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"seen in the shallowness or depth of the principles on which they "proceed." The same author afterwards excellently observes, "That general principles, however intricate they may seem must "always prevail, if they be just and sound, in the general course "of things, though they may fail in particular cases; and that it is "the chief business of philosophers to regard the general course of "things."—"I may add, (continues Mr. Hume) that it is also the "chief business of politicians, especially in the domestic govern"ment of the state, where the public good, which is, or ought to "be, their object, depends on the concurrence of a multitude of 66 causes; not, as in foreign politics, on accidents and chances, and "the caprices of a few persons."*

To these profound reflections of Mr. Hume, it may be added (although the remark does not bear directly on our present argument) that, in the systematical application of general and refined rules to their private concerns, men frequently err from calculating their measures upon a scale disproportionate to the ordinary duration of human life. This is one of the many mistakes into which projectors are apt to fall; and hence the ruin which so often overtakes them, while sowing the seeds of a harvest which others are to reap. A few years more might have secured to themselves the prize which they had in view; and changed the opinion of the world (which is always regulated by the accidental circumstances of failure or of success) from contempt of their folly, into admiration of their sagacity and perseverance.

It is observed by the Comte de Bussi, that "time remedies all "mischances; and that men die unfortunate, only because they did "not live long enough. Mareschal d'Estrée who died rich at a "hundred, would have died a beggar, had he lived only to eighty." The maxim, like most other apothegms, is stated in terms much too unqualified; but it may furnish matter for many interesting reflections, to those who have surveyed with attention the characters which have passed before them on the stage of life; or who amuse themselves with marking the trifling and fortuitous circumstances by which the multitude are decided, in pronouncing their verdicts of foresight or of improvidence.

IV.

Continuation of the Subject.-Peculiar and supereminent Advantages possessed by Mathematicians, in consequence of their definite Phraseology.

IF the remarks contained in the foregoing articles of this section be just, it will follow, that the various artificial aids to our reasoning

Essay on Commerce.

This contrast between the domestic and the foreign policy of a state occurs more than once in Mr. Hume's writings; (see in particular the first paragraphs of his Essay on the Rise of Arts and Sciences.) A similar observation had long before been made by Poliby

powers, which have been projected by Leibnitz and others, proceed on the supposition (a supposition which is also tacitly assumed in the syllogistic theory) that, in all the sciences the words which we employ have, in the course of our previous studies, been brought to a sense as unequivocal as the phraseology of mathematicians. They proceed on the supposition, therefore, that by far the most difficult part of the logical problem has been already solved. Should the period ever arrive, when the language of moralists and politicians shall be rendered as perfect as that of geometers and algebraists, then, indeed may such contrivances as the Ars Combinatoria, and the Alphabet of human thoughts, become interesting subjects of philosophical discussion; although the probability is, that, even were that æra to take place, they would be found nearly as useless in morals and politics, as the syllogistic art is acknowledged to be at present, in the investigations of pure geometry.

Of the peculiar and supereminent advantage possessed by mathematicians, in consequence of those fixed and definite relations which form the objects of their science, and the correspondent precision in their language and reasonings, I can think of no illustration more striking than what is afforded by Dr. Halley's Latin version from an Arabic manuscript, of the two books of Apollonius Pergaeus de Sectione Rationis. The extraordinary circumstances under which this version was attempted and completed (which I presume are little known beyond the narrow circle of mathematical readers) appear to me so highly curious, considered as matter of literary history, that I shall copy a short detail of them from Halley's preface.

After mentioning the accidental discovery in the Bodleian library by Dr. Bernard, Savilian Professor of astronomy, of the Arabic version of Apollonius, we λyou aотouns, Dr. Halley proceeds thus:

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"Delighted, therefore, with the discovery of such a treasure, "BERNARD applied himself diligently to the task of a Latin transla"tion. But before he had finished a tenth part of his undertaking, “he abandoned it altogether, either from his experience of its growing difficulties, or from the pressure, of other avocations. "Afterwards, when, on the Death of Dr. Wallis, the Savilian pro"fessorship was bestowed on me, I was seized with a strong de"sire of making a trial to complete what Bernard had begun;— an attempt, of the boldness of which the reader may judge, when "he is informed, that, in addition to my own entire ignorance of "the Arabic language, I had to contend with the obscurities occa"sioned by innumerable passages which were either defaced or alto"gether obliterated. With the assistance, however, of the sheets "which Bernard had left, and which served me as a key for in"vestigating the sense of the original, I began first with making a

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:

us. "There are two ways by which every kind of government is destroyed either by some accident that happens from without; or some evil that arises within itself. What the first will be, it is not always easy to foresee; but the latter is certain and determinate.”— Book VI. Ex. 3. (Hampton's Translation.)

"list of those words, the signification of which his version had "clearly ascertained; and then proceeded, by comparing these "words, wherever they occurred, with the train of reasoning in "which they were involved, to decypher, by slow degrees, the "import of the context; till at last I succeeded in mastering the "whole work, and in bringing my translation (without the aid of any other person) to the form in which I now give it to the "public."*

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When a similar attempt shall be made with equal success, in decyphering a moral or a political treatise written in an unknown tongue, then, and not till then, may we think of comparing the phraseology of these two sciences with the simple and rigorous language of the Greek geometers; or with the more refined and abstract, but not less scrupulously logical system of signs, employed by modern mathematicians.

It must not, however, be imagined, that it is solely by the nature of the ideas which form the objects of its reasonings, even when combined with the precision and unambiguity of its phraseology, that mathematics is distinguished from the other branches of our knowledge. The truths about which it is conversant, are of an order altogether peculiar and singular; and the evidence of which they admit resembles nothing, either in degree or in kind, to which the same name is given, in any of our other intellectual pursuits. On these points also, Leibnitz and many other great men have adopted very incorrect opinions; and, by the authority of their names, have given currency to some logical errours of fundamental importance. My reasons for so thinking, I shall state as clearly and fully as I can, in the following section.

SECTION III.

OF MATHEMATICAL DEMONSTRATION.

I.

Of the Circumstance on which Demonstrative Evidence essentially depends.

THE peculiarity of that species of evidence which is called demonstrative, and which so remarkably distinguishes our mathema

The pulitical conclusions from those to which we are led in other branches of science, is a fact which must have arrested the attention of avity of de every person who possesses the slightest acquaintance with the elemonstratur ments of geometry. And yet I am doubtful if a satisfactory account evidence has been hitherto given of the circumstances from which it arises. not fully Mr. Locke tells us, that "what constitutes a demonstration is intuistated

Apollon. Perg. de Sectione Rationis, &c. Opera et Studio Edm. Halley. Oxon. 1706. In Praefat.

"tive evidence at every step ;" and I readily grant, that if in a single step such evidence should fail, the other parts of the demonstration would be of no value. It does not, however, seem to me, that it is on this consideration that the demonstrative evidence of the conclusion depends,—not even when we add to it another which is much insisted on by Dr. Reid,—that, " in demonstrative evidence, "our first principles must be intuitively certain." The inaccuracy of this remark I formerly pointed out when treating of the evidence of axioms; on which occasion I also observed, that the first principles of our reasonings in mathematics are not axioms, but definitions. It is in this last circumstance (I mean the peculiarity of reasoning from definitions) that the true theory of mathematical de- we reason monstration is to be found; and I shall accordingly endeavour to explain it at considerable length, and to state some of the more im

portant consequences to which it leads.

That I may not, however, have the appearance of claiming, in behalf of the following discussion, an undue share of originality, it is necessary for me to remark, that the leading idea which it contains has been repeatedly started, and even to a certain length prosecuted, by different writers, ancient as well as modern; but that, in all of them, it has been so blended with collateral considerations, altogether foreign to the point in question, as to divert the attention both of writer and reader, from that single principle on which the solution of the problem hinges. The advantages which mathematics derives from the peculiar nature of those relations about which it is conversant; from its simple and definite phraseology; and from the severe logic so admirably displayed in the concatenation of its innumerable theorems, are indeed immense, and well entitled to a separate and ample illustration; but they do not appear to have any necessary connexion with the subject of this section. How far I am right in this opinion, my readers will be enabled to judge by the sequel.

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nitions.

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It was already remarked, in the first chapter of this Part, that whereas, in all other sciences, the propositions which we attempt bet. to establish, express facts real or supposed,-in mathematics, the propositions which we demonstrate only assert a connexion between mathemat certain suppositions and certain consequences. Our reasonings, therefore, in mathematics, are directed to an object essentially dif- ea ferent from what we have in view in any other employment of our intellectual faculties; not to ascertain truths with respect to actual existences, but to trace the logical filiation of consequences which follow from an assumed hypothesis. If from this hypothesis we reason with correctness, nothing, it is manifest, can be wanting to complete the evidence of the result; as this result only asserts a necessary connexion between the supposition and the conclusion. In theother sciences, admitting that every ambiguity of language were removed, and that every step of our deductions were rigorously accurate, our conclusions would still be attended with more or less

may strate in

sume.

of uncertainty; being ultimately founded on principles which may, or may not, correspond exactly with the fact.*

Hence it appears, that it might be possible, by devising a set of By assum arbitrary definitions, to form a science which, although conversant about moral, political, or physical ideas, should yet be as certain as ing defini geometry. It is of no moment, whether the definitions assumed tions, we correspond with facts or not, provided they do not express impossidemon bilities, and be not inconsistent with each other. From these principles a series of consequences may be deduced by the most unexceptionable reasoning; and the results obtained will be perfectly mov: & polit analogous to mathematical propositions. The terms true and false, cannot be applied to them; at least in the sense in which they are applicable to propositions relative to facts. All that can be said is, that they are or are not connected with the definitions which form the principles of the science; and, therefore, if we choose to call our conclusions true in the one case, and false in the other, these epithets must be understood merely to refer to their connexion with the data, and not to their correspondence with things actually existing, or with events which we expect to be realized in future. An example of such a science as that which I have now been describing, occurs in what has been called by some writers theoretical mechanics; in which, from arbitrary hypotheses concerning physical laws, the consequences are traced which would follow, if such was really the order of nature.

In those branches of study which are conversant about moral and political propositions, the nearest approach which I can imagine to a hypothetical science, analogous to mathematics, is to be found in

A code of a code of municipal jurisprudence; or rather might be conceived political to exist in such a code, if systematically carried into execution, jupe- agreeably to certain general or fundamental principles. Whether juvis these principles should or should not be founded in justice and expedence Oh. diency, it is evidently possible, by reasoning from them consequentially, to create an artificial or conventional body of knowledge, more systematical, and, at the same time, more complete in all its parts, than, in the present state of our information, any science can be rendered, which ultimately appeals to the eternal and immutable standards of truth and falsehood, of right and wrong. This consideration seems to me to throw some light on the following very curious parallel which Leibnitz has drawn (with what justness I

Lubnitz presume not to decide) between the works of the Roman civilians and those of the Greek geometers. Few writers certainly have parellel

bet:y Rom:

civilem

This distinction coincides with one which has been very ingeniously illustrated by M. Prevost in his philosophical essays. See his remarks on those sciences which have for their object absolute truth, considered in contrast with those which are occupied only about conditional or hypothetical truths. Mathematics is a science of the latter description; and is therefore called by M Prevost a science of pure reasoning. In what respects my Tom. II. p. 9. et. seq.

Greek geom- opinion on this subject differs from his, will appear afterwards.-Essais de Philosophie, "sters"

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