ILLUSTKATIONS OP UNIVERSAL PROGRESS; % ^mt^ 0f ^xmt^t^Un^, BY HERBERT SPENCER, AUIHOS OF "THB PRINCIPLES OF PSYCnOLOGT," "SOCIAL 8TATI06, "ESSAYS, MOHAi;, POLITICAL AND JESTHBTIC," " EDITCATION," " FIEST PEINCIPLEfl," ETC., ETC., ETa A NOTICE OF SiPSJrCEIl'S '' NEW SYSTEM OF FRILOSOPUYP NEW YOEK: D. APPLETON AND COMPANY, C49 & 551 BROADWAY. 1875. ^ 1 ^^ WOEKS BY HEEBERT SPENCER. PUBLISHED BY D. APPLETON & CO. E^iscellaneoLis Writings. EDUCATION— INTELLECTUAL, MORAL, AND PHYSICAL. 1 vol., 12mo. 2S3 pages. Cloth. ILLUSTRATIONS OF UNIVERSAL PROGRESS. 1 vol., large 12mo. 470 pages. Cloth. ESSAYS— MORAL, POLITICAL, AND ESTHETIC. 1 vol., large 12mo. 41S pages. SOCIAL STATICS; or, the Conditions Essential to Human Happi- ness Specified^ and the first of them Developed. 1 vol., large 12uao. 523 pages. * TEE CLASSIFICATION OF THE SCIENCES : to which is added Reasons for Dissenting from the Philosophy of M. Comte. A pamphlet of 50 pages. Fine paper. System of Philosophy. FIRST PRINCIPLES, m Two Parts— I. The Unknowable; II. Laws of the Knowable. 1 vol., large 12mo. 508 pages. Cloth. PRINCIPLES OF BIOLOGY. Vol. I. large 12mo. 475 pages. " " " Vol. II. large 12ino. 566 pages. Entered, according to Act of Congress, in the year 1864, By D. APPLETON & CO., In the Clerk's Office of the District Court of the United States for Ul« Southern District of New York. 4 8 6 5 5 5 JUL 1 7 1942 ^ i /Vj AMERICAJSr NOTICE OP A NEW SYSTEM OF PHILOSOPHY. BY HERBERT SPENCER. The author of the following work, Mr. Herbert Spencer, of England, has entered upon the publication f)f a new philosophical system, so original and comprehensive as to deserve the attention of all earnest inquirers. He proposes nothing less than to imfold such a complete philosophy of Nature, physical, organic, mental and social, as Science has now for the first time made possible, and which, if successfully executed, will constitute a momentous step in the progress of thought. His system is designed to embrace five works ; each a distinct treatise, but all closely connected in plan, and treating of the fol- lowing subjects in the order presented : 1st, First Principles ; 2d, Principles of Biology ; 3d, Principles of Psychology ; 4th, Principles of Sociology; 5th, Principles of Morality. The opening work of the series — First Principles — though somewhat of an introductory character, is an independent and completed Vi NOTICE OF HERBERT SPENCEr's argument. It consists of two parts : first, " The Unknowable," and second, " The Laws of the Knowable." Unattractive as these titles may seem, they indicate a discussion of great originality and transcendent interest. When public consideration is invited to a system of philosophy 80 extended as to comprehend the entire scheme of nature and humanity, and so bold as to deal with them in the ripest spirit of science, it is natural that many should ask at the outset how the author stands related to the problem of Religion. Mr. Spencer finds this the preliminary question of his philosophy, and engages with it at the threshold of his undertaking. Before attempting to work out a philosophical scheme, he sees that it is at first necessary to find how far Philosophy can go and where she must stop — the necessary limits of human knowledge, or the circle which bounds all rational and legitimate investigation ; and this opens at once the profound and imminent question of the , spheres and relation of Religion and Science. Mr. Spencer is a leading representative of that school of think- ers which holds that, as man is finite, he can grasp and know only the finite ; — that by the inexorable conditions of thought all real knowledge is relative and phenomenal, and hence that we cannot go behind phenomena to find the ultimate causes and solve the ultimate mystery of being. In such assertions as that " God cannot by any searching be found out ; " that " a God understood would be no God at all ; " and that " to think God is as we think Him to be is blasphemy," we see the recognition of this idea of the inscrutableness of the Absolute Cause. The doctrine itself is neither new nor limited to a few exceptional thinkers. It is widely af&rmed by enlightened science, and pervades nearly all the cultivated theology of the present day. Sir William Hamilton and Dr. Mansel are among its recent and ablest ex- pounders. "With the exception," says Sir William Hamilton, " of a few late absolutist theorizers in Germany, this is perhaps XEW SYSTEM OF rniLOSOPHY. VJl tlie tratn of all others iirost harmoniously recclioed by every philosopher of every school ; " and among these he names Pro- tagoras, Aristotle, St. Augustine, Melanchthon, Scaliger, Bacon, Spinoza, Newton, and Kant. But though Mr. Spencer accepts this doctrine, he has not left it where he found it. The world is indebted to him for having advanced the argument to a higher and grander conclusion — a conclusion which changes the philosophical aspect of the whole question, and involves the profoundest consequences. Hamilton and Mansel bring us, by their inexorable logic, to the result that we can neither know nor conceive the Infinite, and that every attempt to do so involves us in contradiction and absurdity ; but having reached this vast negation, their logic and philosophy break down. Accepting their conclusions as far as they go, Mr. Spencer maintains the utter incompleteness of their reasoning, and, pushing the inquiry still farther, he demonstrates that though we cannot grasp the Infinite in thought^ we can realize it m consciousness. He shows that though by the laws of thinking we are rigorously prevented from forming a coiweption of that Incomprehensible, Omnipotent Power by which we are acted upon in all phenomena, yet we are, by the laws of thought, equally prevented from ridding ourselves of the consciousness of this Power. He proves that this consciousness of a Supreme Cause is not negative^ but positive — that it is indestructible, and has a higher certainty than any other belief whatever. The Unknow- able, then, in the view of JMr. Spencer, is not a mere term of nega- tion, nor a word employed only to express our ignorance, but it means that Infinite Reality, that Supreme but Inscrutable Cause, of which the universe is but a manifestation, and which has an ever-present disclosure in human consciousness. Having thus found an indestructible basis in human nature for the religious sentiment, Mr. Spencer next shows that all reli- gions rest upon this foundation, and contain a fundamental veritj Viii NOTICE OF HERBERT SPENCER's — a soul of truth, wMcli remains when their conflicting doctrines and discordant peculiarities are mutually cancelled. In the lower and grosser forms of religion this truth is but dimly discerned, but becomes ever clearer the more highly the religion is devel- oped, surviving every change, and remaining untouched by the severest criticism. ]Mr. Spencer then proceeds to demonstrate that all science tends to precisely the same great conclusion; — in all directions investigation leads to insoluble mystery. Alike in the external and the internal worlds, the man of science sees himself in the midst of perpetual changes of which he can discover neither the begin- ning nor the end. If he looks inward, he perceives that both ends of the thread of consciousness are beyond his grasp. If he resolve the appearances, properties, and movements of surround- ing things into manifestations of Force in Space and Time, he still finds that Force, Space, and Time pass all understanding. Thus do all lines of argument converge to the same conclusion. Whether we scrutinize internal consciousness or external phenom- ena, or trace to their root the faiths of mankind, we reach that common ground where all antagonisms disappear — that highest and most abstract of all truths, which is affirmed wdth equal certainty by both religion and science, and in which may be found their full and final reconciliation. It is perhaps hardly just to Mr. Spencer to state his position upon this grave subject without giving also the accompanying reasoning ; but so compressed and symmetrical is his argument that it cannot be put into narrower compass without mutilation. To those interested in the advance of thought in this direction, we may say that the discussion will be found unsurpassed in nobleness of aim, eloquence of statement, philosophic breadth, and depth and power of reasoning. This portion of the work embraces five chapters, as follows I. Religion and Science; II. Ultimate Religious Ideas; UL NEW SYSITLM OF nilLOSOrHT. IX Ultimate Scientific Ideas ; lY. The Relativity of all Knowledge ; V. The Reconciliation. The second and larger portion of First Principles Mr. Spencer designates " The Laws of the Knowable." By these he understands those fundamental and universal principles reached by scientific investigation, which underlie all phenomena, and are necessary to their explanation. Certain great laws have been established which are found equally true in all departments of nature, and these are made the foundation of his philosophy. The sublime idea of the Unity of the Universe, to which science has long been tending, Mr. Spencer has made peculiarly his own. Through the vast diversities of nature he discerns a oneness of order and method, which necessitates but one philosophy of being ; the same principles being found to regulate the course of celes- tial movement, terrestrial changes, and the phenomena of life, mind, and society. These may all be comprehended in a single philosophical scheme, so that each shall throw light upon the other, and the mastery of one help to the comprehension of all. To Mr. Spencer the one conception which spans the universe and solves the widest range of its problems — which reaches out- ward through boundless space and back through illimitable time, resolving the deepest questions of life, mind, society, history, and civilization, which predicts the glorious possibilities of the future, and reveals the august method by which the Divine Power work? evermore, — this one, all-elucidating conception, is expressed by the term Evolution?'. To this great subject he has devoted his remarkable powers of thought for many years, and stands toward it not only in the relation of an expositor, but also in that of a iliscoverer. The fact that all living beings are developed from a minute structureless germ has long been known, while the law which governs their evolution — that the change is ever from the homo- geneous to the heterogeneous — has been arrived at within a gen- X NOTICE OF HEEBEET SPENCEr's eration. But this fact of growth is by no means limited to the physical history of plants and animals — it is exemplified upon a far more extended scale. Astronomers hold that the solar system has gone through such a process, and Geologists teach that the earth has had its career of evolution. Animals have a mental as well as a physical development, and there is also a progress of knowledge, of religion, of the arts and sciences, of institutions, manners, governments, and civilization itself. Mr. Spencer has the honour of having first established the universality of the prin- ciple by which all these changes are governed. The law of evo- lution, which has been hitherto limited to plants and animals, he demonstrates to be the law of all evolution. This doctrine is unfolded in the fii'st Essay of the present volume, and is more or less fully illustrated in the others ; but it will be found elaborately worked out in the second part of First Principles. The course of the discussion in this part of the work will be Ijest shown by enumerating the titles to the chapters, which are as follows : I. Laws in General ; 11. The Law of Evolution ; IIL The Same continued ; lY. The Causes of Evolution ; V. Space, Time, Matter, Motion, and Force ; VL The Indestructibility of Matter ; YII. The Continuity of Motion ; Vm. The Persistence of Force ; IX. The Correlation and Equivalence of Forces ; X. The Direction of Motion ; XL The Rhythm of Motion ; XU. The Conditions Essential to Evolution ; XIII. The Instability of the Homogeneous ; XIV. The Multiplication of Effects ; XV. Differentiation and Integration; XVI. Equilibration; XVIL Summary and Conclusion. A most interesting and fruitful field of thought, it will be seen, is here traversed by our author, and the latest and highest questions of science are discussed under novel aspects and in new relations. Not only do the pages abound with acute suggestions and fresh views, but the entire argument, in its leading demon- NEW SYSTEM OF PHILOSOPHY. XI Btrations, and the full breadth of its pliilosopliic scope, is stamped with a high originality. Having thus determined the sphere of philosophy and ascer- tained those fundamental principles governing all orders of phe- nomena which are to be subsequently used for guidance and veri- fication, the author proceeds to the second work of the series, which is devoted to Biology, or the Science of Life. He regards life not as a foreign and unintelligible something, thrust into the scheme of nature, of which we can know nothing save its mys- tery, but as an essential part of the universal plan. The har- monies of life are regarded as but phases of the universal har- mony, and Biology is studied by the same methods as other de- partments of science. The great truths of Physics and Chemistry are applied to its elucidation ; its facts are collected, its induc- tions established, and constantly verified by the first principles laid down at the outset. Apart from its connections with the philosophical system, of which it forms a part, this work will have great intrinsic interest. Nothing was more needed than a compact and well-digested statement of those general principles of life to which science has arrived, and Mr. Spencer's presenta- tion is proving to be just what is required. Some idea of his mode of treating the subject may be formed by glancing over a few of his first chapter-headings. Pabt First : I. Organic Matter ; H. The Actions of Forces on Organic Matter ; HI. The Reactions of Organic Matter on Forces ; TV. Proximate Definition of Life ; V. The Correspondence between Life and its Circumstances VI. The Degree of Life Yaries with the Degree of Correspond- ence ; YH. Inductions of Biology. Part Second : I. Growth ; n. Development; IH. Function; IV. Waste and Repair; V. Adaptation; VI. Individuality; VH. Genesis; VIH. Heredity; IX. Variation ; X. Genesis, Heredity and Variation ; XI. Classifi- cation ; XH. Distribution. OLJ NOTICE OF HEKBEET SPEXCEe's In the scheme of nature Mind is ever associated with Life. The third division of this philosophical system will therefore bo Psychology, or the Science of Mind. This great subject will bo considered, not by the narrow methods usual with metaphy- sicians, but in its broadest aspects as a phase of nature's order — to be studied by observation and induction through the whole range of psychical manifestation in animated beings. The sub- ject of mind will be regarded in the light of the great truths of Biology previously established ; the connections of mind and life will be traced ; the progress of mentality as exhibited in the ani- mal grades, and the evolution of the intellectual faculties in man wiU be delineated and the cooperation of mind and nature in the production of ideas and intelligence unfolded. We have no work upon mind of this comprehensive and thoroughly scientific char- acter : the materials are abundant, and the necessity of their organization is widely recognized. That IVIr. Spencer is eminently the man to perform this great task is proved by the fact that he is already the author of the most profound and able contribu- tion to the advancement of psychological science that has ap- peared for many years. In the true philosophic order. Biology and Psychology prepare the way for the study of social science, and hence the fourth part of Mr. Spencer's system will treat of Sociology, or the natural laws of society. As a knowledge of individuals must precede an under- standing of their mutual relations, so an exposition of the laws of life and mind, which constitute the science of human nature, must precede the successful study of social phenomena. In this part will be considered the development of society, or that intellectual and moral progress which depends upon the growth of human ideas and feelings in their necessary order. The evolution of political, ecclesiastical, and industrial organizations will be traced, and a statement made of those principles underlying all NEW SYSTEM OF PHILOSOPHY. XIU social progress, without wbich there can be no successful regula- tion of the affairs of society. Mr. Spencer's mind has long been occupied with these important questions, as the reader will find by referring to his able work upor *' Social Statics," published several years ago. Lastly, in Part Fifth, Mr. Spencer proposes to consider the Pi^ncijples of Morality^ bringing to bear the truths furnished by Biology, Psychology, and Sociology, to determine the true theory of right living. He will show that the true moral ideal and limit of progress is the attainment of an equilibrium between constitu- tion and conditions of existence, and trace those principles of private conduct, physical, intellectual, moral, and religious that follow from the conditions to complete individual life. Those rules of human action which all civilized nations have registered as essential laws — the inductions of morality — will be delineated, and also those mutual limitations of men's actions necessitated by their coexistence as units of society, which constitute the founda- tion of justice. It cannot be doubted that the order here indicated, as it cor- responds to the method of nature, is the one which Philosophy must pursue in the future. It combines the precision of science with the harmony and unity of universal truth. The time is past when Biology can be considered with no reference to the laws of Physics ; Mind with no reference to the science of Life, and So- ciology, without having previously mastered the foregoing sub- jects. The progress of knowledge is now toward more definite, systematic, and comprehensive views, while it is the highest func- tion of intellect to coordinate and bind together its isolated and fragmentary parts. In carrying out his great plan, therefore, Mr. Spencer is but embodying the large philosophical tendenciei of the age. Xiv NOTICE OF HEEBEET SPENCEPJs If it is urged that his scTieme is too vast for any one man to accomplisli, it may be replied : 1st. That it is not intended to treat the various subjects exhaustively, but only to state general principles with just sufficient details for their clear illustration. 2d. A considerable portion of the work is already issued, and much more is ready for publication, while the author is still in the prime of life. 3d. It must be remembered that intellects oc- casionally appear, endowed with that comprehensive grasp and high organizing power which fits them for vast undertakings. The reader will find at the close of the volume Mr. Spencer's Prospectus of his system. That he who has so clearly mapped out his work is the proper one to execute it, we think will be fully apparent to all who peruse the present volume. An impression prevails with many that Mr. Spencer belongs to the positive school of M. Auguste Comte. This is an entire misapprehension ; but the position having been assumed by sev- eral of his reviewers, he repels the charge in the following letter, which appeared in the I^ew Englander for January, 1864. To the Editor of tTie New Englander: Sir:— While recognizing the appreciative tone and general candour of the article in your last number, entitled " Herbert Spen- cer on Ultimate Religious Ideas," allow me to point out one error which pervades it. The writer correctly represents the leading positions of my argument, but he inadvertently conveys a wrong impression respecting my tendencies and sympathies. He says of me, " the spmt of his philosophy is evidently that of the so- called positive method which has now many partial disciples, as well as many zealous adherents among the thinkers of Eno-. land." Further on I am tacitly classed with " the English ad- mirers and disciples of the great Positivist ; " and it is presently added that " in Mr. Spencer we have an example of a positivist, who does not treat the subject of religion with supercilious neg- lect." Here and throughout, the implication is that I am a fol- lower of Comte. This is a mistake. That M. Comte has given a NEW SYSTEM OF PHILOSOPHY. XV general exposition of the doctrine and metliod elaborated by science, and has applied to it a name wliicli has obtained a certain currency, is true. But it is not true that the holders of this doc- trine and followers of this method are disciples of M. Comtc. Neither their modes of inquiry nor their views concerning human knowledge in its nature and limits are appreciably different from what they were before. If they are Positivists it is in the sense that all men of science have been more or less consistently Posi- tivists ; and the applicability of M. Comte's title to them no more makes them his disciples than does its applicability to the men of science who lived and died before M. Comte wrote, make them his disciples. My own attitude toward M. Comte and his partial adherents has been all along that of antagonism. In an essay on the " Genesis of Science," published in 1854, and reimblished with other essays in 1857, 1 have endeavoured to show that his theory of the logical dependence and historical development of the sciences is untrue. I have still among my papers the memoranda of a second review (for which I failed to obtain a place), the pur- pose of which was to show the untenableness of his theory of in- tellectual progress. The only doctrine of importance in which I agree with him — ^the relativity of all knowledge — is one common to him and sundry other thinkers of earlier date ; and even this I hold in a different sense from that in which he held it. But on all points that are distinctive of his philosophy, I differ from him. I deny his Hierarchy of the Sciences. I regard his division of in- tellectua,l progress into the three phases, theological, metaphysi- cal, and positive, as superficial. I reject utterly his Religion of Humanity. And his ideal of society I hold in detestation. Some of his minor views I accept ; some of his incidental remarks seem to me to be profound, but from everything which distinguishes Comteism as a system, I dissent entirely. The only influence on my own course of thought which I can trace to M. Comte's writings, is the influence that results from meeting with antagonistic opin- ions definitely expressed. Such being my position, you will, I think, see that by classing Die as a Positivist, and tacitly including me among the English admirers and disciples of Comte, your reviewer unintentionally misrepresents me. I am quite ready to bear the odium attaching XVi NOTICE OF HERBERT SPENOER's to opinions Tvliich I do liold ; but I object to have added the odium attacbing to opinions Tvbicb I do not bold. If, by publish- ing this letter in your forthcoming number, you will allow me to Bet myself right with the American public on this matter, you will greatly oblige me. I am, Sir, your obedient servant, Hekbert Spencer. We take the liberty of making an extract from a private lettei of Mr. Sj)encer, which contains some further observations in the same connection : " There appears to have got abroad in the United States, a very erroneous impression respecting the influence of Comte's writings in England. I suppose that the currency obtained by the words ' Positivism ' and ' Positivist,' is to blame for this. Comte having designated by the term Positive Philosophy all that body of definitely-established knowledge which men of science have been gradually organizing into a coherent body of doctrine, and having habitually placed this in opposition to the incoherent body of doctrine defended by theologians, it has be- come the habit of the theological party to think of the antagonist scientific party under this title of Positivists applied to them by Comte. And thus, from the habit of calling them Positivists there has grown up the assumption that they call themselves Posi- tivists, and that they are the disciples of Comte. The tnith is that Comte and his doctrines receive here scarcely any attention. I know something of the scientific world in England, and I cannot name a single man of science who acknowledges himself a fol- lower of Comte, or accepts the title of Positivist. Lest, however, there should be some such who were unknown to me, I have re- cently made inquiries into the matter. To Professor Tyndall I put the question whether Comte had exerted any appreciable in- fluence on his o^vn course of thought : and he replied, * So far as I know, my own course of thought would have been exactly the same had Comte never existed.' I then asked, * Do you know any men of science whose views have been afiected by Comte's writings ? ' and his answer was : ' His influence on scientific thought in England is absolutely niV To the same questions Prof. Huxley returned, in other words, the same answers. Profes- NEW SYSTEM OF PHILOSOPUY. XVI 1 Bors Huxley and Tyndall, being leaders in tlieir respective de- partments, and being also men of general culture and philosophic insight, I think that, joining their impressions with my own, I am justified in saying that the scientific world of England is wholly uninfluenced by Comte. Such small influence as he has had hero has been on some literary men and historians — men who were at/- tracted by the grand achievements of science, who were charmed by the plausible system of scientific generalizations put forth by Comte, with the usual French regard for symmetry and disregard for fact, and who were, from their want of scientific training, unable to detect the essential fallaciousness of his system. Of these the most notable example was the late Llr. Buckle. Besides him, I can name but seven men who have been in any appreciable degree influenced by Comte ; and of these, four, if not five, arc scarcely known to the public." Mr. Spencer's philosophical series is published by D. Appleton & Co., New York, in quarterly parts (80 to 100 pages each), by subscription, at two dollars a year. " First Principles''' is issued in one volume, and four parts of Biology have appeared. We subjoin some notices of his philosophy from American and English reviews. From the National Quarterly Review (American.) Comte thus founded social science, and opened a path for future discoverers ; but he did not perceive, any more than pre- vious inquirers, the fundamental law of human evolution. It was reserved for Herbert Spencer to discover this all-comprehensive law which is found to explain alike all the phenomena of man's history and all those of external nature. This sublime discovery, that the universe is in a continuous process of evolution from the homogeneous to the heterogeneous, with which only Newton's law of gravitation is at all worthy to be compared, underlies not only physics, but also history. It reveals the law to which social changes conform. From the Christian Examiner. Reverent and bold — reverent for truth, though not for thi Xviii NOTICE OF HEEBERT SPENCEe's forms of truth, and not for much, that we hold true — bold in the destruction of error, though without that joy in destruction which often claims the name of boldness ; — these works are interesting in themselves and in their relation to the current thought of the time. They seem at first sight to form the turning point in the positire philosophy, but closer examination shows us that it is only a new and marked stage in a regular growth. It is the positive philosophy reaching the higher relations 6f our being, and establishing what before it ignored because it had not reached, and by ignoring seemed to deny. This system formerly excluded theology and psychology. In the works of Herbert Spen- cer we have the rudiments of a positive theology and an immense step toward the perfection of the science of psychology. * * * Such is a brief and meagre sketch of a discussion which we would commend to be followed in detail by every mind interested in theological studies. Herbert Spencer comes in good faith from what has been so long a hostile camp, bringing a flag of truce and presenting terms of agreement meant to be honourable to both parties : let us give him a candid hearing. * * * i^ qpnclusion, we would remark that the work of Herbert Spencer referred to (First Principles) is not mainly theological, but will present the latest and broadest generalizations of science, and we would commend to our readers this author, too little known among us, as at once one of the clearest of teachers and one of the wisest and most honourable of opponents. From the New Englander. Though we find here some unwarranted assumptions, as well as some grave omissions, yet this part (Laws of the Knowable) may be considered, upon the whole, as a fine specimen of scien- tific reasoning. Considerable space is devoted to the " Law of Evolution " the discovery of which is the author's chief claim to originality, and certainly evinces great power of generalization. To quote the abstract definition v^ithout a full statement of the inductions from which it is derived would convey no fair im* pression of the breadth and strength of the thought which it epitomizes. Of Mr. Spencer's general characteristics as a writer, we may observe that his style is marked by great purity, clear« NEW SYSTEM OF nilLOSOPnY. XIX oess, and force ; thougli it is somewhat diJBTuse, and tlie abstract nature of some of his topics occasionally renders his thought diffi- cult of apprehension. His treatment of his subjects is generally thorough and sometimes exhaustive ; his arguments are always ingenious if not always convincing ; his illustrations are drawn from almost every accessible field of human knowledge, and his method of " putting things " is such as to make the most of his materials. He is undoubtedly entitled to a high rank among the speculative and philosophic writers of the presennt day. * * * In Mr. Spencer we have the example of a positivist, who docs not treat the subject of religion with supercilious neglect, and who illustrates by his own method of reasoning upon the highest objects of human thought, the value of those metaphysical studies which it is so much the fashion of his school to decry. For both these reasons the volume, which we now propose to examine, deserves the careful attention of the theologian who desires to know what one of the {strongest thinkers of his school, commonly thought atheistic in its tendencies, can say in behalf of our ulti- mate religious ideas. For if we mistake not, in spite of the very negative character of his own results, he has furnished some strong arguments for the doctrine of a positive Christian theo- logy. "We shall be mistaken if we expect to find him carelessly passing these matters by (religious faith and theological science) as in all respects beyond knowledge and of no practical concern. On the contrary, he gives them profound attention, and arrives at conclusions in regard to them which even the Christian theolo- gian must allow to contain a large measure of truth. While showing the unsearchable nature of the ultimate facts on which religion depends, he demonstrates their real existence and their great importance. * * * Jq answering these questions Mr. Spencer has, we think, arrived nearer to a true philosophy than either Hamilton or Mansel. At least he has indicated in a more satisfactory manner than they have done, the positive datum of consciousness that the unconditioned, though inscrutable, eodsts. It may be said that IVIr. Spencer is not chargeable with excluding God from the universe, or denying all revelation of Him in His works, since he earnestly defends the truth that an inscrutable power is shown to exist. We certainly would not charge him XX NOTICE OF IIEEBERT SPENCEE S with theoretical atheism, holding as he does this ultimate reli- gious idea. From the North American Beview, The law of organic development announced in the early part of the present century, by Goethe, Schelling, and Von Baer, and vaguely expressed in the formula, that " evolution is always from the homogenous to the heterogeneous, and from the simple to the complex," has recently been extended by Herbert Spencer so as to include all phenomena whatsoever. He has shown that this law of evolution is the law of all evolution. Whether it be in the development of the earth or of life upon its surface, in the devel- opment of Society, of government, of manufactures, of commerce, of language, literature, science and art, this same advance from the simple to the complex, through successive differentiations, holds uniformly. The stupendous induction from all classes of phenomena by which Mr. Spencer proceeds to establish and illus- trate his theorem cannot be given here. From the Ghristlan Spectator (English), • Mr. Spencer claims for his view that it is not only a religious position, but preeminently the religious position ; and we are most thoroughly disposed to agree with him, though we think he does not appreciate the force of his own argument, nor fully under- stand his own words. For let us now attempt to realize the meaning of this fact, of which Mr. Spencer and his compeers have put us in possession ; let us endeavour to see whether its bearings are really favorable or adverse to religion. They are put forward indeed avowedly as adverse to any other religion than a mere reverential acquiescence in ignorance concerning all that truly exists ; but it appears to us that this supposed opposition to reli- gion arises from the fact that the doctrine itself is so profoundly, so intensely, so overwhelmingly religious, nay, so utterly and en- tirely Christian, that its true meaning could not be seen for very glory. Like Moses, when he came down from the Mount, this positive philosophy comes with a veil over its face, that its too divine radiance may be hidden for a time. This is Science that has been conversing with God, and brings in her hand His law written on tables of stone. NEW SYSTEM OF rniLosopnr. xxi From the Reader. To answer t]ie question of the likeliliood of the permauenco of Mr. Mill's philosophic reign, * * * ^g should have to take account, among other things, of the differences from Mr. Mill already shown by the extraordinarily able and peculiarly original thinker whose name we have associated with Mr. Mill's at the head of this article. We may take occasion, at another time, to call attention to these speculations of Mr. Herbert Spencer, whose works in the meantime, and especially that new one whose title we have cited, we recommend to all those select readers whose appreciation of masterly exposition, and great reach and boldness of generalization, does not depend on their mere disposition to agree with the doctrines propounded. From the British Quarterly Beview, Complete in itself, it is at the same time but a part of a whole, which, if it should be constructed in proportion, will be ten times as great. For these First Principles are merely the foundation of a system of philosophy, bolder, more elaborate and comprehen- sive, perhaps, than any other which has been hitherto designed in England. * * * Widely as it wOl be seen we differ from the author on some points, we very sincerely hope he may succeed in accomplishing the bold and magnificent project he has mapped out. Fb'om the Cornhill Magazine. Our " Survey," superficial as it is, must include at least the mention of a work so lofty in aim, and so remarkable in execu- tion as the system of Philosophy which Mr. Herbert Spencer is issuing to subscribers. * * * In spite of all dissidence respect- ing the conclusions, the serious reader will applaud the profound earnestness and thoroughness with which these conclusions are advocated ; the universal scientific knowledge brought to bear on them by way of illustration, and the acute and subtle thinking displayed in every chapter. From the Parthenon. By these books he has wedged his way into fame in a manner distinctly original, and curiously marked. * * * There is a xxii NOTICE OF spencee's philosophy. peculiar cliarm in this author's style, in that it sacrifices to no common taste, while at the same time it makes the most abstruse questions intelligible. * * * The book, if it is to be noticed with the slightest degree of fairness, requires to be read and re- read, to be studied apart from itself and with itself. For what- ever may be its ultimate fate — although as the ages go on it shall become but as the lispiugs of a little child, a little more educated than other lisping children of the same time — ^this is certain, that, as a book addressed to the present, it lifts the mind far above the ordinary range of thought, suggests new associations, arranges chaotic pictures, strikes often a broad harmony, and even moves the heart by an intellectual struggle as passionless as fate, but as irresistible as time. From the Critic. Mr. Spencer is the foremost mind of the only philosophical school in England which has arrived at a consistent scheme * * * Beyond this school we encounter an indolent chaotic electicism. Mr. Spencer claims the respect due to distinct and da,ring individuality ; others are echoes or slaves. Mr. Spencer may be a usurper, but he has the voice and gesture of a king. "From tlie Medico- Gliirurgicdl Review. IVIr. Spencer is equally remarkable for his search after first principles ; for his acute attempts to decompose mental phenomena into their primary elements ; and for his broad generalizations of mental activity, viewed in connection with nature, instinct, and bL the analogies presented by life in its universal aspects. EDITOR'S PEEFACE. The essays contained in the present volume were first published in the English periodicals — chiefly the Quarterly Heviews. They contain ideas of perma- nent interest, and display an amount of thought and labor evidently much greater than is usually bestowed on review articles. They were written with a view to ultimate republication in an enduring form, and were '^ issued in London with several other papers, under the title of " Essays ; Scientific, Political, and Speculative," first and second series ; — the former appearing in 1857, and the latter in 1863. ^' The interest created in Mr. Spencer's writings by the publication in this country of his valuable work on " Education," and by criticisms of his other works, has created a demand for these discussions which can only be supplied by their republication. They are now, however, issued in a new form, and are more suited to develop the author's purpose in their preparation ; for xxiv editor's peeface. while each of these essays has its intrinsic and inde- pendent claims upon the reader's attention, they are all at the same time but parts of a connected and compre- hensive argument. Nearly all of Mr. Spencer's essays have relations more or less direct to the general doc- trine of Evolution — a doctrine which he has probably done more to unfold and illustrate than any other thinker. The papers comprised in the present volume are those which deal with the subject in its most ob- vious and prominent aspects. Although the argument contained in the first essay on " Progress ; its Law and Cause," has been published in an amplified form in the author's " First Principles," it has been thought best to prefix it to the present col- lection as a key to the full interpretation of the other essays. To those who read this volume its commendation will be superfluous ; we will only say that those who become interested in his course of thought will find it completely elaborated in his new System of Philos- o])hy, now in course of publication. The remaining articles of Mr. Spencer's fii'st and second series will be shortly published, in a volume en- titled " Essays ; Moral, Political, and Esthetic." New York, Marc\ 1864. CONTENTS. PAOM I. — Peogeess : Its Law and Cause, ... 1 II. — Mannees and FASHioisr, 61 III. — The Genesis of Science, . , • . . ,110 IV. — The Physiology of Latjghtee, . . . . 194 V. — The Oeigin and Function of Music, . . . 210 VI. — The Kebulae Hypothesis, . . - . 239 VII. — Bain on the Emotions and the Will, . . .800 VIII. — Illogical Geology, 325 IX. — The Development Hypothesis, .... 377 X. — The Social Oeganism, 384 XI. — Use and Beauty, 429 XII. — The Soueces of Aechitectueal Types, . . 434 Xni. — The Use of Antheopomoephism, .... 440 I. PROGRESS : ITS LAW AND CAUSE. THE current conception of Progress is somewhat shift- ing and indefinite. Sometimes it comprehends little more than simple growth — as of a nation in the number of its members and the extent of territory over which it has spread. Sometimes it has reference to quantity of material products — as when the advance of agriculture and manu- factures is the topic. Sometimes the superior quality of these products is contemplated : and sometimes the new or improved appliances by which they are produced. When, again, we speak of moral or intellectual progress, we refer to the state of the individual or people exhibiting it ; while, when the progress of KJiowledge, of Science, of Art, ii commented upon, we have in view certain abstract results of human thought and action. N'ot only, however, is the current conception of Progress more or less vague, but it is in great measure erroneous. It takes in not so much the reahty of Progress as its accompaniments — not so much the substance as the shadow. That progress in intelligence Been during the growth of the child into the man, or the savage into the philosopher, is commonly regarded as con- sisting^ in the (greater number of facts known and laws 1 3 ^ TEOGEESS : ITS LAW AND CAUSE. understood : whereas the actual progress consists in those internal modifications of which this increased knowledge is the expression. Social progress is supposed to consist in the produce of a greater quantity and variety of the arti- cles required for satisfying men's wants ; in the increasing security of person and property ; in widening freedom of action : whereas, rightly understood, social progress con- idsts in those changes of structure in the social organism which have entailed these consequences. The current con- ception is a teleological one. The phenomena are contem- plated solely as bearing on human ha^^piness. Only those changes are held to constitute progress which directly or indirectly tend to heighten human happiness. And they are thought to constitute progress simply because they tend to heighten human happiness. But rightly to understand -rogress, we must inquire what is the nature of these changes, considered apart from our interests. Ceasing, for example, to regard the successive geological modifications that have taken place in the Earth, as modifications that have gradually fitted it for the habitation of Man, and as therefore a geological progress, we must seek to determine the character common to these modifications — the law to w^hich they all conform. And similarly in every other case. Leaving out of sight concomitants and beneficial conse- quences, let us ask what Progress is in itself In respect to that progress which individual organisms display in the course of their evolution, this question has been answered by the Germans. The investigations of Wolff, Goethe, and Yon Baer, have established the truth that the series of changes gone through during the devel- opment of a seed into a tree, or an ovum into an animal, constitute an advance from homogeneity of structure to heterogeneity of structure. In its primiiry stage, every germ consists of a substance that is uniform throughout, both in texture and chemical composition. The first step IN WHAT PROGRESS CONSISTS. 3 IS tlie appearance of a difference between two parts of this substance ; or, as the phenomenon is called in physiological Ian2:na2:e, a differentiation. Each of these differentiated divisions presently begins itself to exhibit some contrast of parts ; and by and by these secondary differentiations be- come as definite as the original one. This process is con- tim:.ously repeated — is simultaneously going on in all parts of the growing embryo ; and by endless such differentia- tions there is finally produced that complex combination of tissues and organs constituting the adult animal or plant. This is the history of all organisms whatever. It is settled beyond dispute that organic progress consists in a change from the homogeneous to the heterogeneous. Now, we propose in the first place to show, that this law of organic progress is the law of all progress. Whether it be in the development of the Earth, in the development of Life upon its surface, in the development of Society, of Government, of Manufactures, of Commerce, of Language, Literature, Science, Art, this same evolution of the simple into the complex, through successive differentiations, holds throufrhout. From the earliest traceable cosmical chano^es down to the latest results of civilization, we shall find that the transformation of the homogeneous into the heteroge- neous, is that in which Progress essentially consists. "With the view of showing that if the Xebular Hypoth- esis be true, the genesis of the solar system supplies one illustration of this law, let us assume that the matter of which the sun and planets consist was once in a diffused form ; and that from the gravitation of its atoms there resulted a gradual concentration. By the hypothesis, the solar system in its nascent state existed as an indefinitely extended and nearly homogeneous medium — a medium almost homogeneous in density, in temperature, and in other physical attributes. The first advance towards con- solidation resulted in a differentiation between the occupied 4 PEOGEESS : ITS LAW AND CAUSE. space which the nebulous mass still filled, and the unoceu* pied space which it previously filled. There simultaneously resulted a contrast in density and a contrast in tempera- ture, between the interior and the exterior of this mass. And at the same time there arose throughout it rotatory movements, whose velocities varied according to their dis- tances from its centre. These differentiations increased in number and degree until there was evolved the organized group of sun, planets, and satellites, which we now know — a group which presents numerous contrasts of structure and action amons: its members. There are the immense contrasts between the sun and planets, in bulk and in weight ; as well as the subordinate contrasts between one planet and another, and between the planets and their sat- ellites. There is the similarly marked contrast between the sun as almost stationary, and the planets as moving round him with great velocity ; while there are the sec- ondary contrasts between the velocities and periods of the several planets, and between their simple revolutions and the double ones of their satellites, which have to move round their primaries while moving round the sun. There is the yet further strong contrast between the sun and the planets in respect of temperature ; and there is reason to suppose that the planets and satellites differ from each other in their proper heat, as well as in the heat they re- ceive from the sun. When we bear in mind that, in addition to these various contrasts, the planets and satellites also differ in respect to their distances from each other and their primary ; in respect to the inclinations of their orbits, the inclinations of their axes, their times of rotation on their axes, their specific grav- ities, and their physical constitutions ; we see what a high degree of heterogeneity the solar system exhibits, when compared with the almost complete homogeneity of the nebulous mass out of which it is supposed to have originated. GEOLOGICAL PKOGKESS OF THE EAUTH. 5 Passing from this hypothetical illustration, which must bo taken for what it is worth, without prejudice to the general argument, let us descend to a more certain order of evidence. It is now generally agreed among geologists that the Earth was at first a mass of molten matter ; and that it is still fluid and incandescent at the distance of a few miles beneath its surface. Originally, then, it was homo- geneous in consistence, and, in virtue of the circulation ^that takes place in heated fluids, must have been compara- tively homogeneous in temperature ; and it must have been surrounded by an atmosphere consisting partly of the ele- ments of air and water, and partly of those various other elements which assume a gaseous form at high tempera- tures. That slow cooliag by radiation which is still going on at an inappreciable rate, and which, though originally far more rapid than now, necessarily required an immense time to produce any decided change, must ultimately have resulted in the solidification of the portion most able to part with its heat — ^namely, the surface. In the thin crust thus formed we have the first marked difierentiation. A still further cooling, a consequent thickening of this crust, and an accompanying deposition of all solidifiable elements con tained in the atmosphere, must finally have been followed by the condensation of the water previously existing as vapour. A second marked difierentiation must thus have arisen : and as the condensation must have taken place on the coolest parts of the surface — namely, about the poles — there must thus have resulted the first geographical dis- tinction of parts. To these illustrations of growing hete- rogeneity, which, though deduced from the known laws of matter, may be regarded as more or less hypothetical, Geology adds an extensive series that have been inductively established. Its investisjations show that the Earth has been continually becoming more heterogeneous in virtue of the multiplication of the strata which form its crust ', b I'EOGEESS : ITS LAW AND CAUSE. further, that it has been becoming more heterogeneous in respect of the composition of these strata, the latter of which, being made from the detritus of the older ones, are many of them rendered highly complex by the mixture of materials they contain ; and that this heterogeneity has been vastly increased by the action of the Earth's still molten nucleus upon its envelope, whence have resulted not only a great variety of igneous rocks, but the tilting up of sedimentary strata at all angles, the formation of , faults and metallic veins, the production of endless disloca- tions and irregularities. Yet again, geologists teach us that the Earth's surface has been growing more varied in elevation — that the most ancient mountain systems are the smallest, and the Andes and Himalayas the most modern ; while in all probability there have been corresponding changes in the bed of the ocean. As a consequence of these ceaseless differentiations, we now find that no consid- erable portion of the Earth's exposed surface is like any other portion, either in contour, in geologic structure, or in chemical composition ; and that in most parts it changes from mile to mile in all these characteristics. Moreover, it must not be forgotten that there has been simultaneously going on a gradual differentiation of climates. As fast as the Earth cooled and its crust solidified, there arose appreciable differences in temperature between those parts of its surface most exposed to the sun and those less exposed. Gradually, as the cooling progressed, these differences be- came more pronounced ; until there finally resulted those marked contrasts between regions of perpetual ice and snoAV, regions where winter and summer alternately reign for periods varying according to the latitude, and regions where summer follows summer with scarcely an appreciable variation. At the same time the successive elevations and subsidences of different portions of the Earth's crust, tend- ing as they have done to the present irregular distribution TKOGKESS OF TERKESTKIAL LIFE. T of land and sea, Lave entailed various modifications of cli- mate beyond those dependent on latitude ; while a yet fur- ther series of such modifications have been produced by increasing difi'erences of elevation in the land, which have in sundry places brought arctic, temperate, and tropical climates to within a few miles of each other. And the general result of these changes is, that not only has every extensive region its own meteorologic conditions, but that every locality in each region difiers more or less from oth- ers in those conditions, as in its structure, its contour, its soil. Thus, between our existing Earth, the phenomena of whose varied crust neither geographers, geologists, miner- alogists, nor meteorologists have yet enumerated, and the molten globe out of which it was evolved, the contrast in heterogeneity is sufficiently striking. When from the Earth itself we tarn to the plants and animals that have lived, or still live, upon its surface, we find ourselves in some difficulty from lack of facts. That every existing organism has been developed out of the simple into the complex, is indeed the first established truth of all ; and that every organism that has existed was similarly developed, is an inference which no physiologist will hesitate to draw. But when we pass from individual forms of life to Life in general, and inquire whether the same law is seen in the ensemble of its manifestations, — wnether modern plants and animals are of more hetero- geneous structure than ancient ones, and whether the Earth's present Flora and Fauna are more heterogeneous than the Flora and Fauna of the past, — we find the evi- dence so fragmentary, that every conclusion is open to dispute. Two- thirds of the Earth's surface being covered by water ; a great part of the exposed land being inaccess- ible to, or untravelled by, the geologist ;*the greater part of the remainder having been scarcely more than glanced at ; and even the most familiar portions, as England, hav- 8 PROGEESS : ITS LAW AND CAUSE. mg been so imperfectly explored that a new series of strata has been added within these four years, — it is manifestly impossible for ns to say with any certainty what creatures have, and what have not, existed at any particular period. Considering the perishable nature of many of the lower organic forms, the metamorphosis of many sedimentary strata, and the gaps that occur among the, rest, we shall see further reason for distrusting our deductions. On the one handj the repeated discovery of vertebrate remains in strata previously supposed to contain none, — of reptiles where only fish were thought to exist, — of mammals where it was believed there were no creatures higher than rep- tiles, — renders it daily more manifest how small is the value of negative evidence. On the other hand, the worthlessness of the assumption that we have discovered the earliest, or anything like the earliest, organic remains, is becoming equally clear. That the oldest known sedimentary rocks have been greatly 'changed by igneous action, and that still older ones have been totally transformed by it, is becoming undeniable. And the fact that sedimentary strata earlier than any we know, have been melted up, being admitted, it must also be admitted that we cannot say how far back in time this destruction of sedimentary strata has been going on. Thus it is manifest that the title, JPalceozoic^ as applied to the earliest known fossiliferous strata, involves a petitio princi' pii / and that, for aught we know to the contrary, only the last few chapters of the Earth's biological history may have come down to us. On neither side, therefore, is the evi- dence conclusive. Nevertheless we cannot but think that, scanty as they are, the facts, taken altogether, tend to show both that the more heterogeneous organisms have been evolved in the later geologic periods, and that Life in general has been more heterogeneously manifested as time has advanced. Let us cite, in illustration, the one case of ADVANCE OF THE ANIMAL EACES. 9 the vertehrata. The earliest known vertebrate remaini .tre those of Fislies ; and Fishes are the most homogeneous of the vertehrata. Later and more heterogeneous are Rep- tiles. Later still, and more heterogeneous still, are Mam- mals and Birds. If it be said, as it may fairly be said, that the Palaeozoic deposits, not being estuary deposits, are not likely to contain the remains of terrestrial vertebrata, which may nevertheless have existed at that era, we reply that we are merely pointing to the leading facts, such as they are. But to avoid any such criticism, let us take the mam- malian subdivision only. The earliest known remains of mammals are those of small marsupials, which are the low- est of the mammalian type ; while, conversely, the highest of the mammalian type — Man — is the most recent. The evidence that the vertebrate fauna, as a whole, has become more heterogeneous, is considerably stronger. To the argument that the vertebrate fauna of the Palaeozoic period, consisting, so fir as we know, entirely of Fishes, was less heterogeneous than the modern vertebrate fauna, which includes Reptiles, Birds, and Mammals, of multitudinous genera, it may be replied, as before, that estuary deposits of the Palaeozoic period, could we find them, might contain other orders of vertebrata. But no such reply can be made to the argument that whereas the marine vertebrata of the Palaeozoic period consisted entirely of cartilaginous fishes, the marine vertebrata of later periods include numerous genera of osseous fishes ; and that, therefore, the later marine vertebrate faunas are more heterogeneous than the oldest known one. Nor, again, can any such reply be made to the fact that there are far more numerous orders and genera of mammalian remains in the tertiary formations than in the secondary formations. Did we wisL merely to make out the best case, we might dwell upon the opinion of Dr. Carpenter, who says that " the general facts of Palaeontol- ogy appear to sanction the belief, that the same plan may 1* 10 PEOGEESS : ITS LAW AND CAUSE. be traced out in what may be called the general life of tJie glohe^ as in the individual life of every one of the forms of organized being which now people it." Or we might quote, as decisive, the judgment of Professor Owen, who holds that the earlier esamples of each grouj) of creatures sever-. ally departed less widely from archetypal generality than the later ones — were severally less unlike the . fundamental form common to the group as a whole ; that is to say — constituted a less heterogeneous group of creatures ; and who further upholds the doctrine of a biological progres- sion. But in deference to an authority for whom we have the highest respect, who considers that the evidence at present obtained does not justify a verdict either way, we are content to leave the question open. Whether an advance from the homogeneous to the heterogeneous is or is not displayed in the biological his- tory of the globe, it is clearly enough displayed in the progress of the latest and most heterogeneous creature — Man. It is alike true that, during the period in w^hich the Earth has been peopled, the human organism has grown more heterogeneous among the civilized divisions of the species ; and that the species, as a whole, has been grow- ing more heterogeneous in virtue of the multiplication of races and the differentiation of these races from each other. In proof of the first of these positions, we may cite the fact that, in the relative development of the limbs, the civilized man departs more widely from the general type of the placental mammalia than do the lower human races. While often possessing well-developed body and arms, the Papuan has extremely small legs : thus reminding us of the quadrumana, in which there is no great contrast in size between the hind and fore limbs. But in the Eu- ropean, the greater length and massiveness of the legs has become very marked — the fore and hind limbs are rela- DEVELOrMENT OF THE CIVILIZED EACES. 11 lively more heterogeneous. Again, the greater ratio which the cranial bones bear to the facial bones illustrates the same truth. Among the vertcbrata in general, pro- gress is marked by an increasing heterogeneity in the verte- bral column, and more especially in the vertebras constitut- ing the skull : the higher forms being distinguished by the relatively larger size of the bones which cover the brain, and the relatively smaller size of those which form the jaw, &c. Now, this characteristic, which is stronger in Man than in any other creature, is stronger in the European than in the savage. Moreover, judging from the greater extent and variety of faculty he exhibits^ we may infer that the civilized man has also a more complex or hetero- geneous nervous system than the uncivilized man : and indeed the fact is in part visible in the increased ratio which his cerebrum bears to the subjacent ganglia. If further elucidation be needed, we may find it in every nursery. The infant European has sundry marked points of resemblance to the lower human races ; as in the flat- ness of the alse of the nose, the depression of its bridge, the divergence and forward opening of the nostrils, the form of the lips, the absence of a frontal sinus, the width between the eyes, the smallness of the legs. Now, as the developmental process by which these traits are turned into those of the adult European, is a continuation of that chansce from the homoi^eneous to the heterogjeneous dis- played during the previous evolution of the embryo, which every physiologist will admit ; it follows that the parallel developmental process by which the like traits of the bar- barous races have been turned into those of the civilized races, has also been a continuation of the change from the homogeneous to the heterogeneous. The truth of the second position — that Mankind, as a w^hole, have become more heterogeneous — is so obvious as scarcely to need illustration. Every work on Ethnology, by its divisions 12 PROGEESS : ITS LAW AI?D CAUSE. bucT subdivisions of races, bears testimony to it. Even were we to admit the hypothesis that Mankind originated from several separate stocks, it would still remain true, that as, from each of these stocks, there have sprung many now widely different tribes, which are proved by philologi- cal evidence to have had a common origin, the race as a whole is far less homogeneous than it once was. Add to which, that we have, in the Anglo-Americans, an example of a new variety arising within these few generations ; and that, if we may trust to the description of observers, we are likely soon to have another such example in Aus- tralia. On passing from Humanity under its individual form, to Humanity as socially embodied, we find the general law still more variously exemplified. The change from the homo- geneous to the lieterogeneous is displayed equally in the progress of civilization as a whole, and in the progress of every tribe or nation ; and is still going on with increasing rapidity. As we see in existing barbarous tribes, society in its first and lowest form is a homogeneous aggregation of individuals having like powers and like functions : the only marked difference of function being that which accom- panies difference of sex. Every man is warrior, hunter, fisherman, tool-maker, builder ; every woman performs the same drudgeries ; every family is self-sufficing, and save for purposes of aggression and defence, might as well live apart from the rest. Very early, however, in the process of social evolution, we find an incipient differentiation be- tween the governing and the governed. Some kind of chieftainship seems coeval with the first advance from the state of separate wandering families to that of a nomadic tribe. The authority of the strongest makes itself felt among a body of savages as in a herd of animals, or a j)osse of schoolboys. At first, however, it is indefinite, im- certain; is shared by others of scarcely inferior power; EAULY EVOLUTION OF GOVERNMENTS. 13 and is unaccompanied by any difference in occupation or style of living : the first ruler kills his own game, makes his own weapons, builds his own hut, and economically con- sidered, does not differ from others of his tribe. Gradual- ly, as the tribe progresses, the contrast between the gov- erning and the governed grows more decided. Supreme power becomes hereditary in one family ; the head of that family, ceasing to provide for his own wants, is served by others ; and he begins to assume the sole office of ruling. At the same time there has been arising a co-ordinate sj)ecies of government — that of Religion. As all ancient re- cords and traditions prove, the earliest rulers are regarded as divine personages. The maxims and commands they uttered during their lives are held sacred after their deaths, and are enforced by their divinely-descended successors ; who in their turns are promoted to the pantheon of the race, there to be worshipped and propitiated along with their prede- cessors : the most ancient of whom is the supreme god, and the rest subordinate gods. For a long time these connate forms of government — civil and religious — continue closely associated. For many generations the king continues to be the chief priest, and the priesthood to be members of the royal race. For many ages religious law continues to contain more or less of civil regulation, and civil law to possess more or less of religious sanction ; and even among the most advanced nations these two controlling: a^rencies are by no means completely differentiated from each other. Having a common root with these, and gradually diverg- ing from them, we find yet another controlling agency— that of Manners or ceremonial usages. All titles of honour are originally the names of the god-king ; afterwards of God and the king ; still later of persons of high rank ; and fin- ally come, some of them, to be used between man and man. All forms of complimentary address were at first the ex- pressions of submission from prisoners to their conqueror^ 14 PEOGEESS: ITS LAW AND CAUSE. or from subjects to their ruler, either human or divine — ■ expressions that were afterwards used to propitiate subor- dinate authorities, and slowly descended into ordinary inter- course. All modes of salutation were once obeisances made before the monarch and used in worship of him after his death. Presently others of the god-descended race were sim- ilarly saluted ; and by degrees some of the salutations have become thedue of all.* Thus, no sooner does the originally liomogeneous social mass differentiate into the governed and the governing parts, than this last exhibits an incipient dif- ferentiation into religious and secular — Church and State ; while at the same time there begins to be differentiated from both, that less definite species of government which rules our daily intercourse — a species of government which, as we may see in heralds' colleges, in books of the peerage, in masters of ceremonies, is not without a certain embodi- ment of its own. Each of these is itself subject to succes- «eive differentiations. In the course of ages, there arises, as among ourselves, a highly complex political organization of monarch, ministers, lords and commons, with their subor- dinate administrative departments, courts of justice, reve- nue offices, &c., supplemented in the provinces by munici- pal governments, county governments, parish or union gov- ernments — all of them more or less elaborated. By its side there grows up a highly complex religious organization, with its various grades of offi^cials, from archbishops down to sextons, its colleges, convocations, ecclesiastical courts, &c. ; to all which must be added the ever multiplying inde- pendent sects, each with its general and local authorities. And at the same time there is developed a highly complex aggregation of customs, manners, and temporary fashions, enforced by society at large, and serving to control those * For detailed proof of these assertions see essay on Manners ana Fashion. INDUSTEIAL DEVELOPMENT. 15 minor transactions between man and man which are not reg- ulated by civil and religious law. Moreover it is to be ob- served that this ever increasing heterogeneity in the gov- ernmental appliances of each nation, has been accompanied by an increasing heterogeneity in the governmental appli- ances of different nations ; all of v^iiich are more or lesa unlike in their political systems and legislation, in their creeds and religious institutions, in their customs and cere- monial usages. Simultaneously there has been going on a second dif- ferentiation of a more familiar kind ; that, namely, by which the mass of the community has been segregated into distinct classes and orders of workers. While the govern- ing part has undergone the complex development above detailed, the governed part has undergone an equally com- plex development, which has resulted in that minute divis- ion of labour characterizing advanced nations. It is need- less to trace out this progress from its first stages, up through the caste divisions of the East and the incorporat- ed guilds of Europe, to the elaborate producing and dis- tributing organization existing among ourselves. Political economists have long since described the evolution which, beginning with a tribe whose members severally perform the same actions each for himself, ends with a civilized com- munity w^hose members severally perform different actions for each other ; and they have further pointed out the changes through which the solitary producer of any one commodity is transformed into a combination of producers who, united under a master, take separate parts in the man- ufacture of such commodity. But there are yet other and higher phases of this advance from the homogeneous to the heterogeneous in the industrial organization of society. Long after considerable progress has been made in the di- vision of labour among different classes of w^orkers, there vs still little or no division of labour among the widely sop" 16 progress: its law and catjse, arated parts of the community ; the nation continues com- paratively homogeneous in the respect that in each district the same occupations are pursued. But when roads and other means of transit become numerous and good, the dif- ferent districts begin to assume different functions, and to become mutually dependent. The calico manufacture lo- cates itself in this county, the woollen-cloth manufacture in that; silks. are produced here, lace there; stockings in one place, shoes in another ; pottery, hardware, cutlery, come to have their special towns ; and ultimately every locality becomes more or less distinguished from the rest by the leading occupation carried on in it. J^ay, more, this sub- division of functions shows itself not only among the differ- ent parts of the same nation, but among different nations. That exchange of commodities which free-trade promises so greatly to increase, will ultimately have the effect of specializing, in a greater or less degree, the industry of •each people. So that beginning with a barbarous tribe, almost if not quite homogeneous in the functions of its members, the progress has been, and still is, towards an economic aggregation of the whole human race ; growing ever more heterogeneous in respect of the separate func- tions assumed by separate nations, the separate functions assumed by the local sections of each nation, the separate functions assumed by the many kinds of makers and traders in each town, and the separate functions assumed by the workers united in producing each commodity. Not only is the law thus clearly exemplified in the evo lution of the social organism, but it is exemplified with equal clearness in the evolution of all products of human thought and action, whether concrete or abstract, real or ideal. Let us take Language as our first illustration. The lowest form of lano^uas^e is the exclamation, bv which an entire idea is vaguely conveyed through a single eound ; as among the lower animals. That human language DEVELOPMENT OF LANGUAGE. 17 ever consisted solely of exclamations, and so was strictly ho- mogeneous in respect of its parts of speech, we have no evi- dence. But that language can be traced down to a form in which nouns and verbs are its only elements, is an estab- lished fact. In the gradual multiplication of parts of speech cut of these primary ones — in the differentiation of verbs into active and passive, of nouns into abstract and concrete — in the rise of distinctions of mood, tense, person, of num- ber and case — in the formation of auxiliary verbs, of adjec- tives, adverbs, pronouns, prepositions, articles — ^in the di- vergence of those orders, genera, species, and varieties of parts of speech by which civihzed races express minute modifications of meaning — we see a change from the homo- geneous to the heterogeneous. And it may be remarked, in passing, that it is more especially in virtue of having carried this subdivision of function to a greater extent and completeness, that the English language is superior to all others. Another aspect under which we may trace the devel- opment of language is the differentiation of words of allied meanings. Philology early disclosed the truth that in all languages words may be grouped into families having a common ancestry. An aboriginal name applied indiscrim- inately to each of an extensive and ill-defined class of things or actions, presently undergoes modifications by which the chief divisions of the class are expressed. These several names springing from the primitive root, themselves become the parents of other names still further modified. And by the aid of those systematic modes which presently arise, of making derivations and forming compound terms ex- pressing still smaller distinctions, there is finally developed a tribe of words so heterogeneous in sound and meaning, that to the unmitiated it seems incredible that they should have had a common origin. Meanwhile from other roota there are being evolved other such tribes, until there r^- 1 8 PEOGEESS : ITS LAV/ AND CAUSE. suits a language of some sixty thousand oi more unlike words, signifying as many unlike objects, qualities, acts. Yet another way in which language in general advances from the homogeneous to the heterogeneous, is in the mul tiplication of languages. "Whether as Max Muller and Bun- gen think, all languages have grown from one stock, o? whether, as some philologists say, they have grown from two or more stocks, it is clear that since large families of languages, as the Indo-European, are of one parentage, they have become distinct through a process of continuous divergence. The same diffusion over the Earth's surface which has led to the differentiation of the race, has simulta- neously led to a differentiation of their speech ; a truth which we see further illustrated in each nation by the pecu- liarities of dialect found in several districts. Thus the pro- gress of Language conforms to the general law, alike in the evolution of languages, in the evolution of families of words, ,and in the evolution of parts of speech. On passing from spoken to written language, we come upon several classes of facts, all having similar implications. Written language is connate with Painting and Sculpture ; and at first all three are appendages of Architecture, and have a direct connection with the primary form of all Gov- ernment — the theocratic. Merely noting by the way the fact that sundry wild races, as for example the Australians and the tribes of South Africa, are given to depicting per- sonages and events upon the walls of caves, which are prob- ably regarded as sacred places, let us pass to the case of the Egyptians. Among them, as also among the Assyrians, we find mural paintings used to decorate the temple of the god and the palace of the king (which were, indeed, origi- nally identical) ; and as such they were governmental appli- ances in the same sense that state-pageants and religious feasts were. Further, they were governmental appliances In virtue of representing the worship of the god, the tri. PICTOEtAL GEKMS OF LANGUAGE. 19 niupbs of the god-ting, the submission of his subjects, and the punishment of the rebellious. And yet again they were governmental, as being the products of an art reverenced by the people as a sacred mystery. From the habitual use of this pictorial representation there naturally grew up the but slightly-modified practice of picture-writing — a practice which was found still extant among the Mexicans at the time they were discovered. By abbreviations analogous to those Btill going on in our own written and spoken language, the most familiar of these pictured figures were successively sim- plified ; and ultimately there grew up a system of symbols, most of which had but a distant resemblance to the things for which they stood. The inference that the hieroglyphics of the Egyptians were thus produced, is confirmed by the fact that the picture-writing of the Mexicans was found to have given birth to a like family of ideographic forms ; and among them, as among the Egyptians, these had been par- tially difierentiated into the kuriological or imitative, and the tropical or symbolic : which were, however, used to- gether in the same record. In Egypt, written language underwent a further differentiation : whence resulted the hieratic and the epistolo graphic or enchorial : both of which are derived from the original hieroglyphic. At the same time we find that for the expression of proper names which could not be otherwise conveyed, phonetic symbols were employed ; and though it is alleged that the Egyptians never actually achieved complete alphabetic writing, yet it can scarcely be doubted that these phonetic symbols occa- eionally used in aid of their ideographic ones, were the germs out of which alphabetic writing grew. Once having become separate from hieroglyphics, alphabetic writing it- self underwent numerous diflTerentiations — multiplied alpha- bets were produced; between most of which, however, mere or less connection can still be traced. And m each civil- ized nation there has now grown up, for the representation 20 PEOGEESS : ITS LAW AND CAUSE. of one set of sounds, several sets of written signs used for distinct purposes. Finally, through a yet more important differentiation came printing ; which, uniform in kind as it was at first, has since become multiform. While written language was passing through its earlier stages of development, the mural decoration which formed its root was being differentiated into Painting and Sculp- ture. The gods, kings, men, and animals represented, were originally marked by indented outlines and coloured. In most cases these outlines were of such depth, and the ob- ject they circumscribed so far rounded and marked out in its leading parts, as to form a species of work intermediate between intaglio and bas-relief. In other cases we see an advance upon this : the raised spaces between the figures being chiselled off, and the figures themselves appropriately tinted, a painted bas-relief was produced. The restored Assyrian architecture at Sydenham exhibits this style of art carried to greater perfection — the persons and things represented, though still barbarously coloured, are carved out with more truth and in greater detail : and in the winged lions and bulls used for the angles of gateways, we may see a considerable advance towards a completely sculptured figure ; which, nevertheless, is still coloured, and still forms part of the building. But while in Assyria the production of a statue proper seems to have been lit- tle, if at all, attempted, we may trace in Egyptian art the gradual separation of the sculptured figure from the wall. A walk through the collection in the British Museum will clearly show this ; while it will at the same time afford an opportunity of observing the evident traces which the inde- pendent statues bear of their derivation from bas-relief: seeing that nearly all of them not only display that union of the limbs with the body which is the characteristic of bas-relief, but have the back of the statue united from head to foot with a block which stands in place of the ORIGIN OF CIIRISTIAIT ART. 21 original wall. Greece repeated the leading stages of this progress. As in Egypt and Assyria, these twin arts were at first united with each other and with their parent, Archi- tecture, and were the aids of Keligion and Government. On the friezes of Greek temples, we see coloured bas-reliefs representing sacrifices, battles, processions, games — all in some sort religious. On the pediments we see painted Rcalptures more or less united with the tympanum, and having for subjects the triumphs of gods or heroes. Even when we come to statues that are definitely separated from the buildings to which they pertain, we still find them coloured ; and only in the later periods of Greek civiliza- tion does the difierentiation of sculpture from painting appear to have become complete. In Christian art we may clearly trace a parallel re-gene- sis. All early paintings and sculptures throughout Europe were religious in subject — represented Christs, crucifixions, virgins, holy families, apostles, saints. They formed inte- gral parts of church architecture, and were among the means of exciting worship ; as in Roman Catholic countries they still are. Moreover, the early sculptures of Christ on the cross, of virgins, of saints, were coloured : and it needs but to call to mind the painted madonnas and crucifixes still abundant in continental churches and highways, to perceive the significant fact tha^ painting and sculpture continue in closest connection with each other where they continue in closest connection with their parent. Even when Christian sculpture was pretty clearly differentiated from painting, it was still religious and governmental in its subjects — was used for tombs in churches and statues of kings : while, at the same time, painting, where not purely ecclesiastical, was applied to the decoration of palaces, and besides representing royal personages, was almost wholly devoted to sacred legends. Only in quite recent times have painting and sculpture become entirely secular arts* 22 PROGEESS : ITS lATV AND CAUSE. Only within these few centuries has painting been divided into historical, landscape, marine, architectural, genre, ani- mal, still-life, &c., and sculpture grown heterogeneouj in respect of the variety of real and ideal subjects with which it occupies itself. Strange as it seems then, we find it no less true, that all forms of written language, of painting, and of sculp- ture, have. a common root in the politico-religious decora- tions of ancient temples and palaces. Little resemblance as they now have, the bust that stands on the console, the landscape that hangs against the wall, and the copy of the Times lying upon the table, are remotely akin ; not only in nature, but by extraction. The brazen face of the knocker which the postman has just lifted, is related not only to the woodcuts of the Illustrated London .News which he is delivering, but to the characters of the billet- doux which accompanies it. Between the painted window, the pi'ayer-book on which its light falls, and the adjacent monument, there is consanguinity. The effigies on our coins, the signs over shops, the figures that fill every ledger, the coats of arms outside the carriage panel, and the pla- cards inside the omnibus, are, in common with dolls, blue- books, paper-hangings, lineally descended from the rude sculpture-paintings in which the Egyptians represented the triumphs and worship «f their god-kings. Perhaps no example can be given which more vividly illustrates the multiplicity and heterogeneity of the products that in course of time may arise by successive differentiations from a common stock. Before passing to other classes of facts, it should be observed that the evolution of the homogeneous into the heterogeneous is displayed not only in the separation of Painting and Sculpture from Architecture and from each other, and in the greater variety of subjects they embody, but it is further shown in the structure of each work. A EVOLUTION OF TAINTING AND GTATUARY. 23 modern picture or statue is of far more heterogeneous nature than an ancient one. An Egyptian sculpture-fresco represents all its figures as on one plane — that is, at the same distance from the eye ; and so is less heterogeneous than a painting that represents them as at various distances from the eye. It exhibits all objects as exposed to the same degree of light ; and so is less heterogeneous than a painting which exhibits different objects and different parts of each object as in different degrees of light. It uses scarcely any but the primary colours, and these in their full intensity ; and so is less heterogeneous than a painting which, introducing the primary colours but sparingly, em- ploys an endless variety of intermediate tints, each of hete- rogeneous composition, and differing from the rest not only in quality but in intensity. Moreover, we see in these ear- liest works a great uniformity of conception. The same arrangement of figures is perpetually reproduced — the same actions, attitudes, faces, dresses. In Egypt the modes of representation were so fixed that it was sacrilege to introduce a novelty ; and indeed it could have been only in consequence of a fixed mode of representation that a system of hieroglyphics became possible. The Assyrian bas-reliefs display parallel characters. Deities, kings, at- tendants, winged figures and animals, are severally depicted in like positions, holding like implements, doing like things, and with like expression or non-expression of face. If a palm-grove is introduced, all the trees are of the same height, have the same number of leaves, and are equidis- tant. When water is imitated, each wave is a counterpart of the rest ; and the fish, almost always of one kind, are evenly distributed over the surface. The beards of the kings, the gods, and the winged figures, are everywhere similar : as are the manes of the lions, and equally so those of the horses. Hair is represented throughout by one form of curl. The king's beard is quite architecturally built 24 PEOGEESS: ITS LAW AND CAUSE. up of compound tiers of uniform curls, alternating with twisted tiers placed in a transverse direction, and arranged with perfect regularity ; and the terminal tufts of the bulls' tails are represented in exactly the same manner. "With- out tracing out analogous facts in early Christian art, in which, though less striking, they are still visible, the ad- vance in heterogeneity will be sufficiently manifest on remembering that in the pictures of our own day the com- position is endlessly varied ; the attitudes, faces, expres- sions, unlike ; the subordinate objects different in size, form, position, texture ; and more or less of contrast even in the smallest details. Or, if we compare an Egyptian statue, seated bolt upright on a block, with hands on knees, fin- gers outspread and parallel, eyes looking straight forward, and the two sides perfectly symmetrical in every particu- lar, with a statue of the advanced Greek or the modern school, which is asymmetrical in respect of the position of • the head, the body, the limbs, the arrangement of the hair, ^ dress, appendages, and in its relations to neighbouring objects, we shall see the change from the homogeneous to the heterogeneous clearly manifested. In the co-ordinate origin and gradual differentiation of Poetry, Music and Dancing, we have another series of illus- trations. Rhythm in speech, rhythm in sound, and rhythm in motion, were in the beginning parts of the same thing, and have only in process of time become separate things. Among various existing barbarous tribes we find them still united. The dances of savages are accompanied by some kind of monotonous chant, the clapping of hands, the strik- ing of rude instruments : th ere are measured movements, measured words, and measured tones; and the whole cere- mony, usually having reference to war or sacrifice, is of governmental character. In the early records of the his- toric races we similarly find these three forms of metrical action united in religious festivals. In the Hebrew writings EVOLUTION OF MUSIC AND POETRY. 25 we read that the triumphal ode composed by Moses on the defeat of the Egyptians, was sung to an accompaniment of dancing and timbrels. The Israelites danced and sung " at the inauguration of the golden calf. And as it is generally agreed that this representation of the Deity was borrowed from the mysteries of A23is, it is probable that the dancing was copied from that of the Egyptians on those occasions." There was an annual dance in Shiloh on the sacred festival ; and David danced before the ark. Again, in Greece the Uke relation is everywhere seen : the original type being there, as probably in other cases, a simultaneous chanting and mimetic representation of the life and adventures of the god. The Spartan dances were accompanied by hymns and songs ; and in general the Greeks had " no festivals or religious assemblies but what were accompanied with songs and dances " — ^both of them being forms of worship used before altars. Among the Romans, too, there were sacred dances : the Salian and Lupercalian being named as of that kind. And even in Christian countries, as at Limoges, in comparatively recent times, the people have danced in the choir in honour of a saint. The incipient separation of these once united arts from each other and from reli- gion, was early Adsible in Greece. Probably diverging from dances partly religious, partly warlike, as the Corybantian, came the war dances proper, of which there were various kinds ; and from these resulted secular dances. Mean- while Music and Poetry, though still united, came to have an existence separate from danciug. The aboriginal Greek poems, religious in subject, were not recited, but chanted ; and though at first the chant of the poet was accompanied by the dance of the chorus, it ultimately grew into inde- pendence. Later still, when the poem had been difieren- tiated into epic and lyric — when it became the custom to sing the lyric and recite the epic — ^poetry proper was born. zVs during the same period musical instruments were being 2 26 PEOGKESS : ITS LAW AND CAUSE. multiplied, we may presume that music came to have an existence apart from words. And both of them were be- ginning to assume other forms besides the religious. Facts having like implications might be cited from the histories of later times and peoples: as the practices of our own early minstrels, who sang to the harp heroic narratives ver- sified by themselves to music of their own composition : thus uniting the now separate offices of poet, composer, vo- calist, and instrumentalist. But, without further illustra- tion, the common origin and gradual differentiation of Dancing, Poetry, and Music will be sufficiently manifest. The advance from the homogeneous to the heterogene- ous is displayed not only in the separation of these arts from each other and from religion, but also in the multiplied dif- ferentiations which each of them afterwards undergoes. Not to dwell upon the numberless kinds of dancing that have, in course of time, come into use ; and not to occupy space in detailing the progress of poetry, as seen in the de- velopment of the various forms of metre, of rhyme, and of general organization ; let us confine our attention to music as a type of the group. As argued by Dr. Burney, and as implied by the customs of still extant barbarous races, the first musical instruments were, without doubt, percussive — sticks, calabashes, tom-toms — and were used simply to mark the time of the dance ; and in this constant repetition of the same sound, we see music in its most homogeneous form. The Egyptians had a lyre with three strings. The early lyre of the Greeks had four, constituting their tetra- chord. In course of some centuries lyres of seven and eight strings were employed. And, by the expiration of a thousand years, they had advanced to their " great system '' of the double octave. Through all which changes there of •course arose a greater heterogeneity of melody. Simulta.- neously there came into use the different modes — Dorian, EVOLUTION OF MUSIO AND POETRY. 27 Ionian, Phrygian, JEolian, and Lydian — answeriLg to onr keys ; and of these there were ultimately fifteen. As yet, however, there was but little heterogeneity in the time of their music. Instrumental music during this period being merely the accompaniment of vocal music, and vocal music being com- pletely subordinated to words, the singer being also the poet, chanting his own compositions and making the lengths of his notes agree with the feet of his verses, — there unavoidably arose a tiresome uniformity of measure, which, as Dr. Bur- neysays, "no resources of melody could disguise." Lacking the complex rhythm obtained by our equal bars and unequal notes the only rhythm was that produced by the quantity of the syllables and was of necessity comparatively monotonous. And further, it may be observed that the chant thus result- ing, being like recitative, was much less clearly differen- tiated from ordinary speech than is our modem song. Nevertheless, in virtue of the extended range of notes in use, the variety of modes, the occasional variations of time consequent on changes of metre, and the multiplica- tion of instruments, music had, towards the close of Greek civilization, attained to considerable heterogeneity — not indeed as compared with our music, but as compared with that which preceded it. As yet, however, there existed nothing but melody ; harmony was unknown. It was not until Christian church-music had reached some development, that music in parts was evolved; and then it came into existence through a very unobtrusive differentiation. Diffi- cult as it may be to conceive a priori how the advance from melody to harmony could take place without a sud- den leap, it is none the less true that it did so. The circumstance which prepared the way for it was the em- ployment of two choirs singing alternately the same air. Afterwards it became the practice — very possibly first suggested by a mistake — for tlie second choir to com- 28 TEoaEEss: its law and cause. mence before the first had ceased; thus producmg fugue. With the simple airs then in use, a partially harmo nious fugue might not improbably thus result : and a very partially harmonious fugue satisfied the ears of that age, as we know from still preserved examples. The idea hav- ing once been given, the composing of airs productive of fugal harmony would naturally grow up ; as in some way it did grow up out of this alternate choir-singing. And from the fugue to concerted music of two, three, four, and more parts, the transition was easy. Without pointing out in detail the increasing complexity that resulted from introducing notes of various lengths, from the multiplica- tion of keys, from the use of accidentals, from varieties of time, and so forth, il needs but to contrast music as it is, with music as it was, to see how immense is the increase of heterogeneity. We see this if, looking at music in its ensemble^ we enumerate its many different genera and species — if we consider the divisions into vocal, instrumen- tal, and mixed; and their subdivisions into music for differ- ent voices and different instruments — if we observe the many forms of sacred music, from the simple hymn, the chant, the canon, motet, anthem, &c., up to the oratorio ; and the still more numerous forms of secular music, from the ballad up to the serenata, from the instrumental solo up to the symphony. Again, the same truth is seen on comparing any one sample of aboriginal music with a sample of modern music —even an ordinary song for the piano ; which we find to be relatively highly heterogeneous, not only in respect of the varieties in the pitch and in the length of the notes, the number of different notes sounding at the same instant in company with the voice, and the variations of strength with which they are sounded and sung, but in respect of the changes of key, the changes of time, the changes of EVOLUTION OF LITEEATUKE. 2Q timbre of the voice, and the many other modifications of expression. While between the old monotonous dance- chant and a grand opera of our own day, with its endless orchestral complexities and vocal combinations, the con- trast in heterogeneity is so extreme that it seems scarcely credible that the one should have been the ancestor of the other. Were they needed, many further illustrations might be cited. Going back to the early time when the deeds of the god-king, chanted and mimetically represented in dances round his altar, were further narrated in picture- writings on the walls of temples and palaces, and so con- stituted a rude literature, we might trace the development of Literature through phases in which, as in the Hebrew Scriptures, it presents in one work theology, cosmogony, history, biography, civil law, ethics, poetry ; through other phases in which, as in the Iliad, the religious, martial, his- torical, the epic, dramatic, and lyric elements are similarly commingled ; down to its present heterogeneous develop- ment, in which its divisions and subdivisions are so numer- ous and varied as to defy complete classification. Or we might trace out the evolution of Science ; beginning with the era in which it was not yet differentiated from Art, and was, in union with Art, the handmaid of Religion ; pass- ing through the era in which the sciences were so few and rudimentary, as to be simultaneously cultivated by the same j)hilosophers ; and ending with the era in which the genera and species are so numerous that few can enumerate them, and no one can adequately grasp even one genus. Or we might do the like with Architecture, with the Drama, with Dress. But doubtless the reader is already weary of illustra- tions ; and our promise has been amply fulfilled. We believe we have shown beyond question, that that which the German physiologists have found to be the law of 30 PHOGRESS: ITS 1.AW AND CAUSE. organic development, is the law of all development. The advance from the simple to the complex, through a process of successive differentiations, is seen alike in the earliest changes of the Universe to which we can reason our way back; and in the earhest changes which we can induc- tively establish ; it is seen in the geologic and climatic evolution of the Earth, and of every single organism on its surface ; it is seen in the evolution of Humanity, whether contemplated in the civilized individual, or in the aggre- gation of races ; it is seen in the evolution of Society in respect alike of its political, its religious, and its economi- cal organization ; and it is seen in the evolution of all those endless concrete and abstract products of human activity which constitute the environment of our daily life. From the remotest past which Science can fathom, up to the novelties of yesterday, that in which Progress essen- tially consists, is the transformation of the homogeneous into the heterogeneous. And now, from this uniformity of procedure, may we not infer some fundamental necessity whence it results ? May we not rationally seek for some all-pervading princi- ple which determines this all-pervading process of things ? Does not the universality of the law imply a universal cause f That we can fathom such cause, noumenally considered, is not to be supposed. To do this would be to solve that ultimate mystery which must ever transcend human intelli- gence. But it still may be possible for us to reduce the law of all Progress, above established, from the condition of an empirical generalization, to the condition of a ra- tional generalization. Just as it was possible to interpret Kepler's laws as necessary consequences of the law of gravi- tation ; so it may be possible to interpret this law of Pro- gress, in its multiform manifestations, as the necessary con- NECESSARY NATURE OF THE CAUSE. 31 sequence of some similarly universal principle. As gravi- tation was assignable as the cause of each of the groups of phenomena which Kepler formulated ; so may some equally simple attribute of things be assignable as the cause of each of the grouj^s of phenomena formulated in the foregoing pages. We may be able to affiliate all these varied and complex evolutions of the homogeneous into the heteroge- neous, upon certain simple facts of immediate experi- ence, which, in virtue of endless repetition, we regard as necessary. The probability of a common cause, and the possibility of formulating it, being granted, it will be well, before going further, to consider what must be the general characteristics of such cause, and in what direction we ought to look for it. We can with certainty predict that it has a high degree of generality ; seeing that it is com- mon to such infinitely varied phenomena: just in propor- tion to the universality of its application must be the abstractness of its character. We need not expect to see in it an obvious solution of this or that form of Progress ; because it equally refers to forms of Progress bearing little apparent resemblance to them : its association with multi- form orders of facts, involves its dissociation from any par- ticular order of facts. Being that which determines Pro- gress of every kind — astronomic, geologic, organic, ethnolo- gic, social, economic, artistic, &c. — it must be concerned with some fundamental attribute possessed in common by these ; and must be expressible in terms of this fundamen- tal attribute. The only obvious respect in which all kinds of Progress are alike, is, that they are modes of change y and hence, in some characteristic of changes in general, the de- sired solution will probably be found. We may suspect a priori that in some law of change lies the explanation of this universal transformation of the homogeneous into the heterogeneous. 82 PEOGEESs: rrs law and cause. Thus much premised, we pass at once to the statement of the law, which is this : — Every active force produces more than one change — every cause produces more than one effect. Before this law can be duly comprehended, a few exam- ples must be looked at. When one body is struck against another, that which we .usually regard as the effect, is a change of position or motion in one or both bodies. But a moment's thought shows us that this is a careless and very incomplete view of the matter. Besides the visible mechanical result, sound is produced ; or, to speak accurate- ly, a vibration in one or both bodies, and in the surround- ing air : and under some circumstances we call this the ef- fect. Moreover, the air has not only been made to vibrate, but has had sundry currents caused in it by the transit of the bodies. Further, there is a disarrangement of the par- ticles of the two bodies in the neighbourhood of their point ^of collision ; amounting in some cases to a visible conden- sation. Yet more, this condensation is accompanied by the disengagement of heat. In some cases a spark — ^that is, light — results, from the incandescence of a portion struck off; and sometimes this incandescence is associated vrith chemical combination. Thus, by the original mechanical force expended in the collision, at least five, and often more, different kinds of changes have been produced. Take, again, the lighting of a candle. Primarily this is a chemicaF change consequent on a rise of temperature. The process of combination having once been set going by extraneous heat, there is a continued formation of carbonic acid, water, &c. — in itself a result more complex than the extraneous heat that first caused it. But accompanying this process of combination there is a jDroduction of heat ; there is a production of light ; there is an ascending column of hot gases generated ; there are currents established in the surrounding air. Moreover MTJLTirLICATION OF EFFECTS. 33 the decomposition of one force into many forces docs not end here : each of the several changes produced becomes tlie parent of further changes. The carbonic acid given off will by and by combine with some base ; or under the influence of sunshine give up its carbon to the leaf of a plant. The water will modify the hygrometric state of the air around ; or, if the current of hot gases containing it come against a cold body, will be condensed : altering the temperature, and perhaps the chemical state, of the surface it covers. The heat given out melts the subjacent tallow, and expands whatever it warms. The light, falling on vari- ous substances, calls forth from them reactions by which it is modified ; and so divers colours are produced. Similarly even with these secondary actions, which may be traced out into ever-multiplying ramifications, until they become too minute to be appreciated. And thus it is with all changes whatever. No case can be named in which an active force does not evolve forces of several kinds, and each of these, other groups offerees. Universally the effect is more com- plex than the cause. Doubtless the reader already foresees the course of our argument. This multiplication of results, which is displayed in every event of to-day, has been going on from the begin- ning ; and is true of the grandest phenomena of the uni- verse as of the most insignificant. From the law that every active force produces more than one change, it is an inevit- able corollary that through all time there has been an ever- growing complication of things. Starting with the ultimate fact that every cause produces more than one effect, we may readily see that throughout creation there must have gone on, and must still go on, a never-ceasing transformation of the homogeneous into the heterogeneous. But let us trace out this truth in detail.* * A correlative truth which ought also to be taken into account (that the state of homogeneity is one of unstable equilibrium), but \^hich it 2* 3i PEOGEESS: ITS LAW AND CAUSE. Without committing ourselves to it as more than a speC' ulation, though a highly probable one, let us again com- mence with the evolution of the solar system out of a ne- bulous medium.* From the mutual attraction of the atoms of a diffused mass whose form is unsymmetrical, there re- sults not only condensation but rotation : gravitation simul- taneously generates both the centripetal and the centrifugal forces. While the condensation and the rate of rotation are progressively increasing, the approach of the atoms ne- cessarily generates a progressively increasing temperature. As this temperature rises, light begins to be evolved ; and ultimately there results a revolving sphere of fluid matter radiating intense heat and light — a sun. There are good reasons for believing that, in consequence of the high tangential velocity, and consequent centrifugal force, acquired by the outer parts of the condensing nebu- lous mass, there must be a periodical detachment of rota- ting rings ; and that, from the breaking up of these nebu- lous rings, there must arise masses which in the course of their condensation repeat the actions of the parent mass, and so produce planets and their satellites — an inference strongly supported by the still extant rings of Saturn, Should it hereafter be satisfactorily shown that planets and satellites were thus generated, a striking illustration will be afforded of the highly heterogeneous effects pro- duced by the primary homogeneous cause ; but it will serve our present purpose to point to the fact that from the would greatly encumber the argument to exemplify in connection with the above, will be found developed in the essay on Transcendental Physio- * The idea that the Nebular Hypothesis has been disproved because what were thought to be existing nebulas have been resolved into clusters of stars is almost beneath notice. A priori it was highly improbable, if not impossible, that nebulous masses should still remain uncondensed, while others have been condensed millions of years ago. EFFECTS OF THE EAKTu's INCAJSTDESCENCE. 35 mutual attraction of the particles of an irregular nebulous mass there result condensation, rotation, lieat, and light. It follows as a corollary from the N'cbular Hypothesis, that the Earth must at first have been incandescent ; and whether the Nebular Hypothesis be true or not, this origi nal incandescence of the Earth is now inductively established — or, if not established, at least rendered so highly pro- bable that it is a generally admitted geological doctrine. Let us look first at the astronomical attributes of this once molten orlobe. From its rotation there result the oblate- O ness of its form, the alternations of day and night, and (un- der the influence of the moon) the tides, aqueous and at- mospheric. From the inclination of its axis, there result the precession of the equinoxes and the many diiferences of the seasons, both simultaneous and successive, that pervade its surface. Thus the multiplication of effects is obvious. Several of the differentiations due to the gradual cooling of the Earth have been already noticed — as the formation of a crust, the solidification of sublimed elements, the pre- cipitation of water, &c., — and we here again refer to them merely to point out that they are simultaneous effects of the one cause, diminishing heat. Let us now, however, observe the multiplied changes afterwards arising from the continuance of this one cause. The cooling of the Earth involves its contraction. Hence the solid crust first formed is presently too large for the shrink- ing nucleus ; and as it cannot support itself, inevitably follows the nucleus. But a spheroidal envelope cannot sink down into contact with a smaller internal spheroid, without disrup- tion ; it must run into wrinkles as the rind of an apple does when the bulk of its interior decreases from evaporation. As the cooling progresses and the envelope thickens, the ridges consequent on these contractions must become greater, rising ultimately into hills and mountains ; and the later systems of mountains thus produced must not only be 36 PEOGEESS : ITS LAW AUD CAUSE. higher, as we find them to be, but they must be longer, as we also find them to be. Thus, leaving out of view other modifying forces, we see what immense heterogeneity of surface has arisen from the one cause, loss of heat — a heto- rogeneity which the telescope shows us to be paralleled on the face of the moon, where aqueous and atmosi)herio agencies have been absent. But we have yet to notice another kind of heterogeneity of surface similarly and simultaneously caused. While the Earth's crust was still thin, the ridges produced by its con- traction must not only have been small, but the spaces be- tween these ridges must have rested with great evenness upon the subjacent liquid spheroid ; and the water in those arctic and antarctic regions in which it first condensed, must have been evenly distributed. But as fast as the crust grew thicker and gained corresponding strength, the lines of fracture from time to time caused in it, must have occurred at greater distances apart ; the intermediate surfaces must nave followed the contracting nucleus with less uniformity ; and there must have resulted larger areas of land and wa- ter. If any one, after wrapping up an orange in wet tissue paper, and observing not only how small are the wrinkles, but how evenly the intervening spaces lie upon the surface of the orange, will then wrap it up in thick cartridge-paper, and note both the greater height of the ridges and the much larger spaces throughout which the paper does not touch the orange, he will realize the fact, that as the Earth's solid envelope grew thicker, the areas of elevation and de- pression must have become greater. In place of islands more or less homogeneously scattered over an all-embra- cing sea, there must have gradually arisen heterogeneous arrangements of continent and ocean, such as we now know. Once more, this double change in the extent and in the elevation of the lands, involved yet another species of he- terogeneity, that of coast-line. A tolerably even surface CHANGES PKODITCED BY AIR AND WATER. 37 raised out of the ocean, must have a simple, regular sea- margin ; but a surface varied by table- lands and intersected hj mountain-chains must, when raised out of the ocean, have an outline extremely irregular both in its leading features and in its details. Thus endless is the accumula- tiou of geological and geographical results slowly brought about by this one cause — the contraction of the Earth. When we pass from the agency which geologists term Igneous, to aqueous and atmospheric agencies, we see the like ever-growing complications of effects. The denuding actions of air and water have, from the beginning, been modifying every exposed surface ; everywhere causing many different changes. Oxidation, heat, wind, frost, rain, glaciers, rivers, tides, waves, have been unceasingly producing disintegration ; varying in kind and amount ac- cording to local circumstances. Acting upon a tract of granite, they here work scarcely an appreciable effect ; there cause exfoliations of the surface, and a resulting heap of debris and boulders ; and elsewhere, after decomposing the feldspar into a white clay, carry away this and the ac- companying quartz and mica, and deposite them in separate beds, fluviatile and marine. When the exposed land con- sists of several unlike formations, sedimentary and igneous, the denudation produces changes proportionably more he- terogeneous. The formations being disintegrable in different degrees, there follows an increased irregularity of surface. The areas drained by different rivers being differently con- stituted, these rivers carry down to the sea different com- binations of ingredients; and so sundry new strata of distinct composition are formed. And here indeed we may see very simply illustrated, the truth, which we shall presently have to trace out in more involved cases, that in proportion to the heterogeneity of the object or objects on which any force expends itself, is the heterogeneity of the results. A continent of com 38 PEOGUESS : ITS LAW ANB CAUSE. plex structure, exposing many strata irregularly distributed, raised to various levels, tilted up at all angles, must, undei the same denuding agencies, give origin to immensely mul- tiplied results ; each district must be differently modified ; each river must carry down a different kind of detritus ; each deposit must be differently distributed by the en- tangled currents, tidal and other, which wash the con* torted shores; and this multiplication of results must manifestly be greatest where the complexity of the surface is greatest. It is out of the question here to trace in detail the genesis of those endless complications described by Geology and Physical Geography : else we might show how the general truth, that every active force produces more than one change, is exemplified in the highly involved flow of the tides, in the ocean currents, in the winds, in the distribu- tion of rain, in the distribution of heat, and so forth. But not to dwell upon these, let us, for the fuller elucidation of this truth in relation to the inorganic world, consider what would be the consequences of some extensive cos- mical revolution — say the subsidence of Central America. The immediate results of the disturbance would them- selves be sufficiently complex. Besides the numberless dislocations of strata, the ejections of igneous matter, the propagation of earthquake vibrations thousands of miles around, the loud explosions, and the escape of gases ; there would be the rush of the Atlantic and Pacific Oceans to supply the vacant space, the subsequent recoil of enormous waves, which would traverse both these oceans and produce myriads of changes along their shores, the corresponding atmospheric waves complicated by the currents surrounding each volcanic vent, and the electrical discharges with which such disturbances are accompanied. But these temporary effects would be insignificant compared with the permanent or.es. The complex currents of the Atlantic and Pacific EFFECrrS OF A SUBSIDENCE OF THE LAND. 39 would be altered in direction and amount. The distribu- tion of heat achieved by these ocean currents would bo different from what it is. The arrangement of the isother- mal lines, not even on the neighbouring continents, but even throughout Europe, would be changed. The tides would flow differently from what they do now. There would be more or less modification of the wdnds in their periods, strengths, directions, qualities. Rain would fall scarcely anywhere at the same times and in the same quan- tities as at present. In short, the meteorological conditions thousands of miles off, on all sides, would be more or less revolutionized. Thus, without taking into account the infinitude of modifications which these changes of climate would pro- duce upon the flora and fauna, both of land and sea, the reader will see the immense heterogeneity of the results wrought out by one force, when that force expends itself upon a previously complicated area ; and he will readily draw the corollary that from the beginning the complica- tion has advanced at an increasino^ rate. Before going on to show how organic progress also depends upon the universal law that every force produces more than one change, we have to notice the manifestation of this law in yet another species of inorganic progress — namely, chemical. The same general causes that have wrought out the heterogeneity of the Earth, physically considered, have simultaneously wrought out its chemical heterogeneity. Without dwelling upon the general fact that the forces which have been increasing the variety and complexity of geological formations, have, at the same time, been bringing into contact elements not previously exposed to each other under conditions favourable to union, and so have been adding to the number of chemical com- pounds, let us pass to the more important complications that have resulted from the coolins: of the Earth. iO PEOGEESS: ITS LAW AKD CAUSE. There is every reason to believe that at an extreme heat the elements cannot combine. Even under such heat as can be artificially produced, some very strong affinities yield, as for instance, that of oxygen for hydrogen; and the great majority of chemical compounds are decomposed at much lower temperatures. But without insisting upon the highly probable inference, that when the Earth was in its first state of incandescence there were no chemical com- binations at all, it will suffice our purpose to point to the unquestionable fact that the compounds that can exist at the highest temperatures, and which must, therefore, have been the first that were formed as the Earth cooled, are those of the simplest constitutions. The protoxides — ^in- cluding under that head the alkalies, earths, &c. — are, as a class, the most stable compounds we know : most of them resisting decomposition by any heat we can generate. These, consisting severally of one atom of each component lelement, are combinations of the simplest order— are but one degree less homogeneous than the elements themselves. More heterogeneous than these, less stable, and therefore later in the Earth's history, are the deutoxides, tritoxides, peroxides, &c. ; in which two, three, four, or more atoms of oxygen are united with one atom of metal or other ele- ment. Higher than these in heterogeneity are the hydrates ; in which an oxide of hydrogen, united with an oxide of some other element, forms a substance whose atoms sever- ally contain at least four ultimate atoms of three different kinds. Yet more heterogeneous and less stable still are the salts ; which present us with compound atoms each made up of five, six, seven, eight, ten, twelve, or more atoms, of three, if not more, kinds. Then there are the hydrated salts, of a yet greater heterogeneity, which un- dergo partial decomposition at much lower temperatures. After them come the further-complicated supersalts and double sails, having a stability again decreased ; and so CUEMICAL EFFECTS OF DECREASING HEAT. 41 tlirougliout. Without entering into qualifications for which we lack space, we believe no chemist will deny it to be a general law of these inorganic combinations that, other things equals the stability decreases as the complexify increases. And then when we pass to the compounds of organio chemistry, we find this general law still further exemplified : we find much greater complexity and much less stability. An atom of albumen, for instance, consists of 482 ultimate atoms of five different kinds. Fibrine, still more intricate in constitution, contains in each atom, 298 atoms of carbon, 40 of nitrogen, 2 of sulphur, 228 of hydrogen, and 92 of oxygen — in all, 660 atoms ; or, more strictly speaking — equivalents. And these two substances are so unstable as to decompose at quite ordinary temperatures; as that to which the outside of a joint of roast meat is exposed. Thus it is manifest that the present chemical heterogene- ity of the Earth's surface has arisen by degrees, as the de- crease of heat has permitted ; and that it has shoAvn itself in three forms — first, in the multiplication of chemical com- pounds; second, in the greater number of different ele- ments contained in the more modern of these compounds : and third, in the higher and more varied multiples in which these more numerous elements combine. To say that this advance in chemical heterogeneity is due to the one cause, diminution of the Earth's tempera- ture, w^ould be to say too much ; for it is clear that aque- ous and atmospheric agencies have been concerned ; and, further, that the affinities of the elements themselves are implied. The cause has all along been a composite one : the cooling of the Earth having been simply the most gen- eral of the concurrent causes, or assemblage of conditions. And here, indeed, it may be remarked that in the several classes of facts already dealt with (excepting, perhaps, the first), and still more in those with which we shall presently i2 PKOGKEss: rrs law ai^d caitse. deal, the causes are more or less compound ; as indeed are nearly all causes with which we are acquainted. Scarcely any change can with logical accuracy be wholly ascribed to one agency, to the neglect of the permanent or temporary conditions under which only this agency produces the change. But as it does not materially affect our argument, we prefer, for simplicity's sake, to use throughout the popu- lar mode of expression. Perhaps it mil be further objected, that to assign loss of heat as the cause of any changes, is to attribute these changes not to a force, but to the absence of a force. And this is true. Strictly speaking, the changes should be at- tributed to those forces which come into action when the antagonist force is withdrawn. But though there is an in- accuracy in saying that the freezing of water is due to the loss of its heat, no practical error arises from it ; nor will a parallel laxity of expression vitiate our statements respect- ing the multiplication of effects. Indeed, the objection serves but to draw attention to the fact, that not only does the exertion of a force produce more than one change, but the withdrawal of a force produces more than one change. And this suggests that perhaps the most correct statement of our general principle would be its most abstract state- ment — every change is followed by more than one othci change. Returning to the thread of our exposition, we have next to trace out, in organic progress, this sanie all-pervading principle. And here, where the evolution of the homoge- neous into the heterogeneous was first observed, the produc- tion of many changes by one cause is least easy to demon- strate. The development of a seed into a plant, or an ovum into an animal, is so gradual, while the forces which determine it are so involved, and at the same time so unob- trusive, that it is difiicult to detect the multiplication of effects which is elsewhere so obvious. Nevertheless, guided h^ MULTirLIED OKGAinC EFFECTS. 43 indirect evidence, we may pretty safely reach the conchi- sion that here too the law holds. Observe, first, how numerous are the effects which any marked change works upon an adult organism — a human being, for instance. An alarming sound or sight, besides the impressions on the organs of sense and the nerves, may produce a start, a scream, a distortion of the face, a tremb- ling consequent upon a general muscular relaxation, a burst of perspiration, an excited action of the heart, a rush of blood to the brain, followed possibly by arrest of the heart's action and by syncope: and if the system be feeble, an indisposition with its long train of complicated symptoms may set m. Similarly in cases of disease. A minute portion of the small-pox virus introduced into the system, will, in a severe case, cause, during the first stage, rigors, heat of skin, accelerated pulse, furred tongue, loss of appetite, thirst, epigastric uneasiness, vomiting, headache, pains in the back and limbs, muscular weakness, convulsions, delirium, t&c. ; in the second stage, cutaneous eruption, itching, tingling, sore throat, swelled fauces, salivation, cough, hoarseness, dyspnoea, &c. ; and in the third stage, (Edematous inflammations, pneumonia, pleuri- sy, diarrhoea, inflammation of the brain, ophthalmia, erysipe- las, &c. : each of which enumerated symptoms is itself more or less complex. Medicines, special foods, better air, might in like manner be instanced as producing multiplied results. Now it needs only to consider that the many changes thus wrought by one force upon an adult organism, will be in part paralleled in an embryo organism, to understand how here also, the evolution of the homogeneous into the heterogeneous may be due to the production of many effects by one cause. The external heat and other agen- cies which determine the first complications of the germ, may, by acting upon these, superinduce further complica- tions ; upon these still higher and more numerous ones ; 44 PEOGEESS: ITS LAW AND CAFSE. and so on continually : each organ as it is developed ser- ving, by its actions and reactions upon the rest, to initiate new complexities. The first pulsations of the foetal heart must simultaneously aid the unfolding of every part. The growth of each tissue, by taking from the blood special proportions of elements, must modify the constitution of the blood ; and so must modify the nutrition of all the other tissues. The heart's action, implying as it does a cer- tain waste, necessitates an addition to the blood of effete matters, which must influence the rest of the system, and perhaps, as some think, cause the formation of excretory organs. The nervous connections established among the viscera must further multiply their mutual influences : and so continually. Still stronger becomes the probability of this view when we call to mind the fact, that the same germ may be evolved into different forms according to circumstances. •Thus, during its earlier stages, every embryo is sexless — becomes either male or female as the balance of forces act- ing upon it determines. Again, it is a well-established fact that the larva of a working-bee will develop into a queen- bee, if, before it is too late, its food be changed to that on which the larvse of queen-bees are fed. Even more remark- able is the case of certain entozoa. The ovum of a tape- worm, getting into its natural habitat, the intestine, unfolds into the well-known form of its parent ; but if carried, as it frequently is, into other parts of the system, it becomes a sac-like creature, called by naturalists the JEcJiinococcus — a creature so extremely different from the tape- worm in aspect and structure, that only after careful investigations has it been proved to have the same origin. All which instances imply that each advance in embryonic complica- tion results from the action of incident forces upon the complication previously existing. Indeed, wo may find d, priori reason to think that the MULTITLIED ORGANIC EFI'ECTfi. 45 evolution proceeds after this manner. For since it is now known that no germ, animal or vegetable, contains tho slightest rudiment, trace, or indication of the future organ- ism — now that the microscope has shown us that the first process set up in every fertilized germ, is a process of re- peated spontaneons fissions ending in the production of a mass of cells, not one of which exhibits any special charac- ter : there seems no alternative but to suppose that the partial organization at any moment subsisting in a growing embryo, is transformed by the agencies acting upon it into the succeeding phase of organization, and this into the next, until, through ever-increasing complexities, the ulti- mate form is reached. Thus, though the subtilty of the forces and the slowness of the results, prevent us from directly showing that the stages of increasing heterogeneity through which every embryo passes, severally arise from the production of many changes by one force, yet, indi- rectly^ we have strong evidence that they do so. We have marked how multitudinous are the efiTects which one cause may generate in an adult organism ; that a like multiplication of effects must happen in the unfold- ing organism, we have observed in sundry illustrative cases ; further, it has been pointed out that the ability which like germs have to originate unlike forms, implies that the successive transformations result from the new chani^es superinduced on previous changes ; and we have seen that structureless as every germ originally is, the development of an organism out of it is otherwise incomprehensible. Not indeed that we can thus really explain the production of any plant or animal. "We are still in the dark respect- ing those mysterious properties in virtue of which the germ, when subject to fit influences, undergoes the special chanijes that biesfin the series of transformations. All wo aim to show, is, that given a germ possessing these myste- rious properties, the evolution of an organism from it. 4:0 PEOGEESS: ITS LAW ANB CAUSE. probably depends upon that multiplication of effects which we have seen to be the cause of progress in general, so far as we have yet traced it. When, leaving the development of single plants and animals, we pass to that of the Earth's flora and fauna, the course of our argument again becomes clear and simple. Though, as was admitted in the first part of this article, the fragmentary facts Palaeontology has accumulated, do not clearly warrant us in saying that, in the lapse of geo- logic time, there have been evolved more heterogeneous organisms, and more heterogeneous assemblages of organ- isms, yet we shall now see that there must ever have been a tendency towards these results. We shall find that the production of many effects by one cause, which, as already shown, has been all along increasing the physical hetero- geneity of the Earthy has farther involved an increasing heterogeneity in its flora and fauna, individually and col- lectively. An illustration will make this clear. Suppose that by a series of upheavals, occurring, as they are now known to do, at long intervals, the East In- dian Archipelago were to be, step by step, raised into a continent, and a chain of mountains formed along the axis of elevation. By the first of these upheavals, the plants and animals inhabiting Borneo, Sumatra, I^ew Guinea, and the rest, would be subjected to slightly modified sets of conditions. The climate in general would be altered in temperature, in humidity, and in its periodical variations ; while the local differences would be multiplied. These modifications would affect, perhaps inappreciably, the entire flora and fauna of the region. The change of level would produce additional modifications : varying in different spe- cies, and also in different members of the same species, according to their distance from the axis of elevation. Plants, growing only on the sea-shore in special localities, might become extinct. Others, living only in swamps of a CHANGES OF THE EAETh's FLORA AND FAUNA. 47 certain humidity, would, if they survived at all, probably uiidergo visible changes of appearance. While still greater alterations would occur in the plants gradually spreading over the lands newly raised above the sea. The animals and insects living on these modified plants, would them- selves be in some degree modified by change of food, as well as by change of climate ; and the modification would be more marked where, from the dwindling or disappear- ance of one kind of plant, an allied kind was eaten. In the lapse of the many generations arising before the next up- heaval, the sensible or insensible alterations thus produced in each species would become organized — there would be a more or less complete adaptation to the new conditions. The next upheaval w^ould superinduce further organic changes, implying wider divergences from the primary forms ; and so repeatedly. But now let it be observed that the revolution thus resulting would not be a substitution of a thousand more or less modified species for the thousand original species ; but in place of the thousand original species there Vfould arise several thousand species, or varieties, or changed forms. Each species being distributed over an area of some extent, and tending continually to colonize the new area exposed, its difierent members would be subject to different sets of changes. Plants and animals spreading towards the equator would not be affected in the same way with others spreading from it. Those spreading towards the new shores would undergo changes unlike the changes undergone by those spreading into the mountains. Thus, each original race of organisms, would become the root from which diverged several races differing more or less from it and from each other ; and while some of these might subsequently disappear, probably more than one would survive in the next geologic period : the very disper- eion itself increasing the chances of survival. Not only 4:8 progress: its law and cause. would there be certain modifications tlius caused by change of physical conditions and food, but also in some cases other modifications caused by change of habit. The fauna of each island, peopling, step by step, the newly-raised tracts, would eventually come in contact with the faunas of other islands ; and some members of these other faunas would be unlike any creatures before seen* Herbivores meeting with new beasts of prey, would, in some cases, be led into modes of defence or escape difiering from those previously used ; and simultaneously the beasts of prey would modify their modes of pursuit and attack. We know that when circumstances demand it, such changes of habit do take place in animals ; and we know that if the new habits become the dominant ones, they must eventually in some degree alter the organization. Observe, now, however, a further consequence. There must arise not simply a tendency towards the differentia- tion of each race of organisms into several races ; but also a tendency to the occasional production of a somewhat higher organism. Taken in the mass these divergent varie- ties which have been caused by fresh physical conditions and habits of life, will exhibit changes quite indefinite in kind and degree ; and changes that do not necessarily con- stitute an advance. Probably in most cases the modified type will be neither more nor less heterogeneous than the original one. In some cases the habits of life adopted being simpler than before, a less heterogeneous structure will result : there will be a retrogradation. But it must now and then occur, that some division of a species, falling into circumstances which give it rather more complex expe- riences, and demand actions somewhat more involved, will have certain of its organs further differentiated in propor- tionately small degrees, — will become slightly more hetero- geneous. Thus, in the natural course of thhigs, there will from INCKEASING DIVERGENCE OF THE ANIMAL EACE8. 4:9 time to time arise an increased heterogeneity both of the Earth's flora and fauna, and of individual races included in them. Omitting detailed explanations, and allowing for the qualifications which cannot here be specified, we think it is clear that geological mutations have all along tended to complicate the forms of life, whether regarded sepa- rately or collectively. The same causes which have led to the evolution of the Earth's crust fi*om the simple into the complex, have simultaneously led to a parallel evolution of the Life upon its surface. In this case, as in previous ones, we see that the transformation of the homogeneous into the heterogeneous is consequent upon the universal princi- ple, that every active force produces more than one change. The deduction here drawn from the established truths of geology and the general laws of life, gains immensely in weight on finding it to be in harmony with an induction dra-\vn from direct experience. Just that divergence of many races from one race, which we inferred must have been continually occurring during geologic time, we know to have occurred during the pre-historic and historic jdc- riods, in man and domestic animals. And just that multi- plication of effects which we concluded must have pro- duced the first, we see has produced the last. Single causes, as famine, pressure of population, war, have period- ically led to further dispersions of mankind and of depend- ent creatures : each such dispersion initiating new modifi cations, new varieties of type. Whether all the human races be or be not derived from one stock, philology makes it clear that whole groups of races now easily distinguisha- ble from each other, were originally one race, — that the diffusion of one race into different climates and conditions of existence, has produced many modified forms of it. Similarly with domestic animals. Though in some cases — as that of dogs — community of origin will perhaps be disputed, yet in other cases — as that of the sheep or the 3 60 PKOGEESS: ITS LAW AND CAUSE. cattle of our own country — it will not be questioned that local differences of climate, food, and treatment, have trans- formed one original breed into numerous breeds now be- come so far distinct as to produce unstable hybrids. More- over, through the complications of effects flowing from single causes, we here find, what we before inferred, not only an increase of general heterogeneity, biit also of spe- cial heterogeneity. While of the divergent divisions and subdivisions of the human race, many have undergone changes not constituting an advance ; while in some the type may have degraded ; in others it has become decidedly more heterogeneous. The civilized European departs more widely from the vertebrate archetype than does the savage. Thus, both the law and the cause of progress, which, from lack of evidence, can be but hypothetically substantiated in respect of the earlier forms of life on our globe, can bo actually substantiated in respect of the latest forms. If the advance of Man towards greater heterogeneity is traceable to the production of many effects by one canse, still more clearly may the advance of Society towards greater heterogeneity be so explained. Consider the growth of an industrial organization. When, as must oc- casionally happen, some individual of a tribe displays un- usual aptitude for making an article of general use — a weapon, for instance — which was before made by each man for himself, there arises a tendency towards the differentia- tion of that individual into a maker of such weapon. His companions — warriors and hunters all of them, — severally feel the importance of having the best weapons that can be made ; and are therefore certain to offer strong induce- ments to this skilled individual to make weapons for them. He, on the other hand, having not only an unusual faculty, but an unusual liking, for making such weapons (the talent and the desire for any occupation being commonly associa- ted), is predisposed to fuliil these commissions on the offer SOCIAL DIFFEBENTIATIONS. 61 of an adequate reward : especially as his love of distinction is also gratified. This first specfalization of function, once commenced, tends ever to become more decided. On the side of the weapon-maker continued practice gives increased skill — increased superiority to his products : on the side of his clients, cessation of practice entails decreased skill. Thus the influences that determine this division of labour grow stronger in both ways ; and the incipient heterogene- ity is, on the average of cases, likely to become permanent for that generation, if no longer. Observe now, however, that this process not only dif- ferentiates the social mass into two parts, the one monopo- lizing, or almost monopolizing, the performance of a certain function, and the other having lost the habit, and in some measure the power, of performing that function ; but it tends to imitate other differentiations. The advance we have described, implies the introduction of barter, — the maker of weapons has, on each occasion, to be paid in such other articles as he agrees to take in exchange. But he will not habitually take in exchange one kind of article, but many kinds. He does not vrant mats only, or skins, or fishing gear, but he wants all these ; and on each occasion will bargain for the particular things he most needs. What follows ? If among the members of the tribe there exist any slight differences of skill in the manufacture of these various things, as there are almost sure to do, the weapon- maker will take from each one the thins: which that one ex- eels in making : he will exchange for mats with him whose mats are superior, and will bargain for the fishing gear of whoever has the best. But he who has bartered away his mats or his fishing gear, must make other mats or fishing gear for himself; and in so doing must, in some degree, further develop his aptitude. Thus it results that the small speciahties of faculty possessed by various members of the tribe, will tend to grow more decided. If such 52 PEOGEEss: ns law and cause. transactions are from time repeated, these special izationg may become appreciable." And whether or not there en- sue distinct differentiations of other individuals into makers of particular articles, it is clear that incipient differentiations take place throughout the tribe : the one original c^uso produces not only the first dual effect, but a number cf secondary dual effects, like in kind, but minor in degree. This process, of which traces may be seen among groups of schoolboys, cannot well produce any lasting effects in an unsettled tribe ; but where there grows up a fixed and multiplying community, these differentiations become per- manent, and increase with each generation. A larger popu- lation, involving a greater demand for every commodity, intensifies the functional activity of each specialized person or class ; and this renders the specialization more definite where it already exists, and establishes it where it is nascent. By increasing the pressure on the means of subsistence, a larger population again augments these results ; seeing that each person is forced more and more to confine him- self to that which he can do best, and by which he can gain most. This industrial progress, by aiding future produc- tion, opens the way for a further growth of population, which reacts as before : in all which the multiplication of effects is manifest. Presently, under these same stimuli, new occupations arise. Competing workers, ever aiming to produce improved articles, occasionally discover better processes or raw materials. In weapons and cutting tools, the substitution of bronze for stone entails upon him who first makes it a great increase of demand — so great an in- crease that he presently finds all his time occupied in making the bronze for the articles he sells, and is obliged to depute the fashioning of these to others : and, eventually, the making of bronze, thus gradually differentiated from a pre- existing occupation, becomes an occupation by itself. But now mark the ramified changes which follow this MULTIPLICATION OF INDUSTRIAL EFFECTS. 53 change. Bronze soon replaces stone, not only in the arti- cles it was first used for, but in many others — in arms, tools, and utensils of various kinds ; and so affects the manufac- ture of these things. Further, it affects the processes which these utensils subserve, and the resulting products — modifies buildings, carvings, dress, personal decorations Yet again, it sets going sundry manufactures which were before impossible, from lack of a material fit for the requi- site tools. And all these changes react on the people — in- crease their manipulative skill, their intelligence, their com- fort, — refine their habits and tastes. Thus the evolution of a homogeneous society into a heterogeneous one, is clearly consequent on the general princii)le, that many effects are produced by one cause. Our limits will not allow us to follow out this process in its higher complications : else might we show how the lo- calization of special industries in special parts of a king- dom, as well as the minute subdivision of labour in the making of each commodity, are similarly determined. Or, turning to a somewhat different order of illustrations, we might dwell on the multitudinous changes — material, intel- lectual, moral, — caused by printing ; or the further exten- sive series of changes wrought by gunpowder. But leaving the intermediate phases of social development, let us take a few illustrations from its most recent and its passing pha- ses. To trace the effects of steam-power, in its manifold applications to mining, navigation, and manufactures of all kinds, would carry us into unm^mageable detail. Let us confine ourselves to the latest embodiment of steam-power — the locomotive engine. This, as the proximate cause of our railway system, has changed the face of the country, the course of trade, and the habits of the people. Consider, first, the complicated Bets of changes that precede the making of every railway— the provisional arrangements, the meetings, the registra" 54 PEOGKESS: ITS LAW AND CAUSE. tion, the trial section, the parliamentary survey, the litho graphed plans, the books of reference, the local deposits and notices, the application to Parliament, the passing Standing- Orders Committee, the first, second, and third readings : each of which brief heads indicates a multiplicity of transac- tions, and the development of sundry occupations — as those of engineers, surveyors, lithographers, parliamentary agents, share-brokers ; and the creation of sundry others — as those of traffic-takers, reference-takers. Consider, next, the yet more marked changes implied in railway construction — the cuttings, embankings, tunnellings, diversions of roads ; the building of bridges and stations ; the laying down of bal- last, sleepers, and rails; the making of engines, tenders, carriages and waggons : which processes, acting upon nu- merous trades, increase the importation of timber, the quarrying of stone, the manufacture of iron, the mining of coal, the burning of bricks : institute a variety of special manufactures weekly advertised in the Railway Times ^ and, finally, open the way to sundry new occupations, as those of drivers, stokers, cleaners, plate-layers, &c., &c. And then consider the changes, more numerous and in- volved still, which railways in action produce on the com- munity at large. The organization of every business is more or less modified : ease of communication makes it bet- ter to do directly what was before done by proxy ; agencies are established where previously they would not have paid ; goods are obtained from remote wholesale houses instead of near retail ones ; and commodities are used which dis- tance once rendered inaccessible. Again, the rapidity and small cost of carriage tend to specialize more than ever the industries of different districts — to confine each manufac- ture to the parts in which, from local advantages, it can be best carried on. Further, the diminished cost of carriage, facilitating distribution, equalizes prices, and also, on the average, lowers prices : thus bringing divers articles within EFFECTS OF THE LOCOMOTIVE ENGINE. 55 the means of those before unable to buy them, and so in- creasing their comforts and improving their habits. At tlie same time the practice of travelling is immensely extended. Classes who never before thought of it, take annual tripa to the sea ; visit their distant relations ; make tours ; and so we are benefited in body, feelings, and intellect. More- over, the more prompt transmission of letters and of news produces further changes — makes the pulse of the nation faster. Yet more, there arises a wide dissemination of cheap literature through railway book-stalls, and of advertise- ments in railway carriages : both of them aiding ulterior progress. And all the innumerable changes here briefly indicated are consequent on the invention of the locomotive engine. The social organism has been rendered more heterogeneous in vii'tue of the many new occupations introduced, and the many old ones farther specialized ; prices in every place have been altered ; each trader has, more or less, modified his way of doing business ; and almost every person has been afiected in his actions, thoughts, emotions. Illustrations to the same efiect might be indefinitely ac- cumulated. That every influence brought to bear upon so- ciety works multiplied effects ; and that increase of hetero- geneity is due to this multiplication of effects ; may be seen in the history of every trade, every custom, every belief. But it is needless to give additional evidence of this. The only further fact demanding notice, is, that we here see still more clearly than ever, the truth before pointed out, that in proportion as the area on which any force expends itself becomes heterogeneous, the results are in a yet higher de- gree multiplied in number and kind. While among the primitive tribes to whom it was first known, caoutchouc caused but a few changes, among ourselves the changes have \)een so many and varied that the history of them oo- 56 PEOGEESS: ITS LAW Al^D CAUSE. cupies a volume.* Upon the small, homogeneous commu nity inhabiting one of the Hebrides, the electric telegraph would produce, were it used, scarcely any results ; but in England the results it produces are multitudinous. The comparatively simple organization under which our ances- tors lived five centuries ago, could have undergone but few modifications from an event like the recent one at Canton ; but now the legislative decision respecting it sets up many hundreds of complex modifications, each of which will be the parent of numerous future ones. Sj^ace permitting, we could willingly have pursued the argument in relation to all the subtler results of civilization. As before, we showed that the law of Progress to which the organic and inorganic worlds conform, is also conformed to by Language, Sculpture, Music, &c. ; so might we here show that the cause which we have hitherto found to de- termine Progress holds in these cases also. We might demonstrate in detail how, in Science, an advance of one • division presently advances other divisions — ^how Astron- omy has been immensely forwarded by discoveries in Op- tics, while other optical discoveries have initiated Micro- scopic Anatomy, and greatly aided the growth of Physiol- ogy — how Chemistry has indirectly increased our knowl- edge of Electricity, Magnetism, Biology, Geology — how Electricity has reacted on Chemistry and Magnetism, de- veloped our views of Light and Heat, and disclosed sundry laws of nervous action. In Literature the same truth might be exhibited in the manifold eflfects of the primitive mystery-play, not only as originating the modern drama, but as afiecting through it other kinds of poetry and fiction ; or in the still multiply- ing forms of periodical literature that have descended from the first newspaper, and which have severally acted and * " Personal Narrative of the Origin of the Caoutchouc, or India-Rub ber Manufacture in England." By Thomas Hancock. VAST APPLICABILITY OF THE PKINCIPLE. 57 reacted on other forms of literature and on each other. The influence which a new school of Painting — as that of the pre-Raflfaelites — exercises upon other schools ; the hints which all kinds of pictorial art are deriving from Photo- graphy ; the complex results of new critical doctrines, as those of Mr. Ruskin, might severally be dwelt upon as displaying the like multiplication of effects. But it would needlessly tax the reader's patience to pursue, in their many ramifications, these various changes : here become so involved and subtle as to be followed with some difii- culty. "Without further evidence, we venture to think our case is made out. The imperfections of statement which brevity has necessitated, do not, we believe, mihtate against the propositions laid down. The qualifications here and there demanded would not, if made, affect the inferences. Though in one instance, where sufficient evidence is not attainable, we have been unable to show that the law of Progress applies; yet there is high probability that the same generahzation holds which holds throughout the rest of creation. Though, in tracing the genesis of Progress, we have frequently spoken of complex causes as if they were simple ones ; it still remains true that such causes are far less complex than their results. Detailed criticisms can- not affect our main position. Endless facts go to show that every kind of progress is from the homogeneous to the heterogeneous ; and that it is so because each change is followed by many changes. And it is significant that where the facts are most accessible and abundant, there are these truths most manifest. However, to avoid committing ourselves to more than IS yet proved, we must be content with saying that such are the law and the cause of all progress that is known to us. Should the Nebular Hypothesis ever be established, then it wil- become manifest that the Universe at large, 3* 58 PBOGEESS : ITS LAW AND CAUSE. like every organism, was once homogeneous ; that as a whole, and in every detail, it has unceasingly advanced towards greater heterogeneity ; and that its heterogeneity is still increasing. It will be seen that as in each event of to-day, so from the beginning, the decomposition of every expended force into several forces has been perpetually producing a higher complication ; that the increase of heterogeneity so brought about is still going on, and must continue to go on ; and that thus Progress is not an acci- dent, not a thing within human control, but a beneficent necessity. A few words must be added on the ontological bear- ings of our argument. Probably not a few will conclude that here is an attempted solution of the great questions with which Philosophy in all ages has perplexed itself Let none thus deceive themselves. Only such as know not the scope and the limits of Science can fall into so grave an error. The foregoing generalizations apply, not to the genesis of things in themselves, but to their genesis as manifested to the human consciousness. After all that has been said, the ultimate mystery remains just as it was. The explanation of that which is explicable, does but bring out into greater clearness the inexplicableness of that which remains behind. However we may succeed in re- ducing the equation to its lowest terms, we are not thereby enabled to determine the unknown quantity : on the con- trary, it only becomes more manifest that the unknown quantity can never be found. Little as it seems to do so, fearless inquiry tends con- tinually to give a firmer basis to all true Religion. The timid sectarian, alarmed at the progress of knowledge, obliged to abandon one by one the superstitions of his ancestors, and daily finding his cherished beliefs more and more shaken, secretly fears that all things may some day NECESSARY LIMITS OF INVESTIGATION. 59 bo explained ; and has a corresponding dread of Science : thus evincing the profoundest of all infidelity — the fear lest the truth be bad. On the other hand, the sincere man of science, content to follow wherever the evidence leads him, becomes by each new inquiry more profoundly convinced that the Universe is an insoluble problem. Alike in the external and the internal worlds, he sees himself in the midst of perpetual changes, of which he can discover neither the beginning nor the end. If, tracing back the evolution of things, he allows himself to entertain the hypothesis that all matter once existed in a diffused form, he finds it utterly impossible to conceive how this came to be so ; and equally, if he speculates on the future, he can assign no limit to the grand succession of phenomena ever unfolding themselves before him. On the other hand, if he looks inward, he perceives that both terminations of the thread of consciousness are beyond his grasp : he can- not remember when or how consciousness commenced, and he cannot examine the consciousness that at any mo- ment exists; for only a state of consciousness that is already past can become the object of thought, and never one which is passing. When, again, he turns from the succession of phenom- ena, external or internal, to their essential nature, he is equally at fault. Though he may succeed in resolving all properties of objects into manifestations of force, he is not thereby enabled to realize what force is ; but finds, on the contrary, that the more he thinks about it, the more he is baffled. Similarly, though analysis of mental actions may finally bring him down to sensations as the original ma- terials out of which all thought is woven, he is none the forwarder ; for he cannot in the least comprehend sensa- tion — cannot even conceive how sensation is possible. In- ward and outward things he thus discovers to be alike inscrutable in their ultimate genesis and nature. He sees 60 PEOGEESS : ITS LAW AND CAUSE. that the Materialist and Spiritualist controversy is a mere war of words ; the disputants being equally absurd — each beheving he understands that which it is impossible for any man to understand. In all directions his investigations eventually bring him face to face with the unknowable ; and he ever more clearly perceives it to be the unknowable. He learns at once the greatness and the littleness of human intellect — ^its power in dealing with all that comes within the range of experience ; its impotence in dealing with all that transcends experience. He feels, with a vividness which no others can, the utter incomprehensibleness of the simplest fact, considered in itself He alone truly sees that absolute knowledge is impossible. He alone knows that under all things there lies an impenetrable mystery. II. MANNERS AND FASHION. "T"YT"HOEVER has studied the physiognomy of political V V meetings, cannot fail to have remarked a connection between democratic opinions and peculiarities of costume. At a Chartist demonstration, a lecture on Socialism, or a soirSe of the Friends of Italy, there tvill be seen many among the audience, and a still larger ratio among the speakers, who get themselves up in a style more or less unusual. One gentleman on the platform divides his hair down the centre, instead of on one side ; another brushes it back off the forehead, in the fashion known as " bringing out the intellect ; '' a third has so long forsworn the scis- sors, that his locks sweep his shoulders. A considerable sprinkling of moustaches may be observed ; here and th^re an imperial ; and occasionally some courageous breaker of conventions exhibits a full-grown beard,^ This noncon- formity in hair is countenanced by various nonconformities in dress, shown by others of the assemblage. Bare necks, shirt-collars d la Byron, waistcoats cut Quaker fashion, wonderfully shaggy great coats, numerous oddities in form and colour, destroy the monotony usual in crowds. Ever those exhibiting no conspicuous peculiarity, frequently in * This was written before moustaches and beards had become common. 62 MANNEES AND FASHION. dicate by something in the pattern or make-up of their clothes, that they pay small regard to what their tailors tell them about the prevailing taste. And when the" gathering breaks np, the varieties of head gear displayed — the number of caps, and the abundance of felt hats — suffice to prove that were the world at large like-minded, the black cylinders which tyrannize over us would soon be deposed. The foreign correspondence of our daily press shows that this relationship between political discontent and the disregard of customs exists on the Continent also. Red republicanism has always been distinguished by its hirsute- ness. The authorities of Prussia, Austria, and Italy, alike recognize certain forms of hat as indicative of disaffection, and fulminate against them accordingly. In some places the wearer of a blouse runs a risk of being classed among the suspects^ and in others, he who would avoid the bureau of police, must beware how he goes out in any but the ordinary colours. Thus, democracy abroad, as at home, tends towards personal singularity. Isov is this association of characteristics peculiar to modern times, or to reformers of the State. It has always existed ; and it has been manifested as much in religions agitations as in political ones. Along with dissent from the chief established opinions and arrangements, there has ever been some dissent from the customary social practices. The Puritans, disapproving of the long curls of the Cava- liers, as of their principles, cut their own hair short, and so gained the name of " Roundheads." The marked religious nonconformity of the Quakers was accompanied by an equally-marked nonconformity of manners — in attire, in speech, in salutation. The early Moravians not only believed differently, but at the same time dressed dif- ferently, and lived differently, from their fellow Christians. That the association between political independence EELATION BETWEEN IDEAS AND COSTUMES. 63 and independence of personal conduct, is not a phenome- non of to-day only, we may see alike in the appearance ot Franklin at the French court in plain clothes, and in the white hats worn by the last generation of radicals. Origi- nality of nature is sure to show itself in more ways than one. The mention of George Fox's suit of leather, or Pestalozzi's school name, "Harry Oddity," will at once suggest the remembrance that men who have in great things diverged from the beaten track, have frequently done so in small things Hkewise. Minor illustrations of this truth may be gathered in almost every circle. "We believe that whoever will number up his reforming and rationalist acquaintances, will find among them more than the usual proportion of those who in dress or behaviour exhibit some degree of what the world calls eccentricity. K it be a fact that men of revolutionary aims in politics or religion, are commonly revolutionists in custom also, it is not less a fact that those whose office it is to uphold established arrangements in State and Church, are also those who most adhere to the social forms and obser- vances bequeathed to us by past generations. Practices elsewhere extinct still linger about the headquarters of government. The monarch still gives assent to Acts of Parliament in the old French of the Normans ; and Nor- man French terms are still used in law. Wigs, such as those we see depicted in old portraits, may yet be found on the heads of judges and barristers. The Beefeaters at the Tower wear the costume of Henry YHth's body- guard. The University dress of the present year varies but little from that worn soon after the Reformation. The claret-coloured coat, knee-breeches, lace shirt frills, ruffles, white silk stockings, and buckled shoes, which once formed the usual attire of a gentleman, still survive as the court-dress. And it need scarcely be said that at levees and drawing-rooms, the ceremonies are prescribed 64 MANNERS AND FASHION. with an exactness, and enforced with a rigour, not else where to be found. Can we consider these two series of coincidences as accidental and unmeaning ? Must we not rather conclude that some necessary relationship obtains between them ? Are. there not such things as a constitutional conservatism, and a constitutional tendency to change? Is there not a class which clings to the old in all things ; and another class so in love with progress as often to mistake novelty for improvement ? Do we not find some men ready to bow to established authority of whatever kind ; while others demand of every such authority its reason, and reject it if it fails to justify itself? And must not the minds thus contrasted tend to become respectively con- formist and nonconformist, not only in politics and religion, but in other things? Submission, whether to a govern- ment, to the dogmas of ecclesiastics, or to that code of behaviour which society at large has set up, is essentially of the same nature ; and the sentiment which induces resistance to the despotism of rulers, civil or spiritual, like- wise induces resistance to the despotism of the world's opinion. Look at them fundamentally, and all enactments, alike of the legislature, the consistory, and the saloon — all regulations, formal or virtual, have a common character : they are all limitations of men's freedom. " Do this — Refrain from that," are the blank formulas into which they may all be written : and in each case the understanding is that obedience will bring approbation here and paradise hereafter ; while disobedience will entail imprisonment, or sending to Coventry, or eternal torments, as the case may be. And if restraints, however named, and through what- ever apparatus of means exercised, are one in their action upon men, it must happen that those who are patient under one kind of restraint, are likely to be patient under another; and conversely, that those impatient of restraint in general, OEIGIN OF LAW, RELIGION, AND MANNERS. 65 will, on the average, tend to shpw their impatience in all directions. That Law, Religion, and Manners are thus related — that their respective kinds of operation come under one generalization — that they have in certain contrasted charac- teristics of men a common support and a common danger ■ — will, however, be most clearly seen on discovering that they have a common origin. Little as from present ap- pearances we should suppose it, we shall yet find that at first, the control of religion, the control of laws, and the control of manners, were all one control. However in- credible it may now seem, we believe it to be demonstrable that the rules of etiquette, the provisions of the statute- book, and the commands of the decalogue, have grown from the same root. If we go far enough back into the ages of primeval Fetishism, it becomes manifest that originally Deity, Chief, and Master of the ceremonies were identical. To make good these positions, and to show their bearing on what is to follow, it will be necessary here to traverse ground that is in part somewhat beaten, and at first sight irrelevant to our topic. We will pass over it as quickly as consists with the exigencies of the argument. That the earliest social aggregations were ruled solely by the will of the strong man, few dispute. That from the strong man proceeded not only Monarchy, but the concep- tion of a God, few admit : much as Carlyle and others have said in evidence of it. If, however, those who are unable to believe this, will lay aside the ideas of God and man in which they have been educated, and study the aboriginal deas of them, they will at least see some probability in the hypothesis. Let them remember that before experl ence had yet taught men to distinguish between the possi- ble and the impossible ; and while they were ready on the 66 MAKNEES AND FASHION. slightest suggestion to ascribe unknown powers to any ob ject and make a fetish of it ; their conceptions of human- ity and its capacities were necessarily vague, and without specific limits. The man who by unusual strength, or cun ning, achieved something that others had failed to achieve, or something which they did not understand, was considered by them as differing from themselves ; and, as we see in the belief of some Polynesians that only their chiefs have souls, or in that of "the ancient Peruvians that their nobles were di- vine by birth, the ascribed difference was apt to be not one of degree only, but one of kind. Let them remember next, how gross were the notions of God, or rather of gods, prevalent during the same era and afterwards — how concretely gods were conceived as men of specific aspects dressed in specific ways — how their names were literally " the strong," " the destroyer," " the powerful one," — how, according to the Scandinavian my- thology, the "sacred duty of blood-revenge" was acted dh by the gods themselves, — and how they were not only human in their vindictiveness, their cruelty, and their quarrels with each other, but were supposed to have amours on earth, and to consume the viands placed on their altars. Add to which, that in various mythologies, Greek, Scandi- navian, and others, the oldest beings are giants ; that ac- cording to a traditional genealogy the gods, demi-gods, and in some cases men, are descended from these after the human fashion ; and that while in the East we hear of sons of God who saw the daughters of men that they were fair, the Teutonic myths tell of unions between the sons of men and the daughters of the gods. Let them remember, too, that at first the idea of death differed widely from that which we have ; that there are still tribes who, on the decease of one of their number, at- tempt to make the corpse stand, and put food into his mouth ; that the Peruvians had feasts at which the mummies of their PKIMITIVE RELIGIOUS IDEAS. G7 dead Incas presided, when, as Prescott says, they paid atten- tion " to these insensible remains as if they were instinct with life ; " that among the Fejees it is believed that every enemy has to be killed twice ; that the Eastern Pagans give exten- sion and figure to the soul, and attribute to it all the same sub- stances, both solid and liquid, of which our bodies are compos- ed ; and that it is the custom among most barbarous races to bury food, weapons, and trinkets along with the dead body, under the manifest belief that it will presently need them. Lastly, let them remember that the other world, as ori- ginally conceived, is simply some distant part of this world — some Elysian fields, some happy hunting-ground, accessi- ble even to the living, and to which, after death, men travel in anticipation of a life analogous in general charac- ter to that which they led before. Then, co-ordinating these general facts — ^the ascription of unknown powers to chiefs and medicine men; the belief in deities having human forms, passions, and behaviour ; the imperfect comprehen- sion of death as distinguished from life ; and the proximity of the future abode to the present, both in position and character — let them reflect whether they do not almost un- avoidably suggest the conclusion that the aboriginal god is the dead clnef : the chief not dead in our sense, but gone away carrying with him food and weapons to some rumoured region of plenty, some promised land, whither he had long intended to lead his followers, and whence he will presently return to fetch them. This hypothesis once entertained, is seen to harmonize with all primitive ideas and practices. The sons of the dei- fied chief reigning after him, it necessarily happens that all early kings are held descendants of the gods ; and the fact that alike in Assyria, Egypt, among the Jews, Phoenicians, and ancient Britons, kings' names were formed out of the names of the gods, is fully explained. The genesis of Poly- theism out of Fetishism, by the successive migrations of 68 MANNEES AND FASHION. the race of god-kings to the other world — a genesis illus* trated in the Greek mythology, alike by the precise gene- alogy of the deities, and by the specifically asserted apothe- osis of the later ones — ^tends further to bear it out. It ex- plains the fact that in the old creeds, as in the still extant creed of the Otabeitans, every family has its guardian spirit, who is supposed to be one of their departed rela- tives ; and that they sacrifice to these as minor gods — a practice still pursued by the Chinese and even by the Rus- sians. It is perfectly congruous with the Grecian myths concerning the wars of the Gods with the Titans and their final usurpation ; and it similarly agrees with the fact that among the Teutonic gods proper was one Freir who came among them by adoption, "but was born among the Vanes, a. somewhat mysterious other dynasty of gods, who had been conquered and superseded by the stronger and more warlike Odin dynasty." It harmonizes, too, with the belief that there are different gods to different territories and nations, as there were different chiefs ; that these gods contend for supremacy as chiefs do; and it gives meaning to the boast of neighbour- ing tribes — "Our god is greater than your god." It is con- firmed by the notion universally current in early times, that the gods come from this other abode, in which they common- ly live, and appear among men — speak to them, help them, punish them. And remembering this, it becomes manifest that the prayers put up by primitive peoples to their gods for aid in battle, are meant literally — that their gods are expect- ed to come back from the other kingdom they are reigning over, and once more fight the old enemies they had before warred against so implacably ; and it needs but to name the Iliad, to remind every one how thoroughly they believed the expectation fulfilled. All government, then, being originally that of the strong man who has become a fetish by some manifestation ol superiority, there arises, at his death — his supposed depar- SEPARATION OF CIVIL FROM RELIGIOUS AUTHORITY. 69 ture on a long projected expedition, in which he is accom- panied by his slaves and concubines sacrificed at his tomb — there arises, then, the incipient division of religious from political control, of civil rule from spiritual. His son be- comes deputed chief during his absence ; his authority is cited as that by which his son acts; his vengeance is invok- ed on all who disobey his son ; and his commands, as pre- viously known or as asserted by his son, become the germ of a moral code : a fact we shall the more clearly perceive if we remember, that early moral codes inculcate mainly the virtues of the warrior, and the duty of exterminating some neifflibourino: tribe whose existence is an ofience to the deity. From this point onwards, these two kinds of authority, at first complicated together as those of principal and agent, become slowly more and more distinct. As experience ac- cumulates, and ideas of causation grow more precise, kings lose their supernatural attributes ; and, instead of God- king, become God-descended king, God-appointed king^ the Lord's anointed, the vicegerent of heaven, ruler reign- ing by Divine right. The old theory, however, long clings to men in feeling, after it has disappeared in name ; and *' such divinity doth hedge a king," that even now, many, on first seing one, feel a secret surprise at finding him an ordinary sample of humanity. The sacredness attaching to royalty attaches afterwards to its appended institutions — to legislatures, to laws. Legal and illegal are synony- mous with right and wrong ; the authority of Parliament is held unlimited ; and a lingering faith in governmental power continually generates unfounded hopes from its en- actments. Political scepticism, however, having destroyed the divine prestige of royalty, goes on ever increasing, and promises ultimately to reduce the State to a purely secular institution, whose regulations are limited in their sphere, and have no other authority than the general will, •. 70 MANNERS AND FASHION. Meanwhile, the religious control has been little by little separating itself from the civil, both in its essence and in its forms. While from the God-king of the savage have arisen in one direction, secular rulers who, age by age, have been losing the sacred attributes men ascribed to them ; there has arisen in another direction, the conception of a deity, who, at first human in all things, has been grad- ually losing human materiality, human form, human passions, human modes of action : until now, anthropomorphism has become a reproach. Along with this wide divergence in men's ideas of the divine and civil ruler has been taking place a corresponding divergence in the codes of conduct respectively proceeding from them. While the king was a deputy-god — a governor such as the Jews looked for in the Messiah — a governor considered, as the Czar still is, " our God upon Earth," — it, of course, followed that his commands were the supreme rules. But as men ceased to believe in his supernatural origin and nature, his commands ceased to be the highest ; and there arose a distinction between the regulations made by him, and the regulations handed do^vn from the old god-kings, who were rendered ever more sacred by time and the accumulation of myths. Hence came respectively. Law and Morality : the one growing ever more concrete, the other more abstract ; the authority of the one ever on the decrease, that of the other ever on the increase ; origi- nally the same, but now placed daily in more marked an- tagonism. Simultaneously there has been going on a separation of the institutions administering these two codes of conduct. While they w^ere yet one, of course Church and State were one ] the king was arch-priest, not nominally, but really — alike the giver of new commands and the chief interpreter of the old commands ; and the deputy-priests coming out of his family were thus simply expounders of the dictates BEPARATION OF CnUKCH AND STATE. Yl of their ancestry : at first as recollected, and afterwards as ascei-tained by professed interviews with them. This union — which still existed practically during the middle ages, when the authority of kings w^as mixed up with the author- ity of the pope, when there were bishop-rulers having all the powers of feudal lords, and when priests punished by penances — ^has been, step by step, becoming less close. Thousrh monarchs are still " defenders of the faith," and ecclesiastical chiefs, they are but nominally such. Though bishops still have civil power, it is not what they once had. Protestantism shook loose the bonds of union ; Dissent has long been busy in organizing a mechanism for the exercise of religious control, wholly independent of law ; in America, a separate organization for that purpose already exists ; and if anything is to be hoped from the Anti-State-Church Association — or, as it has been newly named, " The Society for the Liberation of Religion from State Patronage and Control " — we shall presently have a sei^arate organization here also.' Thus alike in authority, in essence, and in form, politi- cal and spiritual rule have been ever more widely diverging from the same root. That increasing division of labour which marks the progress of society in other things, marks it also in this separation of government into civil and reli- gious; and if we observe how the morality which forms the substance of religions in general, is beginning to be puri- fied from the associated creeds, w^e may anticipate that this division will be ultimately carried much further. Passing now to the third species of control — that of Manners — we shall find that this, too, w^hile it had a com- mon genesis with the others, has gradually come to have a distinct sphere and a special embodiment. Among early aggregations of men before yet social observances existed, the sole forms of courtesy known were the signs of sub- mis,sion to the strong man ; as the sole law w^as his will, 72 MANNERS AND FASHION. and the sole religion the awe of his supposed snpernatural- ness. Originally, ceremonies wfere modes of behaviour to the god-king. Our commonest titles have been derived from his names. And all salutations were primarily wor- ship paid to him. Let us trace out these truths in detail, beginning with titles. The fact already noticed, that the names of early kings among divers races are formed . by the addition of certain syllables to the names of their gods— which certain sylla- bles, like our Mhc and JF^itz, probably mean " son of," or "descended from" — at once gives meaning to the term father as a divine title. And when we read, in Selden, that " the composition out of these names of Deities was not only proper to Kings : their Grandes and more honora- ble Subjects" (no doubt members of the royal race) " had sometimes the like ; " we see how the term Father ^ prop- erly used by these also, and by,their multiplying descend- •ants, came to be a title used by the people in general. And it is significant as bearing on this point, that among the most barbarous nation in Europe, where belief in the di- vine nature of the ruler still lingers, Father in this higher sense is still a regal distinction. When, again, we remem- ber how the divinity at first ascribed to kings was not a complimentary fiction but a supposed fact ; and how, fur- ther, under the Fetish philosophy the celestial bodies are believed to be personages who once lived among men ; we see that the appellations of oriental rulers, *' Brother to the Sun," &c., were probably once expressive of a genuine be- lief; and have simply, like many other things, continued in use after all meaning has gone out of them. We may infer, too, that the titles God, Lord, Divinity, were given to primitive rulers literally — that the nostra divinitas ap- plied to the Roman emperors, and the various sacred des ignations that have been borne by monarchs, down to the Btill extant phrase, '• Our Lord the King," are the dead and DERIVATION OF HONORAIiY TITLES. T3 dviuc: forms of what were once livincr facts. From these names, God, Father, Lord, Divinity, originally belonging to the God-king, and afterwards to God and the king, the derivation of our commonest titles of respect is clearly traceable. There is reason to think that these titles were originally proper names. Not only do we see among the Egyptians, where Pharaoh was synonymous with king, and among the Romans, where to be Caesar, meant to be Emperor, that the proper names of the greatest men w^ere transferred to their successors, and so became class names ; but in the Scandinavian mythology we may trace a human title of honour up to the proper name of a divine personage. In Anglo-Saxon healdor^ or haldor^ means Lord ; and Balder is the name of the favourite of Odin's sons — the gods who with him constitute the Teutonic Pantheon. How these names of honour became general is easily understood. The relatives of the primitive kings — the grandees de- scribed by Selden as having names formed on those of the gods, and shown by this to be members of the divine race — ^necessarily shared in the epithets, such as Lord^ descrip- tive of superhuman relationships and nature. Their ever- multiplying offspring inheriting these, gradually rendered them comparatively common. And then they came to be applied to every man of power : partly from the fact that, in these early days when men conceived divinity simply as a stronger kind of humanity, great persons could be called by divine epithets with but little exaggeration ; partly from the fact that the unusually potent were apt to be consid- ered as unrecosrnized or illeo:itimate descendants of " the strong, the destroyer, the powerful one ;" and partly, also, fvom compliment and the desire to propitiate. Progressively as superstition diminished, this last be- came the sole cause. And if we remember that it is the nature of compliment, as we daily hear it, to attribute 4 74 MANNERS AND FASHION. more tkau is due — that in the constantly widening applica- tion of " esquire," in the perpetual repetition of " your honour" by the fawning Irishman, and in the use of the name " gentleman" to any coalheaver or dustman by the lower classes of London, we have current examples of the depreciation of titles consequent on compliment — and that in barbarous times, when the wish to propitiate was stronger than now, this effect must have been greater ; we shall see that there naturally arose an extensive misuse of all early distinctions. Hence the facts, that the Jews called Herod a god ; that Father^ in its higher sense, was a term used among them by servants to masters ; that Lord was appli- cable to any person of worth and power. Hence, too, the fact that, in the later periods of the Koman Empire, every man saluted his neighbour as Dominus and ^ex. But it is in the titles of the middle ages, and in the growth of our modern ones out of them, that the, process is most clearly seen. Herr^ JDon^ /Signior, Seigneur^ Seoi- nor^ were all originally names of rulers — of feudal lords. By the complimentary use of these names to all who could, on any pretence, be supposed to merit them, and by suc- cessive degradations of them from each step in the descent to a still lower one, they have come to be common forms of address. At first the phrase in which a serf acosted his despotic chief, mein herr is now familiarly applied in Ger- many to ordinary people. The Spanish title Z^o^i, once proper to noblemen and gentlemen only, is now accorded to all classes. So, too, is it with Sigoiior in Italy. Seigneur, and Monseigneur, by contraction in Sieur and Monsieur , Imve produced the term of respect claimed by every Frenchman. And whether Sire be or be not a like con- traction of Signior, it is clear that, as it was borne by sun- dry of the ancient feudal lords of France, who, as Selden says, " affected rather to bee stiled by the name of Sire than Baron, as Xe Sire de Montmorencie, JLe Sire de DEPEECIAllON OF nONOEATJY TITLES. T5 Bcauieu, and the like," and as it has been commonly used to monarchs, our word Sir, which is derived from it, ori- ginally meant lord or king. Thus, too, is it with feminine titles. Lady^ which, according to Home Tooke, means ecc- alted^ and was at first given only to the few, is now given to all women of education. Dame, once an honourable name to which, in old books, we find the epithets of " high- born " and " stately " afiixed, has now, by repeated widen- ings'of its application, become relatively a term of contempt. And if we trace the compound of this, ma Dame, through its contractions — Madam, ma^am, mam, mum, we find that the " Yes'm " of Sally to her mistress is originally equiva- lent to "Yes, my exalted," or "Yes, your highness." Throughout, therefore, the genesis of words of honour has been the same. Just as with the Jews and with the Ro- mans, has it been with the modern Europeans. Tracing these everyday names to their primitive significations of lord and king, and remembering that in aboriginal societies these were applied only to the gods and their descendants, we arrive at the conclusion that our familiar Sir and 3fo7i- sieur are, in their primary and expanded meanings, terms of adoration. Further to illustrate this gradual depreciation of titles, and to confirm the inference drawn, it may be well to no- tice in passing, that the oldest of them have, as might be expected, been depreciated to the greatest extent. Thus, Master — a word j^roved by its derivation and by the simi- larity of the connate words in other languages (Fr., maitre for master ; liuss., master ; Dan., m,eester j Ger., meister) to have been one of the earliest in use for expressing lordship — has now become applicable to children only, and under the modification of " Mister," to persons next above the labourer. Again, knighthood, the oldest kind of dignity, is also the lowest ; and Knight Bachelor, which IS the lowest order of knighthood, is more ancient than 76 MANNERS AND I'ASHION. any other of the orders. Similarly, too, with the peerage Baron is alike the earliest and least elevated of its divi« sions. This continual degradation of all names of honor has, from time to time, made it requisite to introduce new ones having that distinguishing effect which the originals had lost by generality of use ; just as our habit of misapplying superlatives has, by gradually destroying their force, entail- ed the need for fresh ones. And if, within the last thousand years, this process has produced effects thus marked, we may readily conceive how, during previous thousands, the titles of gods and demi-gods came to be used to all persons exercising power ; as they have since come to be used to persons of respectability. If from names of honour we turn to phrases of honour, we find similar facts. The Oriental styles of address, ap- plied to ordinary people — " I am your slave," " All I have is yours," " I am your sacrifice " — attribute to the individual ^spoken to the same greatness that Monsieur and My Lord do: they ascribe to him the character of an all-powerful ruler, so immeasurably superior to the speaker as to be his owner. So, likewise, with the Polish expressions of respect — "I throw myself under your feet," "I kiss your feet." In our now meaningless subscription to a formal letter — " Your most obedient servant," — the same thing is visible. Nay, even in the familiar signature " Yours faithfully," the " yours," if interpreted as originally meant, is the expres- sion of a slave to his master. All these dead forms were once living embodiments of fact — were primarily the genuine in,dications of that submis- sion to authority which they verbally assert ; were after- wards naturally used by the weak and cowardly to pro- pitiate those above them ; gradually grew to be considered the due of such ; and, by a continually wider misuse, have lost their meanings, as Sir and Master have done. That, like titles, they were in the beginning used only to the ORIGIN OF PHRASES OF HONOUR. 77 God-king, is indicated by the fact that, like titles, they were subsequently used in common to God and the king. Re- ligious worship has ever largely consisted of professions of obedience, of being God's servants, of belonging to him to do what he will with. Like titles, therefore, these common phrases of honour had a devotional origin. Perhaps, however, it is in the use of the word you as a singular pronoun that the popularizing of what were once supreme distinctions is most markedly illustrated. Thi? speaking of a single individual in the plural, was origi Dally an honour given only to the highest — was the recipro- cal of the imperial " we " assumed by such. Yet now, by being applied to successively lower and lower classes, it has become all but universal. Only by one sect of Chris- tians, and in a few secluded districts, is the primitive thou still used. And the yoii^ in becoming common to all ranks has simultaneously lost every vestige of the honour once attachiuG: to it. But the genesis of Manners out of forms of allegianc( and worship, is above all shown in men's modes of salutation. ISTote first the significance of the word. Among the Komans, the salutatio was a daily homage paid by clients and infe- riors to superiors. This was alike the case with civilians and in the army. The very derivation of our word, there- fore, is suggestive of submission. Passing to particular forms of obeisance (mark the word again), let us begin with the Eastern one of baring the feet. This was, primarily, a mark of reverence, alike to a god and a king. The act of Moses before the burning bush, and the practice of Mahom- etans, who are sworn on the Koran with their shoes ofiT, ex- emplify the one emplojTnent of it ; the custom of the Per- sians, who remove their shoes on entering the presence of their monarch, exemplifies the other. As usual, however, this homage, paid next to inferior rulers, has descended fi'ora grade to grade. In India, it is a common mark of 78 MANNERS AND FASHION respect ; a polite man in Turkey always leaves bis shoes at the door, while the lower orders of Turks never enter the presence of their superiors but in their stockings; and in Japan, this baring of the feet is an ordinary salutation of man to man. Take another case. Selden, describing the ceremonies of the Romans, says : — " For whereas it was usual either to kiss the Images of their Gods, or adoring them, to stand somewhat off before them, solemnly moving the right hand to the lips, and then, casting it as if they had cast kisses, to turne the body on the same hand (which was the right forme of Adoration), it grew also by custom, first that the emperors, being next to Deities, and by some accounted as Deities, had the like done to them in acknowledorment of their Greatness." If, now, we call to mind the awkward salute of a village school-boy, made by putting his open hand up to his face and describing a semicircle with his forearm ; •and if we remember that the salute thus used as a form of reverence in country districts, is most likely a remnant of the feudal times ; we shall see reason for thinking that our common wave of the hand to a friend across the street, re- presents what was primarily a devotional act. Similarly have originated all forms of respect depend- ing upon inclinations of the body. Entire prostration is the aboriginal sign of submission. The passage of Scrip- ture, " Thou hast put all under his feet," and that other one, BO suggestive in its anthropomorphism, "The Lord said unto my Lord, sit thou at my right hand, until I make thine enemies thy footstool," imply, what the Assyrian sculptures fully bear out, that it was the practice of the ancient god- kings of the East to trample upon the conquered. And when we bear in mind that there are existing savages who signify submission by placing the neck under the foot of the person submitted to, it becomes obvious that all prostration, especially when accompanied by kissing the HOW FOEMS OF SALUTATION HAVE OKICmATED. 79 'u jt, expressed a willingness to be trodden upon — was an at* tempt to mitigate wi'atli by saying, in signs, " Tread on me if you will." Remembering, further, that kissing the foot, as of the Pope and of a saint's statue, still continues id Europe to be a mark of extreme reverence ; that prostra tion to feudal lords was once general ; and that its dis appearance must have taken place, not abruptly, but by gradual modification into something else ; we have ground for deriving from these deepest of humiliations all inclina- tions of respect ; especially as the transition is traceable. The reverence of a Russian serf, who bends his head to the ground, and the salaam of the Hindoo, are abridged prostrations ; a bow is a short salaam ; a nod is a short bow. Should any hesitate to admit this conclusion, then per- haps, on being reminded that the lowest of these obeisances are common where the submission is most abject ; that among ourselves the profundity of the bow marks the amount of respect ; and lastly, that the bow is even now used devotionally in our churches — ^by Catholics to their altars, and by Protestants at the name of Christ — they will see sufficient evidence for thinking that this salutation also was originally worship. The same may be said, too, of the curtsy, or courtesy, as it is otherwise written. Its derivation from courtoisie, courteousness, that is, behaviour like that at court, at once shows that it was primarily the reverence paid to a mon* arch. And if we call to mind that falling upon the knees, or upon one knee, has been a common obeisance of subjects to rulers ; that in ancient manuscripts and tapestries, ser- vants are depicted as assuming this attitude Avhile offering the dishes to their masters at table ; and that this same at- titude is assumed towards our own queen at every presen- tation ; we may infer, what ' the character of the curtsy itself suggests, that it is an abridged act of kneeling. As 80 MANNERS ANE FASHION. the word has been contracted from courtoisie into curtsy , so the motion has been contracted from a placing of the knee on the floor, to a lowering of the knee towards the floor. Moreover, when we compare the curtsy of a lady wath the awkward one a peasant girl makes, which, if con- tinued, would bring her down on both knees, we may see in this last a remnant of that greater reverence re- quired of serfs. And when, from considering that simple kneeling of the "West, still represented by the curtsy, we pass Eastward, and note the attitude of the Mahomedan worshipper, who not only kneels but bows his head to the ground, we may infer that the curtsy also, is an evanescent form of the aboriginal prostration. In further evidence of this it may be remarked, that there has but recently disappeared from the salutations of men, an action having the same proximate derivation witli the curtsy. That backward sweep of the foot with which the conventional stage-sailor accompanies his bow — a move- ment which prevailed generally in past generations, when " a bow and a scrape " went together, and which, within the memory of living persons, was made by boys to their schoolmaster with the efiect of wearing a hole in the floor — ^is pretty clearly a preliminary to going on one knee. A motion so ungainly could never have been intentionally in- troduced ; even if the artificial introduction of obeisances were possible. Hence we must regard it as the remnant of something antecedent : and that this something antecedent was humiliating maybe inferred from the phrase, "scraping an acquaintance ; " which, being used to denote the gaining of favour by obsequiousness, implies that the scrape was considered a mark of servility — that is, of serf-\Vi.ij, Consider, again, the uncovering of the head. Almost everywhere this has been a sign of reverence, alike in tem- ples and before potentates ; and it yet preserves among us some of its original meaning. Whether it rains, hails, oj OEIGIN OF CEREMONIAL ATTITUDES. 83 shines, you must keep your head bare while speaking to the monarch ; and on no plea may you remain covered in a place of worship. As usual, however, this ceremony, at lirst a submission to gods and kings, has become in process of time a common civility. Once an acknowledgment of another's unlimited sujDremacy, the removal of the hat is now a salute accorded to very ordinary persons, and that uncovering, originally reserved for entrance into "the house of God," good manners now dictates on entrance into the house of a common labourer. Standing, too, as a mark of respect, has undergone like extensions in its application. Shown, by the practice in our churches, to be intermediate between the humiliation signified by kneeling and the self-respect which sitting im- phes, and used at courts as aform of homage when more active demonstrations of it have been made, this posture is now em- ployed in daily life to show consideration ; as seen alike in the attitude of a servant before a master, and in that rising which politeness presci'ibes on the entrance of a visitor. Many other threads of evidence might have been woven into our argument. As, for example, the significant fact, that if we trace back our still existing law of primogeni- ture — if we consider it as displayed by Scottish clans, in which not only ownership but government devolved from the besrinnino* on the eldest son of the eldest — if we look further back, and observe that the old titles of lordship, Signor, Seigneur, Sennor, Sire, Sieur, all originally mean, senior, or elder — if we go Eastward, and find that Sheick has a like derivation, and that the Oriental names for priests, as JPir, for instance, are literally interpreted old man — if we note in Hebrew records how primeval is the ascribed superiority of the first-born, how great the authority of elders, and how sacred the memory of patriarchs — and if, then, we remember that among divine titles are " Ancient of Days," and "Father of Gods and men ; " — we see ho\^ 4* 82 MANNERS AND FASHION. completely these facts harmonize with the hypothesis, thai the aboriginal god is the first man sufficiently great to be- come a tradition, the earliest whose power and deeds made him remembered ; that hence antiquity unavoidably became associated with superiority, and age with nearness in blood to " the powerful one ; " that so there naturally arose that domination of the eldest which characterizes all history, and that theory of human degeneracy which even yet sur- \'ives. We might further dwell on the facts, that Lord signi- fies high-born, or, as the same root gives a word meaning heaven, possibly heaven-born ; that, before it became com- mon, Sir or Sire^ as well as Father^ was the distinction of a priest ; that worship^ originally worth-ship — a term of respect that has been used commonly, as well as to magis- trates — is also our term for the act of attributing greatness or worth to the Deity ; so that to ascribe worth-ship to a ,man is to worship him. We might make much of the evi- dence that all early governments are more or less distinct- ly theocratic ; and that among ancient Eastern nations even the commonest forms and customs appear to have been in- fluenced by religion. We might enforce our argument re- specting the derivation of ceremonies, by tracing out the aboriginal obeisance made by putting dust on the head, which probably symbolizes putting the head in the dust: by affiliating the practice prevailing among certain tribes, of doing another honour by presenting him with a portion of hair torn from the head — an act which seems tantamount to saying, " I am your slave ; " by investigating the Oriental custom of giving to a visitor any object he speaks of ad- miringly, which is pretty clearly a carrying out the compli- ment, " All I have is yours." Without enlarging, however, on these and many minor facts, we venture to think that the evidence already assign- ed is sufficient to justify our position. Had the proofs been THREEFOLD BKANCIIING OF rKIMITIVE GOVERNMENT. 83 few or of one kind, little faith could have been placed in the inference. But numerous as they are, alike in the case of titles, in that of complimentary phrases, and in that of salutes — similar and simultaneous, too, as the process of de- preciation has been in all of these ; the evidences become strong by mutual confirmation. And when we recollect, also, that not only have the results of this process been vis- ible in various nations and in all times, but that they are occurring among ourselves at the present moment, and that the causes assigned for previous depreciations may be seen daily -working out other ones — when we recollect this, it becomes scarcely possible to doubt that the process has been as alleged ; and that our ordinary words, acts, and phrases of civility Tvere originally acknowledgments of sub- mission to another's omnipotence. Thus the general doctrine, that all kinds of government exercised over men were at first one government — that the political, the religious, and the ceremonial forms of control are divergent branches of a general and once indivisible control — begins to look tenable. When, with the above facts fresh in mind, we read primitive records, and find that " there were giants in those days " — w^hen we remember that in Eastern traditions I^imrod, among others, figures in all the characters of giant, king, and divinity — when we turn to the sculptures exhumed by Mr. Layard, and con- templating in them the effigies of kings driving over enemies, trampling on prisoners, and adored by prostrate slaves, then observe how their actions correspond to the primitive names for the divinity, " the strong," '' the destroyer," " the powerful one " — when we find that the earliest temples were also the residences of the kings — and when, lastly, we discover that among races of men still liv- mg, there are current superstitions analogous to those which old records and old buildings indicate ; we begin to realize whe probability of the hypothesis that has been set forth. Si MANNERS AND FASHION. Going back, in imagination, to the remote era when men's theories of things were yet unformed ; and conceiv« ing to ourselves the conquering chief as dimly figured in ancient myths, and poems, and ruins ; we may see that all rules of conduct whatever spring from his will. Alike legislator and judge, all quarrels among his subjects are decided by him ; and his words become the Law. Awe of him is the incipient Keligion ; and his maxims furnish its first precepts. Submission is made to him in the forms he prescribes ; and these give birth to Manners. From the first, time developes political allegiance . and the ad- ministration of justice ; from the second, the worship of a being whose personality becomes ever more vague, and the inculcation of precepts ever more abstract ; from the third, lorms of honour and the rules of eti- quette. In conformity with the law of evolution of all organ- feed bodies, that general functions are gradually separated into the special functions constituting them, there have grown up in the social organism for the better performance of the governmental office, an apparatus of law-courts, judges, and barristers ; a national church, with its bishops and priests ; and a system of caste, titles, and ceremonies, administered by society at large. By the first, overt aggressions are cognized and punished ; by the second, the disposition to commit such aggressions is in some degree checked ; by tlie third, those minor breaches of good conduct, which the others do not notice, are de- nounced and chastised. Law and Religion control be- haviour in its essentials : Manners control it in its details. For regulating those daily actions which are too nu- merous and too unimportant to be officially directed, there comes into play this subtler set of restraints. And when we consider what these restraints are — when we analyze the words, and phrases, and salutes employed GOVERNMENT KEQUIBED BY THE ABORIGINAL MAN. 85 WG see that in origin as in effect, the system is a setting up of temporary governments between all men who comf* in contact, for the purpose of better managing the inter- course between them. From the proposition, that these several kinds of gov- ernment are essentially one, both in genesis and function, may be deduced several important corollaries, directly bearing on our special topic. Let us first notice, that there is not only a common origin and office for all forms of rule, but a common neces- sity for them. The aboriginal man, coming fresh from the killing of bears and from lying in ambush for his enemy, has, by the necessities of his condition, a nature requiring to be curbed in its every impulse. Alike in war and in the chase, his daily discipline has been that of sacrificing other creatures to his own needs and passions. His character, bequeathed to him by ancestors who led similar lives, is moulded by this discipline — is fitted to this existence. The unlimited selfishness, the love of inflicting pain, the bloodthirstiness, thus kept active, he brings with him into the social state. These dispositions put him in constant danger of conflict with his equally savage neigh- bour. In small things as in great, in words as in deeds, he is aggressive ; and is hourly liable to the aggressions of others like natured. Only, therefore, by the most rigorous control exercised over all actions, can the primi- tive unions of men be maintained. There must be a ruler strong, remorseless, and of indomitable will ; there must be a creed terrible in its threats to the disobedi- ent ; and there must be the most servile submission of all inferiors to superiors. The law must be cruel ; the religion must be stern ; the ceremonies must be strict. The co-ordinate necessity for these several kinds of re- straint might be largely illustrated from history wci'e there B6 MANNERS AND FASHION. space. Suffice it to point out^ that where the civil power has been weak, the multiplication of thieves, assassins, and banditti, has indicated the approach of social dissolution ; that when, from the corruptness of its ministry, religion has lost its influence, as it did just before the Flagellants appeared, the State has been endangered ; and that the disregard of established social observances has ever been an accompaniment of political revolutions. Whoever doubts the necessity for a government of manners propor- tionate in strength to the co-existing political and religious governments, will be convinced on calling to mind that until recently even elaborate codes of behaviour failed to keep gentlemen from quarrelling in the streets and fighting duels in taverns ; and on remembering further, that even now people exhibit at the doors of a theatre, where there is no ceremonial law to rule them, a degree of aggressiveness which would produce confusion if carried into social inter- course. As might be expected, we find that, having a common origin and like general functions, these several controlling agencies act during each era with similar degrees of vigour. Under the Chinese despotism, stringent and multitudinous in its edicts and harsh in the enforcement of them, and associated with which there is an equally stern domestic despotism exercised by the eldest surviving male of the family, there exists a system of observances alike compli- cated and rigid. There is a tribunal of ceremonies. Pre- vious to presentation at court, ambassadors pass many days in practising the required forms. Social intercourse is cumbered by endless compliments and obeisances. Class distinctions are strongly marked by badges. The chief regret on losing an only son is, that there will be no one to perform the sepulchral rites. And if there wants a definite measure of the respect paid to social ordinances, we have it in the torture to which ladies submit in having their feet CEREMONIAL COITrKOL IN THE MIDDLE AGES. 87 crushed. In India, and indeed throughout the East, there exists a like connection between the pitiless tyranny of rulers, the dread terrors of immemorial creeds, and the rigid restraint of unchangeable customs : the caste regula- tions continue still unalterable ; the fashions of clothes and furniture have remained the same for ages ; suttees are so ancient as to be mentioned by Strabo and Diodorus Siculus; justice is still administered at the palace-gates as of old ; in short, " every usage is a precept of religion and a maxim of jurisprudence." A similar relationship of phenomena was exhibited in Europe during the Middle Ages. While all its govern- ments were autocratic, while feudalism held sway, while the Church was unshorn of its power, while the criminal code was full of horrors and the hell of the popular creed full of terrors, the rules of behaviour were both more numerous and more carefully conformed to than now. Dif- ferences of dress marked divisions of rank. Men were limited by law to a certain width of shoe-toes ; and no one below a sj^ecified degree might wear a cloak less than so many inches long. The symbols on banners and shields were carefully attended to. Heraldry was an important branch of knowledge. Precedence was strictly insisted on. And those various salutes of which we now use the abridg- ments were gone through in full. Even during our own last century, T^dth its corrupt House of Commons and little- curbed monarchs, we may mark a correspondence of social formalities. Gentlemen were still distimxuished from lower classes by dress ; peox^le sacrificed themselves to inconven- ient requirements — as powder, hooped petticoats, and tow- ering head-dresses ; and children addressed their parents as Sir and Madam. A further corollary naturally following this last, and almost, indeed, forming part of it, is, that these several kinds of government decrease in stringency at the same 88 MANNERS AND FASHION. rate. Simultaneously with the decline in the influence of priesthoods, and in the fear of eternal torments — simulta- neously with the mitigation of political tyranny, the growth of popular power, and the amelioration of criminal codes ; lias taken place ^hat diminution of formalities and that fading of distinctive marks, now so observable. Looking at home, we may note that there is less attention to prece- dence than t"here used to be. No one in our day ends an interview with the phrase " your humble servant." The employment of the word Sir, once general in social inter- course, is at present considered bad breeding ; and on the occasions calling for them, it is held vulgar to use the words " Your Majesty," or " Your Royal Highness," more than once in a conversation. People no longer formally drink each other's healths ; and even the taking wine with each other at dinner has ceased to be fashionable. The taking- off of hats between gentlemen has been gradually falling into disuse. Even when the hat is removed, it is no longer swept out at arm's length, but is simply lifted. Hence the remark made upon us by foreigners, that we take off our hats less than any other nation in Europe — a remark that should be coupled with the other, that we are the freest nation in Europe. As already implied, this association of facts is not acci- dental. These titles of address and modes of salutation, bearing about them, as they all do, something of that ser- vility which marks their origin, become distasteful in pro- portion as men become more independent themselves, and sympathise more with the independence of others. The feeling which makes the modern gentleman tell the labourer standing bareheaded before him to put on his hat — the feeling which gives us a disUke to those who cringe and fawn — the feeling which makes us alike assert our own dig- nity and respect that of others — the feeling which thus leads us more and more to discountenance all forms and DECLINE OF CEREMONIAL INFLUENCE. 89 names which confess inferiority and submission ; is the sama feeling which resists despotic power and inaugurates popu- lar government, denies the authority of the Church and estabUshes the right of private judgment. A fourth fact, akin to the foregoing, is, that these sev» eral kinds of government not only decline together, but corrupt together. By the same process that a Court of Chancery becomes a place not for the administration of justice, but for the withholding of it — by the same process that a national church, from being an agency for moral con- trol, comes to be merely a thing of formulas and tithes and bishoprics — by this same process do titles and ceremonies that oilce had a meaning and a power become empty forms. Coats of arms which served to distinguish men in bat- tle, now figure on the carriage panels of retired grocers. Once a badge of high military rank, the shoulder-knot has become, on the modern footman, a mark of servitude. The name Banneret, which once marked a partially-created Baron — a Baron who had passed his military " little go " — is now, under the modification of Baronet, applicable to any one favoured by wealth or interest or party feeling. Knighthood has so far ceased to be an honour, that men now honour themselves by declining it. The military dig- nity JSscuyer has, in the modern Esquire, become a wholly unmilitary affix. Not only do titles, and phrases, and sa- lutes cease to fulfil their original functions, but the whole apparatus of social forms tends to become useless for its original purpose — the facilitation of social intercourse. Those most learned in ceremonies, and most precise in the observance of them, are not always the best behaved ; as those deepest read in creeds and scriptures are not there- fore the most religious ; nor those who have the clearest notions of legality and illegality, the most honest. Just as lawyers are of all men the least noted for probity ; as cathedral towns have a lower moral character than most 30 MANNEBS AND FASHIOIT. others; so,. if Swift is to be believed, courtiers are "tha most insigoificant race of people that the island can afford, and with the smallest tincture of good manners." But perhaps it is in that class of social observances comprehended under the term Fashion, which we must here discuss parenthetically, that this process of corruption is seen with the greatest distinctness. As contrasted w^ith Manners, which dictate our minor acts in relation to other persons. Fashion dictates our minor acts in relation to our- selves. While the one prescribes that part of our deport- ment which directly affects our neighbours ; the other pre- scribes that part of our deportment which is primarily per- sonal, and in which our neighbours are concerned only as spectators. Thus distinguished as they are, however, the two have a common source. For while, as we have shown, Manners originate by imitation of cate instruments and most elaborate calculations, all that the man of science can do, is to reduce the difference be- tween the foreseen and the actual results to an unimportant quantity. Moreover, it must be borne in mind not only that all the sciences are qualitative in their first stages, — not only that some of them, as Chemistry, have but recently reached the quantitative stage — but that the most advanced sciences have attained to their present power of determining quan- tities not present to the senses, or not directly measurable, by a slow process of improvement extending through thou- sands of years. So that science and the knowledge of the uncultured are alike in the nature of their previsions, widely as they differ in range ; they possess a common imperfec- tion, though this is immensely greater in the last than in the first ; and the transition from the one to the other has been through a series of steps by which the imperfection has been rendered continually less, and the range continu- ally wider. These facts, that science and the positive knowledge of the uncultured cannot be separated in nature, and that the one is but a perfected and extended form of the other, must necessarily underlie the whole theory of science, its 124: THE GENESIS OP SCIENCE. progress, and the relations of its parts to each other. There must be serious incompleteness in any history of the sciences, which, leaving out of view the first steps of their genesis, commences with them only when they assume defi- nite forms. There must be grave defects, if not a general untruth, in a philosophy of the sciences considered in their interdependence and development, which neglects the in- quiry how they came to be distinct sciences, and how they were severally evolved out of the chaos of primitive ideas. I^ot only a direct consideration of the matter, but all analogy, goes to show that in the earlier and simpler stages must be sought the key to all subsequent intricacies. The time was when the anatomy and physiology of the human being were studied by themselves — when the adult man was analyzed and the relations of parts and of functions investigated, without reference either to the relations ex- hibited in the embryo or to the homologous relations exist- ing in other creatures. I^ow, however, it has become manifest that no true conceptions, no true generalizations, are possible under such conditions. Anatomists and phys- iologists now find that the real natures of organs and tis- sues can be ascertained only by tracing their early evolu- tion ; and that the affinities between existing genera can be satisfactorily made out only by examining the fossil gen- era to which they are allied. Well, is it not clear that the like must be true concerning all things that undergo devel- opment ? Is not science a growth ? Has not science, too, its embryology ? And must not the neglect of its embry- ology lead to a misunderstanding of the principles of its evolution and of its existing organization ? There are a priori reasons, therefore, for doubting the truth of all philosophies of the sciences which tacitly pro- ceed upon the common notion that scientific knowledge and ordinary knowledge are separate ; instead of com- mencing, as they should, by affiliating the one upon the oken's classification of the sciences. 125 other, and showing how it gradually came to be distin- guishable from the other. We may expect to find theii generalizations essentially artificial ; and we shall not be deceived. Some illustrations of this may here be fitly in- troduced, by way of preliminary to a brief sketch of the genesis of science from the point of view indicated. And we cannot more readily find such illustrations than by glancing at a few of the various classifications of the sci- ences that have from time to time been proposed. To con- sider all of them would take too much space : we must content ourselves with some of the latest. Commencing with those which may be soonest disposed of, let us notice first the arrangement propounded by Oken An abstract of it runs thus : — , Part I. Mathesis. — Pneumatogeriy : Primary Art, Primary Consciousness, God, Primary Eest, Time, Polarity, Mo- tion, Man, Space, Point, Line, Surface, Globe, Potation. — Hylogeny : Gravity, Matter, Ether, Heavenly Bodies, Light, Heat, Fire. (He explains that Mathesis is the doctrine of the whole ; Pneumatogeny being the doctrine of immaterial totalities, and Hylogeny that of material totalities.) Part IL Ontology. — Cosmogeny : Eest, Centre, Motion, Line, Planets, Form, Planetary System, Comets. — StocMo- geny : Condensation, Simple Matter, Elements, Air, Water, Earth. — Stochiology : Functions of the Elements, &c. &c. — Kingdoms of Nature : Individuals. (He says in explanation that " Ontology teaches us the phenomena of matter. The first of these are the heavenly bodies comprehended by Cosmogeny. These divide into ele- ments — StocMogeny. The earth element divides into miner- als— Jfir? era Z(7gry. These unite into one collective body — Gcogeny. The whole in singulars is the living, or Organic^ 126 THE GENESIS OF SCIENCE. which again divides into plants and animals. Biology^ there fore, divides into Organogeny^ Phytoso'phy ^ ZoosopTiy . ''"'') First Kingdom. — Minerals. Mineralogy^ Geology. Part III. Biology. — Organosophy^ Phytogeny^ Phyto-physiology^ Phytology^ Zoogeny^ Physiology^ Zoology^ Psychology.^ A glance over this confused scheme shows that it is an attempt to classify knowledge, not after the order in which it has been, or may be, built np in the human conscious- ness ; but after an assumed order of creation. It is a pseudo-scientific cosmogony, akin to those which men have enunciated from the earliest times downwards ; and only a little more respectable. As such it will not be thought worthy of much consideration by those who, like ourselves, hold that experience is the sole origin of knowledge. Oth- erwise, it might have been needful to dwell on the incon- gruities of the arrangements — ^to ask how motion can be treated of before space ? how there can be rotation with- out matter to rotate ? how polarity can be dealt with with- out involving points and lines ? But it will serve our pres- ent purpose just to point out a few of the extreme absurdi- ties resulting from the doctrine which Oken seems to hold in common with Hegel, that " to philosophize on Nature is to re-think the great thought of Creation." Here is a sam- ple : — " Mathematics is the universal science ; so also is Phys- io-philosophy, although it is only a part, or rather but a condition of the universe ; both are one, or mutually con- gruent. " Mathematics i^, however, a science of mere forms without substance. Physio-philosophy is, therefore, mathe- matics endowed with substance.''^ From the English point of view it is sufficiently amus- ing to find such a dogma not only gravely stated, but Stated as an unquestionable truth. Here we see the expe- ESTIMATE OF OKEn's SCHEME. 127 riences of quantitative relations which men have gathered from surrounding bodies and generalized (experiencee which had been scarcely at all generalized at the beginning of the historic period) — we find these generalized expe- riences, these intellectual abstractions, elevated into con Crete actualities, projected back into Nature, and consid- ered as the internal frame-work of things — the skeleton by which matter is sustained. But this new form of the old realism, is by no means the most startling of the physio- philosophic principles. We presently read that, " The highest mathematical idea, or the fundamental principle of all mathematics is the zero = 0." * * * " Zero is in itself nothing. Mathematics is based upon nothing, and, consequently, arises out of nothing. " Out of nothing, therefore, it is possible for somethmg to arise ; for mathematics, consisting of propositions, is something, in relation to 0." By such " consequentlys" and "therefores" it is, that men philosophize when they " re-think the great thought of creation." By dogmas that pretend to be reasons, noth- ing is made to generate mathematics ; and by clothing mathematics with matter, we have the universe ! If now we deny, as we do deny, that the highest mathematical idea is the zero ; — if, on the other hand, we assert, as we do assert, that the fundamental idea underlying all mathemat- ics, is that of equality ; the whole of Oken's cosmogony disappears. And here, indeed, we may see illustrated, the distinctive peculiarity of the German method of procedure in these matters — the bastard ctpi'iori method, as it may be termed. The legitimate a priori method sets out with propositions of which the negation is inconceivable ; the d priori method as illegitimately applied, sets out either with propositions of which the negation is not inconceivable, or with propositions Uke Oken's, of which the affirmation is inconceivable. 128 THE GENESIS OF SCIENCE. It is needless to proceed further with the analysis ; else might we detail the steps by which Oken arrives at the conclusions that " the planets are coagulated colours, fon they are coagulated light ; that the sphere is the expanded nothing ; " that gravity is " a weighty nothing, a heavy es- sence, striving towards a centre ; " thai " the earth is the identical, "water the indifferent, air the different ; or the first the centre, the second the radius, the last the peri- phery of the general globe or of fire." To comment on them would be nearly as absurd as are the propositions themselves. Let us pass on to another of the German sys- tems of knowledge — that of Hegel. The simple fact that Hegel puts Jacob Bcehme on a par with Bacon, suffices alone to show that his stand-point is far remote from the one usually regarded as scientific : so far remote, indeed, that it is not easy to find any common basis on which to found a criticism. Those who hold that the mind is moulded into conformity with surrounding things by the agency of surrounding things, are- necessarily at a loss how to deal with those, who, like Schelling and Hegel, assert that surrounding things are solidified mind — that iN'ature is " petrified intelligence." However, let ua briefly glance at Hegel's classification. He divides philoso- phy into three parts : — 1. JLogiG^ or the science of the idea in itself, the pure idea. 2. Tlie Philosophy of Nature^ or the science of the idea considered under its other form — of the idea as N^ature. 3. The Philosophy of the Mind^ or the science of the idea m its return to itself. Of these, the second is divided into the natural sciences, commonly so. called ; so that in its more detailed form the series runs thus : — Logic, Mechanics, Physics, Organic Phy- sics, Psychology. Now, if we believe with Hegel, first, that thought is tte Hegel's scheme of knowledge. 129 vrue essence of man ; second, that thought is the essence of the world ; and that, therefore, there is nothing but thought; his classification, beginning with the science of pure thought, may be acceptable. But otherwise, it is an obvious objec- tion to his arrangement, that thought implies things thought of — that there can be no logical forms without the substance of experience — that the science of ideas and the science ol things must have a simultaneous origin. Hegel^ however, anticipates this objection, and, in his obstinate idealism, re- plies, that the contrary is true ; that all contained in the forms, to become something, requires to be thought : and that logical forms are the foundations of all things. It is not surprising that, starting from such premises, and reasoning after this fashion, Hegel finds his way to strange conclusions. Out of space and time he proceeds to build up motion, matter, reioulsion, attraction, weight, and inertia. He then goes on to logically evolve the solar system. In doing this he widely diverges from the !N"ewtonian theory ; reaches by syllogism the conviction that the planets are the most perfect celestial bodies ; and, not being able to bring the stars within his theory, says that they are mere formal existences and not living matter, and that as compared with the solar system they are as little admirable as a cutaneous eruption or a swarm of flies.* Results so outrageous might be left as self-disproved, were it not that speculators of this class are not alarmed by any amount of incongruity with established beliefs. The only efficient mode of treating systems like this of Hegel, is to show that they are self-destructive — that by their first steps they ignore that authority on which all their subse- quent steps depend. If Hegel professes, as he manifestly does, to develop his scheme by reasoning — if he presents * It is somewhat curious tliat the author of " The Plurahty of Worlds," with quite other aims, should have persuaded himself into similar conclu siona. 130 THE GENESIS OF SCIENCE. successive inferences as necessarily following from certain premises ; he implies the postulate that a belief which ne- cessarily follows after certain antecedents is a true belief: and, did an opponent reply to one of his inferences, that, though it was impossible to think the opposite, yet the opposite was true, he would consider the reply irrational The procedure, however, which he would thus condemn as destructivje of all thinking whatever, is just the procedure exhibited in the enunciation of his own first principles. Mankind find themselves unable to conceive that there can be thought without things thought of. Hegel, how- ever, asserts that there can be thought without things thought of That ultimate test of a true proposition — the inability of the human mind to conceive the negation of it — ^which in all other cases he considers valid, he considers invalid where it suits his convenience to do so ; and yet at *the same time denies the right of an opponent to follow his example. If it is competent for him to posit dogmas, which are the direct negations of what human consciousness recog- nises ; then is it also competent for his antagonists to stop him at every step in his argument by saying, that though the particular inference he is drawing seems to his mind, and to all minds, necessarily to follow from the premises, yet it is not true, but the contrary inference is true. Or, to state the dilemma in another form : — If he sets out with inconceivable propositions, then may he with equal propri- ety make all his succeeding propositions inconceivable ones — may at every step throughout his reasoning draw exactly the opposite conclusion to that which seems involved. Hegel's mode of procedure being thus essentially sui- cidal, the Hegelian classification which depends upon it, falls to the ground. Let us consider next that ot M Comte. As all his readers must admit, M. Comte presents us with a scheme of the sciences which, unlike the foregoing HIGHER CLAIMS OF M. COMTE. 131 cues, demands respectful consideration. Widely as we differ from him, we cheerfully bear witness to the largeness of his views, the clearness of his reasoning, and the value of his speculations as contributing to intellectual progress. Did we believe a serial arrangement of the sciences to be possible, that of M. Comte would certainly be the one we should adopt. His fundamental propositions are thor- oughly intelligible ; and if not true, have a great semblance of truth. His successive steps are logically co-ordinated ; and he supports his conclusions by a considerable amount of evidence — evidence which, so long as it is not critically exam- ined, or not met by counter evidence, seems to substantiate his positions. But it only needs to assume that antagon- istic attitude which ought to be assumed towards new doctrines, in the belief that, if true, they will prosper by conquering objectors — it needs but to test his leading doctrines either by other facts than those he cites, or by his own facts differently applied, to at once show that they will not stand. We will proceed thus to deal with the general principle on which he bases his hierarchy of the sciences. In the second chapter of his Gours de Philosophie JPosi- live, M. Comte says : — " Our problem is, then, to find the one rational order, amongst a host of possible sys- tems." ..." This order is determined by the degree of simplicity, or, what comes to the same thing, of general- ity of their phenomena." And the arrangement he de- duces runs thus : Mathematics^ Astronomy^ Physics^ Ghem.' istry^ Physiology, Social Physics, This he asserts to be " the true filiation of the sciences." He asserts further, that the principle of progression from a greater to a less degree of generality, " which gives this order to the whole body of science, arranges the parts of each science." And, finally, he asserts that the gradations thus established d priori among the sciences, and the parts of each science, "is 132 THE GENESIS OF SCIENCE. in essential conformity with the order which has sponta neously taken place among the branches of natural philoso phy ; " or, in other words — corresponds with the order of historic development. Let us compare these assertions with the facts. That there may be perfect fairness, let us make no choice, but take as the. field for our comparison, the succeeding section treating of the first science — Mathematics ; and let us use none but M. Comte's own facts, and his own admissions. Confining ourselves to this one science, of course our com- parisons must be between its several parts. M. Comte says, that the parts of each science must be arranged in the order of their decreasing generality; and that this oider of decreasing generaUty agrees with the order of historic development. Our inquiry must be, then, whether the his- tory of mathematics confirms this statement. J Carrying out his principle, M. Comte divides Mathe- matics into " Abstract Mathematics, or the Calculus (tak- ing the word in its most extended sense) and Concrete Mathematics, which is composed of General Geometry and of Rational Mechanics.'' The subject-matter of the first of these is number ; the subject-matter of the second includes space^ time^ motion^ force. The one possesses the highest possible degree of generality ; for all things whatever admit of enumeration. The others are less general ; see- ing that there are endless phenomena that are not cogniza- ble either by general geometry or rational mechanics. In conformity with the alleged law, therefore, the evolution of the calculus must throughout have preceded the evolu- tion of the concrete sub-sciences. Now somewhat awk- wardly for him, the first remark M. Comte makes bearing upon this point is, that " from an historical point of view, mathematical analysis appears to have risen out of the con- templation of geometrical and mechanical facts." True, he goes on to say that, " it is not the less independent of comte's theory of its evolution. 133 these sciences logically speaking ; " for that " analytical ideas are, above all others, universal, abstract, and simple • and geometrical conceptions are necessarily founded on them." "We will not take advantage of this last passage to charge M. Comte with teaching, after the fashion of Hegel, that there can be thought without things thought of. We are content simply to compare the two assertions, that analysis arose out of the contemplation of geometrical and mechanical facts, and that geometrical conceptions are founded upon analytical ones. Literally interpreted they exactly cancel each other. Interpreted, however, in a iiberal sense, they imply, what we believe to be de- monstrable, that the two had a simultaneous origin. The passage is either nonsense, or it is an admission that abstract and concrete mathematics are coeval. Thus, at the very first step, the alleged congruity between the order of generality and the order of evolution, does not hold good. But may it not be that though abstract and concrete mathematics took their rise at the same time, the one afterwards developed more rapidly than the other ; and has ever since remained in advance of it ? ]!^o : and again we call M. Comte himself as witness. Fortunately for his argument he has said nothing respecting the early stages of the concrete and abstract divisions after their diver- gence from a common root ; otherwise the advent of Algebra long after the Greek geometry had reached a high development, would have been an inconvenient fact for him to deal with. But passing over this, and limiting ourselves to his own statements, we find, at the opening of the next chapter, the admission, that " the historical de- velopment of the abstract portion of mathematical science has, since the time of Descartes, been for the most part determined by that of the concrete." Further on we read L34 THE GENESIS OF SCIENCE. respecting algebraic functions that " most functions were concrete in their origin — even those which are at present the most purely abstract ; and the ancients discovered only through geometrical definitions elementary algebraic properties of functions to which a numerical value was not attached till long afterwards, rendering abstract to us what was concrete to the old geometers." How do these statements tally with his doctrine ? Again, having divided the calculus into algebraic and arithmetical, M. Comte admits, as perforce he must, that the algebraic is more general than the arithmetical ; yet he will not say that algebra preceded arithmetic in point of time. And again, having divided the calculus of functions into the calculus of direct functions (common algebra) and the calculus of indirect functions (transcendental analysis), he is obliged to speak of this last as possessing a higher generality than tJhe first ; yet it is far more modern. Indeed, by implica- tion, M. Comte himself confesses this incongruity ; for he says : — " It might seem that the transcendental analysis ought to be studied before the ordinary, as it provides the equations which the other has to resolve ; but though the transcendental is logically independent of the ordinary^ it is best to follow the usual method of study, taking the ordinary first." In all these cases, then, as well as at the close of the section where he predicts that mathematicians will in time " create procedures of a wider generality ^''^ M. Comte makes admissions that are diametrically opposed to the alleged law. In the succeeding chapters treating of the concrete de- partment of mathematics, we find similar contradictions. M. Comte himself names the geometry of the ancients spe- cial geometry, and that of moderns the general geometry. He admits that while " the ancients studied geometry with reference to the bodies under notice, or specially; the modems study it with reference to the phenomena to be OBJECTIONS TO COMTe's THEORY. 135 considered, or generally.'* He admits that while " the an- cients extracted all they could out of one line or surface before passing to another," ^' the moderns, since Descartes, employ themselves on questions which relate to any figure whatever." These facts are the reverse of what, according to his theory, they should be. So, too, in mechanics. Be- f6re dividing it into statics and dynamics, M. Comte treats of the three laws of motion^ and is obliged to do so ; for statics, the more general of the two divisions, though it does not mvolve motion, is impossible as a science until the laws of motion are ascertained. Yet the laws of motion pertain to dynamics, the more special of the divisions. Further on he points out that after Archimedes, who dis- covered the law of equilibrium of the lever, statics made no progress until the establishment of dynamics enabled us to seek " the conditions of equilibrium through the laws of the composition of forces." And he adds — " At this day this is tJie method universally employed. At the first glance it does not appear the most rational — dynamics being more complicated than statics, and precedence being natural to the simpler. It would, in fact, be more philosophical to refer dynamics to statics, as has since been done. " Sundry dis- coveries are afterwards detailed, showing how completely the development of statics has been achieved by consider- ing its problems dynamically ; and before the close of the section M. Comte remarks that " before hydrostatics could be comprehended under statics, it was necessary that the abstract theory of equilibrium should be made so general as to apply directly to fluids as well as solids. This was ac- complished when Lagi'ange supplied, as the basis of the whole of rational mechanics, the single principle of virtual velocities." In which statement we have two facts directly at variance with M. Comte's doctnne ; — first, that the sim- pler science, statics, reached its present development only by the aid of the principle of virtual velocities, which be- 136 THE GEKESIS OF SCIENCE. longs to the more complex science, dynamics ; and that this " single principle " underlying all rational mechanics — ^thia most general form which includes alike the relations of stat- ical, hydrostatical, and dynamical forces — was reached so late as the time of Lagrange. Thus it is not true that the historical succession of the divisions of mathematics has corresponded with the order of decreasing generality. It is not true that abstract math- ematics was evolved antecedently to, and independently of concrete mathematics. It is not true that of the sub- divisions of abstract mathematics, the more general came before the more special. And it is not true that concrete mathematics, in either of its two sections, began with the most abstract and advanced to the less abstract truths. It may be well to mention, parenthetically, that in de- fending his alleged law of progression from the general to the special, M. Comte somewhere comments upon the two meanings of the word general, and the resulting liability to confusion. "Without now discussing whether the asserted distinction can be maintained in other cases, it is manifest that it does not exist here. In sundry of the instances above quoted, the endeavors made by M. Comte himself to disguise, or to explain away, the precedence of the special over the general, clearly indicate that the generality spoken of, is of the kind meant by his formula. And it needs but a brief consideration of the matter to show that, even did he attempt it, he could not distinguish this generality, which, as above proved, frequently comes last, from the generality which he says always comes first. For what is the nature of that mental process by which objects, dimensions, weights, times, and the rest, are found capable of having their relations expressed numerically ? It is the formation of certain abstract conceptions of unity, duality and multi- plicity, which are applicable to all things alike. It is the invention of general symbols serving to express thenumer* DmSIOXS OF MATnEMATICS, HOW EELATED. 137 leal relations of entities, whatever be their special charac- ters. And what is the nature of the mental process by which numbers are found capable of having their relations expressed algebraically ? It is just the same. It is the for- mation of certain abstract conceptions of numerical funo- tions which are the same whatever be the magnitudes of the numbers. It is the invention of general symbols serv- mg to express the relations between numbers, as numbers express the relations between things. And transcendental analysis stands to algebra in the same position that algebra stands in to arithmetic. To briefly illustrate their respective powers ; — arithme- tic can express in one formula the value of a particular tangent to 2^ particular curve ; algebra can express in one formula the values of all tangents to a particular curve ; transcendental analysis can express in one formula the val- ues of all tangents to all curves. Just as arithmetic deals with the common properties of lines, areas, bulks, forces, periods ; so does algebra deal with the common properties of the numbers which arithmetic presents ; so does tran- scendental analysis deal with the common properties of the equations exhibited by algebra. Thus, the generality of the higher branches of the calculus, when compared with the lower, is the same kind of generality as that of the lower branches when compared with geometry or mechanics. And on examination it will be found that the like relation exists in the various other cases above given. Having shown that M. Comte's alleged law of progres- sion does not hold among the several parts of the same science, let us see how it agrees with the facts when applied to separate sciences. " Astronomy," says M. Comte, at the opening of Book III., " was a positive science, in its geo- metrical aspect, from the earliest days of the school of Alex- andria ; but Physics, which we are now to consider, had no positive character at all till Galileo made his great discov* 138 THE GENESIS OF SCIENCE. eries on the fall of heavy bodies." On this, our comment is simply that it is a misrepresentation based upon an arbi- trary misuse of words — a mere verbal artifice. By choosing to exclude from terrestrial physics those laws of magnitude, motion, and position, which he includes in celestial physics, M. Comte makes it appear that the one owes nothing to the other. ISTot only is this altogether unwarrantable, but it is radically inconsistent with his own scheme of divisions. At the outset he says — and as the point is important we quote from the original — " Pour la physique inorganique nous voyons d'abord, en nous conformant toujours ^ I'ordre de generality et de dependance des phenom6nes, qu'tlle doit ^tre partag6e en deux sections distinctes, suivant qu'elle consid^re les phenom^nes generaux de I'univers, ou, en par- ticulier, ceux que presentent les corps terrestres. D'oil la physique celeste, ou I'astronomie, soit g^ometrique, soit mechanique ; et la physique terrestre." Here then we have inorganic physics clearly divided into celestial physics and terrestrial physics — the pheno- mena presented by the universe, and the phenomena pre- sented by earthly bodies. If now celestial bodies and ter- restrial bodies exhibit sundry leading phenomena in com- mon, as they do, how can the generalization of these com- mon phenomena be considered as pertaining to the one class rather than to the other ? If inorganic physics includes geometry (which M. Comte has made it do by comprehend- ing geometrical astronomy in its sub-section — celestial phy- sics) ; and if its sub-section — terrestrial physics, treats of things having geometrical properties ; how can the laws of geometrical relations be excluded from terrestrial physics ? Clearly if celestial physics includes the geometry of ob- jects in the heavens, terrestrial physics includes the geometry of objects on the earth. And if terrestrial physics includes terrestrial geometry, while celestial physics includes celestial geometry, then the geometrical part of terrestrial physics TEREESTEIAL MECHAJSTICS PRECEDES CELESTIAL. 139 precedes the geometrical part of celestial physics ; see- ing that geometry gained its first ideas from surromiding objects. Until men had learnt geometrical relations from bodies on the earth, it was impossible for them to under- stand the geometrical relations of bodies in the heavens. So, too, with celestial mechanics, which had terrestrial mechanics for its parent. The very conception of force^ which underlies the whole of mechanical astronomy, is bor- rowed from our earthly experiences ; and the leading laws of mechanical action as exhibited in scales, levers, projec- tiles, &c., had to be ascertained before the dynamics of the solar system could be entered upon. What were the laws made use of by ISTewton in working out his grand discovery? The law of falling bodies disclosed by Galileo ; that of the composition of forces also disclosed by Galileo ; and that of centrifugal force found out by Huyghens — all of them generalizations of terrestrial physics. Yet, with facts like these before him, M. Comte j)laces astronomy before phy- sics in order of evolution ! He does not compare the geo- metrical parts of the two together, and the mechanical parts of the two together ; for this would by no means suit his hypothesis. But he compares the geometrical part of the one with the mechanical part of the other, and so gives a semblance of truth to his position. He is led away by a verbal delusion. Had he confined his attention to the things and disregarded the words, he would have seen that before mankind scientifically co-ordinated any one class of phenomena displayed in the heavens, they had previously co-ordinated a parallel class of phenomena displayed upon the surface of the earth. Were it needful we could fill a score pages with the in- congruities of M. Comte's scheme. But the foregoing sam- ples will suffice. So far is his law of evolution of the sciences from being tenable, that, by following his exam- ple, and arbitrarily ignoring one class of facts, it would be 140 THE GENESIS OF SCIENCE. possible to present, with great plausibility, just the opposite generalization to that which he enunciates. While he as- serts that the rational order of the sciences, like the ordei of their historic development, " is determined by the de- gree of simplicity, or, what comes to the same thing, of generality of their phenomena ; " it might contrariwise be asserted, that, commencing with the complex and the spe- cial, mankind have progressed step by step to a knowledge of greater simplicity and wider generality. So much evi- dence is there of this as to have drawn from Whewell, in his History of the Inductive Sciences^ the general remark that " the reader has already seen repeatedly in the cours§ of this history, complex and derivative principles present- ing themselves to men's minds before simple and elemen- tary ones." Even from M. Comte's own work, numerous facts, ad- missions, and arguments, might be picked out, tending to show this. We have already quoted his words in proof that both abstract and concrete mathematics have pro- gressed towards a higher degree of generality, and that he looks forward to a higher generality still. Just to strength- en this adverse hypothesis, let us take a further instance. From XhQ particular case of the scales, the law of equilibri- um of which was familiar to the earliest nations known, Ar- chimedes advanced to the more general case of the unequal lever with unequal weights; the law of equilibrium of which includes that of the scales. By the help of Galileo's discovery concerning the composition of forces, D'Alembert *' established, for the first time, the equations of equilibrium of any system of forces applied to the different points of a solid body " — equations which include all cases of levers and an infinity of cases besides. Clearly this is progress towards a higher generality — ^towards a knowledge more independent of special circumstances — towards a study of phenomena " the most disengaged from the incidents of TWOFOLD PKOGRESS OF SCIENCE. 141 particular cases ; " which is M. Comte's definition of " the most simple phenomena." Does it not indeed follow from the familiarly admitted fact, that mental advance is from the concrete to the abstract, from the particular to the gen- eral, that the universal and therefore most simple truths are the last to be discovered ? Is not the government of the solar system by a force varying inversely as the square of the distance, a simjDler conception than any that preceded it ? Should we ever succeed in reducing all orders of phe- nomena to some single law — say of atomic action, as M. Comte suggests — must not that law answer to his test of being independent of all others, and therefore most simple ? And would not such a law generalize the phenomena of gravity, cohesion, atomic affinity, and electric repulsion, just as the laws of number generalize the quantitative phenom- ena of space, time and force ? The possibility of saying so much in support of an hypo- thesis the very reverse of M. Comte's, at once proves that his generalization is only a half-truth. The fact is, that neither proposition is correct by itself; and the actuality is expressed only by putting the two together. . The progress of science is duplex : it is at once from the special to the general, and from the general to the special : it is analytical and synthetical at the same time. M. Comte himself obser^^es that the evolution of science has been accomplished by the division of labour; bat he quite misstates the mode in which this division of labour has operated. As he describes it, it has simply been an ar- rangement of phenomena into classes, and the study of each class by itself. He does not recognise the constant effect of progress in each class upon all other classes ; but only on the class succeeding it in his hierarchical scale. Or if he occasionally admits collateral influences and intercommuni- cations, he does it so grudgingly, and so quickly puts the admissions out of sight and forgets them, as to leave the 142 THE GENESIS OF SCIENCE. impression that, with but trifling exceptions, the sciences aid each other only in the order of their alleged succession. The fact is, however, that the division of labour in science, like the division of labour in society, and like the " physio- logical division of labour " in individual organisms, has been not only a specialization of functions, but a continuous help- ing of each division by all the others, and of all by each. Every particular class of inquirers has, as it were, secreted its own particular order of truths from the general mass of material which observation accumulates ; and all other classes of inquirers have made use of these truths as fast as they were elaborated, with the effect of enabling them the better to elaborate each its own order of truths. It was thus in sundry of the cases we have quoted as at variance with M. Comte's doctrine. It was thus with the application of Huyghens's optical discovery to astronomical observation by Galileo. It was thus with the application of the isochronism of the pendulum to the making of in- struments for measuring intervals, astronomical and other, It was thus when the discovery that the refraction and dis persion of light did not follow the same law of variation affected both astronomy and physiology by giving us achro matic telescopes and microscopes. It was thus when Brad- ley's discovery of the aberration of light enabled him to make the first step towards ascertaining the motions of the stars. It was thus when Cavendish's torsion-balance ex- periment determined the specific gravity of the earth, and so gave a datum for calculating the specific gravities of the sun and planets. It was thus when tables of atmospheric refraction enabled observers to write down the real places of the heavenly bodies instead of their apparent places. It was thus when the discovery of the different expansibilities of metals by heat, gave us the means of correcting our chronometrical measurements of astronomical periods. It was thus when the lines of the prismatic spectrum were CONDITIONS OF ASTRONOMIC I'ROGEESS. 143 used to distinguish the heavenly bodies that are of like na- ture with the sun from those which are not. It was thua when, as recently, an electro-telegraphic instrument was in- vented for the more accurate registration of meridional transits. It was thus when the difference in the rates of a clock at the equator, and nearer the poles, gave data for calculating the oblateness of the earth, and accounting for the precession of the equinoxes. It was thus — but it is needless to continue. Here, within our own limited knowledge of its history, we have named ten additional cases in which the single science of astronomy has owed its advance to sciences coming after it in M. Comte's series. Kot only its secondary steps, but its greatest revolutions have been thus determined. Kep- ler could not have discovered his celebrated laws had it not been for Tycho Brahe's accurate observations ; and it was only after some progress in physical and chemical science that the improved instruments with which those observa- tions were made, became possible. The heliocentric theory of the solar system had to wait until the invention of the telescope before it could be finally established. I^ay, even the grand discovery of all — the law of gravitation — depend- ed for its proof upon an operation of physical science, the measurement of a degree on the Earth's surface. So complete- ly indeed did it thus depend, that Newton had actually abandoned his hypothesis because the length of a degree, as then stated, brought out wrong results ; and it was only after Picart's more exact measurement was published, that he returned to his calculations and proved his great gener- alization. Now this constant intercommunion, which, for brevity's sake, we have illustrated in the case of one science only, has been taking place with all the sciences. Through- out the whole course of their evolution there has been a contmuous consensus of the sciences — a consensus exhibit- ing a general correspondence with the consensus of facul* 144: THE GENESIS OF SCIENCE. ties in each phase of mental development ; the one being an objective registry of the subjective state of the other. From our present point of view, then, it becomes obvi- ous that the conception of a serial arrangement of the sci- ences is a vicious one. It is not simply that the schemes we have, examined are untenable; but it is that the sciences cannot be rightly placed in any linear order whatever. It is not simply that, as M. Comte admits, a classification " will always involve something, if not arbitrary, at least artificial ; " it is not, as he would have us believe, that, neglecting minor imperfections a classification may be sub- stantially true ; but it is that any grouping of the sciences in a succession giv^s a radically erroneous idea of their genesis and their dependencies. There is no " one rational order among a host of possible systems." There is no " true filiation of the sciences." The whole hypothesis is fundamentally false. Indeed, it needs but a glance at its origin to see at once how baseless it is. Why a series f What reason have we to suppose that the sciences admit of a linear arrangement? Where is our warrant for assuming that there is some succession in which they can be placed? There is no reason; no warrant. Whence then has arisen the supposition ? To use M. Comte's own phraseology, we should say, it is a metaphysical conception. It adds another to the cases constantly occurring, of the human mind being made the measure of Nature. We are obliged to think in sequence ; it is the law of our minds that we must consider subjects separately, one after another : therefore Nature must be serial — therefore the sciences must be classifiable in a succession. See here the birth of the notion, and the sole evidence of its truth. Men have been obliged when arranging in books their schemes of education and systems of knowledge, to choose some order or other. And from inquiring what is the best THE SEEIAL OEDER EREONEOUS. 145 order, have naturally fallen into the belief that there is an order which truly represents the facts — have persevered in seeking such an order; quite overlooking the previous question whether it is likely that Nature has consulted the convenience of book-making. For German philosophers, who hold that N'ature is " petrified mtelligence," and that logical forms are the foundations of all things, it is a consistent hypothesis that as thought is serial, Nature is serial ; but that M. Comte, who is so bitter an opponent of all anthropomorphism, even in its most evanescent shapes, should have committed the mistake of imposing upon the external world an ar- rangement which so obviously springs from a limitation of the human consciousness, is somewhat strange. And it is the more strange when we call to mind how, at the outset, M. Comte remarks that in the bes^inninsj " toutes les sciences sont culiivees simultanement par les memes esprits y " that this is " inevitable et meme indispensable y " and how he further remarks that the different sciences are ^'^ comme les diver ses branches d'un tronc unique.'''* "Were it not accounted for by the distorting influence of a cherished hypothesis, it would be scarcely possible to understand how, after recognising truths like these, M. Comte should have persisted in attempting to construct " une echelle en- cyclopediqueP The metaphor which M. Comte has here so inconsis- tently used to express the relations of the sciences — • branches of one trunk — is an approximation to the truth, though not the truth itself. It suggests the facts that the sciences had a common origin ; that they have been de- veloping simultaneously ; and that they have been from time to time dividing and sub-dividing. But it does not suggest the yet more important fact, that the divisions and sub-divisions thus arising do not remain separate, but now and again re-unite in direct and indirect ways. They 7 146 THE GENESIS OF SCIENCE. inosculate ; they severally send off and receive connecting growths ; and the intercommunion has been ever becom- ing more frequent, more intricate, more widely ramified. There has all along been higher specialization, that there might be a larger generalization ; and a deeper analysis, that there might be a better synthesis. Each larger gen- eralization has lifted sundry specializations still higher ; and each better synthesis has prepared the way for still deeper analysis. And here we may fitly enter upon the task awhile since indicated — a sketch of the Genesis of Science, regarded as a gradual outgrowth from common knowledge — an exten- sion of the perceptions by the aid of the reason. We pro- pose to treat it as a psychological process historically dis- played ; tracing at the same time the advance from qualita- tive to quantitative prevision ; the progress from concrete facts to abstract facts, and the application of such abstract facts to the analysis of new orders of concrete facts ; the simultaneous advance in gereralization and specialization ; the continually increasing subdivision and reunion of the sciences ; and their constantly improving consensus. To trace out scientific evolution from its deepest roois would, of course, involve a complete analysis of the mind. For as science is a development of that common knowledge acquired by the unaided senses and uncultured reason, so is that common knowledge itself gradually built up out of the simplest perceptions. We must, therefore, begin somewhere abruptly ; and the most appropriate stage to take for our point of departure will be the adult mind of the savage. Commencing thus, without a proper preliminary analy- sis, we are naturally somewhat at a loss how to present, in a satisfactory manner, those fundamental processes of thought out of which science ultimately originates. Per- WHERE INTELLIGENCE BEGINS. 147 haps our argument may be best initiated by the proposi tion, that all intelligent action whatever depends upon the discernino^ of distinctions amonsc surrounding things. The condition under which only it is possible for any creature to obtain food and avoid danger is, that it shall be differ- ently affected by different objects — that it shall be led to act in one way by one object, and in another way by another. In the lower orders of creatures this condition is fulfilled by means of an apparatus which acts automatically. In the higher orders the actions are partly automatic, partly conscious. And in man they are almost wholly conscious. Throughout, however, there must necessarily exist a certain classification of things according to their properties — a classification which is either organically registered in the system, as in the inferior creation, or is formed by experience, as in ourselves. And it may be further re- marked, that the extent to which this classification is carried, roughly indicates the height of intelligence — that, while the lowest organisms are able to do little more than discriminate organic from inorganic matter ; while the generality of animals carry their classifications no further than to a limited number of plants or creatures serving for food, a limited number of beasts of prey, and a limited number of places and materials ; the most degraded of the human race possess a knowledge of the distinctive natures of a great variety of substances, plants, animals, tools, per- sons, ttc, not only as classes but as individuals. What now is the mental process by which classification is effected ? Manifestly it is a recognition of the likeness or unlike7iess of things, either in respect of their sizes, colours, forms, weights, textures, tastes, &c., or in respect of their modes of action. By some special mark, sound, or motion, the savage identifies a certain four-legged crea- ture he sees, as one that is good for food, and to be caught 14:8 THE GENESIS OF SCIENCE. in a particular way ; or as one that is dangerous ; and acts accordingly. He has classed together all the creatures that are alike in this particular. And manifestly in choos- ing the wood out of which to form his bow, the plant with which to poison his arrows, the bone from which to make his fish-hooks, he identifies them through their chief sensi- ble properties as belonging to the general classes, wood, plant, and bone, but distinguishes them as belonging to sub-classes by virtue of certain properties in which they are imliJce the rest of the general classes they bielongto; and so forms genera- and species. And here it becomes manifest that not only is classifica- tion carried on by grouping together in the mind things that are like ; but that classes and sub-classes are formed and arranged according to the degrees ofunlikeness. Things widely contrasted are alone distinguished in the lower stages of mental evolution ; as may be any day observed in an infant. And gradually as the powers of discrimination increase, the widely contrasted classes at first distinguished, come to be each divided into sub-classes, differing from each other less than the classes differ ; and these sub-classes are again divided after the same manner. By the continu- ance of which process, things are gradually arranged into groups, the members of which are less and less unlike / ending, finally, in groups whose members differ only as individuals, and not specifically. And thus there tends ultimately to arise the notion of complete likeness. For manifestly, it is impossible that groups should continue to be sub-divided in virtue of smaller and smaller differences, without there being a simultaneous approximation to the notion of no difference. Let us next notice that the recognition of likeness and unlikeness, which underlies classification, and out of which continued classification evolves the idea of complete like- ness — ^let us next notice that it also underlies the process THE KOOT OF PEIMITIYE LAl^rGUAGE. 149 of naming^ and by consequence language. For all lan- guage consists, at the beginning, of symbols wLich are as like to the things symbolized as it is practicable to make them. The language of signs is a means of conveying ideas by mimicking the actions or peculiarities of the things re- ferred to. Verbal language is also, at the beginning, a mode of suggesting objects or acts by imitating the sounds which the objects make, or with which the acts are accom- panied. Originally these two languages were used simul- taneously. It needs but to w^atch the gesticulations with which the savage accompanies his speech — to see a Bush- man or a Kaffir dramatizing before an audience his mode of catching game — or to note the extreme paucity of words in all primitive vocabularies ; to infer that at first, attitudes, gestures, and sounds, were all combined to pro- duce as good a likeness as possible, of the things, animals, persons, or events described ; and that as the sounds came to be understood by themselves the gestures fell into dis- use : leaving traces, however, in the manners of the more excitable civilized races. But be this as it may, it suffices simply to observe, how many of the words current among barbarous peoples are Kke the sounds appertaining to the things signified ; how many of our own oldest and simplest words have the same peculiarity ; how children tend to in- vent imitative words ; and how the sign-language sponta- neously formed by deaf mutes is invariably based upon imitative actions — to at once see that the notion of likeness is that from which the nomenclature of objects takes its rise. "Were there space we might go on to point out how this law of life is traceable, not only in the origin but in the de- velopment of language ; how in primitive tongues the plu- ral is made by a duplication of the singular, which is a multiplication of the word to make it like the multiplicity of the things ; how the use of metaphor — that prolific I50 THE GENESIS OF SCIENCE. source of new words — is a suggesting of ideas that are liJce the ideas to be conveyed in some respect or other ; and how, in the copious use of simile, fable, and allegory among uncivilized races, we see that complex conceptions, which there is yet no direct language for, are rendered, by pre- senting known conceptions more or less like them. This view is further confirmed, and the predominance of this notion of likeness in primitive times further illus- trated, by the fact that our system of presenting ideas to the eye originated after the same fashion. Writing and printing have descended from picture-language. The ear- liest mode of permanently registering a fact was by depict- ing it on a wall ; that, is — ^by exhibiting something as like to the thing to be remembered as it could be made. Grad- ually as the practice grew habitual and extensive, the most frequently repeated forms became fixed, and presently ab- breviated ; and, passing through the hieroglyphic and ideo- graphic phases, the symbols lost all apj)arent relations to the things signified : just as the majority of our spoken words have done. Observe again, that the same thing is true respecting the genesis of reasoning. The likeness that is perceived to exist between cases, is the essence of all early reasoning and of much of our present reasoning. The savage, hav- ing by experience discovered a relation between a certain object and a certain act, infers that the like relation will be found in future cases. And the expressions we constantly use in our arguments — " analogy implies," " the cases are not parallel,'''* ''''hj parity of reasoning," " there is no simi- larity,'''* — show how constantly the idea of likeness under- lies our ratiocinative processes. Still more clearly will this be seen on recognising the fact that there is a certain parallelism between reasoning and classification ; that the two have a common root ; and Ihat neither can go ou without the other. For on the one THE NATURE OF LIKENESS IN REASONING AND ART. 151 hand, it is a familiar trutli that the attributing to a body iu consequence of some of its properties, all those other prop- erties iu virtue of which it is referred to a particular class, is an act of inference. And, on the other hand, the form- ing of a generalization is the putting together in one class, all those cases which present like relations ; while the draw^ ing a deduction is essentially the perception that a particu- lar case belongs to a certain class of cases previously gener- alized. So that as classification is a grouping togetlier of like things / reasoning is a grouping together of like rela- tions among things. Add to which, that while the perfec- tion gradually achieved in classification consists in the form- ation of groups of objects which are completely alike / the perfection gradually achieved in reasoning consists iu the formation of groups of cases which are co'mpletely alike. Once more we may contemplate this dominant idea of likeness as exhibited in art. All art, civilized as well as savage, consists almost wholly in the making of objects like other objects ; either as found in Mature, or as produced by previous art. If w^e trace back the varied art-products DOW existing, we find that at each stage the divergence from pre\dous patterns is but small when compared with the agreement ; and in the earliest art the persistency of imitation is yet more conspicuous. The old forms and ornaments and symbols were held sacred, and perpetually copied. Indeed, the strong imitative tendency notoriously displayed by the lowest human races, ensures among them a constant reproducing of likenesses of things, forms, signs, sounds, actions, and whatever else is imitable ; and we may even suspect that this aboriginal peculiarity is in some way connected with the culture and development of this gen- eral conception, which we have found so deep and wide- tjpread in its applications. And now let us go on to consider how, by a further onfolding of this same fundamental notion, there is a grad- L52 THE GENESIS OF SCIENCE. aal formation of the first germs of science. This idea ol likeness which underlies classification, nomenclature, lan- guage spoken and written, reasoning, and art ; and which plays so important a part because all acts of intelligence are made possible only by distinguishing among surround* ing things, or grouping them into like and unlike ; — this idea we shall find to be the one of which science is the es- pecial product. Already during the stage we have been describing, there has existed qualitative prevision in re- spect to the commoner phenomena with which savage life is familiar ; and we have now to inquire how the elements of quantitative prevision are evolved. We shall find that they originate by the perfecting of this same idea of like- ness ; that they have their rise in that conception of com,- plete likeness which, as we have seen, necessarily results from the continued process of classification. For when the process of classification has been carried tis far as it is possible for the uncivilized to carry it — when the animal kingdom has been grouped not merely into quadrupeds, birds, fishes, and insects, but each of these di- vided into kinds — when there come to be sub-classes, in each of which the members differ only as individuals, and not specifically ; it is clear that there must occur a frequent observation of objects which differ so little as to be indis- tinguishable. Among several creatures which the savage has killed and carried home, it must often happen that some one, which he wished to identify, is so exactly like another that he cannot tell which is which. Thus, then, there originates the notion of equality. The things which among ourselves are called equal — whether lines, angles, weights, temperatures, sounds or colours — are things which produce in us sensations that cannot be distinguished from each other. It is true that we now apply the word equal chiefly to the separate phenomena which objects exhibit, and not to groups of phenomena ; but this limitation of the IDEAS OF EQUALITY AND SIMILAKITY. 153 idea has evidently arisen by subsequent analysis. And that the notion of equality did thus originate, will, we think, become obvious on remembering that as there were no ar- tificial objects from which it could have been abstracted, it must have been abstracted from natural objects ; and that the various families of the animal kingdom chiefly furnish those natural objects which display the requisite exactitude of likeness. The same order of experiences out of which this gene- ral idea of equality is evolved, gives birth at the same time to a more complex idea of equality ; or, rather, the process just described generates an idea of equality which further experience separates into two ideas — equality of things 2i\i^ equality of relations. While organic, and more especially animal forms, occasionally exhibit this perfection of likeness out of which the notion of simple equality arises, they more frequently exhibit only that kind of likeness which we call similarity / and which is really compound equality. For the similarity of two creatures of the same species but of different sizes, is of the same nature as the similarity of two geometrical figures. In either case, any two parts of the one bear the same ratio to one another, as the homologous parts of the other. Given in any species, the proportions found to exist among the bones, and we may, and zoologists do, predict from any one, the dimensions of the rest ; just as, when knowing the proportions subsisting among the parts of a geometrical figure, we may, from the length of one, calculate the others. And if, in the case of similar geome- trical figures, the similarity can be established only by proving exactness of proportion among the homologous parts ; if we express this relation between two parts in the one, and the corresponding parts in the other, by the for- mula A is to B as a is to b ; if we otherwise write this, A to B=a to h ; if, consequently, the fact we prove is that the relation of A to B equals the relation of a to h ; then 154 THE GENESIS OF SCIENCE. it is manifest that tlie fundamental conception of similarity is equality of relations. With this explanation we shall be understood when we say that the notion of equality of relations is the basis of all exact reasoning. Already it has been shown that reasoning in general is a recognition of liJceness of relations ; and here we further find that while the notion of likeness of things ultimately evolves the idea of simple equality, the notion of hkeness of relations evolves the idea of equality of relations : of which the one is the concrete germ of ex- act science, while the other is its abstract germ. Those who cannot understand how the recognition o^ similarity in creatures of the same kind, can have any alli- ance with reasoning, will get over the difficulty on remem- bering that the phenomena among which equality of rela- tions is thus perceived, are phenomena of the same order and are present to the senses at the same time ; while those •among which developed reason perceives relations, are gen- erally neither of the same order, nor simultaneously present. And if further, they will call to mind how Cuvier and Owen, from a single part of a creature, as a tooth, construct the rest by a process of reasoning based on this equality of re- lations, they will see that the two things are intimately connected, remote as they at first seem. But we anticipate. What it concerns us here to observe is, that from familiari- ty with organic forms there simultaneously arose the ideas of simple equality^ and equality of relations. At the same time, too, and out of the same mental pro- cesses, came the first distinct ideas of number. In the earli- est stages, the presentation of several like objects produced merely an indefinite conception of multiplicity ; as it still does among Australians, and Bushmen, and Damaras, when the number presented exceeds three or four. With such a fact before us we may safely infer that the first clear numer- ical conception was that of duality as contrasted with uni- THE GERM OF NUMERICAL IDEAS. 155 ty. And this notion of duality must necessarily have grown up side by side with those of likeness and equality ; seeing that it is impossible to recognise the likeness of two things without also perceiving that there are two. From the very beginning the conception of number must have been, as it is still, associated with the likeness or equality of the things numbered. If we analyze it, we find that sim- ple enumeration is a registration of repeated impres- sions of any kind. That these may be capable of enu- meration it is needful that they be more or less alike ; and before any absolutely true numerical results can be reach- ed, it is requisite that the units be absolutely equal. The only way in which we can establish a numerical relation- ship between things that do not yield us like impressions, is to divide them into parts that do yield us like impres- sions. Two unhke magnitudes of extension, force, time, weight, or what not, can have their relative amounts esti- mated, only by means of some small unit that is contained many times in both ; and even if we finally write down the greater one as a unit and the other as a fraction of it, we state, in the denominator of the fraction, the number of parts into which the unit must be divided to be compara- ble with the fraction. It is, indeed, true, that by an evidently modern process of abstraction, we occasionally apply numbers to unequal units, as the furniture at a sale or the various animals on a farm, simply as so many separate entities ; but no true result can be brought out by calculation with units of this order. And, indeed, it is the distinctive peculiarity of the calculus in general, that it proceeds on the hypothesis of that abso- lute equality of its abstract units, which no real units pos- sess ; and that the exactness of its results holds only in virtue of this hypothesis. The first ideas of number must necessarily then have been derived from like or equal mag- nitudes as seen chiefly in organic objects ; and as the like 150 THE GENESIS OF SCIENCE. magnitudes most frequently observed were magnitudes of extension, it follows that geometry and arithmetic had a simultaneous origin. Kot only are the first distinct ideas of number co-ordin ate with ideas of likeness and equality, but the first efforts at numeration displayed the same relationship. On read- ing the accounts of various savage tribes, we find that the method of counting by the fingers, still followed by many children, is the aboriginal method. Neglecting the several cases in which the ability to enumerate does not reach even to the number of fingers on one hand, there are many cases in which it does not extend beyond ten — the limit of the simple finger notation. The fact that in so many instances, remote, and seemingly unrelated nations, have adopted ten as their basic number ; together with the fact that in the re- maining instances the basic number is either^?;e (the fingers of one hand) or twenty (the fingers and toes) ; almost of themselves show that the fingers were the original units of numeration. The still surviving use of the word digits as the general name for a figure in arithmetic, is significant ; and it is even said that our word ten (Sax. tyn ; Dutch, tien ; German, zehn) means in its primitive expanded form two hands. So that originally, to say there were ten things, was to say there were two hands of them. From all which evidence it is tok'rably clear that the earliest mode of conveying the idea of any number of things, was by holding up as many fingers as there were things ; that is— using a symbol which W2i& equals in respect of multiplicity, to the group symbolized. For which infer- ence there is, indeed, strong confirmation in the recent statement that our own soldiers are even now spontaneous- ly adopting this device in their dealings with the Turks. And here it should be remarked that in this recombination of the notion of equality with that of niultiplicity, by which the first steps in numeration are effected, we may see one EAULT INTELLECTUAL QEOWTHS NON-SERL\X. 157 of the earliest of those inosculations between the diveroinfr branches of science, which are afterwards of perpetual occur- rence. Indeed, as this observation suggests, it will be well, be- fore tracing the mode in which exact science finally emerges from the merely approximate judgments of the senses, and showing the non-serial evolution of its divisions, to note the non-serial character of those preliminary processes of which all after development is a continuation. On re-con- sidering them it will be seen that not only are they diver- gent growths from a common root, — not only are they sim- ultaneous in their progress ; but that they are mutual aids ; and that none can advance without the rest. That com- pleteness of classification for which the unfolding of the perceptions paves the way, is impossible without a corre- sponding progress in language, by which greater varieties of objects are thinkable and expressible. On the one hand it is impossible to carry classification far without names by which to designate the classes ; and on the other hand it is impossible to make language faster than things are classi- fied. Again, the multiplication of classes and the consequent narrowing of each class, itself involves a greater likeness among the things classed together ; and the consequent ap- proach towards the notion of complete likeness itself allows classification to be carried higher. Moreover, classification necessarily advances pari passu with rationality — the clas- sification of things Avith the classification of relations. For things that belong to the same class are, by implication, things of which the properties and modes of behaviour — the co-existences and sequences — are more or less the same ; and the recognition of this sameness of co-existences and sequences is reasoning. Whence it follows that the advance of classification is necessarily proportionate to the advance of generalizations' Yet further, the notion of likeness^ both 1.58 THE GENESIS OF SCIENCE. in tilings and relations, simultaneously evolves by one pro- cess of culture the ideas of equality of things and equality of relations ; which are the respective bases of exact con- crete reasoning and exact abstract reasoning — Mathematics and Logic. And once more, this idea of equality, in the very process of being formed, necessarily gives origin to two series of relations — those of magnitude and those of number: from which arise geometry and the calculus. Thus the process throughout is one of perpetual subdivision and perpetual intercommunication of the divisions. From the very jBrst there has been that consensus of different kinds of knowledge, answering to the consensus of the intellectual faculties, which, as already said, must exist among the sci- ences. Let us now go on to observe how, out of the notions of equality and number^ as arrived at in the manner described, there gradually arose the elements of quantitative prevision. • Equality, once having come to be definitely conceived, was readily applicable to other phenomena than those of magnitude. Being predicable of all things producing indis- tinguishable impressions, there naturally grew up ideas of equaUty in weights, sounds, colours, &c. ; and indeed it can scarcely be doubted that the occasional experience of equal weights, sounds, and colours, had a share in developing the abstract conception of equality — that the ideas of equality in size, relations, forces, resistances, and sensible proper- ties in general, were evolved during the same period. But however this may be, it is clear that as fast as the no- tion of equality gained definiteness, so fast did that lowest kind of quantitative prevision which is achieved without any instrumental aid, become possible. The ability to estimate, however roughly, the amount of a foreseen result, implies the conception that it will be equal to a certain imagined quantity ; and the correctness of the estimate will manifestly depend upon the accuracy at QUANTITATIVE EVOLUTION OF KNOWLEDGE. 159 wliich the perceptions of sensible equality have arrived. A savage with a piece of stone in his hand, and another piece lying "before him of greater bulk but of the same kind (a fact which he infers from the equality of the two in colour and texture) knows about w^hat effort he must put forth to raise this other piece; and he judges accurately in propor- tion to the accuracy with wliich he perceives that the one is twice, three times, four times, &c. as large as the other ; that is — in proportion to the precision of his ideas of equali- ty and number. And here let us not omit to notice that even in these vaguest of quantitative previsions, the concep- tion o^ equality of relations is also involved. For it is only in virtuci of an undefined perception that the relation be- tween bulk and weight in the one stone is equal to the re- lation between bulk and weight in the other, that even the roughest approximation can be made. But how came the transition from those uncertain per- ceptions of equality which the unaided senses give, to the certain ones with which science deals ? It came by placing the things compared in juxtaposition. Equality being pre- dicated of things w^hich give us indistinguishable impres- sions, and no accurate comparison of impressions being possible unless they occur in immediate succession, it re- sults that exactness of equality is ascertainable in propor- tion to the closeness of the compared things. Hence the fact that when we wish to judge of two shades of colour whether they are alike or not, we place them side by side ; hence the fact that we cannot, with any precision, say which of two allied sounds is the louder, or the higher in pitch, unless w' e hear the one immediately after the other ; hence the fact that to estimate the ratio of w^eights, we take one m each hand, that we may compare their j^ressures by rap- idly alternating in thought from the one to the other ; hence the fact, that in a piece of music, we can continue to make equal beats when the first beat has been given, but cannot 160 THE GENESIS OF SCIENCE. ensure commencing with the same length of beat on a fu- ture occasion ; and hence, lastly, the fact, that of all magni- tudes, those of linear extension are those of which the equality is most accurately ascertainable, and those to which by consequence all others have to be reduced. For it is the peculiarity of linear extension that it alone allows its magnitudes to be placed in absolute juxtaposition, or, rather, in coincident position ; it alone can test the equality of two magnitudes by observing whether they will coalesce, cis two equal mathematical lines do, when placed between the same points ; it alone can test equality by trying wheth- er it will become identity. Hence, then, the fact, that all exact science is reducible, by an ultimate analysis, to results measured in equal units of linear extension. Still it remains to be noticed in what manner this deter- mination of equality by comparison of linear magnitudes originated. Once more may we perceive that surrounding n3,tural objects supplied the needful lessons. From the be- ginning there must have been a constant experience of like things placed side by side — men standing and walking to- gether ; animals from the same herd ; fish from the same shoal. And the ceaseless repetition of these experiences could not fail to suggest the observation, that the nearer together any objects were, the more visible became any in- equality between them. Hence the obvious device of put- ting in apposition, things of which it was desired to ascer- tain the relative magnitudes. Hence the idea of measure. And here we suddenly come upon a group of facts which afford a solid basis to the remainder of our argument; while they also furnish strong evidence in support of the forego- ing speculations. Those who look sceptically on this at- tempted rehabilitation of the earliest epochs of mental de- velopment, and who more especially think that the derivation of so many primary notions from organic forms is somewhat strained, will perhaps see more probability in the several DEVELOPMENT OF THE IDEA OF MEASUEE. 161 Ijypoth<3ses that have been ventured, on discoYcring that all measures of exte?is ion and force originated from the lengths and weights of organic bodies ; and all measures of time from the periodic phenomena of either organic or inorganic bodies. Thus, among linear measures, the cubit of the Hebrews was the length of the forearm from the elbow to the end of the middle finger ; and the smaller scriptural dimensions are expressed in hand-hreadths and spans. The Egyptian cubit, which was similarly derived, was divided into digits, which were finger-breadths / and each finger-breadth was more definitely expressed as being equal to four grains of barley placed breadthwise. Other ancient measures were the orgyia or stretch of the arms, the pace, and the palm. So persistent has been the use of these natural units of length in the East, that even now some of the Arabs mete out cloth by the forearm. So, too, is it with European measures. The foot prevails as a dimension throughout Europe, and has done since the time of the Romans, by whom, also, it was used : its lengths in difierent places va- rying not much more than men's feet vary. The heights of horses are still expressed in hands. The inch is the length of the terminal joint of the thumb ; as is clearly shown in France, where joowce means both thumb and inch. Then we have the inch divided into three barley-corns. So completely, indeed, have these organic dimensions served as the substrata of all mensuration, that it is only by means of them that we can form any estimate of some of the ancient distances. For example, the length of a degree on the Earth's surface, as determined by the Ara- bian astronomers shortly after the death of Haroun-al-Ras- chid, was fifty-six of their miles. We know nothing of their mile further than that it was 400Q cubits ; and whether these were sacred cubits or common cubits, would remain ioubtful, but that the length of the cubit is given as twen- 162 THE GENESIS OF SCIENCE. ty-seveu iiiches, and each inch defined as the thickness of six barley- grains. Thus one of the earliest measurements of a degree comes down to us in barley-grains. Not only did organic lengths furnish those approximate measures which satisfied men's needs in ruder ages, but they fur- nished also the standard measures required in later limes. One instance occurs in our own history. To remedy the irregularities then prevailing, Henry I. com- manded that the ulna, or ancient ell, which answers to the modern yard, should be made of the exact length of his own arm. Measures of weight again had a like derivation. Seeds seem commonly to have supplied the unit. The original of the carat used for weighing in India is a small hean. Our own systems, both troy and avoirdupois, are derived primarily from wheat-corns. Our smallest weight, the grain, is a grain of wheat. This is not a speculation ; it is fyi historically registered fact. Henry HI. enacted that an ounce should be the weight of 640 dry grains of wheat from the middle of the ear. And as all the other w^eights are multiples or sub-multiples of this, it follows that the grain of wheat is the basis of our scale. So natural is it to use organic bodies as weights, before artificial weights have been established, or where they are not to be had, that in some of the remoter parts of Ireland the people are said to be in the habit, even now, of putting a man into the scales to serve as a measure for heavy com* modities. Similarly with time. Astronomical periodicity, and the periodicity of animal and vegetable hfe, are simultaneously used in the first stages of progress for estimating epochs. The simplest unit of time, the day, nature supplies ready made. The next simplest period, the mooneth or month, is also thrust upon men's notice by the conspicuous changes constituting a lunation. For larger divisions than thesCj PEEVimVE MEASUREMENTS OF TIME. 163 iho phenomena of the seasons, and the chief events from time to time occurring, have been used by early and un- civilized races. Among the Egyptians the rising of the Nile served as a mark. The New Zealanders were found to begin their year from the reappearance of the Pleiades above the sea. One of the uses ascribed to birds, by the Greeks, was to indicate the seasons by their migrations. Barrow describes the aboriginal Hottentot as denoting periods by the number of moons before or after the ripen- m a. priori conclusion was drawn. It may be well to add that Kirch hoff, to whom we owe this discovery respecting the consti- tution of the solar atmosphere, himself remarks in his me- moir of 1861, that the facts disclosed are in harmony with the ISTebular Hypothesis. And here let us not omit to note also, the significant bearing which Kirchhoff's results have on the doctrine con- tended for in a foregoing section. Leaving out the barium, copper, and zinc, of which the quantities are inferred to be small, the metals existing as vapours in the Sun's atmo- sphere, and by consequence as molten in his incandescent body, have an average specific gravity of 4*25. But the average specific gravity of the Sun is about 1. How is this discrepancy to be explained ? To say that the Sun consists almost wholly of the three lighter metals named, would be quite unwarranted by the evidence : the results of spectrum-analysis would just as much warrant the asser- tion that the Sun consists almost wholly of the three heav- ier. Three metals (two of them heavy) having been al- ready left out of the estimate because their quantities ap- pear to be small, the only legitimate assumption on which to base an estimate of specific gravity, is that the rest are present in something Uke equal amounts. Is it then that the lighter metals exist in larger proportions in the molten mass, though not in the atmosphere ? This is very un* likely : the known habitudes of matter rather imply that the reverse is the case. Is it then that under the condi- tions of temperature and gravitation existing in the Sun, the state of liquid aggregation is wholly unlike that exist- ing here ? This is a very strong assumption : it is one for rEOBABLE CONSTITUTION OF THE SUN. 297 which our terrestrial experiences afford no adequate war rant ; and if such unlikeness exists, it is very improbable that it should produce so immense a contrast in specific gravity as that of 4 to 1. The more legitimate conclusion is that the Sun's body is not made up of molten matter all through ; but that it consists of a molten shell with a gaseous nucleus. And this we have seen to be a corollary from the Nebular Hypothesis. Considered in their ensemble^ the several groups of evi- dences assigned amount almost to proof. We have seen that, when critically examined, the speculations of late years current respecting the nature of the nebulae, commit their promulgators to sundry absurdities ; while, on the other hand, we see that the various appearances these neb- ulae present, are explicable as different stages in the precip- itafion and aggregation of diffused matter. We find that comets, alike by their physical constitution, their immense- ly-elongated and variously-directed orbits, the distribution of those orbits, and their manifest structural relation to the Solar System, bear testimony to the past existence of that system in a nebulous form. Not only do those obvious peculiarities in the motions of the planets which first sug- gested the Nebular Hypothesis, supply proofs of it, but on closer examination we discover, in the slightly-diverging inclinations of their orbits, in their various rates of rotation, and their differently-directed axes of rotation, that the planets yield us yet further testimony ; while the satellites, by sundry traits, and especially by their occurrence in greater or less abundance where the hypothesis implies greater or less abundance, confirm this testimony. By tracing out the process of planetary condensation, we are led to conclusions respecting the internal structure of plan- ets which at once explain their anomalous specific gravities, and at the same time reconcile various seemingly contra* 13* 298 THE NEBULAE HYPOTHESIS. Victory facts. Once more, it turns out that what is a ptnori inferable from the Nebular Hypothesis respecting the tem- peratures of the resulting bodies, is just what observation establishes ; and that both the absolute and the relative temperatures of the Sun and planets are thus accounted for. When we contemplate these various evidences in their totality — when we observe that, by the l^ebular Hy- pothesis, the leading phenomena of the Solar System, and the heavens in general, are explicable ; and when, on the other hand, we consider that the current cosmogony is not only without a single fact to stand on, but is at variance with all our positive knowledge of Nature ; we see that the proof becomes overwhelming. It remains only to point out that while the genesis of the Solar System, and of countless other systems like it, is thus rendered comprehensible, the ultimate mystery con- tinues as great as evel*. The problem of existence is- not solved : it is simply removed further back. The Nebular Hypothesis throws no light on the origin of diffused mat- ter : and diffused matter as much needs accountinoj for as concrete matter. The genesis of an atom is not easier to conceive than the genesis of a planet. Nay, indeed, so far from making the Universe a less mystery than before, it makes it a greater mystery. Creation by manufacture is a much lower thing than creation by evolution. A man can put together a machine ; but he cannot make a machine develop itself. The ingenious artizan, able as some have been, so far to imitate vitality as to produce a mechanical pianoforte-player, may in some sort conceive how, by greater skill, a complete man might be artificially pro- duced ; but he is unable to conceive how such a complex organism gradually arises out of a minute structureless germ. That our harmonious universe once existed poten- tially as formless diffused matter, and has slowly grown into its present organized state, is a far more astonishing THE ULTIMATE MYSTERY STILL UNSOLVED. 299 fact than would have been its formation after the artificial method vulgarly supposed. Those who hold it legitimate to argue from phenomena to noumena, may rightly contend that the Nebular Hypothesis implies a First Cause as much transcending " the mechanical God of Paley," as this does the fetish of the savage. VII. BAIN ON THE EMOTIONS AND THE WILL, AFTER the controversy between the Nep tunists and the Vulcanists had been long carried on without defi- nite results, there came a reaction against all speculative geology. Reasoning without adequate data having led to nothing, inquirers went into the opposite extreme, and con- fining themselves wholly to collecting data, relinquished j:easoning. The Geological Society of London was formed with the express object of accumulating evidence ; for many years hypotheses were forbidden at its meetings ; and only of late have attempts to organize the mass of observations into consistent theory been tolerated. This reaction and subsequent re-reaction, well illustrate the recent history of English thought in general. The time was when our countrymen speculated, certainly to as great an extent as any other people, on all those high ques- tions which present themselves to the human intellect ; and, indeed, a glance at. the systems of philosophy that are or have been current on the Continent, suflices to show how much other nations owe to the discoveries of our ances- tors. For a generation or two, however, these more ab- stract subjects have fallen into neglect ; and, among those who plume themselves on being " practical," even into con* PRESENT TENDENCIES OP iNQTTlRr. 301 tempt. Partly, perhaps, a natural accompaniment of our rapid material growth, this intellectual phase has been iu great measure due to the exhaustion of argument, and the necessity for better data. Not so much with a conscious recognition of the end to be subserved, as from an uncon- scious subordination to that rhythm traceable in social changes as in other things, an era of theorizing without observing, has been followed by an era of observing with- out theorizino:. Durins^ the lon,'irl,ly by Uu/ir ovporuirKJcM of vv.u- U'sil inof.ioiiM ifi t(!rrcMt,riril r)bj(!(!l,M, willi wlii(tli, tiA all (;iro[)(!rni(:uM to mIjow that tho helioccfitric tlK^rji-y \h nioro fuaMibl(5 than tho gfjocusntrif! theory; or for TO!()h!r to hIjow that tln5 platietH move roimd the sun in clllp«oji. Yet aj^ain, without the aid of this approximate truth discovered by T\c[)h!r, Kewton could not iiave eMtabli.Mhrid that f^cnurn] l;i,vv from whi(5h it f«dlowH, that the motion of a hj'avenly body roimd itn centre of gravity is not neresMatily in an (•llij)M«, but maybe in any conie HCctioti. And laMlly, it ^nn only after the law (yf gravitation Ijad been verififid, that it beearn(! [iOM«ibl(! to dc.terminrj the actual eournes of j)h'un!tM, mitJillitcM, and (jornctrt ; afiil to prov(5 that, in eon- H( der of superposition of strata, and their respective physical characters ; Werner drew the inference that strata of hke characters succeeded each other in like order over the en- tire surface of the Earth. And seeing, from the laminated structure of many formations and the organic remains con- tained in others, that they were sedimentary ; he further inferred that these universal strata had been in succession precipitated from a chaotic menstruum w^hich once cov- ered our planet. Thus, on a very incomplete acquaintance with a thousandth j)art of the Earth's crust, he based a sweeping generalization applying to the whole of it. This Neptunist hypothesis, mark, borne out though it seemed to be by the most conspicuous surrounding facts, was quite untenable if analyzed. That a uniyersal chaotic menstruum should deposit, one after another, numerous sharply-defined strata, differing from each other in composition, is incom- prehensible. That the strata so deposited should contain the remains of plants and animals, which could not have •lived under the supposed conditions, is still more incom- prehensible. Physically absurd, however, as was this hypo- thesis, it recognized, though under a distorted form, one of the great agencies of geological change — that of water. It served also to express the fact that the formations of the Earth's crust stand in some kind of order. Further, it did a little towards supplying a nomenclature, without which much progress was impossible. Lastly, it furnished a stand- ard with which successions of strata in various regions could be compared, the differences noted, and the actual sections tabulated. It was the first provisional generaliza- tion ; and was useful, if not indispensable, as a step to truer ones. Following this rude conception, which ascribed geologi- cal phenomena to one agency, acting during one primeval THE0EIE8 OF WEENER AND UL'TTON. 329 epoch, there came a greatly-improved conception, which ascribed them to two agencies, acting alternately during successive epochs. Ilutton, perceiving that sedimentary deposits were still being formed at the bottom of the sea from the detritus carried down by rivers ; perceiving, fur- ther, that the strata of which the visible surface chiefly con- sists, bore marks of having been similarly formed out of pre-existing land ; and inferring that these strata could have become land only by upheaval after their deposit ; concluded that throughout an indefinite past, there had been periodic convulsions, by which continents were raised, w^ith intervening eras of repose, during which such continents were worn down and transformed into new marine strata, fated to be in their turns elevated above the surface of the ocean. And finding that igneous action, to which sundry earlier geologists had ascribed basaltic rocks, was in count- less places a source of disturbance, he taught that from it resulted these periodic convulsions. In this theory we see : — first, that the previously-recognized agency of water was conceived to act, not as by Werner, after a manner of which we have no experience, but after a manner daily dis- played to us ; and second, that the igneous agency, before considered only as a cause of special formations, w^as rec- ognized as a universal agency, but assumed to act in an unproved way. Werner's sole process, Hutton developed from the catastrophic and inexplicable into the uniform and explicable ; while that antagonistic second process, of w^hich he first adequately estimated the importance, Vv^as regarded by him as a catastrophic one, and was not assimi- lated to known processes — ^not explained. We have here to note, however, that the facts collected and provisionally arranged in conformity with Werner's theory, served, after a time, to establish Hutton's more rational theory — in so far, at least, as aqueous formations, are concerned ; w^hile the doctrine of periodic subterranean convulsions, 332 ILLOGICAL GEOLOGY. Up to 1839 it was inferred, from their crystalline char, acter, that the metamorphic rocks of Anglesea are more ancient than any rocks of the adjacent main land; but it has since been shown that they are of the same age with the slates and grits of Carnarvon and Merioneth. Again, slaty cleavage having been first found only in the lowest rocks, was taken as an indication of the highest antiquity : whence resulted serious mistakes ; for this mineral characteristic is now known to occur in the Carboniferous system. Once more, certain red conglomerates and grits on the north-west coast of Scotland, long supposed from their lithological as- pect to belong to the Old Red Sandstone, are now identifi- ed with the Lower Silurians. These are a few instances of the small trust to be placed in mineral qualities, as evidence of the ages or relative posi- tions of strata. From the recently-published third edition of Silima, may be culled numerous facts of like implication. Sir R. Murchison considers it ascertained, that the siliceous Stiper stones of Shropshire are the equivalents of the Tre- madock slates of North Wales. Judged by their fossils, Bala slate and limestone are of the same age as the Cara- doc sandstone, lying forty miles off. In Radnorshire, the formation classed as upper Llandovery rock, is described at different spots, as " sandstone or conglomerate," " impure limestone," " hard coarse grits," " siliceous grit " — a consid- erable variation for so small an area as that of a county. Certain sandy beds on the left bank of the Towy, which Sir R. Murchison had, in his Silurian System^ classed as Caradoc sandstone (evidently from their mineral characters), he now finds, from their fossils, belong to the Llandeilo for- mation. Ii^evertheless, inferences from mineral characters are still habitually drawn and received. Though jSiluria, m common with other geological works, supplies numerous proofs that rocks of the same age are often of widely-dif- ferent composition a few miles off, while rocks of widely MINERAL CHARACTEES OF STRATA UNCERTAIN. 333 different ages are often of similar composition ; and though Sir. R. Murchison shows us, as in the case just cited, that he has himself in past times been misled by trusting to lith- ological evidence ; yet his reasoning, all through Slluria, shows that he still thinks it natural to expect formations of the same age to be chemically similar, even in remote re- gions. For example, in treating of the Silurian rocks of South Scotland, he says : — " When traversing the tract be- tween Dumfries and Mofi:it in 1850, it occurred to me that the dull reddish or purple sandstone and schist to the north of the former town, which so resembled the bottom rocks of the Longmynd, Llanberis, and St. David's, would prove to be of the same age ; " and further on he again insists upon the fact that these strata " are absolutely of the same composition as the bottom rocks of the Silurian region." On this unity of mineral character it is, that this Scot- tish formation is concluded to be contemporaneous with the lowest formations in Wales ; for the scanty palseontolo- gical evidence suffices neither for proof nor disproof. Now, had there been a continuity of like strata in like order be- tween Wales and Scotland, there might have been little to criticise in this conclusion. But since Sir R. Murchison himself admits, that in Westmoreland and Cumberland, some members of the system " assume a lithological aspect different from what they maintain in the Silurian and Welsh region," there seems no reason to expect mineralogical continuity in Scotland. Obviously therefore, the assump- tion that these Scottish formations are of the same ao;e with the Longmynd of Shropshire, implies the latent be- lief that certain mineral characters indicate certain eras. Far more striking instancies, however, of the influence of this latent belief remain to be given. 'Not in such com- paratively near districts as the Scottish lowlands only, does Sir R. Murchison expect a repetition of the Longmynd 33 '4 ILLOGICAL GEOLOGY. strata ; but in the Rhenish provinces, certain " qnartzose flagstones and grits, like those of the Longmynd," are seemingly concluded to be of contemporaneous origin, be- cause of their likeness. " Quartzites in roofing-slates with a greenish tinge that reminded us of the lower slates of Cumberland and Westmoreland," are evidently suspected to be of the same age. In Russia, he remarks that the car- boniferous limestones " are overlaid along the western edge of the Ural chain by sandstones and grits, which occupy much the same place in the general series as the millstone grit of England ; " and in calling this group, as he does, the " representative of the millstone grit," Sir R. Murchi- son clearly shows that he thinks likeness of mineral compo- sition some evidence of equivalence in time, even at that great distance. Nay, on the flanks of the Andes and in the United States, such similarities are looked for, and con- sidered as significant of certain ages. ]N"ot that Sir R. Mur- chison contends theoretically for this relation between litho- logical character and date. For on the page from which we have just quoted {Siluria, p. 387), he says, that "whilst the soft Lower Silurian clays and sands of St. Petersburg have their equivalents in the hard schists and quartz rocks with gold veins in the heart of the Ural mountains, the equally soft red and green Devonian marls of the Valdai Hills are represented on the western flank of that chain, by hard, contorted, and fractured limestones." But these, and other such admissions, seem to go for little. Whilst himself asserting that the Potsdam-sandstone of Korth America, the Lingula-flags of England, and the alum-slates of Scandinavia are of the same period — while fully aware that among the Silurian formations of Wales, there are oolitic strata like those of secondary age ; yet is his reason- ing more or less coloured by the assumption, that forma- tions of like qualities probably belong to the same era. Is it not manifest, then, that the exploded hypothesis of Wer- ner continues to influence geological speculation ? ASSUMED UNIVERSALITY OF fiTEATlFIED GROUPS. 335 " But," it will perhaps bo said, " though individual strata are not continuous over large areas, yet systems of strata are. Though within a few miles the same bed grad- ually passes from clay into sand, or thins out and disap- pears, yet the group of strata to which it belongs does not do so ; but maintains in remote regions the same relations to other groups." This is the generally-current belief. On this assump- tion the received geological classifications appear to be framed. The Silurian system, the Devonian system, the Carboniferous system, etc., are set down in our books as groups of formations which everywhere succeed each other in a given order; and are severally everywhere of the same age. Though it may not be asserted that these successive systems are universal ; yet it seems to be tacitly assumed that they are so. In Northland South America, in Asia, in Australia, sets of strata are assimilated to one or other of these groups ; and their possession of certain mineral characters and a certain order of superposition are among the reasons assigned for so assimilating them. Though, probably, no competent geologist would contend that the European classification of strata is applicable to the globe as a whole ; yet most, if not all geologists, write as though it were so. Among readers of works on Geology, nine out ten carry away the impression that the divisions. Primary, Secondary and Tertiary, are of absolute and uniform appli- cation ; that these great divisions are separable into subdi- visions, each of which is definitely distinguishable from the rest, and is everywhere recognizable by its characters as such or such ; and that in all parts of the Earth, these minor systems severally began and ended at the same time. When they meet with the term " carboniferous era," they take for granted that it was an era universally carbonife- rous — that it was, what Hugh Miller indeed actually de- scribes it, an era when the Earth bore a vegetation far 336 ILLOGICAL GEOLOGY. more luxuriant than it has since done ; and were they in any of our colonies to meet with a coal-bed, they would conclude that, as a matter of course, it was of the same age as the English coal-beds. ITow this belief that geologic " systems " are universal, is quite as untenable as the other. It is just as absurd w^hen considered a priori / and it is equally inconsistent with the facts. Though some series of strata classed to- gether as Oolite, may range over a wider district than any one stratum of the series ; yet we have but to ask what were the circumstances of its deposit, to see that the Oolitic series, like one of its individual strata, must be of local origin ; and that there is not likely to be anywhere else, a series that exactly corresponds, either in its characters or in its commencement and termination. For the formation of such a series implies an area of subsidence, in which its component beds were thrown down. Every area of sub- sidence is necessarily limited ; and to suppose that there exist elsewhere groups of beds completely answering to those known as Oolite, is to suppose that, in contempora- neous areas of subsidence, like processes were going on. There is no reason to suppose this; but every reason to suppose the reverse. That in contemporaneous areas of subsidence throughout the globe, the conditions would cause the formation of Oolite, or anything like it, is an as- sumption which no modern geologist would openly make : he would say that the equivalent series of beds found else- where, would very likely be of dissimilar mineral charac- ter. Moreover, in these contemporaneous areas of subsi- dence, the phenomena going on would not only be more or less different in kind ; but in no two cases would they be likely to agree in their commencements and terminations. The probabilities are greatly against separate portions of ^ihe Earth's surface beginning to subside at the same time. GEOLOGIC SYSTEMS NOT UNIVERSAL. 337 find ceasing to subside at the same time — a comcidence which alone could produce equivalent groups of strata. Subsidences in different places begin and end with utter irregularity ; and hence the groups of strata thrown down in them can but rarely correspond. Measured against each other in time, their limits will disagree. They will refuse to fit into any scheme of definite divisions. On turning to the evidence, we find that it daily tends more and more to justify these a priori positions. Take, as an example, the Old Ked Sandstone system. In the north of England this is represented by a single stratum of conglomerate. In Herefordshire, Worcestershire, and Shropshire, it expands into a series of strata from eight to ten thousand feet thick, made up of conglomerates, red, green, and white sand- stones, red, green, and spotted marls, and concretionary limestones. To the south-west, as between Caermarthen and Pembroke, these Old Red Sandstone strata exhibit considerable lithological changes ; and there is an absence of fossil fishes. On the other side of the Bristol Channel, they display further changes in mineral characters and re- mains. While in South Devon and Cornwall, the equiva- lent strata, consisting chiefly of slates, schists, and lime- stones, are so wholly different, that they were for a long time classed as Silurian. When we thus see that in certain directions the whole group of deposits thins out, and that its mineral characters as well as its fossils change within moderate distances ; does it not become clear that the whole group of deposits was a local one ? And when we find, in other regions, formations analogous to these Old Red Sandstone or Devonian formations ; is it certain — ^is it even probable — that they severally began and ended at the same time with them ? Should it not require overwhelm- ing evidence to make us believe as much ? Yet so strongly is geological speculation swayed by the tendency to regard the phenomena as general instead of 15 388 ILLOGICAL GEOLOGY. local, that even those most on their guard against it seem unable to escape its influence. At page 158 of his Princi- pies of Geology^ Sir Charles Lyell says : — " A group of red marl and red sandstone, containing salt and gypsum, being interposed in England between the Lias and the Ooal, all other red marls and sandstones, associated some of them with salt, and others with gypsum, and occurring not only in dif- ferent parts of Europe, but in North America, Peru, India, the salt deserts of Asia, those of Africa — in a word, in every quarter of the globe, were referred to one and the same period. . . . . . It was in vain to urge as an objection the improbability of the hypothesis which implies that all the moving waters on the globe were once simultaneously charged with sediment of a red colour. But the rashness of pretending to identify, in age, all the red sandstones and marls in question, has at length been suffi- ciently exposed, by the discovery that, even in Europe, they be- long decidedly to many different epochs." Nevertheless, while in this and numerous passages of like implication, Sir C. Lyell protests against the bias here illustrated, he seems himself not completely free from it. Though he utterly rejects the old hypothesis that all over the Earth the same continuous strata lie upon each other in regular order, like the coats of an onion, he still writes as though geologic " systems" do thus succeed each other. A reader of his Manual would certainly suppose him to believe, that the Primary epoch ended, and the Secondary epoch commenced, all over the world at the same time — that these terms really correspond to distinct universal eras in Nature. When he assumes, as he does, that the divis- ion between Cambrian and Lower Silurian in America, an- swers chronologically to the division between Cambrian and Lower Silurian in "Wales — when he takes for granted that the partings of Lower from Middle Silurian, and of Middle Silurian from Upper, in the one region, are of the same dates as the like partings in the other region ; does it CONTINUED INFLUENCE OF EXPLODED \riEWS. 339 not seem that he believes geologic " systems " to be uni- versal, in the sense that their separations were in all places contemporaneous ? Though he would, doubtless, disown this as an article of faith, is not his thinldng unconsciously influenced by it ? Must we not say that though the onion- coat hypothesis is dead, its spirit is traceable, under a trans- cendental form, even in the conclusions of its antagonists ? Let us now consider another leading geological doc- trine, introduced to us by the cases just mentioned. "VVe mean the doctrine that strata of the same age contain like fossils ; and that, therefore, the age and relative position of any stratum may be known by its fossils. While the the- ory that strata of like mineral characters were everywhere deposited simultaneously, has been ostensibly abandoned, there has been accepted the theory that in each geologic epoch similar plants and animals existed everywhere ; and that, therefore, the epoch to which any formation belongs may be known by the organic remains contained in the formation. Though, perhaps, no leading geologist would openly commit himself to an unqualified assertion of this theory, yet it is tacitly assumed in current geological rea- soning. This theory, however, is scarcdy more tenable than the other. It cannot be concluded with any certainty, that formations in which similar organic remains are found, were of contemporaneous origin ; nor can it be safely concluded that strata containing: difierent ors^anic remains are of dif- ferent ages. To most readers these will be startling propo- sitions ; but they are fully admitted by the highest author- ities. Sir Charles Lyell confesses that theltest of organic remains must be used " under very much the same restric- tions as the test of mineral composition." Sir Henry de la Beche, who variously illustrates this truth, gives, as one instance, the great mcongruity there must be between the 340 ILLOGICAL GEOLOGY. fossils of our caiboniferous rocks and those of the marine strata deposited at the same period. But though, in tha abstract, the danger of basing positive conclusions on evi- dence derived from fossils, is clearly recognized ; yet, in the concrete, this danger is generally disregarded. The estab- lished conclusions respecting the ages of strata, take but little note of it ; and by some geologists it seems altogether ignored. Throughout his Siluria^ Sir R. Murchison habit- ually assumes that the same, or kindred, species, lived in all parts of the Earth at the same time. In .Russia, in Bo- hemia, in the United States, in South America, strata are classed as belonging to this or that part of the Silurian sys- tem, because of the similar fossils contained in them — are concluded to be everywhere contemporaneous if they en- close a proportion of identical or allied forms. In Russia the relative position of a stratum is inferred from the fact that, along with some Wenlock forms, it yields the JPeiita- inerus ohlongus. Certain crustaceans called Eurypteri, be- ing characteristic of the Upper Ludlow rock, it is remarked that " large Eurypteri occur in a so-called black grey-wacke slate in Westmoreland, in Oneida County, New York, which will probably be found to be on the parallel of the Upper Ludlow rock : " in which word " probably," we see both how dominant is this belief of universal distribution of similar creatures at the same period, and how apt this belief is to make its own proof, by raising the expectation that the a2:es are identical when the forms are alike. Be- sides thus interpreting the formations of Russia, England, and America, Sir R. Murchison thus interprets those of the antij)odes. Fossils from Victoria Colony, he agrees with the Government-surveyor in classing as of Lower Silurian or Llandovery age : that is, he takes for granted that when certain crustaceans and raollusks were living in Wales, cer- tain similar crustaceans and mollusks were living in Aus- tralia, THE TEST OF OKGANIO EEMAESTS. 341 Yet the improbability of this assumption may be readily shown from Sir R. Murchison's own facts. If, as he points out, the crustacean fossils of the uppermost Silurian rocks in Lanarkshire are, " with one doubtful exception," *' all distinct from any of the forms on the same horizon in Eng- land ; " how can it be fairly presumed that the forms exist- ing- on the other side of the Earth durin^r the Silurian period, were nearly allied to those existing here ? Not only, indeed, do Sir R. Murchison's conclusions tacitly as- sume this doctrine of universal distribution, but he distinctly enunciates it. "The mere presence of a graptolite," he says, " will at once decide that the enclosing rock is Silu- rian ; " and he says this, notwithstanding repeated warnings against such generalizations. During the progress of Geolo- gy, it has over and over again happened that a particular fossil, long considered characteristic of a particular forma- tion, has been afterwards discovered in other formations. Until some twelve years ago, Goniatites had not been found lower than the Devonian rocks; but now, in Bohemia, they have been found in rocks classed as Silurian. Quite re- cently, the Orthoceras, previously supposed to be a type exclusively palaeozoic, has been detected along with meso- zoic Ammonites and Belemnites. Yet hosts of such experi- ences fail to extinguish the assumption, that the age of a stratum may be determined by the occurrence in it of a single fossil form. Nay, this assumption survives evidence of even a still more destructive kind. Referring to the Silurian system in Western Ireland, Sir R. Murchison says, " in the beds near Maam, Professor Nicol and myself collected remains, some of which would be considered Lower, and others Upper, Silurian ; " and he then names sundry fossils which, in England, belong to the summit of the Ludlow rocks, or highest Silurian strata ; " some, which elsew^here are known only in rocks of Llandovery age," that is, of middle Silu- 342 ILLOGICAL GEOLOGY. rian age ; and some, only before known in Lower Siluriar strata, not far above the most ancient fossiliferous beds Now what do these facts prove ? Clearly, they prove that species which in Wales are separated by strata more than twenty thousand feet deep, and therefore seem to belong to periods far more remote from each other, were really coexistent. They prove that the mollusks and srinoids held characteristic of early Silurian strata, and supposed to have become extinct long before the mollusks and crinoids of the later Silurian strata came into existence, were really flourishing at the same time with these last; and that these last possibly date back to as early a period as the first. They prove that not only the mineral characters of sedi- mentary formations, but also the collections of organic forms they contain, depend, to a great extent, on local cir- cumstances. They prove that the fossils met with in any series of strata, cannot be taken as representing anything like the whole Flora and Fauna of the period they belong to. In brief, they throw great doubt upon numerous geo- logical generalizations. Notwithstanding facts like these, and notwithstanding his avowed opinion that the test of organic remains must be used " under very much the same restrictians as the test of mineral composition," Sir Charles Lyell, too, bases positive conclusions on this test : even where the community of fossils is slight and the distance great. Having decided that in various places in Europe, middle Eocene strata are distinguished by nummulites ; he infers, w^ithout any other assigned evidence, that wherever nummulites are found — in Morocco, Algeria, Egypt, in Persia, Scinde, Cutch, East- ern Bengal, and the frontiers of China — the containing for- mation is middle Eocene. And from this inference he draws the following important corollary : — ' "When we have once arrived at the conviction that the ltell's conclusions unwarranted. 34:3 niimmulitic formation occupies a middle place in the Eocene series, we are struck -with the comparatively modern date to which some of the greatest revolutions in the physical geography of Europe, Asia, and northern Africa must be referred. All the mountain chains, such as the Alps, Pyi-enees, Carpathians, and Himalayas, into the composition of whose central and lof- tiest parts the nummulitic strata enter bodily, could have had no existence till after the middle Eocene period." — Manual^ p. 232. A still more marked case follows on the next page. Because a certain bed at Claiborne in Alabama, which con- tains ''''four hundred species of marine shells," includes among them the Cardita planicosta^ " and some others -dentical with European species, or very nearly allied to them," Sir C. Lyell says it is " highly probable the Clai- borne beds as:ree in ag^e with the central or Bracklesham group of England." When we find contemporaneity sup- posed on the strength of a community no greater than that which sometimes exists between strata of widely-different ages in the same country, it seems very much as though the above-quoted caution had been forgotten. It appears to be assumed for the occasion, that species which had a wide i"ange in space had a narrow range in time ; which is the reverse of the fact. The tendency to systematize over- rides the evidence, and thrusts ISTature into a formula too rigid to fit her endless variety. " But," it may be urged, " surely, when in different places the order of superposition, the mineral characters, and the fossils, agree, it may be safely concluded that the formations thus corresponding are equivalents in time. If, for example, the United States display the same succes- sion of Silurian, Devonian, and Carboniferous systems, lith- ologically similar, and characterized by like fossils, it is a fair inference that these groups of strata were severally deposited in America at the same periods that they were deposited here." 344 ILLOGICAL GEOLOGY. On this position, whicli seems a strong one, we have, in the first place, to remark, that the evidence of correspond- ence is always more or less suspicious. We have already adverted to the several "idols" — if we may use Bacon'a metaphor — to which geologists unconsciously sacrifice, when interpreting the structures of unexplored regions. Carrying with them the classification of strata existing in Europe, and assuming that groups of strata in other parts of the world must answer to some of the groups of strata known here, they are necessarily prone to assert parallel- ism on insufficient evidence. They scarcely entertain the previous question, whether the formations they are examin- ing have or have not any European equivalents ; but the question is — with which of the European series shall they be classed? — with which do they most agree? — from which do they difier least ? And this being the mode of enquiry, there is apt to result great laxity of interpretation. How lax the interpretatioli really is, may be readily shown. When strata are discontinuous, as between Europe and America, no evidence can be derived from the order of , superposition, apart from mineral characters and organic remains ; for, unless strata can be continuously traced'^ min- eral characters and organic remains are the only means of classing them as such or such. As to the test of mineral characters, we have seen that it is almost worthless ; and no modern geologist would dare to say it should be relied on. If the Old Red Sand- stone series in mid-England, diiFers wholly in lithological aspect from the equivalent series in South Devon, it is clear that similarities of texture and composition can have no v/eight in assimilating a system of strata in another quar- ter of the globe to some European system. The test of fossils, therefore, is the only one that remains ; and with how little strictness this test is applied, one case will show. Of forty-six species of British Devonian corals, only six INADEQUATE EVIDENCE OF SYNCHEONISM. 34:5 occur in America ; and tliis^ notwithstanding tlie wide range which the iVnthozoa are known to have. Similarly of the Molhisca and Crinoidea, it appears that, while then are sundry genera found in America that are found here, there are scarcely any of the same species. And Sir Charles Lyell admits that " the difficulty of deciding on the exact parallelism of the New York subdivisions, as above enumerated, Avith the members of the European Devonian, is very great, so few are the species in common." Yet it is on the strength of community of fossils, that the whole Devonian series of the United States is assumed to be contemporaneous with the whole Devonian series of England. And it is partly on the ground that the Devo- nian of the United States corresponds in time with our De- vonian, that Sir Charles Lyell concludes the superjacent coal-measures of the two countries to be of the same age. Is it not, then, as we said, that the evidence in these cases is very suspicious ? Should it be replied, as it may fairly be, that this cor- respondence from which the synchronism of distant forma- tions is inferred, is not a correspondence between particu- lar species or particular genera, but between the general characters of the contained assemblages of fossils — between \he fades of the two Faunas; the rejoinder is, that though such correspondence is a stronger evidence of synchronism it is still an insufficient one. To infer synchronism from such correspondence, involves the postulate that through- out each geologic era there*has habitually existed a recog- nizable similarity betw^een the groups of organic forms in- habiting all the different parts of the Earth ; and that the causes which have in one part of the Earth changed the or- ganic forms into those which characterize the next era, have Bimultaneously acted in all other parts of the Earth, in such ways as to produce parallel changes of their organic forms. Now this is not only a large assumption to make ; but it is 15* 346 ILLOGICAL GEOLOGY. an assumption contrary to probability. The probability ia, that the causes which have changed Faunas have been local rather than universal; that hence while the Faunas of some regions have been rapidly changing, those of others have been almost quiescent; and that Avhen such otheis have been changed, it has been, not in such ways as to maintain parallelism, but in such ways as to produce diver- gence. Even supposing, however, that districts some hundreds of miles apart, furnished groups of strata that completely agreed in their order of superposition, their mineral charac- ters, and their fossils, we should still have inadequate proof of contemporaneity. For there are conditions, very likely to occur, under which such groups might differ widely in age. If there be a continent of which the strata crop out on the surface obliquely to the line of coast — running, say, west-northwest, while the coast runs east and west — ^it ia clear that each group of strata will crop out on the beach at a particular part of the coast ; that further west the next group of strata will crop out on the beach ; and so continu- ously. As the localization of marine plants and animals is ni a considerable degree determined by the nature of the rocks and their detritus, it follows that each part of this coast will have its more or less distinct Flora and Fauna. What now must result from the action of the waves in the course of a geologic epoch? As the sea makes slow inroads on the land, the place at which each group of strata crops out on the beach will gradually move towards the west : its distinctive fish, mollusks, crustaceans, and sea-weeds, misfratinfr with it. Further, the detritus of each of these groups of strata will, as the point of outcrop moves west- wards, be deposited over the detritus of the group in ad- Vance of it. And the consequence of these actions, carried on for one of those enormous periods required for geologic changes, will be that, corresponding to each eastern stratum, VAEIETY OF STRATA NOW FORMING. 347 there will arise a stratum far to the west which, though oc* cupying the same position relatively to other beds, formed of like materials, and containing like fossils, will yet be per haps a million years later in date. But the illegitimacy, or at any rate the great doubtful- ness, of many current geological inferences, is best seen when w^e contemplate terrestrial changes now going on : and ask how f;ir such inferences are countenanced by them. If we carry out rigorously the modern method of interpret- ing geological phenomena, which Sir Charles Lyell has done so much to establish — ^that of referring them to causes like those at present in action — we cannot fail to see how im- probable are sundry of the received conclusions. Along each line of shore that is being worn away by the waves, there are being formed mud, sand, and pebbles. This detritus, spread over the neighbouring sea-bottom, has, in each locality, a more or less special character ; de- termined by the nature of the strata destroyed. In the English Channel it is not the same as in the Irish Channel ; on the east coast of Ireland it is not the same as on the w^est coast; and so throughout. At the mouth of each great river, there is being deposited sediment differing more or less from that of other rivers in colour and quali- ty ; forming strata that are here red, there yellow, and elsewhere brown, grey, or dirty white. Besides which va- rious formations, going on in deltas and along shores, there are some much w^ider and still more contrasted formations. At the bottom of the ^gaean Sea, there is accumulating a bed of Pteropod shells, w^hich will eventually, no doubt, become a calcareous rock. For some hundreds of thou- sands of square miles, the ocean-bed between Great Britain and IsTorth America, is being covered with a stratum of chalk ; and over large areas in the Pacific, there are going on deposits of coralline limestone. Thus, throughout the 348 ILLOGICAL GEOLOGY. Earth, there are at this moment being produced an im- mense number of strata differing from each other in litha logical characters. Kame at random any one part of the sea-bottom, and ask whether the deposit there taking place is like the deposit taking place at some distant part of the sea-bottom, and the almost-certainly correct answer will be — No. The chances are not in favour of similarity, but very greatly against it. In the order of superposition of strata there is occur- ing a like variety. Each region of the Earth's surface has its special history of elevations, subsidences, periods of rest ; and this history in no case fits chronologically with the history of any other portion. River deltas are now be- ing thrown down on formations of quite different ages. While here there has been deposited a series of beds many hundreds of feet thick, there has elsewhere been deposited but a single bed of fine mud. While one region of the Earth's crust, continuiijg for a vast epoch above the surface of the ocean, bears record of no changes save those result- ing from denudation ; another region of the Earth's crust gives proof of various changes of level, with their several fesulting masses of stratified detritus. If anything is to be judged from current processes, we must infer, not only that everywhere the succession of sedimentary formations differs more or less from the succession elsewhere ; but also that in each place, there exist groups of strata to which many other places have no equivalents. With respect to the organic bodies imbedded in forma- tions now in progress, the like truth is equally manifest, if not more manifest. Even along the same coast, within moderate distances, the forms of life differ very considera- bly ; much more on coasts that are remote from each other. Again, dissimilar creatures that are living together near the same shore, do not leave their remains in the same beds of sediment. For instance, at the bottom of the Adriatic. MODERN DEPOSITS OF OKGANIC EEMAINB. 349 where the prevailing currents cause the deposits to lie hero of mud, and there of calcareous matter, it is proved that different species of co-existing shells are being buried in these respective formations. On our own coasts, the ma- rine remains found a few miles from shore, in banks where fish congregate, are different from those found close to the shore, where only littoral species flourish. A large propor- tion of aquatic creatures have structures that do not admit of fossilization ; while of the rest, the great majority are destroyed, when dead, by the various kinds of scavengers that creep among the rocks and weeds. So that no one deposit near our shores can contain anything like a true representation of the Fauna of the surrounding sea ; much less of the co-existinsc Faunas of other seas in the same lat- itude ; and still less of the Faunas of seas in distant lati- tudes. Were it not that the assertion seems needful, it would be almost absurd to say, that the organic remains now being buried in the Dogger Bank, can tell us next to nothing about the fish, crustaceans, mollusks, and corals that are being buried in the Bay of Bengal. Still stronger is the argument in the case of terrestrial life. With more numerous and greater contrasts between the plants and animals of remote places, there is a far more imperfect registry of them. Schouw marks out on the Earth more than twenty botanical regions, occupied by groups of forms so far distinct from each other, that, if fossilized, geo- logists would scarcely be disposed to refer them all to the same period. Of Faunas, the Arctic differs from the Tem» perate ; the Temperate from the Tropical ; and the South Temperate from the !N"orth Temperate. Nay, in the South Temperate Zone itself, the two regions of South Africa and South America are unlike in their mammals, birds, reptiles, fishes, mollusks, insects. The shells and bones now lying at the bottoms of lakes and estuaries in these several reo-ions, have certainly not that similarity which is usually looked 350 ILLOGICAL GEOLOGY. for in those of contemporaneous strata ; and the recent forms exhumed in any one of these regions would very un- truly represent the present Flora and Fauna of the Earth. In conformity with the current style of geological reason- ing, an exhaustive examination of deposits in the Arctic cir- cle, might be held to prove that though at this period there were sundry mammals existing, there were no reptiles ; while the absence of mammals in the deposits of the Gala- pagos Archipelago, where there are plenty of reptiles, might be held to prove the reverse. And at the sa^le time, from the formations extending for two thousand miles along the great barrier-reef of Australia — formations in which are imbedded nothing but corals, echinoderms, mollusks, crus- taceans, and fish, along with an occasional turtle, or bird, or cetacean, it might be inferred that there lived in our epoch neither terrestrial reptiles nor terrestrial mammals. The mention of Australia, indeed, suggests an illustra- tion which, even alonfe, would amply prove our case. The Fauna of this region differs widely from any that is found elsewhere. On land all the indigenous mammals, except ,bats, belong to the lowest, or implacental division ; and the insects are singularly different from those found elsewhere. The surroundiuf? seas contain numerous forms that are more or less strange ; and among the fish there exists a species of shark, which is the only living representative of a genus that flourished in early geologic epochs. If, now, the mod- ern fossiliferous deposits of Australia were to be examined by one ignorant of the existing Australian Fauna ; and if he were to reason in the usual manner ; he would be very un- likely to class these deposits with those of the present time. How, then, can we place confidence in the tacit assumption that certain formations in remote parts of the Earth are referable to the same period, because the organic remains contained in them display a certain community of charac- ter ? or that certain others are referable to different periods, because the fades of their Faunas are different ? REASONING IN A CIRCLE. 351 *' But," it -svill be replied, " in past eras the same, or similar, organic forms were more widely distributed than now." It may be so ; but the evidence adduced by no means proves it. The argument by which this conclusion is reached, runs a risk of being quoted as an example of reasoning in a circle. As already pointed out, between formations in remote regions there is no means of ascertain- ing equivalence but by fossils. If, then, the contemjDora- neity of remote formations is concluded from the likeness of their fossils ; how can it be said that similar plants and animals were once more widely distributed, because they are found in contemporaneous strata in remote regions ? Is not the fallacy manifest ? Even supposing there were no such fatal objection as this, the evidence commonly as- signed would still be insufficient. For we must bear in mind that the community of organic remains commonly thought sufficient for inferring correspondence in time, is a very imperfect community. When the compared sedimen- tary beds are far apart, it is scarcely expected that there will be many species common to the two : it is enough if there be discovered a considerable number of common gen- era. Now had it been proved that, throughout geologic time, each genus lived but for a short period — a period measured by a single group of strata — something might be mferred. But what if we learn that many of the same genera continued to exist throughout enormous epochs, measured by several vast systems of strata ? " Among molluscs, the genera Avtcida, 3fodtoIa, Tcrehratida, Lin- gula^ and Orhicula^ are found from the Silurian rocks up- wards to the present day." If, then, between the lowest fossiliferous formations and the most recent, there exists this degree of community ; must we not infer that there will probably often exist a degree of community between Rtrata that are far from contemporaneous ? Thus the reasoning from which it Is concluded that 352 ILLOGICAL GEOLOGY. Bimilar organic forms were once more widely spread, is doubly fallacious ; and, consequently, the classifications of foreign strata based on this conclusion are untrustworthy. Judging from the present distribution of life, we can scarcely expect to find similar remains in geographically remote strata of the same age ; and where, between the fossils of geographically remote strata, we do find much similarity, it is probably often due rather to likeness of con- ditions than to contemporaneity. If from causes and ef- fects such as we now witness, we reason back to the causes and effects of past epochs, we discover inadequate warrant for sundry of the received doctrines. Seeing, as we do, that in large areas of the Pacific this is a period character- ized by abundance of corals ; that in the North. Atlantic it is a period in which a great chalk-deposit is being formed ; and that in the valley of the Mississippi it is a period of new coal-basins — seeing also, as we do, that in one exten- sive continent this is peculiarly an era of implacental mam- mals, and that in another extensive continent it is peculiarly an era of placental mammals ; we have good reason to hes- itate before accepting these sweeping generalizations which are based on a cursory examination of strata occupying but a tenth part of the Earth's surface. At the outset, this article was to have been a review of the works of Hugh Miller ; but it has grown into some- thing much more general. Nevertheless, the remaining two doctrines which we propose to criticise, may be con- veniently treated in connection with his name, as that of one who fully committed himself to them. And first, a few words with regard to his position. That he was a man w^hose life was one of meritorious achievement, every one knows. That he was a diligent and successful worlfing geologist, scarcely needs sayings That with indomitable perseverance he struggled up from ob- HFOn MILLER AS A GEOLOGIST. 353 scurity to a place in the Avorkl of literature and science, shows him to have been highly endowed in character and intelligence. And that he had a remarkable power of pre- senting his facts and arguments in an attractive form, a glance at any of his books will quickly prove. By all means, let us respect him as a man of activity and sagacity, joined with a large amount of poetry. But while saying this we must add, that his reputation stands by no means so high in the scientific world as in the world at large. Partly from the fact that our Scotch neighbours are in the habit of blowing the trumpet rather loudly before their notabilities — i^artly because the charming style in which his books are written has gained him a largo circle of readers . — partly, perhaps, through a praiseworthy sympathy with him as a self-made man ; Hugh Miller has met with an amount of applause which, little as we wish to diminish it, must not be allowed to blind the public to his defects as a man of science. The truth is, he was so far committed to a foregone conclusion, that he could not become a philosophical geolo- gist. He might be aptly described as a theologian study- ing geology. The dominant idea with which he wrote, may be seen in the titles of his books — Law versus Iliracle^ — Foot^ints of the Creator^ — The Testimony of the Rocks, Regarding geological facts as evidence for or against certain religious conclusions, it was scarcely j)ossi- ble for him to deal with geological facts impartially. His ruling aim was to disprove the Development Hypothesis, the assumed implications of which were repugnant to him ; and in proportion to the strength of his feeling, w^as the one-sidedness of his reasoning. He admitted that " God might as certainly have originated the species by a law of development, as he maintains it by a law of development \ the existence of a First Great Cause is as perfectly compat- i)le with the one scheme as with the other." Nevcrthe* 354 ILLOGICAL GEOLOGY. less, lie considered the hypothesis at variance with Chriff tianity ; and therefore combated with it. He apparently overlooked the fact that the doctrines of geology in gen- eral, as held by himself, had been rejected by many on sim- ilar grounds ; and that he had himself been repeatedly at- tacked for his anti-Christian teachings. He seems not to have perceived that, just as his antagonists were wrong in condemning as irreligious, theories which he saw were not irreligious ; so might he be wrong in condemning, on like grounds, the Theory of Evolution. In brief, he fell short of that highest faith, which knows that all truths must har- monize ; and which is, therefore, content trustfully to fol- low the evidence whithersoever it leads. Of course it is impossible to criticize his works without entering on this great question to which he chiefly devoted himself. The two remaining doctrines to be here discussed, bear directly on this question ; and, as above said, we pro- pose to treat them in, connection with Hugh Miller's name, because, throughout his reasonings, he assumes their truth. Let it not be supposed, however, that we shall aim to prove what he has aimed to disprove. While we purpose show- • ing that his arguments against the Development Hypothe- sis are based on invalid assumptions ; we do not purpose showing that the opposing arguments are based on valid assumptions. We hope to make it apparent that the geo- logical evidence at present obtained, is insufficient for either side ; further, that there seems little probability of sufficient evidence ever being obtained ; and that if the question is eventually decided, it must be decided on other than geo- logical data. The first of the current doctrines to which we have just referred, is, that there occur in the records of former life on our planet, certain great blanks — that though, generally, the succession of fossil forms is tolerably continuous, yei BREAKS IN THE COUESE OF TEKRESTEIAL LIFE. 355 [hit at two places there occur wide gaps in the series whence it is inferred that, on at least two occasions, tlie previously existing inhabitants of the Earth were almost whblly destroyed, and a different class of inhabitants cre- ated. Comparing the general life on the Earth to a thread, Hugh Miller says :— " It is continuous from the present time up to the commence- ment of the Tertiary period; and then so abrupt a break occurs, that, with the exception of the microscopic diatomaceso to which I last evening referred, and of one shell and one coral, not a sin- gle species crossed the gap. On its further or remoter side, how- ever, where the Secondary division closes, the intermingling of species again begins, and runs on till the commencement of this great Secondary division; and theil, just where the Palaeozoic di- vision closes, we find another abrupt break, crossed, if crossed at all, — for there still exists some doubt on tlie subject, — ^by but two species of plant." These breaks are considered to imply actual new crea- tions on the surface of our planet ; not only by Hugh Mil- ler, but by the majority of geologists. And the terms Palaeozoic, Mesozoic, and Cainozoic, are used to indicate these three successive systems of life. It is true that some accept this belief with caution : knowing how geologic research has been all along tending to fill up what were once thought wide breaks. Sir Charles Lyell points out that " the hiatus which exists in Great Britain between the fossils of the Lias and those of the Magnesian Limestone, is supplied in Germany by the rich fauna and flora of the Muschelkalk, Keuper, and Bunter Sandstein, which we know to be of a date precisely intermediate." Again he remarks that " until lately the fossils of the coal-measures were separated from those of the antecedent Silurian groun by a very abrupt and decided line of demarcation ; but recent discoveries have brought to light in Devonshire, Belgium, the Eifel, and Westphalia, the remains of a faujia 356 ILLOGICAL GEOLOGY. of an intervening period." And once more, " we have also in like manner had some success of late years in dimiuish- iTig the hiatus which still separates the Cretaceous and Eocene periods in Europe." To which let us add that since Hugh Miller penned the passage above quoted, the second of the great gaps he refers to has been very consid- erably narrowed by the discovery of strata containing Pa- laeozoic genera and Mesozoic genera intermingled. ISTever- theless, the occurrence of two great revolutions in the Earth's Flora and Fauna appears still to be held by many ; and geologic nomenclature habitually assumes it. Before, seeking a solution of these phenomena, let us glance at the several minor causes that produce breaks in the geological succession of organic forms : taking first, the more general ones which modify climate, and, there- fore, the distribution of life. Among these may be noted one which has not, we believe, been named by writers on the subject. We mean that resulting from a certain slow astronomic rhythm, by which the northern and southern hemispheres are alternately subject to greater extremes of temperature. In consequence of the slight ellipticity of its orbit, the Earth's distance from the sun varies to the extent of some 3,000,000 of miles. At present, the aphelion oc- curs at the time of our northern summer ; and the perihe- lion during the summer of the southern hemisphere. In consequence, however, of that slov/ movement of the Earth's axis which produces the precession of the equinox- es, this state of things will in time be reversed : the Earth will be nearest to the sun during the summer of the north- ern hemisphere, and furthest from it during the southern summer or northern winter. The period required to com- plete the slow movement producing these changes, is nearly 26,000 years; and were there no modifying process, the two hemispheres would alternately experience this coinci- dence of summer with the least distance from the sun, dur ASTKOXOMIO CAUSES OF CLIMATIC CHANGES. 357 nig a period of 13,000 years. But there is also a still slower change in the direction of the axis major of the Earth's orbit ; from which it results that the alternation we have described is completed in about 21,000 years. That is to say, if at a given time the Earth is nearest to the sun at our mid-summer, and fiirthest from the sun at our mid- winter : then, in 10,500 years afterwards, it will be furthest from the sun at our mid-summer, and nearest at our mid- winter. Now the difference between the distances from the sun at the two extremes of this alternation, amounts to one- thirtieth ; and hence, the difference between the quantities of heat received from the sun on a summer's day under these opposite conditions amounts to one-fifteenth. Esti- mating this, not with reference to the zero of our thermome- ters, but with reference to the temperature of the celestial spaces, Sir John Herschel calculates "23° Fahrenheit as the least variation of temperature under such circumstances which can reasonably be attributed to the actual variation of the sun's distance." Thus, then, each hemisphere has at a certain epoch, a short summer of extreme heat, fol- lowed by a long and very cold winter. Through the slow change in the direction of the Earth's axis, these extremes are gradually mitigated. And at the end of 10,500 years, there is reached the oj^posite state — a long and moderate summer, with a short and mild winter. At present, in con- sequence of the predominance of sea in the southern hem- isphere, the extremes to which its astronomical conditions subject it, are much ameliorated ; while the great propor- tion of land in the northern hemisphere, tends to exagge- rate such contrast as now exists in it between winter and summer : whence it results that the climates of the two hemispheres are not widely unlike. But 10,000 years hence, the northern hemisphere will undergo annual variations of temperature far more marked than now. 358 ILLOGICAL GEOLOGY. In the last edition of his Outlines of A8tro7iomy^ Sir John Herschel recognizes this as an element in geological processes : regarding it as possibly a part-cause of those climatic changes indicated by the records of the Earth's past. That it has had much to do with the larger changes of climate of which we have evidence, seems nnUkely, since there is reason to think that these have been far slower and more lasting ; but that it must have entailed a rhythmical exaggeration and mitigation of the climates otherwise pro- duced, seems beyond question. And it seems also beyond question that there must have been a consequent rhythmi- cal change in the distribution of organisms — a rhythmical change to which we here wish to draw attention, as one cause of minor breaks in the succession of fossil remains. Each species of plant and animal, has certain limits of heat and cold within which only it can exist ; and these limits in a great degree determine its geographical position. It will not spread north of a certain latitude, because it can- not bear a more northern winter, nor south of a certain latitude, because the summer heat is too great ; or else it is indirectly restrained from spreading further by the eflect of temperature on the humidity of the ah*, or on the distri- bution of the organisms it lives upon. But now, what will result from a slow alteration of cli- mate, produced as above described ? Supposing the pe- riod we set out from is that in which the contrast of seasons is least marked, it is manifest that during the progress to- wards the period of the most violent contrast, each species of plant and animal will gradually change its limits of dis- tribution — will be driven back, here by the winter's increas- ing cold, and there by the summer's increasing heat — will retire into those localities that are still fit for it. Thus dur- ing 10,000 years, each species will ebb away from certain regions it was inhabiting ; and during the succeeding 10,000 years will flow back into those regions. From the EFFECTS OF THE LONG CLIMATIC EIIYTllM. 359 St rata there forming, its remains will disappear ; they will be absent from some of the supposed strata ; and will he found in strata higher up. But in what shapes will they re-appear? Exposed during the 21,000 years of theu- slow recession and their slow return, to changing conditions of life, they are likely to have undergone modifications ; and will probably re-appear with slight differences of constitu- tion and perhaps of form — will be new varieties or perhaps new sub-species. To this cause of minor breaks in the succession of or- ganic forms — a cause on which we have dwelt because it has not been taken into account — we must add sundry oth- ers. Besides these periodically-recurring alterations of climate, there are the irregular ones produced by re-distri- butions of land and sea ; and these, sometimes less, some- times greater, in degree, than the rhythmical changes, must, like them, cause in each region the ebb and flow of species ; and consequent breaks, small or large as the case may be, in the palaiontological series. Other and more special geo- logical changes must produce other and more local blanks in the succession of fossils. By some inland elevation the natural drainage of a continent is modified ; and instead of the sediment it previously brought down to the sea, a great river begins to bring down sediment unfavourable to various plants and animals living in its delta: wherefore these disappear from the locality, perhaps to re-appear in a changed form after a long epoch. Upheavals or subsiden- ces of shores or sea-bottoms, involving deviations of marine currents, must remove the habitats of many species to which such currents are salutary or injurious ; and further, this re-distribution of currents must alter the pjlaces of sed- imentary deposits, and so stop the burying of organic re- mains in some localities, and commence it in others. Had we space, many more such causes of blanks in our palaeon- tological records might be added. But it is needless here 300 ILLOGICAL GEOLOGY. to enumerate tliera. They are admirably explained and 11 lustrated in Sir Charles Ly ell's Principles of Geology. Now, if these minor revolutions of the Earth's surface produce minor breaks in the series of fossilized remains ; must not great revolutions produce great breaks ? If a lo- cal upheaval or subsidence causes throughout its small area the absence of some links in the chain of fossil forms ; does it not follow that an upheaval or subsidence extending over a large part of the Earth's surface, must cause the absence of a great number of such links throughout a very wide area ? When during a long epoch a continent, slowly subsiding, gives place to a far-spreading ocean some miles in depth, at the bottom of which no deposits from rivers or abraded shores can be thrown down ; and when, after some enor- mous period, this ocean-bottom is gradually elevated and becomes the site of new strata ; it is clear that the fossils contained in these new strata are likely to have but little in common with the fossils of the strata below them. Take, in illustration, the case of the North Atlantic. "We have already named the fact that between this country and the United States, the ocean-bottom is being covered with a deposit of chalk — a deposit that has been forming, proba- bly, ever since there occurred that great depression of the Earth's crust from which the Atlantic resulted in remote geologic times. This chalk consists of the minute shells of Foraminifera, sprinkled with remains of small Entomostra- ca, and probably a few Ptero pod-shells : though the sound- ing lines have not yet brought up any of these last. Thus, in so far as all high forms of life are concerned, this new chalk-formation must be a blank. At rare intervals, per- haps, a polar bear drifted on an iceberg, may have its bones scattered over the bed ; or a dead, decaying whale may Bimilarly leave traces. But such remains must be so rare, that this new chalk-formation, if visible, might be examined GAPS CONSISTENT WITH CONTINUOUS LIFE. 361 for a century before any of them were disclosed. If now, some millions of years hence, the Atlantic-bed should be raised, and estuary or shore deposits laid upon it, these de- posits would contain remains of a Flora and Fauna so dis- tinct from everything below them, as to appear hke a new creation. Thus, along with continuity of life on the Earth's sur- face, there not only may be, but there mwsibe, great gaps, in the series of fossils ; and hence these gaps are no evi- dence against the doctrine of Evolution. One other current assumption remains to be criticized ; and it is the one on which, more than on any other, de- pends the view taken respecting the question of develop- ment. From the beginning of the controversy, the arguments for and against have turned upon the evidence of progres- sion in organic forms, found in the ascending series of our sedimentary formations. On the one hand, those who con- tend that higher organisms have been evolved out of low- er, joined with those who contend that successively higher organisms have been created at successively later periods, appeal for proof to the facts of Palaeontology ; which, they say, countenance their views. On the other hand, the Uni- formitarians, who not only reject the hypothesis of devel- opment, but deny that the modern forms of life are higher than the ancient ones, reply that the Palaeontological evi- dence is at present very incomplete ; that though we have not yet found remains of highly-organized creatures in strata of the greatest antiquity, we must not assume that n ^ such creatures existed when those strata were deposited ; aiid that, probably, geological research will eventually dis- close them. It must be admitted that thus far, the evidence has gone in favour of the latter party. Geological discovery 16 362 ILLOGICAL GEOLOGY. has year after year shown the small value of negative facts. The conviction that there are no traces of higher organisma in earlier strata, has resulted not from the absence of such remains, but from incomplete examination. At p. 460 of his 3fanual of Elementary Geology^ Sir Charles Lyell gives a list in illustration of this. It appears that in 1709, fishes were not known lower than the Permian system. In 1793 they were found in the subjacent Carboniferous sys- tem ; in 1828 in the Devonian ; in 1840 in the Upper Silu- rian. Of reptiles, we read that in 1710 the lowest known were in the Permian; in 1844 they were detected in the Carboniferous; and in 1852 in the Upper Devonian. While of the Mammalia the list shows that in 1798 none had been discovered below the middle Eocene; but that in 1818 they were discovered in the Lower Oolite; and in 1847 in the Upper Trias. The fact is, however, that both parties set out with an inadmissible postulate. Of the Uniformitarians, not only such writers as Hugh Miller, but also such as Sir Charles Lyell,* reason as though we had found the earliest, or some- thing like the earliest, strata. Their antagonists, whether defenders of the Development Hypothesis or simply Pro- gressionists, almost uniformly do the like. Sir R. Murchi- son, who is a Progressionist, calls the lowest fossiliferous strata, " Protozoic." Prof. Ansted uses the same term. Whether avowedly or not, all the disputants stand on this assumption as their common ground. Yet is this assumption indefensible, as some who make t very well know. Facts may be cited against it which show that it is a more than questionable one — that it is a highly improbable one ; while the evidence assigned in its favour will not bear criticism. * Sir Charles Lyell is no longer to be classed among Uniformitarians. Witk rare and admirable candour he has, since this was written, yielded to the arguments of Mr. Darwin. CAN WE FIND THE BEGINNINa OF LIFE? 3()J] Because in Bohemia, Great Britain, and portions of North America, the lowest unmetamorphosed strata yet discovered, contain but slight traces of life. Sir R. Murchi- son conceives that they were formed while yet few, if any, plants or animals had been created ; and, therefore, classes them as " Azoic." His own pages, however, show the illegitimacy of the conclusion that there existed at that period no considerable amount of life. Such traces of life as have been found in the LongmjTid rocks, for many years considered unfossiliferous, have been found in some of the lowest beds ; and the twenty thousand feet of superposed beds, still yield no organic remains. If now these super- posed strata throughout a depth of four miles, are without fossils, though the strata over which they lie prove that life had commenced ; what becomes of Sir R. Murchison's inference ? At page 189 of Siluria^ a still more conclusive fact will be found. The " Glengariff grits," and other accompanying strata there described as 13,500 feet thick, contain no signs of contemporaneous life. Yet Sir R. Mur- chison refers them to the Devonian period — a period that had a large and varied marine Fauna. How then, from the absence of fossils in the Longmynd beds and their equivalents, can we conclude that the Earth was " azoic " when they were formed ? "But," it may be asked, *' if living creatures then exist ed, why do we not find fossiliferous strata of that age, or an earlier age ? " One reply is, that the non-existence of such strata is but a negative fact — we have not found them. And considerinor how little we know even of the two-fifths of the Earth's surface now above the sea, and how absolute- ly ignorant we are of the three-fifths below the sea, it is rash to say that no such strata exist. But the chief reply IS, that these records of the Earth's earlier history havTature's obvious reply is — ^They have been destroyed by that igneous action to which so great a part of our oldest-known strata owe their fusion or metamorphosis. Only the last chapter of the Earth's history has come down to us. The many previous chapters, stretching back to a time immeasurably remote, have been burnt ; and with them all the records of life we may presume they con- tained. The greater part of the evidence which might have served to settle the Development-controversy, is for ever lost ; and on neither side can the arguments derived from Geology be conclusive. " But how happen there to be such evidences of pro- gression as exist ? " it may be asked. " How happens it that, in ascending from the most ancient strata to the most recent strata, we do find a succession of organic forms, which, however irregularly, carries us from lower to high- er ? " This question seems diflScult to answer. Neverthe- less, there is reason for thinking that nothing can be safely inferred from the apparent progression here cited. And the illustration which shows as much, will, we believe, also show how little trust is to be placed in certain geological 868 ILLOGICAL GEOLOGY. generalizations that appear to be well established. With this somewhat elaborate illustration, to which we now pass, our criticisms may fitly conclude. Let us suppose that in a region now covered by wide ocean, there begins one of those great and gradual up- heavals by which new continents are formed. To be pre- cise, let us say that in the South Pacific, midway between New Zealand and Patagonia, the sea-bottom .has been little by little thrust up towards the surface, and is about to emerge. What will be the successive phenomena, geological and biological, which are likely to occur before this emerging sea-bottom has become another Europe or Asia ? In the first place, such portions of the incipient land as are raised to the level of the waves, will be rapidly denud- ed by them : their soft substance will be torn up by the breakers, carried away by the local currents, and deposited in neighbouring deeper water. Successive small upheavals will bring new and larger areas within reach of the waves ; fresh portions will each time be removed from the surfaces previously denuded ; and further, some of the newly-form- ed strata, being elevated nearly to the level of the water, will be washed away and re-deposited. In course of time, the harder formations of the upraised sea-bottom will be uncovered. These being less easily destroyed, will remain permanently above the surface ; and at their margins will arise the usual breaking down of rocks into beach-sand and pebbles. While in the slow process of this elevation, going on at the rate of perhaps two or three feet in a century, most of the sedimentary deposits produced will be again and again destroyed and reformed ; there will, in those ad- jacent areas of subsidence which accompany areas of eleva^ tion, be more or less continuous successions of sedimentary deposits. And now what will be the character of these new strata ? They will necessarily contain scarcely any traces of life BtlPPOSED CASE OF A VAST UPHKAVAL. 3G9 The deposits that Lad previously been slowly formed at the bottom of this wide ocean, would be si:)rinkled with fossils of but few species. The oceanic Fauna is not a rich one : its hydrozoa do not admit of preservation ; and the hard parts of its few kinds of molluscs and crustaceans and in- sects are mostly fragile. Hence, w^hen the ocean-bed wa? here and there raised to the surface — when its strata ol sediment with their contained organic fragments were torn up and long washed about by the breakers before being re- deposited — when the re-deposits were again and again sub- iect to this violent abrading action by subsequent small ele- vations, as they would mostly be ; what few fragile organic remains they contained, would be in nearly all cases destroy- ed. Thus such of the first-formed strata as survived the repeated changes of level, would be practically " azoic ; " like the Cambrian of our geologists. When by the wash- ing away of the soft deposits, the hard sub-strata had been exposed in the shape of rocky islets, and a footing had thus been furnished, the pioneers of a new life might be expect- ed to make their appearance. What would they be? Not any of the surrounding oceanic species, for these are not fitted for a littoral life ; but species flourishing on some of the far-distant shores of the Pacific. Of such the first to establish themselves would be sea-weeds and zoophytes : both because their sw^arming spores and gemmules would be the most readily conveyed with safety, and because when conveyed they would find fit food. It is true that Cirrhi- peds and Lamellibranchs, subsisting on the minute creatures w^hich everywhere people the sea, would also find fit food. But passing over the fact that the germs of such higher forms are neither so abundant nor so well fitted to bear long voyages, there is the more important fact that the m- dividuals arising from these germs can reproduce only sex- ually, and that this vastly increases the obstacles to the es- 16* 370 ILLOGICAL GEOLOGY. tablishment of their races. The chances of early coloniza- tion are immensely in favour of species which, multiplying b}' agamogenesis, can people a whole shore from a single germ ; and immensely against species w^hich, multiplying only by gamogenesis, must be introduced in considerable numbers that some may survive, meet, and propagate. Thus we in- fer that the earliest traces of life left in the sedimentary de- posits near these new shores, will be traces of life as humble as that indicated in the most ancient rocks of Great Brit* ain and Ireland. Imagine now that the processes w^e have briefly indicated, continue — that the emerging lands become wider in . extent, and fringed by higher and more varied shores; and that there still go on those ocean-currents which, at long intervals, convey from far distant shores immigrant forms of life. What w^U result ? Lapse of time will of course favour the introduction of such new forms : admitting, as it must, of those combinations of fit conditions, w^hich, under the law of probabilities, can occur only at very distant intervals. Moreover, the increasing area of the islands, individually and as a group, implies in- creasing length of coast; from which there follows a longer line of contact with the streams and waves that bring drift- ing masses ; and, therefore, a greater chance that germs of fresh life will be stranded. And once more, the comparatively-varied shores, pre- senting physical conditions that change from mile to mile, will furnish suitable habitats for more numerous species. So that as the elevation proceeds, three causes conspire to introduce additional marine plants and animals. To what classes will the increasing Fauna be for a long period con- fined ? Of course, to classes of which individuals, or their germs, are most liable to be carried far away from their native shores by floating sea-weed or drift-wood ; to classes which are also least likely to perish in transit, or from change of cli- mate ; and to those which can best subsist around coasts COLONIZATION OF THE NEW CONTINENT. 371 comparatively bare of life. Evidently, then, corals, annelids, inferior molluscs, and crustaceans of low grade, will chiefly constitute the early Fauna. The large predatory members of these classes, will be later in establishing themselves ; both because the new shores must first become well peo- pled by the creatures they prey on, and because, being more complex, they or their ova must be less likely to feiirvive the journey, and the change of conditions. We may infer, then, that the strata deposited next after the almost " azoic " strata, would contain the remains of invertebrata, allied to those found near the shores of Australia and South America. Of such invertebrate remains, the low- er beds would furnish comparatively few genera, and those of relatively low types ; while in the upper beds the num- ber of genera would be greater, and the types higher : just as among the fossils of our Silurian system. As this great geolo- gic change slowly progressed through its long history of earthquakes, volcanic disturbances, minor upheavals and sub- sidences — as the extent of the archipelago became greater and its smaller islands coalesced into larger ones, while its coast line grew still longer and more varied, and the neighbouring sea more thickly inhabited by inferior forms of life ; the lowest division of the vertebrata would begin to be represented. In order of time, fish would naturally come after the lower invertebrata : both as being less likely to have their ova transported across the waste of waters, and as requiring for their subsistence a pre-existing Fauna of some devel- opment. They might be expected to make their appearance along with the predaceous crustaceans ; as they do in the uppermost Silurian rocks. And here, too, let us remark, that as, during this long epoch we have been describing, the sea would have made great inroads on some of the newly raised lands that had remained stationary ; and would probably in some places have reached masses of igneous or metamorphic rocks* 372 ILLOGICAL GEOLCGY. there might, in course of time, arise by the decomposition and denudation of such rocks, local deposits coloured with oxide of iron, like our Old Red Sandstone. And in these deposits might be buried the remains of the fish then peo pling the neighbouring sea. Meanwhile, how would the surfaces of the upheaved masses be occupied ? At first their deserts o'f naked rocks and pebbles would bear only the humblest forms of vegetal life, such as we find in grey and orange patches on our own rugged mountain sides ; for these alone could flourish on such surfaces, and their spores would be the most read- ily transported. When, by the decay of such protophytes, and that decomposition of rock effected by them, there had resulted a fit habitat for mosses ; these, of which the germs might be conveyed in drifted trees, would begin to spread. A soil having been eventually thus produced, it would become possible for plants of higher organization to find roothold ; and as in the way we have described the archipelago and its constituent islands grew larger, and had more multiplied relations with winds and waters, such higher plants might be expected ultimately to have their seeds transferred from the nearest lands. After something like a Flora had thus colonized the surface, it would be- come possible for insects to exist ; and of air-breathing creatures, insects would manifestly be among the first to find their way from elsewhere. As, however, terrestrial organisms, both vegetal and animal, are much less likely than marine organisms to sur- vive the accidents of transport from distant shores ; it is clear that long after the sea surrounding these new lands nad acquired a varied Flora and Fauna, the lands them- selves would still be comparatively bare ; and thus that the early strata, like our Silurians, would afford no traces of terrestrial life. By the time that large areas had been raised above the ocean, we may fairly suppose a luxuriant CONDITIONS OF COAL DEPOSIT. 373 vegetation to have been acquired. Under what circum« stances are we hkely to find this vegetation fossilized ? Large surfaces of land imply large rivers with their accom- panying deltas ; and are liable to have lakes and swamps These, as we know from extant cases, are favourable tc rank vegetation ; and afford the conditions needful for pre- serving it in the shape of coal-beds. Observe, then, that wlule in the early history of such a continent a carbonif- erous period could not occur, the occurrence of a carbonif- erous period would become probable after long-continued upheavals had uncovered large areas. As in our own sedi- mentary series, coal-beds would make their appearance only after there had been enormous accumulations of earlier strata charged with marine fossils. Let us ask next, in what order the higher forms of ani- mal life would make their appearance. We have seen how, in the succession of marine forms, there would be some- thing like a progress from the lower to the higher : bring- ing us in the end to predaceous molluscs, crustaceans, and fish. What are likely to succeed fish ? After marine crea- tures, those which would have the greatest chance of sur- viving the voyage would be amphibious reptiles : both be- cause they are more tenacious of life than higher animals, and because they would be less completely out of their element. Such reptiles as can live in both fresh and salt water, like alligators ; and such as are drifted out of the mouths of great rivers on floating trees, as Humboldt says the Orinoco alligators are ; might be early colonists. It is manifest, too, that reptiles of other kinds Avould be among the first vertebrata to people the new continent. If we consider what will occur on one of those natural rafts of trees, soil, and matted vegetable matter, sometimes swept out to sea by such currents as the Mississippi, with a miscellaneous living cargo ; we shall see that while the active, hot-blooded, highly-organized creatures will soon 374 ILLOGICAL GEOLOGY. Jie of starvation and exposure, the inert, cold-blooded ones, which can go long without food, will live perhaps for weeks ; and so, out of the chances from time to time oc- curring during long periods, reptiles will be the first to get safely landed on foreign shores : as indeed they are even now known sometimes to be. The transport of mammalia being comparatively precarious, must, in the order of prob- ability, be longer postponed ; and would, indeed, be un- likely to occur until by the enlargement of the new conti- nent, the distances of its shores from adjacent lands had been greatly diminished, or the formation of intervening islands had increased the chances of survival. Assumiing, however, that the facilities of immigration had become adequate ; which would be the first mammals to arrive and live ? ISTot large herbivores ; for they would be soon drowned if by any accident carried out to sea. ]!!^ot the carnivora ; for these would lack appropriate food, even if they outlived the voyage. Small quadrupeds fre- quenting trees, and feeding on insects, would be those most likely both to be drifted away from their native lands and to find fit food in a new one. Insectivorous mammals, like in size to those found in the Trias and the Stonesfield slate, might naturally be looked for as the pioneers of the higher vertebrata. And if we suppose the facilities of communi- cation to be again increased, either by a further shallowing of the intervening sea and a consequent multiplication of islands, or by an actual junction of the new continent with an old one, through continued upheavals ; we should finally have an influx of the larger and more perfect mammals. I*^ow rude as is this sketch of a process that would be extremely elaborate and involved, and open as some of its propositions are to criticisms which there /s no space here to meet ; no one will deny that it represents something like the biologic history of the supposed new continent. De tails apart, it is manifest that simple organisms, able to HIGHEB LIFE UPON THE NEW CONTINENT. 375 flourish under simple coiiflitions of life, would be the first successful immigrauts ; and that more complex organisms^ needing for their existence the fulfilment of more complex conditions, would afterwards establish themselves in some- thing like an ascending succession. At the one extreme we see every facility. The new individuals can be con* veyed in the shape of minute germs ; these are infinite in their numbers ; they are difl:used in the sea ; they are per- petually being carried in all directions to great distances by ocean-currents ; they can survive such long journeys unharmed ; they can find nutriment wherever they arrive ; and the resulting organisms can multiply asexually with great rapidity. At the other extreme, we see every difSculty. The dew individuals must be conveyed in their adult forms ; their numbers are, in comparison, utterly insignificant ; they live on land, and are very unlikely to be carried out to sea ; when so carried, the chances are immense against their escape from drowning, starvation, or death by cold ; if they survive the transit, they must have a pre-existing Flora or Fauna to supply their special food ; they require, also, the fulfilment of various other physical conditions ; and unless at least two individuals of different sexes are safely landed, the race cannot be established. Manifestly, then, the immigration of each successively higher order of organisms, having, from one or other additional condition to be fulfilled, an enormously-increased probability against it, would naturally be separated from the immigration of a lower order by some period like a geologic epoch. And thus the successive sedimentary deposits formed while this new continent was undergoing gradual elevation, would seem to furnish clear evidence of a general progress in the forms of life. That lands thus raised up in the midst of a wide ocean, would fii*st give origin to unfossiliferous strata ; next, to strata containing only the lowest marine 376 ILLOGICAL GEOLOGY. forms ; next, to strata coDtaining higher marine forms, as» cending finally to fish ; and that the strata above these would contain reptiles, then small mammals, then great mammals ; seems to us to be demonstrable from the known laws of organic life. And if the succession of fossils presented by the strata cf this supposed new continent, would thus simulate the succession presented by our own sedimentary series ; must we not say that our own sedimentary series very possibly records nothing more than the phenomena accompanying one of these great upheavals ? We think this must be considered not only possible, but highly probable : har- monizing: as it does with the unavoidable conclusion before pointed out, that geological changes must have been going on for a period immeasurably greater than that of which we have records. And if the probability of this conclu- sion be admitted, it must be admitted that the facts of Palaeontology can never sufl[ice either to prove or disprove the Development Hypothesis ; but that the most they can do is, to show whether the last few pages of the Earth's biologic history are or are not in harmony with this hy- pothesis — whether the existing Flora and Fauna can or can •not be affiliated upon the Flora and Fauna cf the most re- cent geologic times. IX. THE DEVELOPMENT HYPOTHESIS. IN a debate upon the development hypothesis, lately nar rated to me by a friend, one of the disputants was de- scribed as arguing, that as, in all our experience, we know no such phenomenon as transmutation of species, it is un- philosophical to assume that transmutation of species e\er takes place. Had I been present, I think that, passing over his assertion, which is open to criticism, I should have re- plied that, as in all our experience we have never known a species created, it was, by his own showing, unphilosophical to assume that any species ever had been created. Those who cavalierly reject the Theory of Evolution, as not adequately supported by facts, seem quite to forget that their own theory is supported by no facts at all. Like the majority of men who are born to a given belief, they demand the most rigorous proof of any adverse belief, but assume that their own needs none. Plere we find, scattered over the globe, vegetable and animal organisms numbering, of the one kind (according to Humboldt), some 320,000 species, and of the other, some 2,000,000 species (see Car- penter) ; and if to these we add the numbers of animal and vegetable species that have become extinct, we may safely estim-ate the number of species that have existed, and are 378 THE r/feVELOPMENT HYPOTHESIS. existing, on the Earth, at not less than ten millions. Well, which is the most rational theory about these ten millions of species ? Is it most likely that there have been ten mil- lions of special creations ? or is it most likely that by con- tinual modifications, due to change of circumstances, ten millions of varieties have been produced, as varieties are being produced still ? Doubtless many will reply that they can more easily conceive ten millions of special creations to have taken place, than they can conceive that ten millions of varieties have arisen by successive modifications. All such, howev- er, will find, on inquiry, that they are under an illusion. This is one of the many eases in which men do not really believe, but rather believe they believe. It is not that they can truly conceive ten millions of special creations to have taken place, but that they think they can do so. Careful introspection will show them that they have never yet real- ized to themselves the creation of even one species. If they have formed a definite conception of the process, let them tell us how a new species is constructed, and how it makes its appearance. Is it thrown down from the clouds? or must we hold to the notion that it struggles up out of the ground ? Do its limbs and viscera rush together from all the points of the compass ? or must we receive the old Hebrew idea, that God takes clay and moulds a new crea- ture ? If they say that a new creature is produced in none of these modes, which are too absurd to be believed ; then they are required to describe the mode in which a new creature may be produced — a mode which does not seem absurd ; and such a mode they will find that they neither have conceived nor can conceive. Should the believers in special creations consider it un- fair thus to call upon them to describe how special creations take place, I reply, that this is far less than they demand from the supporters of the Development Hypothesis. Tliey iMPEEssruiLirr of oeqanisms. 370 arc merely asked to point out a conceivable mode. On the other hand, they ask, not shnply for a conceivable mode, but for the actual mode. They do not say — Show us how this may take place ; but they say — Show us how this does take place. So far from its being unreasonable to put the above question, it would be reasonable to ask not only for a possible mode of special creation, but for an ascertained mode ; seeing that this is no greater a demand than they make upon their opponents. And here we may perceive how much more defensible the new doctrine is than the old one. Even could the sup- l^orters of the Development Ilypothesis merely show that the origination of species by the process of modification is conceivable, they would be in a better position than their opponents. But they can do much more than this. They can show that the process of modification has effected, and is effecting, decided changes in all organisms subject to modifying influences. Though, from the impossibility of getting at a suflSciency of facts, they are unable to trace the many phases through which any existing species has passed in arriving at its present form, or to identify the in- fluences which caused the successive modifications ; yet, they can show that any existing species — animal or vegeta- ble — when placed under conditions different from its pre- vious ones, immediately begins to undergo certain changes of structure fitting it for the new conditions. They can show that in successive generations these changes continue, until ultimately the new conditions become the natural ones. They can show that in cultivated plants, in domesti- cated animals, and in the several races of men, such altera- tions have taken place. They can show that the degrees of difference so produced are often, as in dogs, greater than those on which distinctions of species are in other cases founded. They can show that it is a matter of dispute wb'^ther some of these modified forms are varietit^s or sepa- 380 THE DEVELOPMENT HYPOTHESIS. rate species. They can show, too, that the changes daily taking place in ourselves — the flicility that attends long practice, and the loss of aptitude that begins when practice ceases — the strengthening of passions habitually gratified, and the weakening of those habitually curbed — the devel- opment of every faculty, bodily, moral, or intellectual, ac- cording to the use made of it — are all explicable on this same principle. And thus they can show that throughout all organic nature there is at work a modifying influence of the kind they assign as the cause of these specific difler- ences : an influence which, though slow in its action, does, in time, if the circumstances demand it, produce marked changes-^ an influence which, to all appearance, would pro- duce in the millions of years, and under the great varieties of condition which geological records imply, any amount of chan2:e. Which, then, is the most rational hypothesis ? — that of special creations which has neither a fact to support it nor is even definitely cpnceivable ; or that of modification, which is not only definitely conceivable, but is countenanced by the habitudes of every existing organism ? That by any series of changes a protozoon should ever become a mammal, seems to those who are not familiar with zoology, and who have not seen how clear becomes the relationship between the simplest and the most com- plex forms when intermediate forms are examined, a very grotesque notion. Habitually looking at things rather in their statical than in their dynamical aspect, they nevei realize the fact that, by small increments of modification, any amount of modification may in time be generated. That surprise which they feel on finding one whom they last saw as a boy, grown into a man, becomes incredulity when the degree of change is greater. Nevertheless, abun- dant instances are at hand of the mode in which we may pass to the most diverse forms, by insensible gradations. EFFECTS OF INSENSLBLfe MODIFICATIONS. 381 Arguing the matter some time since with a learned pro- fessor, I illustrated my position thus: — You admit that there is no apparent relationship between a circle and an hyperbola. The one is a finite curve ; the other is an in- finite one. All parts of the one are alike ; of the other no two parts are alike. The one incloses a space ; the other will not inclose a space thougli produced for ever. Yet opposite as are these curves in all their properties, they may be connected together by a series of intermediate curves, no one of which differs from the adjacent ones in any appreciable degree. Thus, if a cone be cut by a plane at right angles to its axis we get a circle. If, instead of being perfectly at right angles, the plane subtends with the axis an angle of 89° 59', we have an ellipse, which no hu- man eye, even when aided by an accurate pair of compasses, can distinsfuish from a circle. Decreasing: the anjjle min- ute by minute, the ellipse becomes first perceptibly eccen- tric, then manifestly so, and by and by acquires so im- mensely elongated a form, as to bear no recognisable re- semblance to a circle. By continuing this process, the ellipse passes insensibly into a parabola ; and ultimately, by still further diminishing the angle, into an hyperbola. Now here we have four different species of curve — circle, ellipse, parabola, and hyperbola — each having its peculiar proper- ties and its separate equation, and the first and last of which are quite opposite in nature, connected together as mem- bers of one series, all producible by a single process of in- sensible modification. But the blindness of those who think it absurd to sup- pose that complex organic forms may have arisen by suc- cessive modifications out of simple ones, becomes astonish- ing when we remember that complex organic forms are daily being thus produced. A tree differs from a seed immeasurably in every respect — in bulk, in structure, in colour, in form, in specific gravity, in chemical composition ; 382 THE DEVELOPMENT HYPOTHESIS. differs so greatly that no visible resemblance of any kind can be pointed out between them. Yet is the one changed in the course of a few years into the other : changed so gradually, that at no moment can it be said — Now the seed ceases to be, and the tree exists. What can be more widely contrasted than a newly-born child and the small, semi-transparent, gelatinous spherule constituting the hu- man ovum ? The infant is so complex in structure that a cyclopaedia is needed to describe its constituent parts. The germinal vesicle is so simple that it may be defined in a line. l!^evertheless, a few months suffice to develop the one out of the other ; and that, too, by a series of modifi- cations so small, that were the embryo examined at succes- sive minutes, even a microscope would with difficulty dis- close any sensible changes. That the uneducated and the ill-educated should think the hypothesis that all races of beings, man inclusive, may in process of time have been evolved from the simplest monad, a ludicrous one, is not to be wondered at. But for the physiologist, who knows that every individual being is so evolved — who knows further, that in their earliest condition the germs of all plants and animals whatever are so similar, "that there is no apprecia- ble distinction amongst them which would enable it to be determined whether a particular molecule is the germ of a conferva or of an oak, of a zoophyte or of a man ; " ^ — for him to make a difficulty of the matter is inexcusable. Sure- ly if a single cell may, when subjected to certain influences, become a man in the space of twenty years ; there is nothing absurd in the hypothesis that under certain other influences, a cell may in the course of millions of years give origin to the human race. The two processes are generically the same ; and differ only in length and com- plexity. We have, indeed, in the part taken by many scientific * Carpenter. SOURCE OF THE NOTION OF SPECIAL CREATIONS. 383 men in this controversy of " Law versus Miracle," a good illustration of the tenacious vitality of superstitions. Ask one of our leading geologists or physiologists whether he believes in the Mosaic account of the creation, and he will take the question as next to an insult. Either he rejects the narrative entirely, or understands it in some vague non-natural sense. Yet one part of it he unconsciously adopts ; and that, too, literally. For whence has he got this notion of " special creations," which he thinks so reasonable, and fights for so vigorously ? Evidently he can trace it back to no other source than this myth which he repudiates. He has not a single fact in nature to quote in proof of it j nor is he prepared with any chain of abstract reasoning by which it may be established. Catechise him, and he will be forced to confess that the notion was put into his mind in childhood as part of a story which he now thinks absurd. And why, after rejecting all the rest of this story, he should strenuously defend this last remnant of it as though he had received it on valid authority, he would be puzzled to say. X. THE SOCIAL ORGANISM. SIR JAMES MACINTOSH got great credit for the saying, that " constitutions are not made, but grow." In our day, the most significant thing about this saying is, that it was ever thouo^ht so sig-nificant. As from the sur- prise displayed by a man at some familiar fact, you may judge of his general culture ; so from the admiration which an age accords to a new thought, its average degree of enlightenment may be inferred. That this apophthegm of Macintosh should have been quoted and re-quoted as it has, shows how profound has been the ignorance of social science. A small ray of truth has seemed brilliant, as a distant rushlight looks like a star in the surrounding dark- ness. Such a conception could not, indeed, fail to be startling when let fall in the midst of a system of thought to which it was utterly alien. Universally in Macintosh's day, things were explained on the hypothesis of manufacture, rather than that of growth : as indeed they are, by the majority, in our own day. It was held that the planets were sever- ally projected round the sun from the Creator's hand ; with exactly the velocity required to balance the sun's attrac- tion. The formation of the Earth, the separation of sea from land, the production of animals, were mechanical SOCIETIES AKE NOT MADE, BUT GKOW. 385 Uv^rks from wliich God rested as a labourer rests. Man was supposed to be moulded after a manner somewhat akin to that in which a modeller makes a clay-figure. And of course, in harmony with such ideas, societies were tacitly assumed to be arranged thus or thus by direct interposition of Providence ; or by the regulations of law-makers ; or by both. Yol that societies are not artificially put together, is a truth so manifest, that it seems wonderful men should have ever overlooked it. Perhaps nothing more clearly shows the small value of historical studies, as they have been commonly pursued. You need but to look at the changes going on around, or observe social organization in its lead- ing peculiarities, to see that these are neither supernatural, nor are determined by the wills of individual men, as by implication historians commonly teach ; but are consequent on general natural causes. The one case of the division of labour suffices to show this. It has not been by command of any ruler that some men have become manufacturers, while others have remained cultivators of the soil. In Lancashire, millions have devoted themselves to the making of cotton-fabrics ; in Yorkshire, another million lives by producing woollens ; and the pottery of Stafifordshire, the cutlery of Sheffield, the hardware of Birmingham, severally occupy their hundreds of thousands. These are large facts in the structure of English society ; but we can as- cribe them neither to miracle, nor to legislation. It is not by " the hero as king," any more than by " collective wis- dom," that men have been segregated into producers, wholesale distributors, and retail distributors. The whole of our industrial organization, from its main outlines down to its minutest details, has become what it is, not simply without legislative guidance, but, to a con- siderable extent, in spite of legislative hindrances. It has arisen under the pressure of human wants and activities. 17 S86 TBE SOCIAL ORGANISM. While each citizen has been pursuing his individual wel fare, and none taking thought about division of labour, or, indeed, conscious of the need for it, division of labour has yet been ever becoming more complete. It has been doing this slowly and silently : scarcely any having observed it until quite modern times. By steps so small, that year after year the industrial arrangements have seemed to men just what they were before — by changes as insensible as those through which a seed passes into a tree ; society has become the complex body of mutually-dependent workers which we now see. And this economic organization, mark, is the all-essential organization. Through the combination thus spontaneously evolved, every citizen is supplied with daily necessaries ; while he yields some product or aid to others. That we are severally alive to-day, we owe to the regular working of this combination during the past week ; and could it be suddenly abolished, a great proportion of us would be dead before another week ended. If these most conspicuous and vital arrangements of our social structure, have arisen without the devising of any one, but through the individual efforts of citizens to satisfy their own wants ; we may be tolerably certain that the less im- portant arrangements have similarly arisen. " But surely," it will be said, " the social changes di- rectly produced by law, cannot be classed as spontaneous growths. When parliaments or kings order this or that thing to be done, and appoint officials to do it, the process is clearly artificial ; and society to this extent becomes a manufacture rather than a growth." l^o, not even these changes are exceptions, if they be real and permanent changes. The true sources of such changes lie deeper than the acts of legislators. To take first the simplest instance. We all know that the enactments of represent- ative governments ultimately depend on the national will: they may for a time be out of harmony with it, but GOVERNMENTS ROOTED IN SOCIAL LIFE. 387 eventually they must conform to it. And to say that tho national will finally determines them, is to say that they result from the average of individual desires ; or, in other words — ^from the average of individual natures. A law so initiated, therefore, really grows out of the popular character. In the case of a Government representing a dominant class, the same things holds, though not so manifestly. For the very existence of a class monopolizing all power, ia due to certain sentiments in the commonalty. But for the feeling of loyalty on the part of retainers, a feudal system could not exist. We see in the protest of the Highlanders against the abolition of heritable jurisdictions, that they preferred that kind of local rule. And if to the popular nature, must thus be ascribed the growth of an irresponsi- ble ruling class ; then to the popular nature must be as- cribed the social arrangements which that class creates in the pursuit of its own ends. Even where the Government is despotic, the doctrine still holds. The character of the people is, as before, the original source of this political form; and, as we have abundant proof, other forms sud- denly created will not act, but rapidly retrograde to the old form. Moreover, such regulat'ons as a despot makes, if really operative, are so because of their fitness to the social state. His acts being very much swayed by gen- eral opinion — by precedent, by the feeling of his nobles, his priesthood, his army — are in part immediate results of the national character ; and when they are out of har- mony with the national character, they are soon practically abrogated. The failure of Cromwell permanently to establish a new social condition, and the rapid revival of suppressed institu- tions and practices after his death, show how powerless is a monarch to change the type of the society he governs. He may disturb, he may retard, or he may aid the natural 388 THE SOCIAL ORGANISM. process of organization ; but the general coarse of thia process is beyond his control. "Naj, more than this is true. Those who regard the histories of societies as the histories of their great men, and think that these great men shape the fates of their societies, overlook the truth that such great men are the products of their societies. Without cer- tain antecedents — without a certain average national char- acter, they could neither have been generated nor could have had the culture which formed them. If their society is to some extent re-moulded by them, they were, both before and after birth, moulded by their society — were the results of all those influences which fostered the ancestral character they inherited, and gave their own early bias, their creed, morals, knowledge, aspirations. So that such social changes as are immediately traceable to individuals of un- usual power, are still remotely traceable to the social causes which produced these individuals, and hence, from the highest point of view, such social changes also, are parts of the general developmental process. Thus that which is so obviously true of the industrial structure of society, is true of its whole structure. The fact that " constitutions are not made, but grow," is simply a fragment of the much larger fact, that under all its aspects and though all its ramifications, society is a growth and not a manufacture. A perception that there exists some analogy between the body politic and a living individual body, was early reached ; and from time to time re-appeared in literature. But this perception was necessarily vague and more or less fanciful. In the absence of physiological science, and especially of those comprehensive generalizations which it has but recently reached, it was impossible to discern the real parallelisms. The central idea of Plato's model Repubhc, is the cor- THEOKIES OF PLATO AND H0BBE3. 389 rcspondeuce between the parts of a society and the faculties of the human mind. Classifying these faculties luider the heads of Reason, Will, and Passion, he classiues the mem- bers of his ideal society under what ho regards as three analogous heads : — councillors, who are to exercise govern- ment; military or executive, who are to fulfil their behests; and the commonalty, bent on gain and selfish gratification. In other words, the ruler, the warrior, and the craftsman, are, according to him, the analogues of our reflective, voli- tional, and emotional powers. Xow even were there truth in the implied assumption of a parallelism between the structure of a society and that of a man, this classification would be indefensible. It might more truly be contended that, as the military power obeys the commands of the Government, it is the Government which answers to the Will ; w^hile the military power is simply an agency set in motion by it. Or, again, it might be contended that whereas the Will is a product of predominant desires, to which the Reason serves merely as an eye, it is the crafts- men, who, according to the alleged analogy, ought to be the moving power of the warriors. Hobbes sought to establish a still more definite parallel- ism : not, however between a society and the human mind, but between a society and the human body. In the intro- duction to the work in which he developes this conception, he says — " For by art is created that great Leviathan called a Com- monwealth, or State, in Latin Ciyitas, which is hut an artificial man ; though of greater stature and strength than the natural, for whose protection and defence it was intended, and in which the soTereignty is an artificial soul^ as giving life and motion to the whole body ; the magistrates and other officers of judica- ture and execution, artificial joints ; reward and punishment^ by which, fastened to the seat of the sovereignty, every joint and member is moved to perform his duty, are the nerves^ mat do 390 THE SOCIAL ORGANISM. tlie same in the body natural ; the wealth and richer of all the particular members are the strength; solus populi^ the people^ ^ safety^ its business ; counsellors, by whom all things needful for it to know are suggested unto it, are the memory ; equity and laics an artificial reason and will ; concord, health ; sedition, sichness ; civil war, death,'''' And Hobbes carries this comparison so far as actually to give a drawing of the Leviathan — a vast human-shaped figure, Avhose body and limbs are made up of multitudes of men. Just noting that these different analogies asserted by Plato and Hobbes, serve to cancel each other (being, as they are, so completely at variance), we may say that on the whole those of Hobbes are the more plausible. But they are full of inconsistencies. If the sovereignty is the soul of the body politic, how can it be that magistrates, who are a kind of deputy-sovereigns, should be comparable io joints? Or, again, how can the three mental functions, memory, reason, and will, be severally analogous, the first to counsellors, who are a class of public ofiScers, and the other two to equity and laws, which are not classes of officers, but abstractions ? Or, once more, if magistrates are the artificial joints of society, how can reward and punishment be its nerves ? Its nerves must surely be some class of persons. Reward and punishment must in societies, as m individuals, be conditio7is of the nerves, and not the nerves themselves. But the chief errors of these comparisons made by Plato and Hobbes, lie much deeper. Both thinkers assume that the organization of a society is comparable, not simply to the organization of a living body in general, but to the or- ganization of the human body in particular. There is no warrant whatever for assuming this. It is in no way im- plied by the evidence ; and is simply one of those fancies which we commonly find mixed up with the truths of early speculation. Still more erroneous are the two conception? EEKOES OF PLATO AND HOBBES. 391 in tills, that they construe a society as an artificial struc ture. Plato's model republic — his ideal of a healthful body politic — is to be consciously put together by men ; just as a watch might be : and Plato manifestly thinks of societies in general as thus originated. Quite specifically does Hobbes exj)ress this view. " For by ar^," he says, " ia created that great Leviathan called a Commonwealth." And he even goes so far as to compare the supposed social contract, from which a society suddenly originates, to the creation of a man by the divine fiat. Thus they both fall into the extreme inconsistency of considering a community as similar in structure to a human being, and yet as produced in the same way as an artificial mechanism — ^in nature, an organism ; in history, a machine. Notwithstanding errors, however, these speculations liave considerable significance. That such analogies, crude- ly as they are thought out, should have been alleged by Plato and Hobbes and many others, is a reason for suspect- ing that some analogy exists. The untenableness of the particular comparisons above instanced, is no ground for denying an essential parallelism ; for early ideas are usually but vague adumbrations of the truth. Lacking the great generalizations of biology, it was, as we have said, im- possible to trace out the real relations of social organiza- tions to organizations of another order. We propose here to show what are the analogies which modern science dis- closes to us. Let us set out by succinctly stating the points of similarity and the points of difference. Societies agree with individual organisms in four conspicuous peculiari- ties : — 1. That commencing as small aggregations, they insensi- bly augment in mass : some of them eventually reaching ten thousand times what they originally were. 2. That while at first so simple in structure as to be 392 THE SOCIAL ORGANISM. considered structureless, they assume, in the course of their growth, a continually-increasing complexity of structure. 3. That though in their early, undeveloped states, there exists in them scarcely any mutual dependence of parts, their parts gradually acquire a mutual dependence ; which becomes at last so great, that the activity and life of each part is made possible only by the activity and life of the rest. 4. That the life and development of a society is inde- pendent of, and far more prolonged than, the life and de- velopment of any of its component units ; who are severally born, grow, work, reproduce, and die, while the body poli- tic composed of them survives generation after generation, increasing in mass, completeness of structure, and func- tional activity. These four parallelisms will appear the more significant the more we contemplate them. Yf hile the points speci- fied, are points in which societies agree with individual or- ganisms, they are points in which individual organisms agree with each other, and disagree with all things else. In the course of its existence, every plant and animal in- , creases in mass, in a way not parallelled by inorganic ob jects : even such inorganic objects as crystals, which arise by growth, show us no such definite relation between growth and existence as organisms do. The orderly pro- gress from simplicity to complexity, displayed by bodies j)olitic in common with all living bodies, is a characteristic which distinguishes living bodies from the inanimate bodies amid which they move. That functional dependence of parts, which is scarcely more manifest in animals or plants than nations, has no counterpart elsewhere. And in no aggregate except an organic, or a social one, is there a perpetual removal and replacement of parts, joined with a continued integrity of the whole. ANALOGIES WITH THE VITAL ORGANISM. 393 Moreover, societies and organisms arc not only alike in these peculiarities, in which they are unlike all other thnigs ; but the highest societies, like the highest organ isms, exhibit them in the greatest degree. "VVe see that the lowest animals do not increase to anything like the sizes of the higher ones ; and, similarly, we see that aborigi- nal societies are comparatively limited in their growths. In complexity, our large civilized nations as much exceed primitive savage tribes, as a vertebrate animal does a zoophyte. Simple communities, like simple creatures, have so little mutual dependence of parts, that subdivision or mutilation causes but little inconvenience ; but from complex communities, as from complex creatures, you can- not remove any considerable organ without producing great disturbance or death of the rest. And in societies of low type, as in inferior animals, the life of the aggregate, often cut short by division or dissolution, exceeds in length the lives of the component units, very far less than in civi- lized communities and superior animals ; which outlive many generations of their component units. On the other hand, the leading differences between societies and individual organisms are these : — 1. That societies have no specific external forms. This, however, is a point of contrast which loses much of its im- portance, when we remember that throughout the vegetal kingdom, as well as in some lower divisions of the animal kingdom, the forms are often very indefinite — definiteness being rather the exception than the rule ; and that they are manifestly in part determined by surrounding physical circumstances, as the forms of societies are. If, too, it should eventually be shown, as we beheve it will, that the form of every species of organism has resulted from the average play of the external forces to which it has been subject during its evolution as a species; then, that the external forms of societies should depend, as they do, 11* 394 THE SOCIAL ORGAmSM. on surrounding conditions, will be a further point of con^ munity. 2. That though the living tissue whereof an individual organism consists, forms a continuous mass, the living ele- ments of a society do not form a continuous mass ; but are more or less widely dispersed over some portion of the Earth's surface. This, which at first sight appears to be a fundamental distinction, is one which yet to a great extent disappears when we contemplate all the facts. For, in the lower divisions of the animal and vegetal kingdoms, there are types of organization much more nearly allied, in this respect, to the organization of a society, than might be sup- posed — types in which the living units essentially compos- ing the mass, are dispersed through an inert substance, that can scarcely be called living in the full sense of the word. It is thus with some of the Protococci and with the N'ostocece^ which exist as cells imbedded in a viscid matter. It is so, too, with the TJialassicoUm — bodies that are made up of differentiated parts, dispersed through an undifferenti- ated jelly. And throughout considerable portions of their bodies, some of the AcalepliGQ exhibit more or less distinct- ly this type of structure. Indeed, it may be contended that this is the primitive form of all organization ; seeing that, even in the highest creatures, as in ourselves, every tissue developes out of what physiologists call a blastema — an unorganized though organizable substance, through which organic points are distributed. Now this is very much the case with a society. For we must remember that though the men who make up a society, are physically separate and even scattered; yet that the surface over which they are scatter- ed is. not one devoid of life, but is covered by life of a lower order which ministers to their life. The vegetation which clothes a country, makes possible the animal life in that country ; and only through its animal and vegetal products C0NTBAST8 WITH THE VITAL 0EGANI8M. 395 can such a country support a human society. Hence the members of the body poHtic are not to be regarded ag separated by intervals of dead space ; but as dijffused through a space occupied by Hfe of a lower order. In our conception of a social organism, we must include all that lower organic existence on which human existence, and therefore social existence, depends. And when we do this, we see that the citizens who make up a community, may be considered as highly vitalized units surrounded by substances of lower vitality, from which they draw their nutriment : much as m the cases above instanced. Thus, when examined, this apparent distinction in great part disappears. 3. That while the ultimate living elements of an indi- vidual organism, are mostly fixed in their relative positions, those of the social organism are capable of moving from place to place, seems a marked disagreement. But here, too, the disagreement is much less than would be supposed. For while citizens are locomotive in their private capacities, they are fixed in their public capacities. As farmers, man- ufacturers, or traders, men carry on their business at the same spots, often throughout their whole lives ; and if they go away occasionally, they leave behind others to discharge their functions in their absence. Each great centre of pro- duction, each manufacturing town or district, continues always in the same place ; and many of the firms in such town or district, are for generations carried on either by the descendants or successors of those who founded them. Just as in a living body, the cells that make up some im- portant organ, severally perform their functions for a time and then disappear, leaving others to supply their places ; so, in each part of a society, the organ remains, though the persons who compose it change. Thus, in social life, as in the hfe of an animal, the units as well as the larger agencies formed of them, are in the main stationary as 396 THE SOCIAL OEGA^nSM. respects the places where they discharge their duties and obtain their sustenance. And hence the power of indivi* dual locomotion does not practically aiFect the analogy. 4. The last and perhaps the most important distinction, is, that while in the body of an animal, only a special tissue is endowed with feeling ; in a society, all the members are endowed with feeling. Even this distinction, however, ia by no means a complete one. For in some of the lowest animals, characterized by the absence of a nervous system, such sensitiveness as exists is possessed by all parts. It is only in the more organized forms that feeling is monopo- lized by one class of the vital elements. Moreover, we must remember that societies, too, are not without a cer- tain differentiation of this kind. Though the units of a community are all sensitive, yet they are so in unequal de- grees. The classes engaged in -agriculture and laborious occupations in general, are much less susceptible, intellec- tually and emotionally, than the rest ; and especially less so than the classes of highest mental culture. Still, we have here a tolerably decided contrast between bodies politic and individual bodies. And it is one which we should keep constantly in view. For it reminds us that while in individual bodies, the welfare of all other parts is rightly subservient to the welfare of the nervous system, whose pleasurable or painful activities make up the good or evil of life ; in bodies politic, the same thing does not hold, or holds to but a very slight extent. It is well that the lives of all parts of an animal should be merged in the life of the whole ; because the whole has a corporate consciousness capable of happiness or misery. But it is not so with a society ; since its living units do not and cannot lose indi- vidual consciousness ; and since the community as a whole has no corporate consciousness. And this is an everlast- ing reason why the welfare of citizens cannot rightly be Bacrificed to some supposed benefit of the State; but EXTENT OF THE ANALOGIES. 397 wliy, on the other hand, the State is to be maintained solely for the benefit of citizens. The corporate life must here be subservient to the lives of the parts ; instead of the lives of the parts being subservient to the corpo rate life. Such, then, are the points of analogy and the points of difference. May we not say that the points of difference serve but to bring into clearer light the points of analogy. While comparison makes definite the obvious contrasts be- tween organisms commonly so called, and the social organ- ism ; it shows that even these contrasts are not so decided as was to be expected. The indefiniteness of form, the discontinuity of the parts, the mobility of the parts, and the universal sensitiveness, are not only peculiarities of the social organism which have to be stated with considerable qualifications ; but they are peculiarities to which the in- ferior classes of animals present approximations. Thus we find but little to conflict with the all-important analogies That societies slowly augment in mass ; that they progress in complexity of structure; that at the same time their parts become more mutually dependent ; that their living miits are removed and replaced without destroying their in- tegrity; and further, that the extents to which they dis- play these peculiarities are proportionate to their vital ac- tivities ; are traits that societies have in common with organic bodies. And these traits in which they agree with organic bodies and disagree with all other things — these traits which in truth specially characterize organic bodies, entirely subordinate the minor distinctions : such distinc- tions being scarcely greater than those which separate one half of the organic kingdom from the other. The princi- pies of organization are the same ; and the differences are simply differences of application. Here ending this general survey of the facts which justif} the comparison of a society to a living body ; 398 THE SOCIAL ORGANISM. let US look at them in detail. We shall find that the parallelism becomes the more marked the more closely it is traced. The lowest animal and vegetal forms — Protozoa and JProtophyta — are chiefly inhabitants of the water. They are minute bodies, most of which are made individually visible only by the microscope. All of them are extremely simple in structure ; and some of them, as the jRJiizopods^ almost structureless. Multiplying, as they ordinarily do, by the spontaneous division of their bodies, they produce halves, which may either become quite separaite and move away in different directions, or may continue attached. By the repetition of this process of fission, aggregations of various sizes and kinds are formed. Among the Proto- phyta we have some classes, as the JDiatomacem and the Yeast-plant, in which the individuals may be either sepa- rate, or attached in groups of two, three, four, or more ; other classes in which a considerable number of individual cells are united into a thread ( Conferva^ Mordliob) ; others in which they form a net work (Hydrodictyon) ; others in which they form plates ( Ulva) ; and others in which they ►form masses {Laminaria^ Agaricui) : all which vegetal forms, having no distinction of root, stem, or leaf, are called Thallogens, Among the Protozoa we find parallel facts. Immense numbers of Amceba-\ike creatures, massed togeth- er in a framework of horny fibres, constitute Sponge. In the Foraminifera^ we see smaller groups of such creatures arranged into more definite shapes. IsTot only do these almost structureless Protozoa unite into regular or irregu- lar aggregations of various sizes ; but among some of the more organized ones, as the V^orticellce, there are also pro- duced clusters of individuals, proceeding from a common Btock. But these little societies of monads, or cells, or whatever else we may call them, are societies only in the ANALOGIES AMONG INFERIOR STRrCTTIRES. 309 iowcst sense : there is no subordination of parts among them — no organization. Each of the component units lives by and for itself; neither giving nor receiving aid. There is no mutual dependence, save that consequent on mere mechanical union. Now do we not here discern analogies to the first Btages of human societies ? Among the lowest races, as the Bushmen, we find but incipient aggregation : sometimes single families ; sometimes two or three families wandering about together. The number of associated units is small and variable ; and their union inconstant. 'No division of labour exists except between the sexes ; and the only kind of mutual aid is that of joint attack or defence. We sec nothing beyond an undiflerentiated group of individuals, forming the germ of a society ; just as in the homogeneous groups of cells above described, we see only the initial stage of animal and vegetal organization. The comparison may now be carried a step higher. In the vegetal kingdom we pass from the Tliallogens^ consist- ing of mere masses of similar cells, to the Acrogens^ in which the cells are not similar throughout the whole mass ; but are here aggregated into a structure serving as leaf, and there into a structure serving as root : thus forminsr a whole in which there is a certain subdivision of functions among the units ; and therefore a certain mutual dependence. In the animal kingdom we find analogous progress. From mere unorganized groups of cells, or cell-like bodies, we ascend to groups of such cells arranged into parts that have different duties. The common Polype, from whose substance may be separated individual cells which exhibit, when detached, appearances and movements like those of the solitary Amceha^ illustrates this stage. The compo- nent units, though still showing great community of char- acter, assume somewhat diverse functions in the skin, in the internal surface, and in the tentacles. There is a cer* tain amount of " ^physiological division of labour.' ' 400 THE SOCIAL OEGANISM. Turning to societies, we find these stages paralleled in the majority of aboriginal tribes. When, instead of such small variable groups as are formed by Bushmen, we come tc the larger and more permanent groups formed by savages not quite so low, we begin to find traces of social structure. Though industrial organization scarcely shows itself, except in the different occupations of the sexes ; yet there is always more or less of governmental organization. While all the men are warriors and hunters, only a part of them are in- cluded in the council of chiefs ; and in this council of chiefs some one has commonly supreme authority. There is thus a certain distinction of classes and powers ; and through this slight .specialization of functions, is efieeted a rude co- operation among the increasing mass of individuals, when- ever the society has to act in its corporate capacity. Be- yond this analogy in the slight extent to which organiza- tion is carried, there is analogy in the indefiniteness of the organization. In the Hydra^ the respective parts of the creature's substance have many functions in common. They are all contractile ; omitting the tentacles, the whole of the external surface can give origin to young hydrm / and when turned inside out, stomach performs the duties .of skin, and skin the duties of stomach. In aboriginal so- cieties such differentiations as exist are similarly imperfect, l^otwithstanding distinctions of rank, all persons maintain themselves by their own exertions. Not only do the head men of the tribe, in common with the rest, build their own huts, make their own weapons, kill their own food ; but the chief does the like. Moreover, in the rudest of these tribes, such governmental organization as exists is very in- constant. It is frequently changed by violence or treach- ery, and the function of ruling assumed by other members of the community. Thus between the rudest societies and some of the lowest forms of animal life there is analogy Blike in the slight extent to which organization is carried, PARALLEL PB0CES8ES OF MULTIPLICATION. 401 /n the indeliniteness of this orgauizatioD, and in its want of dxity. A further complication of the analogy is at hand. From the aggregation of units into organized groups, wo pass to the multiplication of such groups, and their coales- cence into compound groups. The Hijdra^ when it ha? reached a certain bulk, puts forth from its surface a Vuil, which, growing and gradually assuming the form of the parent, finally becomes detached ; and by this process of gemmation, the creature peoples the adjacent water with others like itself. A parallel process is seen in the multipli- cation of those lowly-organized tribes above described. One of them having increased to a size that is either too great for co-ordination under so rude a structure, or else that is greater than the surrounding country can supply with game and other wild food, there arises a tendency to divide ; and as in such communities there are ever occur- ring quarrels, jealousies, and other causes of division, there soon comes an occasion on which a part of the tribe sepa- rates under the leadership of some subordinate chief, and migrates. This process being from time to time repeated, an extensive region is at length occupied with numerous separate tribes descended from a common ancestry. The analogy by no means ends here. Though in the common Hydra^ the young ones that bud out from the parent soon become detached and independent ; yet throughout the rest of the class Hydrozoa^ to which this creature belongs, the like does not generally happen. The successive indi- viduals thus developed continue attached ; give origin to other such individuals which also continue attached ; and so there results a compound animal. As in the Hydra itself, we find an aggregation of units which, considered separately, are akin to the lowest Protozoa ; so here, in a Zoophyte, we find an aggregation of such aggregations. The like is also seen throughout the extensive family of 402 THE SOCIAL OEGANISM. Pulyzoa or Molluscoida, The Ascidian Mollusks, too, in their many varied forms, show us the same thing : exhibit- ing, at the same time, various degrees of union subsisting among the component individuals. For while in the Salpm the component individuals adhere so slightly that a blow on the vessel of water in which they are floating will separate them ; in the Botryllidm there exists a vascular connexion between them, and a common circulation. Now in these various forms and degrees of aggregation, may we not see paralleled the union of groups of connate tribes into nations ? Though in regions where circum- stances permit, the separate tribes descended from some original tribe, migrate in all directions, and become far re- moved and quite separate ; yet, in other cases, where the territory presents barriers to distant migration, this does not happen: the small kindred communities are held in closer contact, and eventually become more or less united into a nation. The contrast between the tribes of Ameri- can Indians and the^ Scottish clans, illustrates this. And a glance at our own early history, or the early histories of continental nations, shows this fusion of small simple com- munities taking place in various ways and to various extents. As says M. Guizot, in his history of " The Origin of Rep- resentative Government," — *' By degrees, in the midst of the chaos of the rising society, small aggregations are formed which feel the want of alliance and union with each other. . . . Soon inequality of strength is displayed among neighbouring aggregations. The strong tend to subjugate the weak, and usurp at first the rights of taxation and military service. Thus political authority leaves the aggregations which first instituted it, to take a wider range." That is to say, the small tribes, clans, or feudal unions, sprung mostly from a common stock, and long held in con- tact as occupants of adjacent lands, gradually get united in Other ways than by mere adhesion of race and proximity. SIMILARITY OF GEOUPINGS. 403 A further series of changes begins now to take place ; to which, as before, we shall find analogies in individual or- ganisms. Returning again to the Hydrozoa^ we observe that in the simplest of the compound forms, the connected individuals developed from a common stock, are alike in structure, and perform like functions : with the exception, indeed, that here and there a bud, instead of developing into a stomach, mouth, and tentacles, becomes an egg-sac. But with the oceanic Ilydrozoa^ this is by no means the case. In the Oalycophoridce., some of the polypes growing from the common germ, become developed and modified into large, long, sack-like bodies, which by their rhythmi- cal contractions move through the water, dragging the community of polypes after them. In the Physophoridce, a variety of organs similarly arise by transformation of the budding polypes ; so that in creatures like the Physalia^ commonly known as the " Portuguese Man-of-war," instead of that tree-like group of similar individuals forming the original type of the class, we have a complex mass of unlike parts fulfilling unlike duties. As an individual Hydra may be regarded as a group of Protozoa^ which have become partially metamorphosed into different organs ; so a Phy- salia is, morphologically considered, a group of Ilydrm of which the individuals have been variously transformed to fit them for various functions. This differentiation upon differentiation, is just what takes place in the evolution of a civilized society. We ob- served how, in the small communities first formed, there arises, a certain simple political organization — there is a partial separation of classes having different duties. And now we have to observe how, in a nation formed by the fusion of such small communities, the several sections, at first alike in structures and modes of activity, gradually become unlike in both — gradually become mutually-de« pendent parts, diverse in th^ir natures and functions. ^04: THE SOCIAL OEGANISM. The doctrine of the progressive division of labour, t