Vinaire's Blog

Reference: The Story of Philosophy

This paper presents Chapter II, Section 6 from the book THE STORY OF PHILOSOPHY by WILL DURANT. The contents are from the 1933 reprint of this book by TIME INCORPORATED by arrangement with Simon and Schuster, Inc.

The paragraphs of the original material (in black) are accompanied by brief comments (in color) based on the present understanding.  Feedback on these comments is appreciated.

The heading below is linked to the original materials.

.

VI. Psychology and the Nature of Art 

Aristotle’s psychology is marred with similar obscurity and vacillation. There are many interesting passages: the power of habit is emphasized, and is for the first time called “second nature”; and the laws of association, though not developed, find here a definite formulation. But both the crucial problems of philosophical psychology—the freedom of the will and the immortality of the soul—are left in haze and doubt. Aristotle talks at times like a determinist— “We cannot directly will to be different from what we are”; but he goes on to argue, against determinism, that we can choose what we shall be, by choosing now the environment that shall mould us; so we are free in the sense that we mould our own characters by our choice of friends, books, occupations, and amusements. He does not anticipate the determinist’s ready reply that these formative choices are themselves determined by our antecedent character, and this at last by unchosen heredity and early environment. He presses the point that our persistent use of praise and blame presupposes moral responsibility and free will; it does not occur to him that the determinist might reach from the same premisses a precisely opposite conclusion—that praise and blame are given that they may be part of the factors determining subsequent action. 

In my opinion, we are what we are, and we can improve ourselves through our own efforts. Improvement consists of being increasingly consistent and harmonious.

Aristotle’s theory of the soul begins with an interesting definition. The soul is the entire vital principle of any organism, the sum of its powers and processes. In plants the soul is merely a nutritive and reproductive power; in animals it is also a sensitive and locomotor power; in man it is as well the power of reason and thought. The soul, as the sum of the powers of the body, cannot exist without it; the two are as form and wax, separable only in thought, but in reality one organic whole; the soul is not put into the body like the quick-silver inserted by Daedalus into the images of Venus to make “stand-ups” of them. A personal and particular soul can exist only in its own body. Nevertheless the soul is not material, as Democritus would have it; nor does it all die. Part of the rational power of the human soul is passive: it is bound up with memory, and dies with the body that bore the memory; but the “active reason,” the pure power of thought, is independent of memory and is untouched with decay. The active reason is the universal as distinguished from the individual element in man; what survives is not the personality, with its transitory affections and desires, but mind in its most abstract and impersonal form. In short, Aristotle destroys the soul in order to give it immortality; the immortal soul is “pure thought,” undefiled with reality, just as Aristotle’s God is pure activity, undefiled with action. Let him who can, be comforted with this theology. One wonders sometimes whether this metaphysical eating of one’s cake and keeping it is not Aristotle’s subtle way of saving himself from anti-Macedonian hemlock? 

Aristotle’s description of soul is brilliant. There is a personal soul but that “soul” is not immortal; it dies with the body.

In a safer field of psychology he writes more originally and to the point, and almost creates the study of esthetics, the theory of beauty and art. Artistic creation, says Aristotle, springs from the formative impulse and the craving for emotional expression. Essentially the form of art is an imitation of reality; it holds the mirror up to nature. There is in man a pleasure in imitation, apparently missing in lower animals. Yet the aim of art is to represent not the outward appearance of things, but their inward significance; for this, and not the external mannerism and detail, is their reality. There may be more human verity in the sternly classic moderation of the Oedipus Rex than in all the realistic tears of the Trojan Women. 

In my opinion, at the very depth of artistic creation is the impulse to understand (intellect) and express (feelings) itself.

The noblest art appeals to the intellect as well as to the feelings (as a symphony appeals to us not only by its. harmonies and sequences but by its structure and development); and this intellectual pleasure is the highest form of joy to which a man can rise. Hence a work of art should aim at form, and above all at unity, which is the backbone of structure and the focus of form. A drama, e. g., should have unity of action: there should be no confusing sub-plots, nor any digressive episodes.* But above all, the function of art is catharsis, purification: emotions accumulated in us under the pressure of social restraints, and liable to sudden issue in unsocial and destructive action, are touched off and sluiced away in the harmless form of theatrical excitement; so tragedy, “through pity and fear, effects the proper purgation of these emotions.” Aristotle misses certain features of tragedy (e. g., the conflict of principles and personalities); but in this theory of catharsis he has made a suggestion endlessly fertile in the understanding of the almost mystic power of art. It is an illuminating instance of his ability to enter every field of speculation, and to adorn whatever he touches. 

*[Aristotle gives only one sentence to unity of time; and does not mention unity of place; so that the “three unities” commonly foisted upon him are later inventions.]

The work of art is pleasing when it is continuous, consistent and harmonious in its form. It brings to fore the anomalies of life that have been suppressed and need resolution.

.

Reference: The Story of Philosophy

This paper presents Chapter II, Section 4 from the book THE STORY OF PHILOSOPHY by WILL DURANT. The contents are from the 1933 reprint of this book by TIME INCORPORATED by arrangement with Simon and Schuster, Inc.

The paragraphs of the original material (in black) are accompanied by brief comments (in color) based on the present understanding.  Feedback on these comments is appreciated.

The heading below is linked to the original materials.

.

IV. The Organization of Science 

1. Greek Science Before Aristotle 

“Socrates,” says Renan, “gave philosophy to mankind, and Aristotle gave it science. There was philosophy before Socrates, and science before Aristotle; and since Socrates and since Aristotle, philosophy and science have made immense advances. But all has been built upon the foundation which they laid.” Before Aristotle, science was in embryo; with him it was born.

Earlier civilizations than the Greek had made attempts at science; but so far as we can catch their thought through their still obscure cuneiform and hieroglyphic script, their science was indistinguishable from theology. That is to say, these pre-Hellenic peoples explained every obscure operation in nature by some supernatural agency; everywhere there were gods. Apparently it was the Ionian Greeks who first dared to give natural explanations of cosmic complexities and mysterious events: they sought in physics the natural causes of particular incidents, and in philosophy a natural theory of the whole. Thales (640-550 B. C.), the “Father of Philosophy,” was primarily an astronomer, who astonished the natives of Miletus by informing them that the sun and stars (which they were wont to worship as gods) were merely balls of fire. His pupil Anaximander (610-540 B. C.), the first Greek to make astronomical and geographical charts, believed that the universe had begun as an undifferentiated mass, from which all things had arisen by the separation of opposites; that astronomic history periodically repeated itself in the evolution and dissolution of an infinite number of worlds; that the earth was at rest in space by a balance of internal impulsions (like Buridan’s ass); that all our planets had once been fluid, but had been evaporated by the sun; that life had first been formed in the sea, but had been driven upon the land by the subsidence of the water; that of these stranded animals some had developed the capacity to breathe air, and had so become the progenitors of all later land life; that man could not from the beginning have been what he now was, for if man, on his first appearance, had been so helpless at birth, and had required so long an adolescence, as in these later days, he could not possibly have survived. Anaximenes, another Milesian (fl. 450 B. C.), described the primeval condition of things as a very rarefied mass, gradually condensing into wind, cloud, water, earth, and stone; the three forms of matter—gas, liquid and solid—were progressive stages of condensation; heat and cold were merely rarefaction and condensation; earth-quakes were due to the solidification of an originally fluid earth; life and soul were one, an animating and expansive force present in everything everywhere. Anaxagoras (500-428 B. C.), teacher of Pericles, seems to have given a correct explanation of solar and lunar eclipses; he discovered the processes of respiration in plants and fishes; and he explained man’s intelligence by the power of manipulation that came when the fore-limbs were freed from the tasks of locomotion. Slowly, in these men, knowledge grew into science. 

First scientific advance was from supernatural agency to natural explanations. The first area of investigation was the heavens and then earth, matter and life; and, ultimately, the investigation of man.

Heraclitus (530-470 B. C.), who left wealth and its cares to live a life of poverty and study in the shade of the temple porticoes at Ephesus, turned science from astronomy to earthlier concerns. All things forever flow and change, he said; even in the stillest matter there is unseen flux and movement. Cosmic history runs in repetitious cycles, each beginning and ending in fire (here is one source of the Stoic and Christian doctrine of last judgment and hell). “Through strife,” says Heraclitus, “all things arise and pass away… War is the father and king of all: some he has made gods, and some men; some slaves, and some free.” Where there is no strife there is decay: “the mixture which is not shaken decomposes.” In this flux of change and struggle and selection, only one thing is constant, and that is law. “This order, the same for all things, no one of gods or men has made; but it always was, and is, and shall be.” Empedocles (fl. 445 B. C., in Sicily) developed to a further stage the idea of evolution. Organs arise not by design but by selection. Nature makes many trials and experiments with organisms, combining organs variously; where the combination meets environmental needs the organism survives and perpetuates its like; where the combination fails, the organism is weeded out; as time goes on, organisms are more and more intricately and successfully adapted to their surroundings. Finally, in Leucippus (fl. 445 B. C.) and Democritus (460-360), master and pupil in Thracian Abdera, we get the last stage of pre-Aristotelian science—materialistic, deterministic atomism. “Everything,” said Leucippus, “is driven by necessity.” “In reality,” said Democritus, “there are only atoms and the void.” Perception is due to the expulsion of atoms from the object upon the sense organ There is or have been or will be an infinite number of worlds, at every moment planets are colliding and dying, and new worlds are rising out of chaos by the selective aggregation of atoms of similar size and shape. There is no design; the universe is a machine. 

Then there was speculation on the nature of the universe and its evolution.

This, in dizzy and superficial summary, is the story of Greek science before Aristotle. Its cruder items can be well forgiven when we consider the narrow circle of experimental and observational equipment within which these pioneers were compelled to work. The stagnation of Greek industry under the incubus of slavery prevented the full development of these magnificent beginnings; and the rapid complication of political life in Athens turned the Sophists and Socrates and Plato away from physical and biological research into the paths of ethical and political theory. It is one of the many glories of Aristotle that he was broad and brave enough to compass and combine these two lines of Greek thought, the physical and the moral; that going back beyond his teacher, he caught again the thread of scientific development in the pre- Socratic Greeks, carried on their work with more resolute detail and more varied observation, and brought together all the accumulated results in a magnificent body of organized science. 

Earlier scientific investigation lacked the support of experimental and observational equipment.

.

2. Aristotle as a Naturalist 

If we begin here chronologically, with his Physics, we shall be disappointed; for we find that this treatise is really a metaphysics, an abstruse analysis of matter, motion, space, time, infinity, cause, and other such “ultimate concepts.” One of the more lively passages is an attack on Democritus’ “void”: there can be no void or vacuum in nature, says Aristotle, for in a vacuum all bodies would fall with equal velocity; this being impossible, “the supposed void turns out to have nothing in it”—an instance at once of Aristotle’s very occasional humor, his addiction to unproved assumptions, and his tendency to disparage his predecessors in philosophy. It was the habit of our philosopher to preface his works with historical sketches of previous contributions to the subject in hand, and to add to every contribution an annihilating refutation. “Aristotle, after the Ottoman manner,” says Bacon, “thought he could not reign secure without putting all his brethren to death.” But to this fratricidal mania we owe much of our knowledge of pre-Socratic thought. 

Aristotle did not deal much with physics because of the lack of experimental and observational equipment. Before starting his own research in an area, he studied his predecessors and formed his own postulates. He then built up on those postulates.

For reasons already given, Aristotle’s astronomy represents very little advance upon his predecessors. He rejects the view of Pythagoras that the sun is the center of our system; he prefers to give that honor to the earth. But the little treatise on meteorology is full of brilliant observations, and even its speculations strike illuminating fire. This is a cyclic world, says our philosopher: the sun forever evaporates the sea, dries up rivers and springs, and transforms at last the boundless ocean into the barest rock; while conversely the uplifted moisture, gathered into clouds, falls and renews the rivers and the seas. Everywhere change goes on, imperceptibly but effectively. Egypt is “the work of the Nile,” the product of its deposits through a thousand centuries. Here the sea encroaches upon the land, there the land reaches out timidly into the sea; new continents and new oceans rise, old oceans and old continents disappear, and all the face of the world is changed and re-changed in a great systole and diastole of growth and dissolution. Sometimes these vast effects occur suddenly, and destroy the geological and material bases of civilization and even of life; great catastrophes have periodically denuded the earth and reduced man again to his first beginnings; like Sisyphus, civilization has repeatedly neared its zenith only to fall back into barbarism and begin da capo its upward travail. Hence the almost “eternal recurrence,” in civilization after civilization, of the same inventions and discoveries, the same “dark ages” of slow economic and cultural accumulation, the same rebirths of learning and science and art. No doubt some popular myths are vague traditions surviving from earlier cultures. So the story of man runs in a dreary circle, because he is not yet master of the earth that holds him. 

Many of Aristotle’s postulates are arbitrary but he makes brilliant observations at many places, especially in the area of meteorology.

.

3. The Foundation of Biology 

As Aristotle walked wondering through his great zoological garden, he became convinced that the infinite variety of life could be arranged in a continuous series in which each link would be almost indistinguishable from the next. In all respects, whether in structure, or mode of life, or reproduction and rearing, or sensation and feeling, there are minute gradations and progressions from the lowest organisms to the highest. At the bottom of the scale we can scarcely divide the living from the “dead”; “nature makes so gradual a transition from the inanimate to the animate kingdom that the boundary lines which separate them are indistinct and doubtful”; and perhaps a degree of life exists even in the inorganic. Again, many species cannot with certainty be called plants or animals. And as in these lower organisms it is almost impossible at times to assign them to their proper genus and species, so similar are they; so in every order of life the continuity of gradations and differences is as remarkable as the diversity of functions and forms. But in the midst of this bewildering richness of structures certain things stand out convincingly: that life has grown steadily in complexity and in power; that intelligence has progressed in correlation with complexity of structure and mobility of form; that there has been an increasing specialization of function, and a continuous centralization of physiological control. Slowly life created for itself a nervous system and a brain; and mind moved resolutely on towards the mastery of its environment. 

One of the brilliant observations is that there are minute gradations and progressions from the lowest organisms to the highest. Life has grown steadily in complexity and in power. 

The remarkable fact here is that with all these gradations and similarities leaping to Aristotle’s eyes, he does not come to the theory of evolution. He rejects Empedocles’ doctrine that all organs and organisms are a survival of the fittest, and Anaxagoras’ idea that man became intelligent by using his hands for manipulation rather than for movement; Aristotle thinks, on the contrary, that man so used his hands because he had become intelligent. Indeed, Aristotle makes as many mistakes as possible for a man who is founding the science of biology. He thinks, for example, that the male element in reproduction merely stimulates and quickens; it does not occur to him (what we now know from experiments in parthenogenesis) that the essential function of the sperm is not so much to fertilize the ovum as to provide the embryo with the heritable qualities of the male parent, and so permit the offspring to be a vigorous variant, a new admixture of two ancestral lines. As human dissection was not practiced in his time, he is particularly fertile in physiological errors: he knows nothing of muscles, not even of their existence; he does not distinguish arteries from veins; he thinks the brain is an organ for cooling the blood; he believes, forgivably, that man has more sutures in the skull than woman; he believes, less forgivably, that man has only eight ribs on each side; he believes, incredibly, and unforgivably, that woman has fewer teeth than man. Apparently his relations with women were of the most amicable kind. 

Aristotle rejected earlier doctrines of evolution. As human dissection was not practiced in his time, he is particularly fertile in physiological errors. 

Yet he makes a greater total advance in biology than any Greek before or after him. He perceives that birds and reptiles are near allied in structure; that the monkey is in form intermediate between quadrupeds and man; and once he boldly declares that man belongs in one group of animals with the viviparous quadrupeds (our “mammals”). He remarks that the soul in infancy is scarcely distinguishable from the soul of animals. He makes the illuminating observation that diet often determines the mode of life; “for of beasts some are gregarious, and others solitary—they live in the way which is best adapted to… obtain the food of their choice.” He anticipates Von Baer’s famous law that characters common to the genus (like eyes and ears) appear in the developing organism before characters peculiar to its species (like the “formula” of the teeth), or to its individual self (like the final color of the eyes); and he reaches out across two thousand years to anticipate Spencer’s generalization that individuation varies inversely as genesis—that is that the more highly developed and specialized a species or an individual happens to be, the smaller will be the number of its offspring. He notices and explains reversion to type—the tendency of a prominent variation (like genius) to be diluted in mating and lost in successive generations. He makes many zoological observations which, temporarily rejected by later biologists, have been confirmed by modern research—of fishes that make nests, for example, and sharks that boast of a placenta. 

Yet Aristotle makes a greater total advance in biology than any Greek before or after him. 

And finally he establishes the science of embryology. “He who sees things grow from their beginning,” he writes, “will have the finest view of them.” Hippocrates (b. 460 B. C.), greatest of Greek physicians, had given a fine example of the experimental method, by breaking a hen’s eggs at various stages of incubation; and had applied the results of these studies in his treatise “On the Origin of the Child.” Aristotle followed this lead and performed experiments that enabled him to give a description of the development of the chick which even today arouses the admiration of embryologists. He must have performed some novel experiments in genetics, for he disproves the theory that the sex of the child depends on what testis supplies the reproductive fluid, by quoting a case where the right testis of the father had been tied and yet the children had been of different sexes. He raises some very modern problems of heredity. A woman of Elis had married a negro; her children were all whites, but in the next generation negroes reappeared; where, asks Aristotle, was the blackness hidden in the middle generation? There was but a step from such a vital and intelligent query to the epochal experiments of Gregor Mendel (1822-1882). Prudens quaestio dimidium scientioe—to know what to ask is already to know half. Surely, despite the errors that mar these biological works, they form the greatest monument ever raised to the science by any one man. When we consider that before Aristotle there had been, so far as we know, no biology beyond scattered observations, we perceive that this achievement alone might have sufficed for one life-time, and would have given immortality. But Aristotle had only begun. 

Aristotle made many vital and intelligent queries that later led to great discoveries. 

.

Reference: The Story of Philosophy

This paper presents Chapter II, Section 2 from the book THE STORY OF PHILOSOPHY by WILL DURANT. The contents are from the 1933 reprint of this book by TIME INCORPORATED by arrangement with Simon and Schuster, Inc.

The paragraphs of the original material (in black) are accompanied by brief comments (in color) based on the present understanding.  Feedback on these comments is appreciated.

The heading below is linked to the original materials.

.

II. The Work of Aristotle

It was not hard for the instructor of the king of kings to find pupils even in so hostile a city as Athens. When, in the fifty-third year of his age, Aristotle established his school, the Lyceum, so many students flocked to him that it became necessary to make complicated regulations for the maintenance of order. The students themselves determined the rules, and elected, every ten days, one of their number to supervise the School. But we must not think of it as a place of rigid discipline; rather the picture which comes down to us is of scholars eating their meals in common with the master, and learning from him as he and they strolled up and down the Walk along the athletic field from which the Lyceum took its name.

[The Walk was called Peripatos; hence the later name, Peripatetic School. The athletic field was part of the grounds of the temple of Apollo Lyceus—the protector of the flock against the wolf (Iycos).]

In the fifty-third year of his age, Aristotle established his school to conduct research and teach.

The new School was no mere replica of that which Plato had left behind him. The Academy was devoted above all to mathematics and to speculative and political philosophy; the Lyceum had rather a tendency to biology and the natural sciences. If we may believe Pliny, Alexander instructed his hunters, gamekeepers, gardeners and fishermen to furnish Aristotle with all the zoological and botanical material he might desire; other ancient writers tell us that at one time he had at his disposal a thousand men scattered throughout Greece and Asia, collecting for him specimens of the fauna and flora of every land. With this wealth of material he was enabled to establish the first great zoological garden that the world had seen. We can hardly exaggerate the influence of this collection upon his science and his philosophy. 

The main areas of research were biology and the natural sciences.

Where did Aristotle derive the funds to finance these undertakings? He was himself, by this time, a man of spacious income; and he had married into the fortune of one of the most powerful public men in Greece. Athenaeus (no doubt with some exaggeration) relates that Alexander gave Aristotle, for physical and biological equipment and research, the sum of 800 talents (in modern purchasing power, some $4,000,000). It was at Aristotle’s suggestion, some think, that Alexander sent a costly expedition to explore the sources of the Nile and discover the causes of its periodical overflow. Such works as the digest of 158 political constitutions, drawn up for Aristotle, indicate a considerable corps of aides and secretaries. In short we have here the first example in European history of the large-scale financing of science by public wealth. What knowledge would we not win if modern states were to support research on a proportionately lavish scale!

[The expedition reported that the inundations were due to the melting of the snow on the mountains of Abyssinia.]

We have here the first example in European history of the large-scale financing of science by public wealth.

Yet we should do Aristotle injustice if we were to ignore the almost fatal limitations of equipment which accompanied these unprecedented resources and facilities. He was compelled “to fix time without a watch, to compare degrees of heat without a thermometer, to observe the heavens without a telescope, and the weather without a barometer. … Of all our mathematical, optical and physical instruments he possessed only the rule and compass, together with the most imperfect substitutes for some few others. Chemical analysis, correct measurements and weights, and a thorough application of mathematics to physics, were unknown. The attractive force of matter, the law of gravitation, electrical phenomena, the conditions of chemical combination, pressure of air and its effects, the nature of light, heat, combustion, etc., in short, all the facts on which the physical theories of modern science are based were wholly, or almost wholly, undiscovered.” 

However, a fatal limitations of equipment accompanied these unprecedented resources and facilities. 

See, here, how inventions make history: for lack of a telescope Aristotle’s astronomy is a tissue of childish romance; for lack of a microscope his biology wanders endlessly astray. Indeed, it was in industrial and technical invention that Greece fell farthest below the general standard of its unparalleled achievements. The Greek disdain of manual work kept everybody but the listless slave from direct acquaintance with the processes of production, from that stimulating contact with machinery which reveals defects and prefigures possibilities; technical invention was possible only to those who had no interest in it, and could not derive from it any material reward. Perhaps the very cheapness of the slaves made invention lag; muscle was still less costly than machines. And so, while Greek commerce conquered the Mediterranean Sea, and Greek philosophy conquered the Mediterranean mind, Greek science straggled, and Greek industry remained almost where Aegean industry had been when the invading Greeks had come down upon it, at Cnossus, at Tiryns and Mycene, a thousand years before. No doubt we have here the reason why Aristotle so seldom appeals to experiment; the mechanisms of experiment had not yet been made; and the best he could do was to achieve an almost universal and continuous observation. Nevertheless the vast body of data gathered by him and his assistants became the groundwork of the progress of science, the text-book of knowledge for two thousand years; one of the wonders of the work of man. 

Greek science straggled because the Greek disdain of manual work kept everybody from stimulating contact with machinery and from direct acquaintance with the processes of production.

Aristotle’s writings ran into the hundreds. Some ancient authors credit him with four hundred volumes, others with a thousand. What remains is but a part, and yet it is a library in itself—conceive the scope and grandeur of the whole. There are, first, the Logical works: “Categories,” “Topics,” “Prior” and “Posterior Analytics,” “Propositions,” and “Sophistical Refutation”; these works were collected and edited by the later Peripatetics under the general title of Aristotle’s “Organon,”—that is, the organ or instrument of correct thinking. Secondly, there are the Scientific works: “Physics,” “On the Heavens,” “Growth and Decay,” “Meteorology,” “Natural History,” “On the Soul,” “The Parts of Animals,” “The Movements of Animals,” and “The Generation of Animals.” There are, thirdly, the Esthetic works: “Rhetoric” and “Poetics.” And fourthly come the more strictly Philosophical works: “Ethics,” “Politics,” and “Metaphysics.”

Aristotle wrote voluminously on Logics, Science, Esthetics and Philosophy.

Here, evidently, is the Encyclopedia Britannica of Greece: every problem under the sun and about it finds a place; no wonder there are more errors and absurdities in Aristotle than in any other philosopher who ever wrote. Here is such a synthesis of knowledge and theory as no man would ever achieve again till Spencer’s day, and even then not half so magnificently; here, better than Alexander’s fitful and brutal victory, was a conquest of the world. If philosophy is the quest of unity Aristotle deserves the high name that twenty centuries gave him—IlIe Philosophus: The Philosopher. 

It was essentially the compilation of an Encyclopedia.

Naturally, in a mind of such scientific turn, poesy was lacking. We must not expect of Aristotle such literary brilliance as floods the pages of the dramatist-philosopher Plato. Instead of giving us great literature, in which philosophy is embodied (and obscured) in myth and imagery, Aristotle gives us science, technical, abstract, concentrated; if we go to him for entertainment we shall sue for the return of our money. Instead of giving terms to literature, as Plato did, he built the terminology of science and philosophy; we can hardly speak of any science today without employing terms which he invented; they lie like fossils in the strata of our speech: faculty, mean, maxim, (meaning, in Aristotle, the major premiss of a syllogism), category, energy, actuality, motive, end, principle, form—these indispensable coins of philosophic thought were minted in his mind. And perhaps this passage from delightful dialogue to precise scientific treatise was a necessary step in the development of philosophy; and science, which is the basis and backbone of philosophy, could not grow until it had evolved its own strict methods of procedure and expression. Aristotle, too, wrote literary dialogues, as highly reputed in their day as Plato’s; but they are lost, just as the scientific treatises of Plato have perished. Probably time has preserved of each man the better part. 

Instead of great literature, Aristotle gave us technical, abstract, concentrated science.

Finally, it is possible that the writings attributed to Aristotle were not his, but were largely the compilations of students and followers who had embalmed the unadorned substance of his lectures in their notes. It does not appear that Aristotle published in his life-time any technical writings except those on logic and rhetoric; and the present form of the logical treatises is due to later editing. In the case of the Metaphysics and the Politics the notes left by Aristotle seem to have been put together by his executors without revision or alteration. Even the unity of style which marks Aristotle’s writings, and offers an argument to those who defend his direct authorship, may be, after all, merely a unity given them through common editing by the Peripatetic School. About this matter there rages a sort of Homeric question, of almost epic scope, into which the busy reader will not care to go, and on which a modest student will not undertake to judge. We may at all events be sure that Aristotle is the spiritual author of all these books that bear his name: that the hand may be in some cases another’s hand, but that the head and the heart are his.

[The reader who wishes to go to the philosopher himself will find the Meteorology an interesting example of Aristotle’s scientific work; he will derive much practical instruction from the Rhetoric; and he will find Aristotle at his best in books i-ii of the Ethics, and books i-iv of the Politics. The best translation of the Ethics is Welldon’s; of the Politics, Jowett’s. Sir Alexander Grant’s Aristotle is a simple book; Zeller’s Aristotle (vols. iii-iv in his Greek Philosophy), is scholarly but dry; Gomperz’s Greek Thinker. (voL iv). Is masterly but difficult.]

Aristotle is the spiritual author of all these books that bear his name. The hand may be in some cases another’s hand, but that the head and the heart are his.

.