages was commenced. Before, however, the cause was settled, Mr. Symington's patent expired ; and although he had given directions to institute an application to have it renewed, this was most unaccountably neglected to be done, and he saw his hopes expire, being reduced to much and severe distress through want of money — a state in which he continued more or less during the remainder of his life. When in his last illness, the ruling passion of his life was strongly exhibited. At one time the irregular form of his bedroom occasioned him so much uneasiness, that, being slightly delirious, he requested his son to reduce it to a square ; while his last act was an imitation of winding-up 'and adjusting a newly-invented chronometer, which he had lately completed. — Stuart's Anecdotes of the Steam- Engine. London, 1829. — Narrative hy M. Bowie, proving W. Symington the Inventor of Steam Land- Carriage Locomotion and of Steam Navigation. London, 1833. — Descriptive Catalogue of the Museum of the Commissioners of Patents. * John Clerk (Lord Eldin) pronounced the patent to be correctly drawn up, and that no douht existed of Mr. Symington's right to recover damages from its invaders. 178 THOMAS TELFORD, F.E.S., L, and E., &c. Portrait taken from the Picture by S. Lane, in the possession of the Institution of Ciml Engineers. Born August 9, 1757. Died September 9, 1834. The life of Thomas Telford adds another striking instance to those on record of men who, from the force of natural talent, unaided save by uprightness and persevering industry, have raised themselves from the- low estate in which they were horn, and taken their stand among the master-spirits of their age. Telford was bom in the parish of Westerkirk, in the pastoral district of Eskdale in Dumfriesshire. His father, who followed the occupation of a shepherd, died while his son was yet an infant, and the orphan boy was thus left to the care of his mother, whose maiden name was Janet Jackson, and for whom her son always cherished an affectionate regard, being in the habit, in after life, of writing letters to her in printed characters, in order that she might be able to read them without assistance. Young Telford received the rudiments of education at the parish school of "Westerkirk, and during the summer season was employed by his uncle as a shepherd boy. This occupa- tion left him abundant leisure, of which he made diligent use in studying the books furnished by his village friends. At the age of fourteen he was apprenticed to a stone mason in the neighbouring town of Langholm, and for several years was employed, chiefly in his native district, in the construc- tion of plain bridges, farm buildings, simple village churches and manses, and other works of a similar nature, such as are usually performed by a country mason in a district where there is little occasion for the higher departments of his art. TELFORD. 179 These operations afforded, however, good opportunities for obtaining practical knowledge, and Telford Jiimself has ex- pressed his sense of the value of this humble training, obser- ving, that "as there is not sufficient employment to produce a division of labour in building, the young practitioner is under the necessity of making himself acquainted with every detail in procuring, preparing, and employing every kind of mate- rial, whether it be the produce of the forest, the quarry, or the forge ; and this necessity, although unfavourable to the dexterity of the individual workman, who earns his liveli- hood by expertness in one operation, is of singular advantage to the future architect and engineer, whose professional excellence must rest on the adaptation of materials, and a confirmed habit of discrimination and judicious superintend- ance." When Telford had completed his apprenticeship as a stone- mason, he remained for some time at Langholm working as a journeyman, his wages being eighteenpence per diem.* The first bridge masonry on which he was engaged was the erection of a structure over the Esk at Langhohne to connect the old with the new town. Mr. Smiles, in his ' Lives of the Engineers,' tells a good story in connection with this bridge. Telford's master, one Thompson, was bound by contract to maintain it for a period of seven years. Not long after the completion of the structure an unusually high flood swept along the vaUey, and Thompson's wife, Tibby, knowing the terms of her husband's contract, was in a state of great alarm lest the fabric should be carried away by the torrent. In her distress she thought of Telford, and calling out, " Oh, we'U be ruined — we'U be ruined ! where's Tammy Telfer — where's Tammy ? sent in search of him." When he came running up, Tibby exclaimed, " Oh, Tammy, they're been on the brig and they say it's shaking ! It'll be doon." " Never you heed them, Tibby," said Telford, clapping her * ' Lives of the Engineers.' London, 1861. N 2 180 TBLFOBD. on the shoulder, " there's nae fear o' the brig — I Kke it a' the better that it shakes; it proves its weel put thegither." Tibby's fears were not, howeyer, so easily allayed, and assert- ing that she heard the brig " rumlin," she ran up and set her back against it to keep it from falling. Whether Tibby's zealous support to the bridge in this instance was of any avail or no, Telford's opinion of the soundness of the structure has been proved by its withstanding the storms of nearly a century. At this early period of his life, Telford was remarkable for his elastic spirits and good humour, and in his native district of Eskdale was long remembered as 'laughing Tam.' His favourite pursuits were not as yet scientific but literary, and he acquired some distinction as a poet. He wrote ia the homely style of Ramsay and Ferguson, and used to contri- bute small pieces to Ruddiman's ' "Weekly Magazine,' under the signature of " Eskdale Tam." One of his compositions, entitled ' Eskdale,' a short poem descriptive of the scenes of his early years, appeared in a provincial miscellany, and was subsequently reprinted at Shrewsbury, at the request of his friends, and ultimately inserted in the appendix to his Kfe. Another pleasing fragment of his composition is given at the end of the first volume of Dr. Currie's ' Life and "Works of Burns,' published at Liverpool in 1800 ; it is an extract from a poetical epistle sent by Telford, when at Shrewsbury, to the Ayrshire poet, recommending him to take up other subjects of a serious nature, similar to the ' Cottar's Saturday Night.' At the age of twenty-three Telford at length quitted Esk- dale, and visited Edinburgh with a view to obtain better employment. The splendid improvements then in progress in that city enlarged his field of observation, and enabled him to contemplate architecture as applied to the object of magnificence as well as utility ; and he seems at this time to have devoted much attention both to the scientific study of architecture and to drawing. TELFORD. 181 After remaining in Edinburgli two years, he removed to London, where he obtained employment upon the quadrangle of Somerset House, then erecting by Sir William Chambers, an engagement in which he states that he obtained much practical information. After this, in 1784, he was engaged to superiatend the erection of a house for the resident commissioner at Ports- mouth Dockyard, and for the next three years was occupied upon various biiildings in this dockyard, which gave him good opportunities of becoming well acquainted with the construction of graving-docks, wharf walls, and other similar engineering works. Two or three years previous to this, Telford's good character and promising talent had secured for hiTn the friendship of two families resident in his native district, — the Pasleys and the Johnstones, — and to their in- fluence his early employment on important works is in some measure to be attributed. In 1787, having completed his engagements at Portsmouth, he was invited by Sir William Pulteney (a member of the Johnstone family) to take the superintendence of some altera- tions to be made ia Shrewsbury Castle. Telford consequently removed to Shrewsbury, where he was employed to erect a new jail, completed in 1793, and was afterwards appointed county surveyor, in which office (retained by him until death) he had to design, and oversee the construction of, bridges and similar works. The first bridge which he designed and built was that over the Severn at Mont-fort, consisting of three elliptical stone arches, one of fifty- eight, and the others of fifty-five feet span. His next was the iron bridge over the Severn at BuHdwas, which was the third iron bridge ever erected in Great Britain, the first being the Coalbrookdale in Shropshire, built in the years 1777-9, and the second the Wearmouth,* erected between the years 1793-6. * Originally designed by Thomas Paine. 182 TELFOKD. Telford's bridge over the Severn was erected in 1796, and consisted of a single arch of 130 feet span, formed of five cast iron ribs, and having a rise of only 14 feet ; the width of the platform is 18 feet, and the total weight of iron in the bridge- about 174 tons ; it was constructed by the Coalbrook- dale Ironmasters at a cost of 6,034^. Forty smaller bridges were erected in Shropshire under Telford's direction. The first great undertaking, upon which Mr. Telford (in conjunction with Mr. Jessop) was engaged, was the EUesmere Canal, a series of navigations intended to • unite the Severn, the Dee, and the Mersey, and extending altogether to a length of nearly one hundred and twenty miles. From the date of this engagement, about 1793, TeKord directed his attention almost entirely to civil engineering. In the execu- tion of the immense aqueducts, required on this work, which cross the valleys of the Ceriog or Chirk, and of the Dee, at an elevation of 70 and 127 feet respectively, cast iron was first introduced as a material for forming the water-troughs of the canal, in place of the usual puddled clay confined in masonry, a practice which involved great expense, and some danger in times of frost, from the expansion of the moist clay. In the locks of this canal Telford also introduced cast iron framing in place of timber ; and in one instance, where the lock was formed in a quicksand, he made every part of the above material. The Caledonian Canal, of which Mr. Jessop was consulting engineer, was another of Mr. Telford's principal works. This canal was opened throughout its course in the year 1823, and it forms a noble monument of the skill of the engineer. The locks are stated by Telford to be the largest ever coustructed at that time, being 40 feet wide, and from 170 to 180 feet long. Of other canals constructed wholly or partially under his superintendance, it is sufficient to men- tion the Glasgow, Paisley, and Androssan ; the Macclesfield ; TELFORD. 183 the Binningham and Liverpool Junction ; the Gloucester and Berkeley ; the Birmingham, which was completely remodel- led by him and adapted to the conduct of a very extensive traffic, and the Weaver navigation in Cheshire. On the Continent he likewise superintended the construction of the Gotha Canal in Sweden, a navigation of about 125 English miles, of which 55 are artificial canal. From the Lake "Wener at one extremity, this navigation rises 162 feet to the summit level, and falls 370 feet to the Baltic at the other ; the rise and fall are effected by fifty-six locks, and the canal is 42 feet wide at the bottom and 10 feet deep. Upon its completion Telford received a Swedish order of knighthood, and as a farther mark of the royal approbation, received the King of Sweden's portrait set in diamonds. The works executed by Telford under the Commissioners of Highland Roads and Bridges are of great importance. The practical operations under this commission, appelated in 1803, embraced about a thousand miles of new road, with nearly 1,200 new bridges, which caused the whole of Scot- land, from its southern boundary near Carlisle, to the northern extremity of Caithness, and from Aberdeenshire on the east, to the Argyleshire islands on the west, to be intersected by roads ; and its largest rivers and even inferior streams to be crossed by bridges. The execution of this undertaking occu- pied a period of twenty-five years, and all was done imder the sole direction of Telford. The great road from London to Holyhead remaius, perhaps, one of the most perfect spe- cimens of his skOl as an engineer ; the improvements in it were executed by him, under another Parliamentary Com- mission appointed in 1815, and Telford himself appears to have regarded this work with peculiar satisfaction. The Menai suspension bridge is, however, unquestionably one of the noblest monuments of Mr. Telford's fame, and it may be said to have inaugurated the era of the extensive in- troduction of wrought iron into great permanent structures 184 TELFORD. exposed to heavy strains.* This bridge was commenced in 1819, and opened for traffic in 1826. The distance between the two piers is 550 feet, and the whole roadway, which is carried over four arches on the one side, and three on the other, has a length of 1000 feet, and a breadth of 30 feet. The total cost of the work was 120,000/. Mr. Telford also built many other bridges of considerable size, and executed some important harbour works at Aber- deen and Dundee ; but his most striking performance of this latter class is the St. Kathariae Docks, London. One of his latest engagements was the survey of Dover Harbour, under- taken in. January, 1834, at the request of the Duke of Wel- lington, (as Warden of the Cinque Ports,) with a view to the adoption of measures to check the accumulation of shingle at the entrance. During the course of his life Mr. Telford taught himseK Latin, French, and German, so as to be able to read those languages with fluency, and to be able to converse freely in French. He is likewise said to have been well acquainted with algebra, but to have placed more reliance upon experi- ment, than on mathematical investigation. He contributed to the 'Edinburgh Encyclopaedia' the articles 'Architecture,' ' Bridge Building,' and ' Canal Making.' Besides the above, he wrote an account of his own life, giving elaborate descrip- tions of his various professional undertakings. (Life of Thomas Telford, written by himself. • Edited by John Rick- man. London, 1833, 4to.) Although Telford was not connected with the Listitution of Civil Engineers at its formation, he accepted their invita- tion in 1820, and became their President ; and from that time he was unremitting in his attention to the duties of the office, having become by his partial retirement from business, a pretty regular resident in the metropolis. * Sixth Dissertation by Dr. J. D. Forbes, r.E.S. — Uncyclopcedia Britan- nica. Eighth Edition. TELFOKD. 185 Telford was possessed of a robust frame, and till he had reached the age of seventy, had never been visited with any- serious illness. While at Cambridge, in the year 1827, he was afflicted with a severe and dangerous disorder; and although he gradually recovered a certain degree of health, he never regained his former vigour. He died a few years afterwards at his house in Abingdon Street, "Westminster, having completed the seventy-seventh year of his age. His remains were deposited in Westminster Abbey, where there is a statue erected to his memory. — Encyclopaedia Britannica. — English CyclopcBdia, 186 CHARLES TENBTANT. Portrait taken from the Picture by A. Geddis, in the possession of John Tennant, Esq, Born May 3, 1768. Died October 1, 1838. Charles Tennant, tlie founder of the celehrated chemical works at St. RoUox, Glasgow, was born at Ochiltree, Ayr- shire. His father, John Tennant, was factor or steward to the Countess of Grlencairn, and also rented a farm on her estate, ia the culture of which he displayed great practical and scientific ability. John Tennant married twice ; after the death of his first wife, by whom he had two sons and one daughter, he married, in the year 1757, Margaret McLure, who, in the course of time, brought him a nu- merous family of sik sons and seren daughters. John Tennant's second wife possessed very superior abilities, which she earnestly directed to the education and advancement of her family, idtimately having the satisfaction of seeing all her children turn out men of energy and success ia Hfe. Charles Tennant, the subject of our memoir, was the fifth son ; he received his early education at home, afterwards attending the parish school of Ochiltree. When still very young, Charles left home and went to Kilbarhan, with the intention of learning the manufacture of silk. After remain- ing at this place a short time, Tennant removed to Well- meadow bleachfield, where he studied the methods of bleaching at that time in use, and ultimately went to Darnly (the place from which the unfortunate husband of Mary, Queen of Scots, took his title), and established there an ex- tensive bleachfield, taking into partnership with him Mr. Cochrane, of Paisley. Mr. Tennant now devoted himself to TENNANT. 187 tl;ie study of chemistry, feeling that the process of bleaching coTild only be effected by true chemical agency, whatever might be the particular method or operation, and that, there- fore, the bleacher must in the first case look to the chemist for the discovery of more potent agents to effect his object. Before Mr. Tennant's time the operation of bleachiag was of a very tedious and expensive nature. The cloth was steeped in alkaline lye, which was called ' bucking.' The subsequent process of bleaching was done by exposure on the grass, called 'crofting ;' these operations were repeated five or six times, and extended over a period of eight or ten weeks. In the year 1787 an important change took place, in consequence of the discovery, by Mr. Scheele, of Sweden, of chlorine, which was used as a substitute for exposure to the atmosphere. The repeated experiments of Berthollet added considerably to the facts already known, while the practical effects of these dis- coveries were still more fully shown by Mr. Watt and Dr. Henry, of Manchester. In 1798 Mr. Tennant made his first great discovery, viz., a method of making saturated chloride of lime, an article which was found to answer perfectly all the purposes required by the bleacher. This invention, for which he took out a patent, consisted iu the substitution of lime for potash. His j)atent right was, however, resisted by certaiu of the bleachers of Lancashire, and was set aside by the verdict of a jury, on the grounds that the patent included a mode of 'bucking' with quicklime and water, which was not a new invention ; and because one part of the patent was not new, the whole of the claim must be set aside. By this decision the use of liquid chloride of lime in bleaching was thrown open to all ; and through an unfortunate error of ex- pression in describing his process, Mr. Tennant was deprived of the fruits of a laborious investigation extending over a period of several years. This subsequently caused a strong feeling of sympathy to be manifested for him by many of the bleachers of Lancashire, who, as an expression of their grateful acknow- 188 TENNANT. ledgment, presented tn'm with a service of plate, which, he accepted. Mr. Tennant, however, ia accordance with the character of his original design, determined to press onward with his discoveries, and to bring, if possible, his first inven- tion to a still more practical issue. He therefore adopted a new method, and at length completed and secured by patent a process for impregnating quicklime in a dry state with chlorine, which proved perfectly successful ; this, his second patent, remained uncontested, and he lived to secure a large pecuniary reward. Mr. Tennant's discoveries, together with the introduction of soda-ash or 'British soda,' in place of potash, greatly facilitated and cheapened the process of bleaching, while the introduction of mechanical appliances and the power of the steam-engine superseded the previous laborious operations by hand. The result has been that the same amount of bleaching is now performed in as many days as was formerly performed in weeks, while the price has been reduced from 7s. 6d. (1803) to 6d. (1861) for a piece of cloth of 28 yards. In the year 1800 Mr. Tennant removed from Damly to St. EoUox, Glasgow, where he commenced business as a large manufacturing chemist, taking into partnership Mr. Charles Mackintosh, Mr. "WOliam Cowper, and Mr. James Knox. During the remainder of his life Mr. Tennant devoted himself with energy to the forwarding of his business, and ultimately caused his manufactory to become the largest and most exten- sive of its kind in Europe. He also took considerable interest in the politics of the day. His principles were those of an intelligent and liberal-minded reformer, and he was long looked up to as one of the leading men of his party, although the least tainted by mere party spirit or selfishness. Mr. Ten- nant was likewise conspicuous in his promotion of many public undertakings. He took a deep interest in the furtherance of the railway system ; the Garnkirk and Glasgow Railway may be said to owe its origin and completion almost entirely to TENNANT. 189 him, wliile his inyiacible industry and perseverance con- tributed greatly towards the estabhshment of the Edinburgh and Glasgow Railway. He was a great friend of George Stephenson's, and was present with him at the opening of the Liverpool and Manchester Railroad when the unfortunate accident occurred which resulted in the melancholy death of Mr. Huskisson. Mr. Tennant died rather suddenly, in his seventy-first year, at his house in Abercrombie Place, Glasgow. He was possessed of a constitutional nervousness, rather remarkable in one of a large and healthy frame, allied to a peculiar sensitiveness to the beautiful. In after Hfe he would often talk with pleasure of his youthful reminiscences of the poet Bums, who was at that time on terms of considerable in- timacy with his family. Mr. Tennant was an earnest aad indefatigable promoter of economical and educational im- provement ; an uncompromising friend of civil and religious liberty ; while his own inborn energy of character and clear intellect placed him among the foremost of those men who, by uniting science to manufactures, have at once extended their fields of action, and entitled their occupations to be classed among the ranks of the liberal professions. — The Progress of Science and -Art as developed in the Bleaching of Cotton, by Henry Ashworth, Paper read before the British Association at Manchester, September 5, 1861 ; and. Particulars communicated by the Family. 190 THOMAS THOMSON, M.D., F.E.S. Portrait taken from the Picture by J. Graham Gilbert, U.S.A. Born April 12, 1773. Died July 9, 1853. Dr. Thomas Thomson, Regius Professor of Chemistry in the University of Glasgow, who exercised a remarkable in- fluence in the development and extension of the science of chemistry duriag the present age, was horn at Crieff, in Perthshire. He received his early education at the parish school of that place, and after remainirig for a time under the care of Dr. Doig, of Stirliiig, went to the University of St. Andrews, where he remained for a period of three years. Thomson entered upon his medical studies at the University of Edinburgh, and during the session of 1795-96 attended the lectures of the celebrated Dr. Black, who first awoke in him the latent taste for that science of which he was destined to become so bright an ornament. In 1796 he became con- nected with the Encyclopcedia Britannica, for an early edition of which he wrote the articles Chemistry, Mineralogy, Vege- table Substances, Animal Substances, and Dyeing Substances, &c. These articles formed the basis of his system of che- mistry, which he published at Edinburgh in the year 1804, in four volumes, and afterwards greatly enlarged and im- proved as the demand for the book increased. Dr. Thomson commenced delivering a series of lectures on chemistry at Edinburgh in 1800, which were continued with increasing popularity until 1810. Meanwhile he invented the system of chemical symbols now generally adopted by all men of science, with variations as the time demands, and without which chemical language would be unintelligible. He was THOMSON. 191 also the first to open a laboratory in Great Britain for prac- tical manipulation in chemistry. In 1810 he published his 'Elements of Chemistry,' and in 1812 visited Sweden and on his return wrote a description of that country. The following year to this Dr. Thomson started ia London the ' Annals of Philosophy,' a scientific journal, which he continued to edit until the year 1822, and which a few years afterwards was merged in the * Philosophical Magazine.' He also about this time conducted for the Board of Excise a series of investiga- tions on brewing, which formed the basis of Scottish legisla- tion on that subject. In the year 1817 Thomson was elected lecturer on chemistry in the University of Grlasgow, and in the follow- ing year received the title of Professor. This chair he held until his death, being assisted in his latter years by his nephew and son-in-law. Dr. R. D. Thomson. When Dalton had worked out his grand discovery of the Atomic Theory, he communicated the result of his researches to Thomson, who at once perceived the value and importance of the discovery, and ia the year 1807 was the first to pubKsh it to the world. He gave a sketch of this grand theory ia the third edition of his ' System of Chemistry ; ' and we are chiefly indebted to the labours of Professor Thomson, con- .joiatly with Dr. Henry, of Manchester, and Dr. "Wollaston, for luminous views on this important subject. In 1826 Dr. Thomson wrote, in two volumes, ' An Attempt to Establish the First Principles of Chemistry by Experiment.' In 1830-31 he published his ' History of Chemistry,' a work which has been described as a masterpiece of learning and research. In 1836 appeared his ' Outliaes of Mineralogy and Geology ;' and in 1849 he issued his last work, ' On Brewing and Dis- tillation.' Thomson performed in science, and its history and Kte- rature, a very great amount of valuable labour, and ac- 192 THOMSON. quired a distinguished reputation both as an original dis- coverer, and as a practical teaclier of Ms favourite science. He died in 1862, at the age of seventy-nine, and has left behind him a son who bears his name, now (1860) superin- tendent of the East India Company's Botanic Gardens at Calcutta, and one of the most distinguished scientific bo- tanists of the day. — Encychpcedia Britannica, Eighth Edition. — English Cychpcedia. London, 1858. 193 RICHARD TREVITHICK. Portrait taken from the Picture by the Elder Lennel, in the Portrait Gallery of the South Kensington Museum. Bom April 13, 1771. Died April S8, 1833. Eichard Trevithick, inventor of the first high pressure steam-engine, and the first steam-carriage used in England, was born in the parish of IIlGgan, in Cornwall. He was the son of a purser of the mines in the district, and although he received but little early education, his talents were great in his own special subject, mechanics. When a boy he had no taste for school exercises, and beiag an only son, was allowed by his parents to do much as he pleased; so that most of his time was passed either in strolling over the mines amidst which he lived, or in working out schemes which had already begun to fill his youthful imagination, seated under a hedge, with a slate in his hand. Trevithick was a pupil of Mr. Bull's, an engineer practising at that time in Cornwall, and before he had reached the age of twenty- one, was appointed engineer to several mines, a m.ore respon- sible situation than the one held by his father, who, on hearing of his son's appointment, expressed great surprise, and even considered it his duty to remonstrate with the gentlemen who had proposed the appointment. A few years after this, Trevithick, influenced perhaps by the success of Murdock's model steam-carriage, determined to biuld one adapted to ordinary road traffic. One Andrew Vivian joined bim in the project, for which, on its completion, a patent was taken out in 1802.* Their steam-carriage presented the * The specification of this patent gives likewise the first mention (we believe) on record of oscillating engines. Sir John Bennie, F.E.S., in his 194 TEEVITHICK. appearance of an ordinary stage-coacli on four wheels, having one horizontal cylinder, which, together with the boiler and fire-hox, were placed at the back of the hind axle. After making several satisfactory trials in the neighbourhood of Plymouth, Trevithick and Vivian exhibited their invention publicly ia London, first at Lord's Cricket-ground, and after- wards on the spot of ground now occupied by Euston Square* At this latter place, however, Trevithick, influenced by some curious whim, suddenly closed the exhibition on the second day, leaving hundreds waiting outside in a state of great wrath. Mrs. Humblestone, an old inhabitant of London, who at that period used to keep a shop near to the present Pan- theon, Oxford Street, relates that she well remembers wit- nessing a public trial of Trevithick's steam-carriage. On this occasion the shops were shut, no horses or carriages were allowed in the streets, and the roofs of the houses iu the neighbourhood were crowded with people, who hurraed and waived their handkerchiefs as the 'steam, monster' was seen coming along Oxford Street at a rapid pace.f Two years afterwards Trevithick constructed the first suc- cessful railway locomotive, which was used on the Merthyr Tydvil Railway in the year 1804. This engine had an eight-inch, cylinder, of four feet six inches stroke, placed horizontally as at present, and working on a cranked axle ; while, in order to secure a continuous rotatory motion, a fly- wheel was placed on the end of the axle. When we add to address to the Institution of Civil Engineers, in 1846, mentions the following passage:— "Even the objection of extra friction, however, if tenable, is obviated hy the mhrating cylinder desarihed in Trevithick and Vivian's patent, in 1802 ; patented by Whitty in 1813, and by Macby in 1821, by whom the first engines of the kind were constructed." * An eye-witness, who is still living, relates that on one of these trials he saw Trevithick's steam-carriage proceeding at the rate of twelve miles an hour. t Mrs. Humblestone (1861) is now eighty-one years of age, and is residing in the neighboifrhood of Edgeware Eoad. TEEVITHICK. 195 this, that the fly-wheel was furnished with a break, that the boiler had a safety-valve or a fusible plug beyond the reach of the engineer, and that the patent includes the production of' a more equable rotatory motion — " by causing the piston rods of two cylinders to work on the said axis by means of cranks at a quarter of a turn asunder " — ^it is scarcely too much to say that nothing material was added to the design of the locomotive until the invention of the tubular boiler in 1829.* On the occasion of its first trial, on the 21st of February, 1804, this engine drew carriages, containing ten tons of bar iron for a distance of nine miles, at the rate of five miles an hour. The specification of the patent for Trevithick's steam- carriage mentions a plan for causing the wheels, in certain cases, to take a stronger hold of the ground by means of sundry rough projections, but it also adds that, in general, the ordinary structure or figure of the external sur- face of these wheels unll be found to answer the intended purpose, which appears to have been the case in the above-mentioned engine.! After making a few experiments with his engine, Trevithick forsook the locomotive for other projects of his versatile genius, and this great invention was left to be perfected and carried into general use by Greorge Stephenson. In the year 1809 Trevithick commenced an attempt at tunneUing under the Thames. It was the second time that this difi&cult undertaking had been tried, Ralph Dodd having been the first of the unsuccessful borers. When a large sum of money had been raised by subscription^ Trevi- thick commenced boring at Rotherhithe, and in order to save * Sixth Dissertation, Eneydopcedia Brkannica, Eighth Edition. t See Practical Treatise on Bailroads, tfec, hy Lute Hehert, London, 1837. Pages 21-4.— Mr. Francis Trevithick, who has spent considerable time in ascertaining the facts regarding his father's first locomotive, states that he has no donbt the wheels of this engine were not in any way roughed; that he has often conversed with those who made and worked the engine ; that he has their copies of the original drawings ; and that ia all these cases he never heard or saw anything which indicated that the wheels were roughed. 2 196 TBEVITHICK. both, labour and expense, kept very near to the bottom of the river ; but notwithstanding the increased difficulties which he had to encounter on this account, he actually carried the tunnel through a distance of 1011 feet, and within 100 feet of the proposed terminus. At this point an unfortunate dis- pute arose between him. and the surveyor appointed to verify his work, the surveyor asserting that the tunnel had been run a foot or two on one side. This reflection on his skill as an engineer excited Trevithick's Cornish blood, and he is said to have adopted the absurd expedient of making a hole in the roof of the tunnel at low water, and thrusting through a series of jointed rods, which were to be received by a man in a boat, and then observed from the shore. In the execu- tion of this scheme, delays ensued in fitting the rods together, and at length so much water made its way through the gulley formed by the opening in the roof, that retreat became ne- cessary ; Trevithick, with an inborn courage, refused to go first, but sent the men before him, and his life nearly fell a sacrifice to his devotion; as he made his escape on the other side, the water rose with him to his neck, owing to the tunnel following the curve of the bed of the river, which necessa- rily caused the water to congregate towards one part. The work was thus ended almost at the point of its successful completion, being at once a melancholy monument of his folly and his skill. After this unfortunate failure, Trevithick commenced many schemes; among others, his. attention was directed towards, the introduction of iron tanks and buoys into the Royal Navy. On first representing the importance of this to the Admiralty, the objection was raised, that perhaps, in the case of the tanks, iron would be prejudicial to the water, and con- sequently to the health of the crews ; Trevithick was there- fore requested to consult Abernethy upon the subject, which he accordingly did, and received for his answer the following characteristic reply : " That the Admiralty ought to have TKEVITHICK. 197 known better than to- have sent you to me with such a question." He likewise, about this period, contributed largely to the improvement and better working of the Cornish engines, and to him the merit is due of introducing into these engines the system of high-pressure steam, and of inventing the cylindrical boiler, (now known as the Cornish boiler,) in which he placed the fire inside instead of outside, as had been the practice before his time. We now come to the most romantic and stirring period of Trevithick's career. In 1811 M. UviU^, a Swiss gentleman at that time living in Lima, came to England to see if he could procure machinery for clearing the silver mines, in the Peruvian mountains, of water. Watt's condensing engines were, however, of too ponderous a nature to be transported over the Cordilleras on the backs of the feeble llamas, and TJville was about to give the matter up in despair, when, on the eve of his departure from this country, he chanced to see a small working model of Trevithick's engine in a shop window near Fitzroy Square. This model he carried out with him to Lima, and had the satisfaction of seeing it work successfully on the high ridge of the Sierra de Pasco. Uvill^ now returned to England to procure more engines of the same kind, and having met with Trevithick, made such arrangements with hiin as resulted in the embarkation, during September 1814, of three engineers and nine of Trevithick's engines. On landing at Peru, Uvill^ and his charge were received with a royal salute, and in due time the engines, which had been simplified to the greatest extent, and so divided as to form adequate loads for the weakly llama, were safely carried over precipices where a stone may be thrown for a league. An engine was soon erected at Lauricocha, in the province of Tarma, which successfully drained the shaft of the Santa Eosa mine, and enabled work- ing operations to be recommenced. During the year 1816 Trevithick, hearing of iMs success, gave up family and for- 198 TEEVITHICK. tune and embarked for South America^ On landing lie was received with the highest honours ; all Lima was in a state of excitement, which rose to a still greater pitch, when it was found that his engines, by clearing the mines of water, had doubled their produce and increased the coining ma- chinery sixfold. Trevithick was created a marquis and grandee of old Spain, and the lord warden of the mines pro- posed to raise a silver statue in his honour. All went well until the revolution broke out, when the Cornish engineer found himself placed in a very disagreeable position between the two parties. The patriots kept him in the mountains in a kind of honourable captivity, while the royalists ruined his property and mutilated his engines. Trevithick, never very patient, soon determined to end this, and after incurring many hardships and dangers, succeeded in making his escape from the oppressive love and veneration of the mountain patriots, On their way back Trevithick and his companions encountered many hardships and dangers ; they had to shoot monkeys for subsistence, their clothes were almost always wet through owing to it being the rainy season of the year, they had also to ford rivers, and in many cases make their own roads by cutting down the underwood and other obsta- cles which impeded their progress. On one occasion Trevi- thick nearly lost his life ; in attempting to swim across a river he became involved in a kind of whirlpool caused by some sunken rocks, and notwithstanding all his efforts he was utterly unable to swim beyond its influence, which kept car- rying him round and round ; fortunately just as his strength was giving way a companion, who had cut down a tall sap- ling, succeeded in stretching it out to his assistance, and thus drew him to land. Ultimately after a long interval Trevi- thick arrived at Cartagena, on the gulf of Darien, almost in a state of utter destitution. Here he was met by the late Robert Stephenson, who, having just received a remittance from home, lent half to his brother engineer to help him TEEVITHICK. 199 on his way to England, where he arrived on the 9th of Octo- ber, 1827, briaging back a pair of spurs and a few old coins, the sole remnants of the colossal fortune made ' but not reaKzed ' in the PeruTian mines. Before this occurred, how- ever, Trevithick had visited various parts of the West coast of South America, and had spent a period of four years at Costa Rica, where he projected mines and devised many magnificent schemes, but realized no permanent good for himself. Among other things, having discovered some valu- able mineral deposits, he obtained from the government a grant of the land which contained them, and on his return to England succeeded, by his representations (which were confirmed by a Scotchman of the name of Grerard, who had been his companion), in organiziag a company for sinking the necessary mines. Before however active operations were commenced, Trevithick one day entered the new conipany's offices to arrange finally about his own interest in the con- cern. A cheque for 7000^. was at once offered him as pur- chase money for his land in Southern America. This however was not what he had wanted, and without giAring a thought to the largeness of the sum offered, he iadignantly threw back the cheque across the table and walked out of the office.* After this the company broke up, and Trevithick never realized a penny-piece from his really valuable posses- sions in that, country. After his return from America but little is known of Trevithick ; late in life he commenced a petition to Parlia- ment, in which he asks for some grant or remuneration for his services to the country, by reason of the superiority of his machinery, stating that from the use of his engines the saving to the Cornish mines alone amounted to 100,000/. per * The late Michael "Williams, M.P. for West Cornwall, was present during this transaction, and afterwards remonstrated with Trevithick on his folly. — The cheque offered to him has heen stated by one gentleman to have been for a far larger sum. 200 TREVITHICK. ammm ; but before presenting this petition, he met with a monied partner, who supplied him with the means of per- fecting his never-ceasing inventions. This was all Trevithick wanted, and the petition was consequently laid aside. Thus assisted he obtained a patent in 1831 for an unproved steam engine ; and another in the same year for a method or appa- ratus for heating apartments ; and a third on the 22nd of September, 1832, for improvements on the steam engine, and in the appKcation of steam power to navigation and locomotion. This was the last patent he took out ; he died at Dartford in Kent during the following year, at the age of sixty-two. Trevithick married, on the 7th of November, 1797, Miss Jane Harvey, the daughter of an ironfounder at Hayle, by whom he had four sons and two daughters, all of whom are still living. His manners were blunt and unassuming, but yet possessed a certain kind of fascination which gene- rally secured for him, in whatever society he might be, an eager and attentive auditory. In person he was tall and strongly made, being six feet two inches in height, and broad in proportion, and to this day stories of his extra- ordinary feats of strength are told among the miners of Cornwall. His life remains a record of constant but brilliant failures, and that from no inherent defect in his inventions, but solely from the absence in his character of that perseve- rance and worldly prudence necessary to bring every new undertaking to a successful commercial issue. — Contributions to the Biography of R. Trevithick, by E,. Edmunds, Jun., Edinburgh New Philosophical Journal, October, 1859. — All the Year Round, August 4, 1860. — ^And other particulars taken from original and authentic sources. 201 EDWAED TROUGHTON, F.R.A.S. Portrait taken from the Lithograph after Caroline Hesler, and from a small Bust in the possession of Bryan Donkin, Esq. Born October, 1753. Died June 13, 1835. Edward Troughton, the first astronomical instniment maker of our day, was born, in tlie parish of Comey, on the south-west coast of Cumberland, and was the third son of a small farmer. An uncle of the same name, and his eldest brother John were settled in London as mathematical instru- ment makers ; and as his second brother was apprenticed to the same business, Edward was designed to be a farmer, con- tinuing to be his father's assistant till the age of seventeen. The death of his younger brother, however, altered Edward's destination, and caused him to be placed with his brother John, at that time a chamber master, employed chiefly in dividing and engraAong for the trade, and the higher branches of the art. Under the instruction of John, who was an excellent workman, Troughton made very rapid progress, and at the end of his time was taken into partnership. About the year 1782 the Troughtons established themselves in Fleet Street, where they commenced an independant busi- ness and soon rose into eminence. After the death of his brother John, Edward alone continued the business until the year 1826, when increasing age and dislike to routine em- ployment, induced him to take Mr. William Simms as his partner and successor. The instruments which facilitate navigation were pecu- liarly objects of interest to Mr, Troughton, and long after his infirmities were an effectual bar to the appKcations of his most esteemed friends, he exerted himself to supply the sea- 202 TROUGHTON. men with well adjusted and accurate sextants. "Your fancies," lie would say, " may wait ; their necessities cannot." In 1778 lie took out a patent for the double framed sextant, a construction which, combining firmness and lightness, yet admitted of a considerable radius in this invaluable instru- ment. After trying and rejecting the repeating reflecting circle of Borda, Mr. Troughton, in 1796, hit upon one of his happiest constructions, the British reflecting circle, as he de- lighted to call it, an instrument which in right hands is capable of wonderful accuracy. It is a characteristic trait of Mr. Troughton, that in order to bring his favourite circle into general use, he reduced its price far below the usual profits of trade ; and if he had succeeded in his attempt, he might have been ruined by his success, for his sextants were by far the most gainful article of his business. With the same earnestness to promote the interests of navigation, he invented the dip sector (afterwards re-invented by Dr. Wollaston), and expended time, money, and ingenuity to no inconsiderable amount, in attempting to perfect the marine top for producing a true horizontal reflecting surface at sea. The marine barometer, the snufi'-box sextant, and the portable universal dial, owe to him all their elegance, and much of their accuracy. Where others invented or sketched he perfected. In the ordinary physical apparatus Troughton made con- siderable improvement in the construction of the balance, and of the mountain barometer. In the same class may be men- tioned the form given to the compensated mercurial pendu- lum ; his pyrometer, by which some very valuable expansions have been determined ; the apparatus by which Sir Q-eorge Shuckburgh attempted to ascertain the standard of weight and measure; and that apparatus which, in the hands of Francis Baily, has given an invariable simple seconds pendut lum. In the ordinary geodesical instruments Mr. Troughton greatly improved the surveying level and staff, and reduced TROUGHTON. 203 them both in weight and price, with iacreased convenience and accuracy. It is, however, in the construction of astro- nomical instruments that this great mechanician particularly- excelled; here he reigned without a rival. His portable astronomical quadrants are models of strength and lightness, while the repeating circle of Borda, an instrument which he disliked, first received its beauty and accuracy from his hands. The ordinary reading micrometer, and the position micro- meter, commonly employed in the measurement of double stars, were greatly improved by him in simplicity and brought to perfection ; and he first applied the former to dividing, though in circles and scales it had already be'en used in the reading off. Mr. Troughton's larger works, such as his equatorial in- struments, circles, transits, &c., are as well known in the astronomical world as those of Wren in the architectural; they are too numerous to mention here, and are distributed in various parts of the world. The gigantic zenith tube at Greenwich was about the last work on which he was engaged, and he had just time to finish it before his strength 'failed. The only astronomical instrument which is not greatly in- debted to Mr. Troughton is the telescope, and he was deterred from making any attempt in this branch of his art by the curious physical defect of colour bbudness, which existed in many members of his family. Like Dalton he coidd not dis- tinguish colours, and had Kttle idea of them, except generally as they conveyed the impression of greater or less light. The ripe cherry and its leaf were to him. of one hue, only to be distinguished by their form. With this defect in his vision he never attempted any experiments in which colour was con- cerned ; and it is difficult to see how he could have done so with success. The most remarkable of Troughton's writings are, 'An account of a method of dividing astronomical and other in- struments by ocular inspection,' &c. — Phil. Trans., 1809, 204 TEOUGHTON. which was rewarded with the Copley medal ; ' A comparison of the repeating circle of Borda^ vrith the altitude and Azimuth Circle ' — Memoirs R. Ast. Soc. ; and several articles in Brewster's 'Edinburgh Cyclopaedia,' such as 'Circle/ ' Graduation,' &c. In the year 1825 Mr. Troughton paid a visit to Paris, and in 1830 he received an honorary gold medal from the King of Denmark. During the latter portion of his life he became almost entirely deaf, only hearing by the aid of a powerful trumpet. He died at his house in Fleet Street, June 12, 1835, in the eighty-second year of his age, and was buried at the Cemetery, Kensal Green. — Monthly Notices of the Royal Astronomical Society, vol. 3, February, 1836. 205 RICHARD WATSON, BISHOP OF LLANDAFF, D.D., F.R.S., &c. Portrait taken from the Picture by G. Rommy, B.A, Born August, 1737. Died June 4, 1816. Richard Watson, celebrated both as an able theologian, and as a professor of chemistry, was born at HeYersham, near Kendal in Westmoreland. His ancestors had been farmers of their own estates for several generations, and his father, a younger son, was for forty years the head master of the Grammar-school at Heversham, but had resigned his duties about the period of the birth of his son Richard. Young Watson received his education at this school, and about a year after his father's death, in 1753, was sent on an exhi- bition of 50^. belonging to the school, to Trinity CoUege, Cambridge, where he was admitted as a sizar on the 3rd of November, 1754. All he had, besides his exhibition, to carry him through college, was a sum of 300/. which his father had left him, but he set bravely to work, to make his way to independence by hard study and hard living; his dress is said at first to have been a coarse mottled Westmore- land coat, and blue yarn stockings. In May, 1757, he obtained a scholarship, and in the Sep- tember following, while still only a junior soph, he began to take pupils, continuing to be employed, first as private, then as a college tutor, imtil in October, 1767, he became one of the head tutors of Trinity College. Meanwhile Watson had taken his. degree of B.A. in January, 1759, being classed as second wrangler, which he seems to have considered, and not without reason, as the place of honour for the year ; the senior wrangler, who was a member of St. John's, having, as it was generally believed, been unfairly preferred to him. 206 WATSON. Ill October, 1760, he was elected a fellow of his col- lege, and in November, 1764, on the death of Dr. Hadley, he was tmaniniously elected by the senate to the professor^ ship of chepiistry, although at that time he knew nothing of the science. "Watson did not, however, disappoint the con- fidence that was placed by others in his abOities. With the assistance of an operator, whom he immediately sent for from Paris, and by shutting himseK up in his labo- ratory, he acquired such an acquaintance with his new sub- ject, as to enable him in about fourteen months to read his first course of lectures, which were honoured with a nuinerous attendance, and proved highly successful. Other courses followed which were equally well received; and, in 1768, he printed a synopsis of the principles of the science, under the title of ' Institutiones Metalluxgicse.' "Watson was elected a Fellow of the Royal Society in 1769, and for some years afterwards contributed many chemical papers to the 'Philosophical Transactions.' In 1771 he pub- lished 'An Essay on the Subjects of Chemistry, and their General Divisions.' In 1781 he published two volumes 12mo. of ' Cihemical Essays ;' a third appeared iu 1782 ; and a fourth in 1786 completed the work, which has often been reprinted, and was long very popular. In connection with his chemical professorship, "Watson obtained from Grovem- ment, by proper representations, a salary of 100^. for himself, and for aU future professors. He also paid some attention to theoretical and practical anatomy, as having a certain relation to the science of chemistry. In October, 1771, on the death of Dr. Rutherforth, he unexpectedly obtained the lucrative and important office of Regius Professor of Divinity, and in that capacity, held the Rectory of Somersham in Huntingdonshire. At this time he had neither taken his degree of B.D. or D.D., and by his own account, seems to have known little more of theological learning than he did of chemistry seven years before. Yet WATSON. 207 such, was his good fortune, or the reputation that he had estabKshed, for carrying an object whenever he took it ia hand, that no other candidate appeared for the professorship, while his eloquence and iagenuity supplied the want of deeper erudition, and attracted as numerous audiences to the exercises in the schools at which he presided, as had ever attended his cheniical lectures. Watson himself, in the anecdotes of his life, gives the following account of this circumstance : "I was not, when Dr. Eutherforth died, either Bachelor or Doctor in Divinity, and without being one of them I could not become a candi- date for the Professorship. This puzzled me for a moment, I had only seven days to transact the business in, but by hard travelling, and some adroitness, I accomplished my purpose, obtained the King's mandate for a Doctor's degree, and was created Doctor on the day previous to that appointed for the examination of the candidates. Thus did I, by hard and incessant labour for seventeen years, attain at the age of thirty-four, the first office for honour in the University ; and exclusive of the mastership of Trinity CoRege, I have made it the first for profit ; I found the Professorship not worth qidte 330^., and it is now worth 1000^. at least." Watson's clerical preferment after this was very rapid. In 1773, through the influence of the Duke of Grafton, he obtained possession of a sinecure rectory in North Wales, which he was enabled to exchange during the course of the following, year for a prebend in the Church of Ely. In 1780 be succeeded Dr.. Plumtree as archdeacon of that diocese ; the same year he was presented to the Rectory of Northwold in Norfolk, and in the beginning of the year following, received another much more valuable Hving, the Rectory of Knaptoft in Leicestershire, from the hands of the Duke of Rutland, who had been his pupil at the University. Lastly, in July, 1782, he was promoted to the bishopric of Llandaff, by the Prime Minister of that period Lord Shelburne, who 208 WATSON. hoped thereby both to gratify the Diike of Rutland, and also to secure an active partisan. Watson, however, proved a very unmanageable bishop, and during the course of his political career was singularly free and independent in his sentiments. One of his first acts was to publish in 1783, ' A Letter to Archbishop Cornwallis on the Church Revenues, recommending an equaKsation of the Bishoprics.' This he did in spite of all that could be said to make him see that it would embarrass the Government, and at the same time do nothing to forward his own object. And so he continued to take his own way, and was very soon left to do so, without any party or person seeking either to guide or stop him. In 1783 Bishop "Watson had married the eldest daughter of Edward Wilson of Dalham Tower in Westmoreland. In the year 1789 he retired from politics and betook himself to an estate which he had at Calgarth, on the banks of Winandermere, occupying himself in educating his family, and in agricultural improvements, especially planting, for which he received a medal from the Society of Arts in 1789. Previous to this, in 1786, his friend and former pupil, Mr. Luther, of Ongar in Essex, had left him an estate which he sold for more than 20,000/. Bishop Watson died on the 4th of June, 1816, in his seventy-ninth year. His writings are very numerous and miscellaneous in their character ; some of the more well known are : an ' Apology for Christianity,' written in 1776 in answer to Gfibbon ; a ' Collection of Theo- logical Tracts selected from various Authors for the use of the Yoimger Students in the University,' in six volumes 8vo., 1785 ; ' Apology for the Bible, in a series of Letters addressed to Thomas Paine,' 1796 ; and, 'An Address to the People of Great Britain,' which went through fouj?teen editions, 1798. One of the best practical results of his chemical studies was the suggestion which he made to the Duke of Richmond, at that time Master of the Ordnance, respecting the prepara- WATSON. 209 tion of charcoal for gunpowder, by bunung tbe wood in close vessels, a process very materially improving the qiiaHty of the powder, and Which is now generally adopted. — Anecdotes of the lAfe of Richard Watson, Bishop of Llandaff, written by himself. London, 1817. — Memoir by Dr. Thomas Young, JEncyclopeedia Britannica. — English Cyclopcedia. 210 JAMES WATT, LL.D., F.R.S., L. and E., &c. MEMBER OF THE FRENCH INSTITUTE. Portrait taken from the Picture hy Sir WilKam Beechey, B.A., i/n the possession of J. W. Gibson Watt, at Doldowlod, and fnm, the Statue hy Sir Francis Chantrey, R.A., at Hands- worth Chwch, Bom at Greenock on the Clyde 1736. Died August 35, 1819. To James Watt, plulosoplier, mechanician, and civil en- giaeer, wtose genius perfected tlie control of one of the greatest revealed powers yet given to man, may vfell be applied the saying of "Wellington, "That which makes a great general makes a great artist, the power and the de- termination to overcome difficulties." Born with a sickly temperament, and prevented thereby from attending school, or indulging in the usual healthy play of children, "Watt, unassisted by others, devoted his time to study, and ia re- tirement and reflection laid the foundation of knowledge destiaed to bear such ample fruit. In addition to mere book knowledge, he early exhibited a partiality for me- chanical contrivances and operations, and this determined bim to commence his career as a mathematical instrument maker ; for which purpose he set out for Glasgow in 1754, but owing to the limited resources of this town at that period, he ultimately decided on going to London, where, after great difficulty, he was apprenticed for a twelvemonth to an instrument maker in Finch Lane. At the end of this time, having become enfeebled from over attention to work, he repaired to Greenock to recruit his health, and ultimately returned to Glasgow, where he was established by the authorities, within the precincts of the college, as mathe- matical iastrument maker to the University. In process of WATT. 211 time .Watt's stop became a favoiirite resort for professors as ■well as students, and he counted among his visitors Professor Simson, Drs. Black, Dick, and Moor ;* but his most intimate friend, and the one most closely connected with his after Kfe, ■was John Robison, a student at Glasgow, afterwards Pro- fessor of Natural Philosophy at Edinburgh University, to whom the honour is due of ha^ving first directed Watt's attention to the steam-engine. The event which actually led to the commencement of his invaluable discoveries on this subject, was the entrusting to him the repair of a small model of Newcomen's engine, which the coUege possessed. In his endeavours to put this engine into working order. Watt was led to investigate thoroughly the properties of steam upon which its action depended ; and ultimately in the spring of 1765, after many trials and untiring perseverance, he arrived at the great and simple idea of a separate con- denser, into which the steam expanded ; thereby preventing that wasteful expenditure of heat, which was the necessary result of the old plan of condensing the steam in the work- ing cylinder, by admitting a jet of cold water directly -under the piston. In addition to this Watt surrounded the cylinder ■with a second casing to be filled with the surplus steam, for the purpose of preventing radiation of heat, and closed in the top (which in Newcomen's engine had been left open for * During his residence at Glasgow, a Mason's Lodge were desirous of pos- sessing an organ, and Watt was asked to build it. He was totally destitute of a musical ear, and could not distinguisb one note from the other, hut he nevertheless accepted the offer ;' for having studied the philosophical theory of music, he found that science would be a stubstitute for want of ealr. He commenced by buflding a small one for Dr. Black, and then proceeded to the large one, in the building of which he devised a number of novel expedients, such as indicators and regulators of the strength of the blast, with various contrivances for improving the efficiency of the stops. The qualities of this organ when finished are said to have elicited the surprise and admiration of musicians. During this period of his life Watt used likewise to construct and repair guitars, flutes, and violins, and had the same success as with his oTgan.^ Qvarterly Beview, October 1858. p 2 212 WATT. the sake of the pressure of the atmosphere upon the piston) by putting a cover on, with a hole and stuffing box for the piston rod to slide through; a plan which enabled steam pres- sure to be used in place of atmospheric. Newcomen's engine, at this time used only for pumping out water in mines, thus became a true steam-engine of immense power, capable of being worked with economy, and of being turned to the various uses to which science has since applied it. For these great improvements a patent, dated January 5, 1769, was taken out by Watt and Dr. Roebuck, the founder of the Carron iron works, with whom Watt had become acquainted. Little, however, was done for some years in manufacturing engines on a large scale ; Roebuck fell into difficulties, while Watt, harassed, depressed in spirits, and in want of money, was forced to obtain employment as a civil engineer and land-surveyor. Among the many works that he was en- gaged on in this capacity may be mentioned : the Crinan Canal, afterwards completed by Rennie ; the 'deepening of the river Clyde ; improvements in the harbours of Ayr ; Port Glasgow and G-reenock ; the building of bridges at Hamilton and Rutherglen ; and lastly, surveying and estimating a line of Canal between Fort WOliam and Inverness, which was subsequently executed by Telford on a larger scale than was then proposed, under the name of the Caledonian Canal. In the latter half of the year 1773 Roebuck's affairs came to a crisis ; and Watt, through the agency of Dr. Small, having been brought into relation with Mr. Boulton, a man possess- ing an intimate knowledge of business, with extended views and a liberal spirit of enterprise, an arrangement was entered into between them, and the firm of Boulton and Watt estab- lished at Soho. This was the tumiag point in Watt's for- tunes ; under the vigorous management of Boulton, his great invention at length began to be appreciated, and the saving of fuel was found to be nearly three-fourths of the quantity consumed by Newcomen's engine. In 1775 an extension of the original patent until the year 1800 was obtained. This WATT. ■ 213 gave a fresh stimulus to Watt's fertile brain, and 'resulted in patents being taken out, between the- years 1781-1785, for the rotatory motion of the sun and planet -wheels (the crank haTing been pirated by "Wasbrough), the expansive principle of working steam ; the double engine ; the parallel motion ; the smokeless furnace ; and the governor. At a later period Watt also invented the indicator, by means of which the ■ actual horse power of an engine could be ascertained. . This beautiful series of inventions in a measure may be said to have perfected the machine, and at the present time the con- densing steam-engiae differs in no material respect from the engine as Watt left it. While residing at Birmingham, Mr. Watt's house became the resort of many learned men. In the meetings of the Lunar Society, held at Soho House, originated his experi- ments on water, and between him and Cavendish is the honour divided of having first promulgated the theory of its Composition. ■ During the dispute which arose upon this subject. Watt's reply, on a friend regretting that another should have carried off this honour, is worth recording, as showing the modest dignity of his character : " It matters tiot," said he, " whether Cavendish discovered this or I, it is discovered." In the year 1800 Mr. Watt, having acqidred an ample competency, ceased to take an active part in the business of the firm, and the remaiader of his life was spent in retire- ment ; but his active mind, stUl unwearied, contiuued to follow its natural bent. On two occasions afterwards, in 1811 and 1812, he gave proofs of the undiminished powers of his inventive genius. In the one instance he was induced, by his grateful recollections of his residence in Glasgow, to assist the proprietors of the waterworks there with a plan for supplying the town with better water, by means of a suction pipe laid across the Clyde to reach to the other side, where water of a very superior quality might be procured. . This pipe was formed of cast iron, with flexible joints, after the 214 WATT. manner of a lobster's tail, so as to accommodate itseK to the bed of tbe river, and fully answered the purpose for which it was designed. In the other instance he was prevailed upon, by the earnest solicitation of the Lords Conunissioners of the Admiralty, to attend a deputation of the Navy Board, and to give, with his friend Captain Huddart and Mr. J. Jessop, an opinion upon the works then carrying on at Sheerness Dock- yard, and the further ones projected by Messrs. Rennie and Whitby. On this occasion he no less gratified the gentlemen associated with him by the clearness of his general views, than by his knowledge of the details ; and he received the thanks, of the Admiralty for his services. In 1814 he yielded to the wishes of his friends, of Dr. Brewster especially, and under- took a revision of Professor Robison's articles on steam and steam-engines for an early edition of the Encycldpcedia Bri' tannica, which he enriched with valuable notes, containing his own experiments on steam, and a short history of his principal improvements upon the engine itself. Among other mechanical contrivances of Mr. Watt's may be mentioned : a machine for copying letters ; an instrtmient for measuring the specific gravity of fluids ; a regulator lamp ; a plan for heating buildings by steam ; and a contrivance for drying linen. In his eighty-third year, Mr. Watt was stOl occupied in inventiag a machine for copying statues, but this remained unfinished, death arrested his hand ; he died in the year 1819, at Heathfield, in Staffordshire ; and thus, full of years and honoiirs, ended the life of a man who, though bom in a se- cluded village town, and reared in comparative poverty, was yet enabled, by persevering industry and the happy gifts of nature, to contribute so greatly to the commercial prosperity of the world. Mr. Watt was elected a member of the Royal Society of Edinburgh in 1784, of the Royal Society of London in 1785, and a corresponding member of the Batavian Society in 1787. In 1806 the honorary degree of LL.D. was conferred upon him by the spontaneous and unanimous vote of the WATT. 215 Senate of the University of Glasgow ; and in 1808 he was elected, first a corresponding, and afterwards a foreign member of the Institute of France. A few years before his death it was intimated to him, by a message from Sir Joseph Banks, that, to use the words of Mr. Muirhead, the highest honour usually conferred in England on men of literature and science — namely a baronetcy, was open to him, should he desire it ; but although "Watt felt flattered by this intimation, he deter- mined, after consulting with his son, to decline the honour. Five' statues have been erected to the memory of this illus- trious man, of which number the one in "Westminster Abbey, by Chantrey, bears on its pedestal the famous inscription by Lord Brougham : — NOT TO PERPETUATE A NAME WmCH MUST ENDURE WHILE THE PEACEFUL ARTS FLOURISH BUT TO SHEW THAT MANKIND HAVE LEARNT TO HONOUR THOSE WHO BEST DESERVE THEIR GRATITUDE THE KING HIS MINISTERS AND MANY OP THE NOBLES AND COMMONERS OP THIS REALM RAISED THIS MONUMENT TO JAMES WATT WHO DIRECTING THE PORCE OP AN ORIGINAL GENIUS EARLY EXERCISED IN PHILOSOPHIC RESEARCH TO THE IMPROVEMENT OP THE STEAM ENGINE ENLARGED THE RESOURCES OP HIS COUNTRY INCREASED THE POWER OP MAN AND ROSE TO AN EMINENT PLACE AMONG THE MOST ILLUSTRIOUS FOLLOWERS OP SCIENCE AND THE REAL BENEFACTORS OP THE WORLD BORN AT GREENOCK MDCCXXXVI DIED AT HEATHFIELD IN STAFFORDSHIRE MDCCCXIX. —Muirheard's Translation of Arago's Historical Eloge of James Watt. London, 1839. — Memoir, by his son J. "Watt, En^yclopcBdia Britannica. — Quarterly Review, October, 1858. 216 WIILIAM H. WOLLASTON, M.D., P.R.S., &c. Portrait taken from the Picture hy J. Jackson, R.A., in the possession of Mrs. Sbmervilk. Bom August 6, 1766. Died December 92, 1828. William Hyde Wollaston was born at East Derehaotn, a Tillage sixteen miles from Norwicli. His father was an astronomer of some eminence, wlio in the year 1800 published an extensiye catalogue of the northern circumpolar stars. After a preparatory education, "Wollaston entered at Caius College, Cambridge, where he took the degree of M.B. in 1787, and that of M.D. in 1793 ; soon afterwards he became a Tancred Fellow. During his residence at Cambridge, he dcToted himself more to the study of astronomy than any other science. On leaving Cambridge in 1789, he settled at Bury St. Edmunds, and began to practise as a physician, but met with so little success, that he soon removed to London. Shortly after his arrival, he became a candidate for the office of Physician to St. George's Hospital, but was defeated by the election of his principal opponent. Dr. Pemberton. It is stated that this circumstance had such an effect on Wollaston, that he declared, in a moment of pique, he would abandon the profession, and never more write a prescription, were it for his own father. This statement is, however, contradicted in a biographical notice of him, contained in the reports of the Astronomical Society, where it is affirmed that he con- tinued to practise physic in London to the end of the year 1800, when an accession of fortune determined him to relin- quish a profession he never liked, and to devote himseK entirely to science. WOLLASTON. 217 On the 9tli of May, 1793, Wollaston was elected a FeUow of the Eoyal Society ; and in June, 1797, appeared his first contribution to the ' Philosophical Transactions,' being a paper ' On Gouty and XJriaary Concretions.' From this period until his decease, WoUaston was a constant contributor to the ' Transactions,' as weU as to various scientific journals. His papers in the 'Philosophical Transactions' amount to thirty-nine, and, in addition to strictly chemical subjects, include memoirs in astronomy, optics, mechanics, acoustics, mineralogy, crystallography, physiology, and botany. On the 30th of November, 1804, he was elected Junior (Secretary to the Royal Society; and on the death of Sir Joseph Banks, in June, 1820, succeeded him in the Presi- dent's chair, until the anniversary, November 30th of the same year, when he retired ia favour of Sir Humphry Davy, to whom, at the election, he gave the whole weight of his influence. In the years 1804-5 WoUaston first made known to the world the existence of the two metals, palladium and rhodium, which he found were contaiued in the ore of platinum, asso- ciated with osmitmi and iridium, two metals discovered about the same time by Mr. Tennant. In 1809 he showed that the supposed new metal, tantalum., was identical with columbium, previously discovered by Mr. Hatchett ; and shortly before ■his death, he transmitted to the Eoyal Society a communi- cation, constituting the Bakerian lecture for 1828, in which he fully describes his ingenious method of rendering platinum •malleable. From this iavention he is stated to have acquired more than 30,000Z. Dr. Wollaston' s knowledge was more varied, and his tastes less exclusive, than any other philosopher of his time, except Cavendish ; but optics and chemistry are the two sciences ia which he made the greatest discoveries. To him. we owe the first demonstration of the identity of galvanism and common electricity, and the first explanation of the cause of the 218 WOLLASTON. different phenomena exhibited by them. Dr. Wollaston was accustomed to carry on his experiments in the greatest seclu- sion, and with very few instruments. It is related by Dr. Paris (in his Life of DaTy), that a foreign philosopher once calling on Wollaston with letters of introduction, expressed a great desire to see his laboratory. " Certainly," replied WoUaston, and immediately produced a small tray, con- taining some glass tubes, a blowpipe, two or three watch- glasses, a sKp of platinum, and a few test-tubes. Another anecdote is told of him, that, having been engaged one day in inspecting a monster galvanic battery constructed by Mr. Children, he accidentally met, on his way home, a brother chemist, who knew of Mr. Children's grand machine, and uttered something about the inconvenience of it being of such an enormous size ; on this Wollaston seized his friend by the button, led him into a bye comer, where, taking from his waistcoat pocket a tailor's thimble which contained a galvanic arrangement, and pouring into it the contents of a small phial, he astonished his friend by immediately heating a platinum wire to a white heat. Dr. Wollaston was endowed with an extreme neatness of hand, and invented the most ingenious methods of deter- mining the properties and constituents of very minute quan- tities of matter. Among the delicate instruments he was accustomed to make was a sliding rule of chemical equi- valents. He also produced platinum wire so extremely fine as to be nearly imperceptible to the naked eye. Towards the close of the year 1828, Wollaston became dangerously iU. with disease of the brain. Feeling his end approaching, and being unable to write himseK, he employed an amanuensis to write accounts of such of his discoveries and inventions as he was unwilling should perish with him ; and in this manner some of his most important papers were communicated to the Koyal Society. It is a curious fact, that, in spite of the extensive cerebral disease under which WOLLASTON, 219 he laboured, his faculties continued unclouded to the very last. "When almost at the point of death, one of his friends having observed, loud enough for him to hear, that he was unconscious of what was passing aroimd him, WoUaston made a sign for pencil and paper, and then wrote down some figures, and after casting up the sum, returned the paper: the amount was foTmd to be correct. Dr. WoUaston died on the 22nd of December, 1828, at the age of sixty-two — only a few months before his great scien- tific contemporaries. Sir Humphry Davy and Dr. Thomas Young. He was buried in Chiselburst churchyard, Kent. Dr. William Henry* gives the following siunmary of his character : — " Dr. WoUaston was endowed with bodily senses of extra- ordinary acuteness and accuracy, and with great general vigour of imderstanding. Trained in the discipline of the exact sciences, he had acquired a powerful command over his attention, and had habituated himself to the most rigid correctness both of thought and language. He was suffi- ciently provided with the resources of the mathematics, to be enabled to pursue with success profound enquiries in mecha- nical and optical philosophy, the results of which enabled Tn'm to unfold the causes of phenomena not before understood, and to enrich the arts connected with those sciences by the invention of ingenious and valuable instrimients. In che- mistry he was distinguished by the extreme nicety and delicacy of his observations, by the quickness and precision with which he marked resemblances and discriminated differ- ences, the sagacity with which he devised experiments and anticipated their results, and the skill with which he executed the analysis of fragments of new substances, often so minute as to be scarcely perceptible by ordinary eyes. He was remarkable, too, for the caution with which he advanced * Preface to Elements of Experimental Ohemisiry, Eleventh Edition. 220 WOLLASTON. from facts to general conclusions ; a caution which, if it sometimes prevented Tiim from reaching at once the most sublime truths, yet rendered eYery step of his ascent a secure station, from which it was easy to rise to higher and more enlarged inductions." — Weld's History of the Royal Society, with Memoirs of the Presidents. London, 1848. — Sketches of the Royal Society, 8fc., by Sir John Barrow, Bart., F.E.S. London, 1849. 221 THOMAS YOUNG, M.D., F.R.S., &c. MEMBER OF THE INSTITUTE OF FRANCE. - Portrait taken from the Picture hy Sir Thos. Laurence, P.R.A., in the possession of the Royal Society. Born June 13, 1773. Died May 10, 1829. Dr. Thomas Young, celebrated for Lis universal attain- ments, was born at MHverton, in Somersetsbire. He was tbe eldest of ten children of Thomas and Sarah Young ; his mother was a niece of Dr. Richard Brocklesby, a physician of considerable eminence in London. Both of his parents were members of the Society of Friends, and to the tenets of that sect, which recognizes the immediate influence of a Supreme Intelligence as a guide in the ordinary conduct of life. Dr. Young was accustomed in after years to attribute, in no slight degree, the formation of those determined habits of perseverance which gave him the power of effecting any object upon which he was engaged, and by which he was enabled to work out his own education almost from infancy, and with little comparative assistance from others. At the age of two years Young coidd read with considerable fluency, and before he was four years old had read the Bible through twice, and also "Watts' hymns. He was likewise from his earliest years in the habit of committing to memory pieces of poetry, in proof of which there exists a memorandiun, written by Young's grandfather, on the margin of a copy of Goldsmith's ' Deserted Village,' to the effect that his grand- son Thomas had repeated to him the whole poem, with the exception of a word or two, before he was five years old. In 1780 he was placed at a boarding-school at Stapleton, near 222 YOUNG. Bristol, and here the deficiency of the instructor appears to have advanced the studies of the pupil, as Young now be- came his own teacher, and used to study by himself the last pages of the book taught almost before he had reached the middle under the eye of the master. In the year 1782 he became an inmate of the school kept by Mr. Thompson, at Crompton, in Dorsetshire, remaining there nearly, four years, during which period he rapidly acquired knowledge upon various subjects. Having com- menced the study of botany, he was led to attempt the construction of a microscope, with the assistance of an usher in the school of the name of Benjamin Martin, in order to examine the plants he was in the habit of gathering. In his endeavours to make the microscope Young found it necessary to procure a lathe, and for a time everything gave way to a passion for turning. This was, however, at length succeeded by a desire to become acquainted with the nature of fluxions, and after reading through and mastering a treatise upon this subject, he turned his attention to the study of Hebrew and other Oriental languages. Ultimately at the age of fourteen Thomas- Young was more or less versed in Greek, Latin, French, Italian, Hebrew, Persic, and Arabic, and in forming the characters of these languages had already acquired a considerable portion of that beauty and accuracy of penman- ship which was afterwards so remarkable in his copies of Greek compositions, as well as those subjects connected with the literature of ancient Egypt. A story is related of him, that when requested a few years later, by a friend of Dr. Brocklesby, who presumed somewhat upon Yoimg's youthful appearance, to exhibit a specimen of his penmanship, he repKed by writing a sentence in his best style in fourteen different languages. In 1787 Young was engaged, in conjunction with Mr. Hodgkin, as private tutor to Hudson GTirney, grandson of Mr. David Barclay, of Youngsbury, near "Ware, in Hertford- YOUNG. 223 shire, and he remained thus occupied during the space of five years, extending his knowledge as far as possible. The number of books he read through at that time was com- paratively small, but whatever book he began to read, he read completely and deliberately through, and it was perhaps this determination always to master what he might happen to be engaged on before attempting anything else, which enabled Dr. Young to attain so great knowledge on such various subjects. He himself had little faith in any peculiar aptitude being implanted by nature for any given pursuits. His favourite maxim was, that whatever one man had done another might do, and that the original difference between human intellects was much less than it was supposed to be ; in this respect he resembled his great predecessor NewtoUj and his cotemporary Dalton, both of whom had unbounded confidence in the powers of patient thought. In the autumn of 1792 Thomas Young removed to London, in order to study medicine, which profession he had determined to adopt, being greatly influenced in his choice by the wishes of his uncle Dr. Brocklesby. This gentleman had kindly undertaken the charge of his education, and Young was by bi-m introduced to the members of the most distinguished literary circles in the metropolis, including Burke, Drs. Law- rence and Yiacent, Sir Joshua Reynolds, Sir George Baker, and others. In the autiunn of 1793 he became a pupil at St. Bartholomew's Hospital, and in October 1794 proceeded to Edinburgh, stiU further to prosecute his medical studies. While residing at Edinburgh Dr. Young mixed largely in society, began the study of music, took lessons on the flute, and also private lessons in danciag, and frequently attended performances at the theatre. From this period he gave up the external characteristics of the Quakers, and ultimately ceased to belong to their body, although he practised to the end of his life the general simplicity of their moral conduct. During the year 1795 he commenced a tour on the 224 YOUNG. Continent, staying at the University of Gottiagen during nine months, in order to prosecute his studies and take a doctor's degree. In February, 1797, he came back to Eng- land, and was almost immediately after his return admitted a PeUow- Commoner of Emmanuel CoUege, Cambridge ; the Master of the College, Dr. Farmer, saying as he introduced Young to the fellows, " I have brought you a pupil qualified to read lectures to his tutors." In December 1797 Young's uncle. Dr.. Brocklesby, died, bequeathing to his nephew the sum of 10,000/., besides his house, furniture, and a choice collection of pictures. Dr. Young was now entirely at liberty to form his own scheme of Hfe, and he determined to commence practice as a physician, for which purpose, after having completed his terms of resi- dence at Cambridge, he took a house in Welbeck Street (No. 48), which he continued to occupy for five-and-twenty years. His practice as a physician, although respectable, was never large. He wanted that confidence or assurance which is so necessary to the successful exercise of the profession.. He was perhaps too deeply informed, and therefore too sensible of the difficulty of arriving at true knowledge in the science of medicine ever to form a hasty judgment ; while his great love of, and adherence to truth, made him often hesitate where others would have felt no difficulty in expressing an opinion. It was perhaps a happy circum-= stance for the fame of Dr. Young that this should be the case, as he was thereby enabled to devote a considerable portion of his time to those literary and scientific studies in which so few could compete with him. In 1799 he published, his memoir entitled ' Outlines and Experiments respecting^ Sound and Light,' which was read before the Eoyal Society and printed ia their ' Transactions.' Other papers ' On the Theory of Light and Colours' followed, which the council of the Eoyal Society selected for the Bakerian lectures. In the year 1801 Dr, Young accepted the ofiace of Professor of YOUNG. 225 Natural Philosophy at the Eoyal Institution, which had been established the year previously. The conducting of the journal of the Institution was also entrusted to his care, in con- junction with his colleague Sir Humphry Davy, at that time Professor of Chemistry. Dr. Young remained at the Royal Institution two years, during which period he gave a course of lectures on 'Natural and Experimental Philosophy,' a syllabus of which he published in 1802, annotincing for the first time his great discovery of the general law of the inter- ference of the undulations of Kght. His lectures were not, however, popular ; they embodied too much knowledge to be intelligible to any considerable portion of his hearers ; and the matter was so abundant and the style so condensed, that students tolerably versed in science might have found it ex- tremely difficult to follow him in his masterly discussions. Dr. Young had been. elected a Fellow of the Royal Society as early as the year 1794, when he had just completed his twenty-first year ; he was now appointed (1802) Foreign Secretary to the same Society, an office which he held during the remainder of his life, and for which he was well qualified by his knowledge of the principal languages of Europe. In 1804 he married Eliza, the daughter of James Primrose Maxwell, of Cavendish Square, and this union is said to have been attended with tininterrupted happiaess ; his wife who survived him left no children. In 1807 appeared his most elaborate and valuable work, ' A Course of Lectures on Natural Philosophy and the Me- chanical Arts,' being the embodiment of the sixty lectures delivered while at the Royal Institution, together with the labour of three more years occupied in further arranging and improving them. This work comprises a complete system of natural and mechanical philosophy, drawn from original sources, and is distinguished not only by the extent of its learning and the accuracy of its statements, but by the beauty and originality of the theoretical principles. It 226 YOXJNG. also contains a disquisition upon tlie doctrine of interference in the undulatory theory of light mentioned before, the general law of which he thus enunciates : " When two un- dulations from different origins coincide, either perfectly or very nearly in direction, their joint effect is a combiriation of the motions belonging to each."* Sir John Herschel, speak- ing of this discovery, says that it alone " would have sufBced to have placed its author in the highest rank of scientific immortality, even were his other almost innumerable claims to such a distinction disregarded." Amongst other laborious and difficult matters of investigation, Dr. Young made the first and most important steps in reading the Egyptian Hieroglyphics, in which he preceded Champollion ; and he afterwards, in 1823, published a work on this subject, imder the title of ' An Account of some recent Discoveries in Hieroglyphical Literature and Egyptian Antiquities ; in- cluding the author's original Alphabet as extended by Mr. ChampoUion ; with a Translation of five unpublished Ghreek and Egyptian Manuscripts.' In the year 1808 Dr. Young was admitted a feUow of the College of Physicians, and in 1810 was elected physician to St. George's Hospital, a situation which he retained for the remainder of his Hfe. In 1813 he published ' An Introduction to Medical Literature, including a system of practical Nosology intended as a guide to Students and as an Assistant to Practitioners.' In 1816 Dr. Young was appelated secretary to the Commission em- powered to ascertain the length of the second's pendulum, and thereby establish an uniform system of weights and measures. Two years subsequent to this he became secretary to the Board of Longitude, and on the dissolution of that body, became sole conductor of the ' Nautical Almanac' Dr. Young at various times contributed eighteen articles to the ' Quarterly Review,' of which nine were on scientific subjects — the rest on medicine, languages, and criticism. Between * Life of Thomas Young, M.J)., ^c, by Dr. George Peacock, page M3. YOUNG. 227 1816 and 1823 he •wrote sixty-three articles for the ' Supple- ment to the Encyclopsedia Britannica,' Sixth Edition, of which forty-six were biographical. In the year 1821 he made a short to\ir in Italy with his wife, and in August, 1827, was elected one of the eight Foreign associates of the Academy of Sciences at Paris, iu the place of Volta, who died in 1826 ; the other competitors for this honour being the astronomers Bessel and Olbers,' Brown the botanist, Blumenbach, Leopold Von Buch, Dalton, and Plana the mathematician. Dr. Yoimg's course of life, considered apart from the variety of his occupations, was remarkably uniform. He resided iu London from November to June, and at Worthing from July to the end of October, continuing this regular change of residence for fourteen successive years. In the year 1826 he removed from his house in Welbeck Street, where he had resided for a quarter of a century, to another in Park Square, which had been built under his own direc- tions, and fitted up with great elegance and taste. He con- tinued to live here for the remainder of his life. During the month of February, 1829, he began to suffer from what he considered repeated attacks of asthma. His health gradually got worse, but though thus under the pressure of severe ilhiess, nothing could be more striking than the entire calmness and composure of his mind, or could surpass the kindness of his affections to all around him. In the very last stage of his complaiut, in an iaterview with Mr. Gurney, his perfect self-possession was displayed in the most remarkable manner. After some information con- cerning his affairs, and some instructions concerning the hieroglyphical papers in his hands, he said, that perfectly aware of his situation, he had taken the sacraments of the Church on the day preceding ; that whether he should ever partially recover, or whether he were rapidly taken off, he could patiently and contentedly await the issue. His illness continued, with some slight variations, until the morning of 228 YOUNG. the 10th of May, when he expired without a struggle, having hardly completed his fifty-sixth year. The disease proved to be an ossification of the aorta, the large arterial trunk pro- ceeding from the left ventricle of the heart. It must have been in progress for many years, and every appearance indi- cated an advance of age, not brought on probably by the natural course of time, nor even by constitutional formation, but by imwearied and incessant labour of mind from the earliest days of infancy. His remains were deposited in the vault of his wife's family, in the church of Famborough, in Kent. — lAfe of Thomas Young, M.D., fyc, by Dr. George Peacock, Dean of Ely. London, 1855. — Memoir hy Br. D. Irving, Encyclqpwdia Britanniea, Eighth Edition. — English CychpcBdia. London, 1858. THE DISTINGUISHED MEN OF SCIENCE IN GKEAT BEITAIN, AT THE ROYAL INSTITUTION, A.D. 1807-8. A GEEAT HISTORICAL ENGRAVING, In the Be&t Style of Stipple and Mezzotinto, representing by Fifty most Authentic Portraits, THE DISTINGUISHED MEN OF SOIENOE OF GEEAT BEITAIN, LIVING A.D. 1807-8, ASSEMBLED IN THE LIBBARY OP THE EOTAL INSTITUTION. FBOM AN OBIGINAL DBAWINQ IN CHIAItOSCTJBO, DESIGNED BY GILBERT, DRAWN BY J. P. SKILL & W. WALKER; ENGRAVED BY WILLIAM WALKER AND GEORGE ZOBEL. This Great Historical Work represents an assemblage of Fifty Eminent Men of Science, living in the years 1807-8 ; met together in the Upper Library of the Royal Institution, which was founded in 1800, to promote the application of Science to practical uses. In this Picture a Central Group represents James Watt, demonstrating to his friends, viz., Rennie, Telford, Mylne, Jessop, Chapman, M0EDOCK, EUMEOKD, HUDDART, BOITLTON, BeUNEL, WatSON, BeNTHAM, and Maudslay, the advantages of his improved Steam Engine. At the opposite side of the table and looking towards the great Engineer is Dk. Dalton, propounder of the " Atomic Theory," surrounded by Davy, Hatchett, Wollaston, Henry, Allen, Howard, and Smith, the father of English Geology, sitting in front of whom, is the illustrious Cavendish. The group on the right depicts Ceompton, inventor of the Spinning Mule ; Tennant, the well-known Chemist and Bleacher of Glasgow ; Caet- WRIGHT, inventor of the Power Loom ; and Ronalds, who, in the year 1816 passed an Electric message through a space of eight miles made in trenches dug in his garden at Hammersmith. These are listening to Chaeles Earl Stanhope, describing his Printing Press, and process of Stereotype Printing; behind his Lordship is Bramah, of whom unfortunately no portrait is extant — ^he is represented speaking to Teevithick. Near Lord Stanhope is Nasmyth, the Scottish Claude, known also as a man of Science, and one of the three successM competitors, between whom the first prize offered for the best plan for laying out and building the New Town of Edinburgh was eq'^ally divided; next to him are Miller of Dalswinton, and Symington, who invented and built the first practical Steam Boat ; close to Symington is Thomson, the distinguished professor of Chemistry, at Glasgow, who, in 1807, first introduced to the notice of the world Dalton's views of the theory of Definite Proportions, which had been privately communicated to him in 1804. Troughton, Donkin and CoNGREVE complete this division of the Picture. The Group on the left represents Herschel conversing with his friend Maskelyne; behind whom are, Baily, Feodsham, Leslie, Playpaie, Rutherford, and Dollond. Dr. Young is near them, celebrated for his universal acquirements. Brown the distinguished Botanist, Gilbert and Banks, Presidents of the Eoyal Society, Katee eminent for the part he took in the trigonometrical survey of India, and for his construction of standard Weights and Measures; and near to Sir William Herschel and Sir Joseph Banks, sitting in front, is Jenner, the Discoverer of Vaccination. The Portraits are in every possible case taken from Originals of the greatest merit, and Mr. Walkee thankfully acknowledges the aid extended to him by many private Gentlemen, especially Dr. William Sharpey, Secretary of the Royal Society, and Mr. Woodcropt, Super- intendent of the Patent OflSce, by whom every facility has been ofiered for making copies from many unique originals in the Patent Museum and Portrait Gallery formed by him. Size of the Engraving, without Margin, Forty -one hy Twenty and a half Inches. An Octavo Volume, which contains an Etching (forming a Key to the Engraving), a Memoir of each Portrait, and an Introduction by Robert Hunt, F.R.S., will be delivered with each Impression, and included in the prices named below. — This Volume can also be pvirchased separately. Price Seven Shillings and Sixpence. Plain Impressions, £5:5. Proofs, with Title and Autographs, £8:8. Artist Proof, with or without Autographs, £10 : 10. London, June 4ih, 1863. PTJBLISHED BY WIILIAM WALKER & SON, 64, MARGARET STREET, CAVENDISH SQUARE, W. The following names may be mentioned as Subscribers to the foregoing Work. Hia Royal Htghhess the Dhkb of CAMBniDaE, K.G. Hi3 Grace the Duke op Aehyll, P.O. His Grace the Ddke of Devonshire, K.G. His Grace the Duke of Hamilton and Bramdon His Grace the Duke of Sutherland The President of the Eoyal Society The President of the Institution of CivU Engineers The President of the Institution of Mechanical Engineers Earl De Grey and Eipon, F.R.S. Earl Granville, P.O. Earl Eussell, P.O. Earl Stanhope, D.C.L. Viscount Barringtou Viscount Palmerston, G.C.B. Lord Ashley, M.P. Lord Brougham, P.C. Lord Calthorpe Lord Herhert, P.C. Lord Kingsdown, P.C. Lord Lyndhuxst, P.C. Lord Monteagle, P.O. Lord Eavensworth Lord Wensleydale, P.C. The Lord Bishop of Manchester, F.E.S. Lady Hawes Lady Pollock Lady Congreve Whiting Eight Hon. W. B. Gladstone, D.C.L. Right Hon. Sir Chas. Wood, Bt., G.C.B. Anderson, Sir James Armstrong, Sir William G., F.E.S. Bright, Sir Charles J. Cubitt, Sir William, F.E.S. Fairhairn, Sir Peter Fox, Sir Charles Hawes, Sir Benjamin, K.C.B. Paxton, Sir Joseph, M.P. Peto, Sir Morton, Bart, M.P. Eennie, Sir John, F.E.S. Watts, Sir James Bass, M. T., Esq., M.P. Bazley, Thomas, Esq., M.P. Dalglish, Eobert, Esq., M.P. Gray, William, Esq., M.P. Hankey, Thomas, Esq., M.P. Heywood, James, Esq., M.P. Hubbard, J. G., Esq., M.P. Kershaw, James, Esq., M.P. Langston, J. H., Esq., M.P. Locke, Joseph, Esq., M.P. Sorope, G. P., Esq., M.P. Smith, J. B. Esq., M.P. Stephenson, Eobert, Esq., M.P. Turner, A. Aspinal, Esq., M.P. Ashworth, Henry, Esq. Atherton, Charles, Esq. Babbington, Dr. B. G., F.ICS. Bateman, J. F., Esq., F.E.S. Bates, Joshua, Esq. Beattie, Joseph, Esq. Bell, Thomas, Esq., F.E.S. Benedict, Jules, Esq. Betts, Edward L., Esq. Bidder, George P., Esq. Binney, Edw. W., Esq., F.E.S. Blake, H. Wollaston, Esq., F.E.S. Boulton, M. P. W., Esq. Brande, William Thomas, Esq., F.E.S. Brassey, Thomas, Esq. Brunei, Isambard K., Esq., F.E.S. Caird, James T., Esq. Calvert, Professor Grace, F.E.S. Clarke, Edwin, Esq. Chance, James T. and E. L., jun., Esqs. Clowes, George, Esq. Cochrane & Co., Messrs. Cookerell, C. E., Esq., E.A. Coleman, J. E., Esq. list of Subscribers — continued. Copland, Dr., F.E.S. Cotton, William, Esq., D.C.L. Couper, William, Esq. Crompton, Samuel, Esq. Crossley, John, Esq. Crum, Walter, Esq., F.R.S. Cutitt, Joseph, Esq. Donkin, Bryan, Henry, & Thos., Esqs. DoUond, George, Esq. 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