Writings of Charles S. Peirce: A Chronological Edition, Volume 6. Charles S. Peirce
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Название: Writings of Charles S. Peirce: A Chronological Edition, Volume 6

Автор: Charles S. Peirce

Издательство: Ingram

Жанр: Языкознание

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isbn: 9780253016690

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СКАЧАТЬ But what we have to do, after we have considered the question as long as it is convenient to do, is somewhat arbitrarily to make a choice between the two sides, and having once made our choice to stick to it. Your difficulty lies, no doubt, in making a vigorous choice, in the absence of the vis a tergo of demonstrative reasons. Will is also needed for the act of concentrating the mind, although this is a less willful kind of will. We often see people whose external will is weak, but whose control over themselves is strong. I suspect this is the case with you. How is it? Have you good power of concentration? Next, I want to know how your observing powers are. “A little botany” is the only study of observation that you mention. You also say nothing about any studies, except school-studies. What else have you applied your mind to, and with what success? Have you any taste or turn for mathematics? Do you learn readily? I do not mean lessons merely. But are you pliant? Do you readily adapt yourself to a new situation? I would like to have you answer all these questions. Then, I want to know whether you are prepared to give an hour a day of good, solid and intense work to my exercises. One of the things that is the quickest improved by exercise is the power of making an exertion. And if my diagnosis is correct, one of the things you want is the power of making suddenly a violent effort. For that reason, I will not allow you to spend a long time over the exercises, you must do them as well as you can in a short space of time, and learn to throw yourself into them with sudden energy. During this time you must be absolutely alone, without fear of interruption. If an hour a day is too much, name a shorter time; but the time once fixed, let it be as the Law of the Medes and Persians. I will thank you to enclose in your letter about 5 or 6 pages of your writing on any subject you please, written for the occasion, to serve as a favorable exhibit of your intellectual powers at the outset. This will not only furnish me with needful information, but it will serve as a term of comparison with something similar that I shall ask you to write at the end of the Quarter, so that there may be no difference of opinion as to the amount of benefit that you have received from the exercises.

      Yours very truly,

      C. S. Peirce.

      P.S. I have taken a house here for the summer, and my address until further notice will consequently be Milford, Pa.

      

8

      [Letter to Noble on the Nature of Reasoning]

28 May 1887 Houghton Library

      Milford, Pa., 1887 May 28th.

      MISS MARIE B. D. NOBLE,

      Care Messrs. Gorham, Turner, & Co., New York City.

      My dear pupil:

      I wish to begin by giving you some general idea of the nature of reasoning. All reasoning involves observation. A chemist sets up an apparatus of flasks and tubes, he puts certain substances in the former, he applies heat, and then he watches closely to see what the result will be. The procedure of the mathematician is closely analogous to this. He draws a diagram, for example, conforming to certain general conditions, and then he observes certain relations among the parts of this diagram, over and above those which were used to determine the construction of it. The result that the chemist observes is brought about by Nature, the result that the mathematician observes is brought about by the associations of the mind. But this does not constitute so radical a distinction as it seems at first sight to do; for were the laws of nature not intelligible, that is, were they not such as naturally occur to the human mind, the chemist’s observation could never teach him anything, while on the other hand the power that connects the conditions of the mathematician’s diagram with the relations he observes in it is just as occult and mysterious to us as the power of Nature that brings about the result of the chemical experiment. You do not quite see the truth of this? No, why should you: I have stated it in abstract terms, which give you nothing to observe this fact in, and the mind can see no truth except by observation. To enable you to see it, I will give two instances of simple mathematical reasoning; you will please first see that they are proofs, and then remark the fact that even after you know the proofs you have no direct consciousness of the necessity that binds the conclusion to the conditions supposed. First take this simple proposition in geometry, an interesting one in itself, and probably unknown to you. On a plane, take any point, O, and through it draw 3 straight lines. Take 3 new points, A, B, C, lying severally on these 3 straight lines. Take also 3 other points, A′, B′, C′, lying, A′ in the line through O and A, B′ in the line through O and B, C′ in the line between O and C. Now if we draw the straight lines AB and A′B′, and continue them till they intersect at a point which we may designate as X, if we draw the straight lines BC and B′C′, and continue them until they intersect in a point which we may designate as Y, and if we draw the straight lines CA and C′A′, and continue them till they meet in a point which we may designate as Z, then we shall find that the points X, Y, Z lie on one straight line. More briefly stated, if two triangles are so situated that the lines joining corresponding vertices meet in one point, then the points of intersection of corresponding sides (produced if necessary) lie in one straight line. To prove this, through the point O imagine a line not lying in the plane of the triangles, and on this line we imagine any two points, which we may distinguish as S and S′. Now any 3 points whatever lie in some one plane. Consider, then, the plane OSA. S′ lies on this plane, because it is in the line between S and O, both of which are on the plane. A′ too lies on the plane, because it is in the line through A and O. Then, since the point S′ and A′ lie on the plane the whole line through these points lies on the plane. Thus, the lines SA and S′A′ lie on one plane. But any two lines in one plane cross, if sufficiently produced (unless, indeed, they happen to be parallel, a case not necessary to consider, because easily evaded by shifting S or S′). Consequently, the lines SA and S′A′ (produced, if necessary) intersect in a point which we may designate as A″. Similar reasoning would show that the lines SB and S′B′ intersect in a point which we may designate as B″, and that the lines SC and S′C′ intersect in a point which we may designate as C″ Now the points S, A, and A″ lie in a straight line, for A″ designates the intersection of the line SA with another line. And in like manner, the points S, B, and B″ lie in a straight line. These two lines have the point S in common; they therefore lie in one plane. Consequently, the lines AB and A″B″ lie on this same plane, which we may designate as plane No. 1. Likewise, the points S′, A′, and A″ lie in a straight line, and the points S′, B′, and B″ lie in a straight line, and these two lines intersect at the point S′, so that they lie in one plane, which we may designate as the plane No. 2. Consequently, the lines A′B′ and A″B″ lie in plane No. 2. Now the lines AB and A′B′ lie on the original plane of the two triangles first spoken of, which we may call plane No. 3. These three planes, like any three planes, must meet in some one point, and this point lies in the line common to planes 1 and 3, and also in the line common to planes 2 and 3. It also lies in the line common to planes 1 and 2. But the line common to planes 1 and 3 is AB, and the line common to planes 2 and 3 is A′B′, and the point of intersection of AB and A′B′ is the point we called X. Thus, X lies in the line through A″ and B″. It therefore lies in any plane on which this line lies, and thus in the plane of A″B″C″. In like manner, it could be shown that the points Y and Z are on the plane A″B″C″. But these three points are also on the original plane. They are therefore on the intersection of the original plane with the plane A″B″C″ and thus are on a straight line, which is what we had to prove.

      As another illustration of mathematical reasoning I will prove a proposition in arithmetic, namely, that no power of a whole number whose exponent is one less than a prime number can, on division by that prime, leave a remainder greater than 1. Thus, 5 being a prime number, the series of 4th powers is 1, 16, 81, 256, 625, 1296, 2401, 4096, 6561, 10000, etc., and as СКАЧАТЬ