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Symbolic Logic
by Lewis Carroll
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SYMBOLIC LOGIC

By Lewis Carroll pg-ii pg-iii pg-iv

A Syllogism worked out.

That story of yours, about your once meeting the sea-serpent, always sets me off yawning;

I never yawn, unless when I'm listening to something totally devoid of interest.

The Premisses, separately.

. -. . -. ( ) ( ) . - -. . - -. (#) ( ) - - - - - - - - ( ) . - -. . - -. . -. . -.

The Premisses, combined.

. -. ( ) ( ) . - -. (#) ( ) - - - - ( ) . - -. . -.

The Conclusion.

. -. (#) ( ) - - . -.

That story of yours, about your once meeting the sea-serpent, is totally devoid of interest.

pg-v

SYMBOLIC LOGIC

PART I

ELEMENTARY



BY

LEWIS CARROLL

SECOND THOUSAND

FOURTH EDITION

PRICE TWO SHILLINGS

London MACMILLAN AND CO., LIMITED NEW YORK: THE MACMILLAN COMPANY 1897

All rights reserved

pg-vi

RICHARD CLAY AND SONS, LIMITED, LONDON AND BUNGAY

pg-vii

ADVERTISEMENT.

An envelope, containing two blank Diagrams (Biliteral and Triliteral) and 9 counters (4 Red and 5 Grey), may be had, from Messrs. Macmillan, for 3d., by post 4d.

* * * * *

I shall be grateful to any Reader of this book who will point out any mistakes or misprints he may happen to notice in it, or any passage which he thinks is not clearly expressed.

* * * * *

I have a quantity of MS. in hand for Parts II and III, and hope to be able——should life, and health, and opportunity, be granted to me, to publish them in the course of the next few years. Their contents will be as follows:—

PART II. ADVANCED.

Further investigations in the subjects of Part I. Propositions of other forms (such as "Not-all x are y"). Triliteral and Multiliteral Propositions (such as "All abc are de"). Hypotheticals. Dilemmas. &c. &c.

Part III. TRANSCENDENTAL.

Analysis of a Proposition into its Elements. Numerical and Geometrical Problems. The Theory of Inference. The Construction of Problems. And many other Curiosa Logica.

pg-viii

PREFACE TO THE FOURTH EDITION.

The chief alterations, since the First Edition, have been made in the Chapter on 'Classification' (pp. 2, 3) and the Book on 'Propositions' (pp. 10 to 19). The chief additions have been the questions on words and phrases, added to the Examination-Papers at p. 94, and the Notes inserted at pp. 164, 194.

In Book I, Chapter II, I have adopted a new definition of 'Classification', which enables me to regard the whole Universe as a 'Class,' and thus to dispense with the very awkward phrase 'a Set of Things.'

In the Chapter on 'Propositions of Existence' I have adopted a new 'normal form,' in which the Class, whose existence is affirmed or denied, is regarded as the Predicate, instead of the Subject, of the Proposition, thus evading a very subtle difficulty which besets the other form. These subtle difficulties seem to lie at the root of every Tree of Knowledge, and they are far more hopeless to grapple with than any that occur in its higher branches. For example, the difficulties of the Forty-Seventh Proposition of Euclid are mere child's play compared with the mental torture endured in the effort to think out the essential nature of a straight Line. And, in the present work, the difficulties of the "5 Liars" Problem, at p. 192, are "trifles, light as air," compared with the bewildering question "What is a Thing?"

In the Chapter on 'Propositions of Relation' I have inserted a new Section, containing the proof that a Proposition, beginning with "All," is a Double Proposition (a fact that is quite independent of the arbitrary rule, laid down in the next Section, that such a Proposition is to be understood as implying the actual existence of its Subject). This proof was given, in the earlier editions, incidentally, in the course of the discussion of the Biliteral Diagram: but its proper place, in this treatise, is where I have now introduced it. pg-ix In the Sorites-Examples, I have made a good many verbal alterations, in order to evade a difficulty, which I fear will have perplexed some of the Readers of the first three Editions. Some of the Premisses were so worded that their Terms were not Specieses of the Univ. named in the Dictionary, but of a larger Class, of which the Univ. was only a portion. In all such cases, it was intended that the Reader should perceive that what was asserted of the larger Class was thereby asserted of the Univ., and should ignore, as superfluous, all that it asserted of its other portion. Thus, in Ex. 15, the Univ. was stated to be "ducks in this village," and the third Premiss was "Mrs. Bond has no gray ducks," i.e. "No gray ducks are ducks belonging to Mrs. Bond." Here the Terms are not Specieses of the Univ., but of the larger Class "ducks," of which the Univ. is only a portion: and it was intended that the Reader should perceive that what is here asserted of "ducks" is thereby asserted of "ducks in this village." and should treat this Premiss as if it were "Mrs. Bond has no gray ducks in this village," and should ignore, as superfluous, what it asserts as to the other portion of the Class "ducks," viz. "Mrs. Bond has no gray ducks out of this village".

In the Appendix I have given a new version of the Problem of the "Five Liars." My object, in doing so, is to escape the subtle and mysterious difficulties which beset all attempts at regarding a Proposition as being its own Subject, or a Set of Propositions as being Subjects for one another. It is certainly, a most bewildering and unsatisfactory theory: one cannot help feeling that there is a great lack of substance in all this shadowy host——that, as the procession of phantoms glides before us, there is not one that we can pounce upon, and say "Here is a Proposition that must be either true or false!"——that it is but a Barmecide Feast, to which we have been bidden——and that its prototype is to be found in that mythical island, whose inhabitants "earned a precarious living by taking in each others' washing"! By simply translating "telling 2 Truths" into "taking both of 2 condiments (salt and mustard)," "telling 2 Lies" into "taking neither of them" and "telling a Truth and a Lie (order not specified)" into "taking only one condiment (it is not specified which)," I have escaped all those metaphysical puzzles, and have produced a Problem which, when translated into a Set of symbolized Premisses, furnishes the very same Data as were furnished by the Problem of the "Five Liars." pg-x The coined words, introduced in previous editions, such as "Eliminands" and "Retinends", perhaps hardly need any apology: they were indispensable to my system: but the new plural, here used for the first time, viz. "Soriteses", will, I fear, be condemned as "bad English", unless I say a word in its defence. We have three singular nouns, in English, of plural form, "series", "species", and "Sorites": in all three, the awkwardness, of using the same word for both singular and plural, must often have been felt: this has been remedied, in the case of "series" by coining the plural "serieses", which has already found its way into the dictionaries: so I am no rash innovator, but am merely "following suit", in using the new plural "Soriteses".

In conclusion, let me point out that even those, who are obliged to study Formal Logic, with a view to being able to answer Examination-Papers in that subject, will find the study of Symbolic Logic most helpful for this purpose, in throwing light upon many of the obscurities with which Formal Logic abounds, and in furnishing a delightfully easy method of testing the results arrived at by the cumbrous processes which Formal Logic enforces upon its votaries.

This is, I believe, the very first attempt (with the exception of my own little book, The Game of Logic, published in 1886, a very incomplete performance) that has been made to popularise this fascinating subject. It has cost me years of hard work: but if it should prove, as I hope it may, to be of real service to the young, and to be taken up, in High Schools and in private families, as a valuable addition to their stock of healthful mental recreations, such a result would more than repay ten times the labour that I have expended on it.

L. C.

29, BEDFORD STREET, STRAND. Christmas, 1896.

pg-xi

INTRODUCTION.

TO LEARNERS.

[N.B. Some remarks, addressed to Teachers, will be found in the Appendix, at p. 165.]

The Learner, who wishes to try the question fairly, whether this little book does, or does not, supply the materials for a most interesting mental recreation, is earnestly advised to adopt the following Rules:—

(1) Begin at the beginning, and do not allow yourself to gratify a mere idle curiosity by dipping into the book, here and there. This would very likely lead to your throwing it aside, with the remark "This is much too hard for me!", and thus losing the chance of adding a very large item to your stock of mental delights. This Rule (of not dipping) is very desirable with other kinds of books——such as novels, for instance, where you may easily spoil much of the enjoyment you would otherwise get from the story, by dipping into it further on, so that what the author meant to be a pleasant surprise comes to you as a matter of course. Some people, I know, make a practice of looking into Vol. III first, just to see how the story ends: and perhaps it is as well just to know that all ends happily——that the much-persecuted lovers do marry after all, that he is proved to be quite innocent of the murder, that the wicked cousin is completely foiled in his plot and gets the punishment he deserves, and that the rich uncle in India (Qu. Why in India? Ans. Because, somehow, uncles never can get rich anywhere else) dies at exactly the right moment——before taking the trouble to read Vol. I. This, I say, is just permissible with a novel, where Vol. III has a meaning, even for those who have not read the earlier part of the story; but, with a scientific book, it is sheer insanity: you will find the latter part hopelessly unintelligible, if you read it before reaching it in regular course. pg-xii (2) Don't begin any fresh Chapter, or Section, until you are certain that you thoroughly understand the whole book up to that point, and that you have worked, correctly, most if not all of the examples which have been set. So long as you are conscious that all the land you have passed through is absolutely conquered, and that you are leaving no unsolved difficulties behind you, which will be sure to turn up again later on, your triumphal progress will be easy and delightful. Otherwise, you will find your state of puzzlement get worse and worse as you proceed, till you give up the whole thing in utter disgust.

(3) When you come to any passage you don't understand, read it again: if you still don't understand it, read it again: if you fail, even after three readings, very likely your brain is getting a little tired. In that case, put the book away, and take to other occupations, and next day, when you come to it fresh, you will very likely find that it is quite easy.

(4) If possible, find some genial friend, who will read the book along with you, and will talk over the difficulties with you. Talking is a wonderful smoother-over of difficulties. When I come upon anything——in Logic or in any other hard subject——that entirely puzzles me, I find it a capital plan to talk it over, aloud, even when I am all alone. One can explain things so clearly to one's self! And then, you know, one is so patient with one's self: one never gets irritated at one's own stupidity!

If, dear Reader, you will faithfully observe these Rules, and so give my little book a really fair trial, I promise you, most confidently, that you will find Symbolic Logic to be one of the most, if not the most, fascinating of mental recreations! In this First Part, I have carefully avoided all difficulties which seemed to me to be beyond the grasp of an intelligent child of (say) twelve or fourteen years of age. I have myself taught most of its contents, viva voce, to many children, and have found them take a real intelligent interest in the subject. For those, who succeed in mastering Part I, and who begin, like Oliver, "asking for more," I hope to provide, in Part II, some tolerably hard nuts to crack——nuts that will require all the nut-crackers they happen to possess! pg-xiii Mental recreation is a thing that we all of us need for our mental health; and you may get much healthy enjoyment, no doubt, from Games, such as Back-gammon, Chess, and the new Game "Halma". But, after all, when you have made yourself a first-rate player at any one of these Games, you have nothing real to show for it, as a result! You enjoyed the Game, and the victory, no doubt, at the time: but you have no result that you can treasure up and get real good out of. And, all the while, you have been leaving unexplored a perfect mine of wealth. Once master the machinery of Symbolic Logic, and you have a mental occupation always at hand, of absorbing interest, and one that will be of real use to you in any subject you may take up. It will give you clearness of thought——the ability to see your way through a puzzle——the habit of arranging your ideas in an orderly and get-at-able form——and, more valuable than all, the power to detect fallacies, and to tear to pieces the flimsy illogical arguments, which you will so continually encounter in books, in newspapers, in speeches, and even in sermons, and which so easily delude those who have never taken the trouble to master this fascinating Art. Try it. That is all I ask of you!

L. C.

29, BEDFORD STREET, STRAND. February 21, 1896.

pg-xiv pg-xv

CONTENTS.

BOOK I.

THINGS AND THEIR ATTRIBUTES.

CHAPTER I.

INTRODUCTORY.

PAGE 'Things' 1

'Attributes' "

'Adjuncts' "

CHAPTER II.

CLASSIFICATION.

'Classification' 1 1/2

'Class' "

'Peculiar' Attributes "

'Genus' "

'Species' "

'Differentia' "

'Real' and 'Unreal', or 'Imaginary', Classes 2

'Individual' "

A Class regarded as a single Thing 2 1/2

pg-xvi CHAPTER III.

DIVISION.

Sec. 1.

Introductory.

'Division' 3

'Codivisional' Classes "

Sec. 2.

Dichotomy.

'Dichotomy' 3 1/2

Arbitrary limits of Classes "

Subdivision of Classes 4

CHAPTER IV.

NAMES.

'Name' 4 1/2

'Real' and 'Unreal' Names "

Three ways of expressing a Name "

Two senses in which a plural Name may be used 5

CHAPTER V.

DEFINITIONS.

'Definition' 6

Examples worked as models "

pg-xvii BOOK II.

PROPOSITIONS.

CHAPTER I.

PROPOSITIONS GENERALLY.

Sec. 1.

Introductory.

Technical meaning of "some" 8

'Proposition' "

'Normal form' of a Proposition "

'Subject', 'Predicate', and 'Terms' 9

Sec. 2.

Normal form of a Proposition.

Its four parts:—

(1) 'Sign of Quantity' 9

(2) Name of Subject "

(3) 'Copula' "

(4) Name of Predicate "

Sec. 3.

Various kinds of Propositions.

Three kinds of Propositions:—

(1) Begins with "Some". Called a 'Particular' Proposition: also a Proposition 'in I' 10

(2) Begins with "No". Called a 'Universal Negative' Proposition: also a Proposition 'in E' "

(3) Begins with "All". Called a 'Universal Affirmative' Proposition: also a Proposition 'in A' " pg-xviii A Proposition, whose Subject is an Individual, is to be regarded as Universal "

Two kinds of Propositions, 'Propositions of Existence', and 'Propositions of Relation' "

CHAPTER II.

PROPOSITIONS OF EXISTENCE.

'=Proposition of Existence =' 11

CHAPTER III.

PROPOSITIONS OF RELATION.

Sec. 1.

Introductory.

'Proposition of Relation' 12

'Universe of Discourse,' or 'Univ.' "

Sec. 2.

Reduction of a Proposition of Relation to Normal form.

Rules 13

Examples worked "

Sec. 3.

A Proposition of Relation, beginning with "All", is a Double Proposition.

Its equivalence to two Propositions 17

pg-xix Sec. 4.

What is implied, in a Proposition of Relation, as to the Reality of its Terms?

Propositions beginning with "Some" 19

" " "No" "

" " "All" "

Sec. 5.

Translation of a Proposition of Relation into one or more Propositions of Existence.

Rules 20

Examples worked "

BOOK III.

THE BILITERAL DIAGRAM.

CHAPTER I.

SYMBOLS AND CELLS.

The Diagram assigned to a certain Set of Things, viz. our Univ. 22

Univ. divided into 'the x-Class' and 'the x'-Class' 23

The North and South Halves assigned to these two Classes "

The x-Class subdivided into 'the xy-Class' and 'the xy'-Class' "

The North-West and North-East Cells assigned to these two Classes "

The x'-Class similarly divided "

The South-West and South-East Cells similarly assigned "

The West and East Halves have thus been assigned to 'the y-Class' and 'the y'-Class' 24

Table I. Attributes of Classes, and Compartments, or Cells, assigned to them 25

pg-xx CHAPTER II.

COUNTERS.

Meaning of a Red Counter placed in a Cell 26

" " " " on a Partition "

American phrase "sitting on the fence" "

Meaning of a Grey Counter placed in a Cell "

CHAPTER III.

REPRESENTATION OF PROPOSITIONS.

Sec. 1.

Introductory.

The word "Things" to be henceforwards omitted 27

'Uniliteral' Proposition "

'Biliteral' do. "

Proposition 'in terms of' certain Letters "

Sec. 2.

Representation of Propositions of Existence.

The Proposition "Some x exist" 28

Three other similar Propositions "

The Proposition "No x exist" "

Three other similar Propositions 29

The Proposition "Some xy exist" "

Three other similar Propositions "

The Proposition "No xy exist" "

Three other similar Propositions "

The Proposition "No x exist" is Double, and is equivalent to the two Propositions "No xy exist" and "No xy' exist" 30

pg-xxi Sec. 3.

Representation of Propositions of Relations.

The Proposition "Some x are y" "

Three other similar Propositions "

The Proposition "Some y are x" 31

Three other similar Propositions "

Trio of equivalent Propositions, viz. "Some xy exist" = "Some x are y" = "Some y are x" "

'Converse' Propositions, and 'Conversion' "

Three other similar Trios 32

The Proposition "No x are y" "

Three other similar Propositions "

The Proposition "No y are x" "

Three other similar Propositions "

Trio of equivalent Propositions, viz. "No xy exist" = "No x are y" = "No y are x" 33

Three other similar Trios "

The Proposition "All x are y" is Double, and is equivalent to the two Propositions "Some x are y" and "No x are y'" "

Seven other similar Propositions 34

Tables II, III. Representation of Propositions of Existence and Relation 34, 35

CHAPTER IV.

INTERPRETATION OF BILITERAL DIAGRAM, WHEN MARKED WITH COUNTERS.

. -. (.) Interpretation of - - 36 . -.

And of three other similar arrangements " pg-xxii . -. ( ) Interpretation of - - " . -.

And of three other similar arrangements "

. -. (.) Interpretation of - - 37 . -.

And of three other similar arrangements "

. -. (.) (.) Interpretation of - - " . -.

And of three other similar arrangements "

. -. ( ) ( ) Interpretation of - - " . -.

And of three other similar arrangements "

. -. (.) ( ) Interpretation of - - " . -.

And of seven other similar arrangements 38

BOOK IV.

THE TRILITERAL DIAGRAM.

CHAPTER I.

SYMBOLS AND CELLS.

Change of Biliteral into Triliteral Diagram 39

The xy-Class subdivided into 'the xym-Class' and 'the xym'-Class' 40 pg-xxiii The Inner and Outer Cells of the North-West Quarter assigned to these Classes "

The xy'-Class, the x'y-Class, and the x'y'-Class similarly subdivided "

The Inner and Outer Cells of the North-East, the South-West, and the South-East Quarter similarly assigned "

The Inner Square and the Outer Border have thus been assigned to 'the m-Class' and 'the m'-Class' "

Rules for finding readily the Compartment, or Cell, assigned to any given Attribute or Attributes "

Table IV. Attributes of Classes, and Compartments, or Cells, assigned to them 42

CHAPTER II.

REPRESENTATION OF PROPOSITIONS IN TERMS OF x AND m, OR OF y AND m.

Sec. 1.

Representation of Propositions of Existence in terms of x and m, or of y and m.

The Proposition "Some xm exist" 43

Seven other similar Propositions "

The Proposition "No xm exist" 44

Seven other similar Propositions "

Sec. 2.

Representation of Propositions of Relation in terms of x and m, or of y and m.

The Pair of Converse Propositions "Some x are m" = "Some m are x" "

Seven other similar Pairs "

The Pair of Converse Propositions "No x are m" = "No m are x" "

Seven other similar Pairs "

The Proposition "All x are m" 45

Fifteen other similar Propositions "

Tables V, VI, VII, VIII. Representations of Propositions in terms of x and m, or of y and m 46 to 49

pg-xxiv CHAPTER III.

REPRESENTATION OF TWO PROPOSITIONS OF RELATION, ONE IN TERMS OF x AND m, AND THE OTHER IN TERMS OF y AND m, ON THE SAME DIAGRAM.

The Digits "I" and "O" to be used instead of Red and Grey Counters 50

Rules "

Examples worked "

CHAPTER IV.

INTERPRETATION, IN TERMS OF x AND y, OF TRILITERAL DIAGRAM, WHEN MARKED WITH COUNTERS OR DIGITS.

Rules 53

Examples worked 54

BOOK V.

SYLLOGISMS.

CHAPTER I.

INTRODUCTORY.

'Syllogism' 56

'Premisses' "

'Conclusion' "

'Eliminands' 57

'Retinends' "

'Consequent' "

The Symbol ".'." "

Specimen-Syllogisms "

pg-xxv CHAPTER II.

PROBLEMS IN SYLLOGISMS.

Sec. 1.

Introductory.

'Concrete' and 'Abstract' Propositions 59

Method of translating a Proposition from concrete into abstract form "

Two forms of Problems "

Sec. 2.

Given a Pair of Propositions of Relation, which contain between them a Pair of codivisional Classes, and which are proposed as Premisses: to ascertain what Conclusion, if any, is consequent from them.

Rules 60

Examples worked fully "

The same worked briefly, as models 64

Sec. 3.

Given a Trio of Propositions of Relation, of which every two contain a Pair of codivisional Classes, and which are proposed as a Syllogism: to ascertain whether the proposed Conclusion is consequent from the proposed Premisses, and, if so, whether it is complete.

Rules 66

Examples worked briefly, as models "

pg-xxvi BOOK VI.

THE METHOD OF SUBSCRIPTS.

CHAPTER I.

INTRODUCTORY.

Meaning of x{1}, xy{1}, &c. 70

'Entity' "

Meaning of x{0}, xy{0}, &c. "

'Nullity' "

The Symbols "+" and ">" "

'Like' and 'unlike' Signs "

CHAPTER II.

REPRESENTATION OF PROPOSITIONS OF RELATION.

The Pair of Converse Propositions "Some x are y" = "Some y are x" 71

Three other similar Pairs "

The Pair of Converse Propositions "No x are y" = "No y are x" "

Three other similar Pairs "

The Proposition "All x are y" 72

The Proposition "All x are y" is Double, and is equivalent to the two Propositions "Some x exist" and "No x and y'" "

Seven other similar Propositions "

Rule for translating "All x are y" from abstract into subscript form, and vice versa "

pg-xxvii CHAPTER III.

SYLLOGISMS.

Sec. 1.

Representation of Syllogisms.

Rules 73

Sec. 2.

Formulae for Syllogisms.

Three Formulae worked out:—

Fig. I. xm_{0} + ym'_{0} > xy_{0} 75

its two Variants (a) and (b) "

Fig. II. xm_{0} + ym_{1} > x'y_{1} 76

Fig. III. xm{0} + ym{0} + m{1} > x'y'{1} 77

Table IX. Formulae and Rules 78

Examples worked briefly, as models "

Sec. 3.

Fallacies.

'Fallacy' 81

Method of finding Forms of Fallacies 82

Forms best stated in words "

Three Forms of Fallacies:—

(1) Fallacy of Like Eliminands not asserted to exist "

(2) Fallacy of Unlike Eliminands with an Entity-Premiss 83

(3) Fallacy of two Entity-Premisses "

Sec. 4.

Method of proceeding with a given Pair of Propositions.

Rules 84

pg-xxviii BOOK VII.

SORITESES.

CHAPTER I.

INTRODUCTORY.

'Sorites' 85

'Premisses' "

'Partial Conclusion' "

'Complete Conclusion' (or 'Conclusion') "

'Eliminands' "

'Retinends' "

'consequent' "

The Symbol ".'." "

Specimen-Soriteses 86

CHAPTER II.

PROBLEMS IN SORITESES.

Sec. 1.

Introductory.

Form of Problem 87

Two Methods of Solution "

Sec. 2.

Solution by Method of Separate Syllogisms.

Rules 88

Example worked "

pg-xxix Sec. 3.

Solution by Method of Underscoring.

'Underscoring' 91

Subscripts to be omitted "

Example worked fully 92

Example worked briefly, as model 93

Seventeen Examination-Papers 94

BOOK VIII.

EXAMPLES, WITH ANSWERS AND SOLUTIONS.

CHAPTER I.

EXAMPLES.

Sec. 1.

Propositions of Relation, to be reduced to normal form 97

Sec. 2.

Pairs of Abstract Propositions, one in terms of x and m, and the other in terms of y and m, to be represented on the same Triliteral Diagram 98

Sec. 3.

Marked Triliteral Diagrams, to be interpreted in terms of x and y 99

Sec. 4.

Pairs of Abstract Propositions, proposed as Premisses: Conclusions to be found 100

pg-xxx Sec. 5.

Pairs of Concrete Propositions, proposed as Premisses: Conclusions to be found 101

Sec. 6.

Trios of Abstract Propositions, proposed as Syllogisms: to be examined 106

Sec. 7.

Trios of Concrete Propositions, proposed as Syllogisms: to be examined 107

Sec. 8.

Sets of Abstract Propositions, proposed as Premisses for Soriteses: Conclusions to be found 110

Sec. 9.

Sets of Concrete Propositions, proposed as Premisses for Soriteses: Conclusions to be found 112

CHAPTER II.

ANSWERS.

Answers to

Sec. 1 125

Sec. 2 126

Secs. 3, 4 127

Sec. 5 128

Sec. 6 130

Sec. 7 131

Secs. 8, 9 132

pg-xxxi CHAPTER III.

SOLUTIONS.

Sec. 1.

Propositions of Relation reduced to normal form.

Solutions for Sec. 1 134

Sec. 2.

Method of Diagrams.

Solutions for

Sec. 4 Nos. 1 to 12 136

Sec. 5 " 1 to 12 138

Sec. 6 " 1 to 10 141

Sec. 7 " 1 to 6 144

Sec. 3.

Method of Subscripts.

Solutions for

Sec. 4 146

Sec. 5 Nos. 13 to 24 147

Secs. 6, 7, 8, 9 148 to 157

NOTES 164

APPENDIX, ADDRESSED TO TEACHERS 165

NOTES TO APPENDIX 195

INDEX.

Sec. 1. Tables 197

Sec. 2. Words &c. explained " pg-xxxii pg001

BOOK I.

THINGS AND THEIR ATTRIBUTES.



CHAPTER I.

INTRODUCTORY.

The Universe contains 'Things.'

[For example, "I," "London," "roses," "redness," "old English books," "the letter which I received yesterday."]

Things have 'Attributes.'

[For example, "large," "red," "old," "which I received yesterday."]

One Thing may have many Attributes; and one Attribute may belong to many Things.

[Thus, the Thing "a rose" may have the Attributes "red," "scented," "full-blown," &c.; and the Attribute "red" may belong to the Things "a rose," "a brick," "a ribbon," &c.]

Any Attribute, or any Set of Attributes, may be called an 'Adjunct.'

[This word is introduced in order to avoid the constant repetition of the phrase "Attribute or Set of Attributes."

Thus, we may say that a rose has the Attribute "red" (or the Adjunct "red," whichever we prefer); or we may say that it has the Adjunct "red, scented and full-blown."]

pg001 1/2

CHAPTER II.

CLASSIFICATION.

'Classification,' or the formation of Classes, is a Mental Process, in which we imagine that we have put together, in a group, certain Things. Such a group is called a 'Class.'

This Process may be performed in three different ways, as follows:—

(1) We may imagine that we have put together all Things. The Class so formed (i.e. the Class "Things") contains the whole Universe.

(2) We may think of the Class "Things," and may imagine that we have picked out from it all the Things which possess a certain Adjunct not possessed by the whole Class. This Adjunct is said to be 'peculiar' to the Class so formed. In this case, the Class "Things" is called a 'Genus' with regard to the Class so formed: the Class, so formed, is called a 'Species' of the Class "Things": and its peculiar Adjunct is called its 'Differentia'. pg002 As this Process is entirely Mental, we can perform it whether there is, or is not, an existing Thing which possesses that Adjunct. If there is, the Class is said to be 'Real'; if not, it is said to be 'Unreal', or 'Imaginary.'

[For example, we may imagine that we have picked out, from the Class "Things," all the Things which possess the Adjunct "material, artificial, consisting of houses and streets"; and we may thus form the Real Class "towns." Here we may regard "Things" as a Genus, "Towns" as a Species of Things, and "material, artificial, consisting of houses and streets" as its Differentia.

Again, we may imagine that we have picked out all the Things which possess the Adjunct "weighing a ton, easily lifted by a baby"; and we may thus form the Imaginary Class "Things that weigh a ton and are easily lifted by a baby."]

(3) We may think of a certain Class, not the Class "Things," and may imagine that we have picked out from it all the Members of it which possess a certain Adjunct not possessed by the whole Class. This Adjunct is said to be 'peculiar' to the smaller Class so formed. In this case, the Class thought of is called a 'Genus' with regard to the smaller Class picked out from it: the smaller Class is called a 'Species' of the larger: and its peculiar Adjunct is called its 'Differentia'.

[For example, we may think of the Class "towns," and imagine that we have picked out from it all the towns which possess the Attribute "lit with gas"; and we may thus form the Real Class "towns lit with gas." Here we may regard "Towns" as a Genus, "Towns lit with gas" as a Species of Towns, and "lit with gas" as its Differentia.

If, in the above example, we were to alter "lit with gas" into "paved with gold," we should get the Imaginary Class "towns paved with gold."]

A Class, containing only one Member is called an 'Individual.'

[For example, the Class "towns having four million inhabitants," which Class contains only one Member, viz. "London."] pg002 1/2 Hence, any single Thing, which we can name so as to distinguish it from all other Things, may be regarded as a one-Member Class.

[Thus "London" may be regarded as the one-Member Class, picked out from the Class "towns," which has, as its Differentia, "having four million inhabitants."]

A Class, containing two or more Members, is sometimes regarded as one single Thing. When so regarded, it may possess an Adjunct which is not possessed by any Member of it taken separately.

[Thus, the Class "The soldiers of the Tenth Regiment," when regarded as one single Thing, may possess the Attribute "formed in square," which is not possessed by any Member of it taken separately.]

pg003

CHAPTER III.

DIVISION.

Sec. 1.

Introductory.

'Division' is a Mental Process, in which we think of a certain Class of Things, and imagine that we have divided it into two or more smaller Classes.

[Thus, we might think of the Class "books," and imagine that we had divided it into the two smaller Classes "bound books" and "unbound books," or into the three Classes, "books priced at less than a shilling," "shilling-books," "books priced at more than a shilling," or into the twenty-six Classes, "books whose names begin with A," "books whose names begin with B," &c.]

A Class, that has been obtained by a certain Division, is said to be 'codivisional' with every Class obtained by that Division.

[Thus, the Class "bound books" is codivisional with each of the two Classes, "bound books" and "unbound books."

Similarly, the Battle of Waterloo may be said to have been "contemporary" with every event that happened in 1815.]

Hence a Class, obtained by Division, is codivisional with itself.

[Thus, the Class "bound books" is codivisional with itself.

Similarly, the Battle of Waterloo may be said to have been "contemporary" with itself.]

pg003 1/2 Sec. 2.

Dichotomy.

If we think of a certain Class, and imagine that we have picked out from it a certain smaller Class, it is evident that the Remainder of the large Class does not possess the Differentia of that smaller Class. Hence it may be regarded as another smaller Class, whose Differentia may be formed, from that of the Class first picked out, by prefixing the word "not"; and we may imagine that we have divided the Class first thought of into two smaller Classes, whose Differentiae are contradictory. This kind of Division is called 'Dichotomy'.

[For example, we may divide "books" into the two Classes whose Differentiae are "old" and "not-old."]

In performing this Process, we may sometimes find that the Attributes we have chosen are used so loosely, in ordinary conversation, that it is not easy to decide which of the Things belong to the one Class and which to the other. In such a case, it would be necessary to lay down some arbitrary rule, as to where the one Class should end and the other begin.

[Thus, in dividing "books" into "old" and "not-old," we may say "Let all books printed before A.D. 1801, be regarded as 'old,' and all others as 'not-old'."]

Henceforwards let it be understood that, if a Class of Things be divided into two Classes, whose Differentiae have contrary meanings, each Differentia is to be regarded as equivalent to the other with the word "not" prefixed.

[Thus, if "books" be divided into "old" and "new" the Attribute "old" is to be regarded as equivalent to "not-new," and the Attribute "new" as equivalent to "not-old."] pg004 After dividing a Class, by the Process of Dichotomy, into two smaller Classes, we may sub-divide each of these into two still smaller Classes; and this Process may be repeated over and over again, the number of Classes being doubled at each repetition.

[For example, we may divide "books" into "old" and "new" (i.e. "not-old"): we may then sub-divide each of these into "English" and "foreign" (i.e. "not-English"), thus getting four Classes, viz.

(1) old English; (2) old foreign; (3) new English; (4) new foreign.

If we had begun by dividing into "English" and "foreign," and had then sub-divided into "old" and "new," the four Classes would have been

(1) English old; (2) English new; (3) foreign old; (4) foreign new.

The Reader will easily see that these are the very same four Classes which we had before.]

pg004 1/2

CHAPTER IV.

NAMES.

The word "Thing", which conveys the idea of a Thing, without any idea of an Adjunct, represents any single Thing. Any other word (or phrase), which conveys the idea of a Thing, with the idea of an Adjunct represents any Thing which possesses that Adjunct; i.e., it represents any Member of the Class to which that Adjunct is peculiar.

Such a word (or phrase) is called a 'Name'; and, if there be an existing Thing which it represents, it is said to be a Name of that Thing.

[For example, the words "Thing," "Treasure," "Town," and the phrases "valuable Thing," "material artificial Thing consisting of houses and streets," "Town lit with gas," "Town paved with gold," "old English Book."]

Just as a Class is said to be Real, or Unreal, according as there is, or is not, an existing Thing in it, so also a Name is said to be Real, or Unreal, according as there is, or is not, an existing Thing represented by it.

[Thus, "Town lit with gas" is a Real Name: "Town paved with gold" is an Unreal Name.]

Every Name is either a Substantive only, or else a phrase consisting of a Substantive and one or more Adjectives (or phrases used as Adjectives).

Every Name, except "Thing", may usually be expressed in three different forms:—

(a) The Substantive "Thing", and one or more Adjectives (or phrases used as Adjectives) conveying the ideas of the Attributes; pg005 (b) A Substantive, conveying the idea of a Thing with the ideas of some of the Attributes, and one or more Adjectives (or phrases used as Adjectives) conveying the ideas of the other Attributes;

(c) A Substantive conveying the idea of a Thing with the ideas of all the Attributes.

[Thus, the phrase "material living Thing, belonging to the Animal Kingdom, having two hands and two feet" is a Name expressed in Form (a).

If we choose to roll up together the Substantive "Thing" and the Adjectives "material, living, belonging to the Animal Kingdom," so as to make the new Substantive "Animal," we get the phrase "Animal having two hands and two feet," which is a Name (representing the same Thing as before) expressed in Form (b).

And, if we choose to roll up the whole phrase into one word, so as to make the new Substantive "Man," we get a Name (still representing the very same Thing) expressed in Form (c).]

A Name, whose Substantive is in the plural number, may be used to represent either

(1) Members of a Class, regarded as separate Things; or (2) a whole Class, regarded as one single Thing.

[Thus, when I say "Some soldiers of the Tenth Regiment are tall," or "The soldiers of the Tenth Regiment are brave," I am using the Name "soldiers of the Tenth Regiment" in the first sense; and it is just the same as if I were to point to each of them separately, and to say "This soldier of the Tenth Regiment is tall," "That soldier of the Tenth Regiment is tall," and so on.

But, when I say "The soldiers of the Tenth Regiment are formed in square," I am using the phrase in the second sense; and it is just the same as if I were to say "The Tenth Regiment is formed in square."]

pg006

CHAPTER V.

DEFINITIONS.

It is evident that every Member of a Species is also a Member of the Genus out of which that Species has been picked, and that it possesses the Differentia of that Species. Hence it may be represented by a Name consisting of two parts, one being a Name representing any Member of the Genus, and the other being the Differentia of that Species. Such a Name is called a 'Definition' of any Member of that Species, and to give it such a Name is to 'define' it.

[Thus, we may define a "Treasure" as a "valuable Thing." In this case we regard "Things" as the Genus, and "valuable" as the Differentia.]

The following Examples, of this Process, may be taken as models for working others.

[Note that, in each Definition, the Substantive, representing a Member (or Members) of the Genus, is printed in Capitals.]

1. Define "a Treasure."

Ans. "a valuable THING."

2. Define "Treasures."

Ans. "valuable THINGS."

3. Define "a Town."

Ans. "a material artificial THING, consisting of houses and streets." pg007 4. Define "Men."

Ans. "material, living THINGS, belonging to the Animal Kingdom, having two hands and two feet";

or else

"ANIMALS having two hands and two feet."

5. Define "London."

Ans. "the material artificial THING, which consists of houses and streets, and has four million inhabitants";

or else

"the TOWN which has four million inhabitants."

[Note that we here use the article "the" instead of "a", because we happen to know that there is only one such Thing.

The Reader can set himself any number of Examples of this Process, by simply choosing the Name of any common Thing (such as "house," "tree," "knife"), making a Definition for it, and then testing his answer by referring to any English Dictionary.]

pg008

BOOK II.

PROPOSITIONS.



CHAPTER I.

PROPOSITIONS GENERALLY.

Sec. 1.

Introductory.

Note that the word "some" is to be regarded, henceforward, as meaning "one or more."

The word 'Proposition,' as used in ordinary conversation, may be applied to any word, or phrase, which conveys any information whatever.

[Thus the words "yes" and "no" are Propositions in the ordinary sense of the word; and so are the phrases "you owe me five farthings" and "I don't!"

Such words as "oh!" or "never!", and such phrases as "fetch me that book!" "which book do you mean?" do not seem, at first sight, to convey any information; but they can easily be turned into equivalent forms which do so, viz. "I am surprised," "I will never consent to it," "I order you to fetch me that book," "I want to know which book you mean."]

But a 'Proposition,' as used in this First Part of "Symbolic Logic," has a peculiar form, which may be called its 'Normal form'; and if any Proposition, which we wish to use in an argument, is not in normal form, we must reduce it to such a form, before we can use it. pg009 A 'Proposition,' when in normal form, asserts, as to certain two Classes, which are called its 'Subject' and 'Predicate,' either

(1) that some Members of its Subject are Members of its Predicate;

or (2) that no Members of its Subject are Members of its Predicate;

or (3) that all Members of its Subject are Members of its Predicate.

The Subject and the Predicate of a Proposition are called its 'Terms.'

Two Propositions, which convey the same information, are said to be 'equivalent'.

[Thus, the two Propositions, "I see John" and "John is seen by me," are equivalent.]

Sec. 2.

Normal form of a Proposition.

A Proposition, in normal form, consists of four parts, viz.—

(1) The word "some," or "no," or "all." (This word, which tells us how many Members of the Subject are also Members of the Predicate, is called the 'Sign of Quantity.')

(2) Name of Subject.

(3) The verb "are" (or "is"). (This is called the 'Copula.')

(4) Name of Predicate.

pg010 Sec. 3.

Various kinds of Propositions.

A Proposition, that begins with "Some", is said to be 'Particular.' It is also called 'a Proposition in I.'

[Note, that it is called 'Particular,' because it refers to a part only of the Subject.]

A Proposition, that begins with "No", is said to be 'Universal Negative.' It is also called 'a Proposition in E.'

A Proposition, that begins with "All", is said to be 'Universal Affirmative.' It is also called 'a Proposition in A.'

[Note, that they are called 'Universal', because they refer to the whole of the Subject.]

A Proposition, whose Subject is an Individual, is to be regarded as Universal.

[Let us take, as an example, the Proposition "John is not well". This of course implies that there is an Individual, to whom the speaker refers when he mentions "John", and whom the listener knows to be referred to. Hence the Class "men referred to by the speaker when he mentions 'John'" is a one-Member Class, and the Proposition is equivalent to "All the men, who are referred to by the speaker when he mentions 'John', are not well."]

Propositions are of two kinds, 'Propositions of Existence' and 'Propositions of Relation.'

These shall be discussed separately.

pg011

CHAPTER II.

PROPOSITIONS OF EXISTENCE.

A 'Proposition of Existence', when in normal form, has, for its Subject, the Class "existing Things".

Its Sign of Quantity is "Some" or "No".

[Note that, though its Sign of Quantity tells us how many existing Things are Members of its Predicate, it does not tell us the exact number: in fact, it only deals with two numbers, which are, in ascending order, "0" and "1 or more."]

It is called "a Proposition of Existence" because its effect is to assert the Reality (i.e. the real existence), or else the Imaginariness, of its Predicate.

[Thus, the Proposition "Some existing Things are honest men" asserts that the Class "honest men" is Real.

This is the normal form; but it may also be expressed in any one of the following forms:—

(1) "Honest men exist"; (2) "Some honest men exist"; (3) "The Class 'honest men' exists"; (4) "There are honest men"; (5) "There are some honest men".

Similarly, the Proposition "No existing Things are men fifty feet high" asserts that the Class "men 50 feet high" is Imaginary.

This is the normal form; but it may also be expressed in any one of the following forms:—

(1) "Men 50 feet high do not exist"; (2) "No men 50 feet high exist"; (3) "The Class 'men 50 feet high' does not exist"; (4) "There are not any men 50 feet high"; (5) "There are no men 50 feet high."]

pg012

CHAPTER III.

PROPOSITIONS OF RELATION.

Sec. 1.

Introductory.

A Proposition of Relation, of the kind to be here discussed, has, for its Terms, two Specieses of the same Genus, such that each of the two Names conveys the idea of some Attribute not conveyed by the other.

[Thus, the Proposition "Some merchants are misers" is of the right kind, since "merchants" and "misers" are Specieses of the same Genus "men"; and since the Name "merchants" conveys the idea of the Attribute "mercantile", and the name "misers" the idea of the Attribute "miserly", each of which ideas is not conveyed by the other Name.

But the Proposition "Some dogs are setters" is not of the right kind, since, although it is true that "dogs" and "setters" are Specieses of the same Genus "animals", it is not true that the Name "dogs" conveys the idea of any Attribute not conveyed by the Name "setters". Such Propositions will be discussed in Part II.]

The Genus, of which the two Terms are Specieses, is called the 'Universe of Discourse,' or (more briefly) the 'Univ.'

The Sign of Quantity is "Some" or "No" or "All".

[Note that, though its Sign of Quantity tells us how many Members of its Subject are also Members of its Predicate, it does not tell us the exact number: in fact, it only deals with three numbers, which are, in ascending order, "0", "1 or more", "the total number of Members of the Subject".]

It is called "a Proposition of Relation" because its effect is to assert that a certain relationship exists between its Terms.

pg013 Sec. 2.

Reduction of a Proposition of Relation to Normal form.

The Rules, for doing this, are as follows:—

(1) Ascertain what is the Subject (i.e., ascertain what Class we are talking about);

(2) If the verb, governed by the Subject, is not the verb "are" (or "is"), substitute for it a phrase beginning with "are" (or "is");

(3) Ascertain what is the Predicate (i.e., ascertain what Class it is, which is asserted to contain some, or none, or all, of the Members of the Subject);

(4) If the Name of each Term is completely expressed (i.e. if it contains a Substantive), there is no need to determine the 'Univ.'; but, if either Name is incompletely expressed, and contains Attributes only, it is then necessary to determine a 'Univ.', in order to insert its Name as the Substantive.

(5) Ascertain the Sign of Quantity;

(6) Arrange in the following order:—

Sign of Quantity, Subject, Copula, Predicate.

[Let us work a few Examples, to illustrate these Rules.

(1)

"Some apples are not ripe."

(1) The Subject is "apples."

(2) The Verb is "are."

(3) The Predicate is "not-ripe * * *." (As no Substantive is expressed, and we have not yet settled what the Univ. is to be, we are forced to leave a blank.)

(4) Let Univ. be "fruit."

(5) The Sign of Quantity is "some."

(6) The Proposition now becomes

"Some apples are not-ripe fruit."

pg014 (2)

"None of my speculations have brought me as much as 5 per cent."

(1) The Subject is "my speculations."

(2) The Verb is "have brought," for which we substitute the phrase "are * * * that have brought".

(3) The Predicate is "* * * that have brought &c."

(4) Let Univ. be "transactions."

(5) The Sign of Quantity is "none of."

(6) The Proposition now becomes

"None of my speculations are transactions that have brought me as much as 5 per cent."

(3)

"None but the brave deserve the fair."

To begin with, we note that the phrase "none but the brave" is equivalent to "no not-brave."

(1) The Subject has for its Attribute "not-brave." But no Substantive is supplied. So we express the Subject as "not-brave * * *."

(2) The Verb is "deserve," for which we substitute the phrase "are deserving of".

(3) The Predicate is "* * * deserving of the fair."

(4) Let Univ. be "persons."

(5) The Sign of Quantity is "no."

(6) The Proposition now becomes

"No not-brave persons are persons deserving of the fair."

(4)

"A lame puppy would not say "thank you" if you offered to lend it a skipping-rope."

(1) The Subject is evidently "lame puppies," and all the rest of the sentence must somehow be packed into the Predicate.

(2) The Verb is "would not say," &c., for which we may substitute the phrase "are not grateful for."

(3) The Predicate may be expressed as "* * * not grateful for the loan of a skipping-rope."

(4) Let Univ. be "puppies."

(5) The Sign of Quantity is "all."

(6) The Proposition now becomes

"All lame puppies are puppies not grateful for the loan of a skipping-rope."

pg015 (5)

"No one takes in the Times, unless he is well-educated."

(1) The Subject is evidently persons who are not well-educated ("no one" evidently means "no person").

(2) The Verb is "takes in," for which we may substitute the phrase "are persons taking in."

(3) The Predicate is "persons taking in the Times."

(4) Let Univ. be "persons."

(5) The Sign of Quantity is "no."

(6) The Proposition now becomes

"No persons who are not well-educated are persons taking in the Times."

(6)

"My carriage will meet you at the station."

(1) The Subject is "my carriage." This, being an 'Individual,' is equivalent to the Class "my carriages." (Note that this Class contains only one Member.)

(2) The Verb is "will meet", for which we may substitute the phrase "are * * * that will meet."

(3) The Predicate is "* * * that will meet you at the station."

(4) Let Univ. be "things."

(5) The Sign of Quantity is "all."

(6) The Proposition now becomes

"All my carriages are things that will meet you at the station."

(7)

"Happy is the man who does not know what 'toothache' means!"

(1) The Subject is evidently "the man &c." (Note that in this sentence, the Predicate comes first.) At first sight, the Subject seems to be an 'Individual'; but on further consideration, we see that the article "the" does not imply that there is only one such man. Hence the phrase "the man who" is equivalent to "all men who".

(2) The Verb is "are."

(3) The Predicate is "happy * * *."

(4) Let Univ. be "men."

(5) The Sign of Quantity is "all."

(6) The Proposition now becomes

"All men who do not know what 'toothache' means are happy men."

pg016 (8)

"Some farmers always grumble at the weather, whatever it may be."

(1) The Subject is "farmers."

(2) The Verb is "grumble," for which we substitute the phrase "are * * * who grumble."

(3) The Predicate is "* * * who always grumble &c."

(4) Let Univ. be "persons."

(5) The Sign of Quantity is "some."

(6) The Proposition now becomes

"Some farmers are persons who always grumble at the weather, whatever it may be."

(9)

"No lambs are accustomed to smoke cigars."

(1) The Subject is "lambs."

(2) The Verb is "are."

(3) The Predicate is "* * * accustomed &c."

(4) Let Univ. be "animals."

(5) The Sign of Quantity is "no."

(6) The Proposition now becomes

"No lambs are animals accustomed to smoke cigars."

(10)

"I ca'n't understand examples that are not arranged in regular order, like those I am used to."

(1) The Subject is "examples that," &c.

(2) The Verb is "I ca'n't understand," which we must alter, so as to have "examples," instead of "I," as the nominative case. It may be expressed as "are not understood by me."

(3) The Predicate is "* * * not understood by me."

(4) Let Univ. be "examples."

(5) The Sign of Quantity is "all."

(6) The Proposition now becomes

"All examples that are not arranged in regular order like those I am used to are examples not understood by me."]

pg017 Sec. 3.

A Proposition of Relation, beginning with "All", is a Double Proposition.

A Proposition of Relation, beginning with "All", asserts (as we already know) that "All Members of the Subject are Members of the Predicate". This evidently contains, as a part of what it tells us, the smaller Proposition "Some Members of the Subject are Members of the Predicate".

[Thus, the Proposition "All bankers are rich men" evidently contains the smaller Proposition "Some bankers are rich men".]

The question now arises "What is the rest of the information which this Proposition gives us?"

In order to answer this question, let us begin with the smaller Proposition, "Some Members of the Subject are Members of the Predicate," and suppose that this is all we have been told; and let us proceed to inquire what else we need to be told, in order to know that "All Members of the Subject are Members of the Predicate".

[Thus, we may suppose that the Proposition "Some bankers are rich men" is all the information we possess; and we may proceed to inquire what other Proposition needs to be added to it, in order to make up the entire Proposition "All bankers are rich men".]

Let us also suppose that the 'Univ.' (i.e. the Genus, of which both the Subject and the Predicate are Specieses) has been divided (by the Process of Dichotomy) into two smaller Classes, viz.

(1) the Predicate;

(2) the Class whose Differentia is contradictory to that of the Predicate.

[Thus, we may suppose that the Genus "men," (of which both "bankers" and "rich men" are Specieses) has been divided into the two smaller Classes, "rich men", "poor men".] pg018 Now we know that every Member of the Subject is (as shown at p. 6) a Member of the Univ. Hence every Member of the Subject is either in Class (1) or else in Class (2).

[Thus, we know that every banker is a Member of the Genus "men". Hence, every banker is either in the Class "rich men", or else in the Class "poor men".]

Also we have been told that, in the case we are discussing, some Members of the Subject are in Class (1). What else do we need to be told, in order to know that all of them are there? Evidently we need to be told that none of them are in Class (2); i.e. that none of them are Members of the Class whose Differentia is contradictory to that of the Predicate.

[Thus, we may suppose we have been told that some bankers are in the Class "rich men". What else do we need to be told, in order to know that all of them are there? Evidently we need to be told that none of them are in the Class "poor men".]

Hence a Proposition of Relation, beginning with "All", is a Double Proposition, and is 'equivalent' to (i.e. gives the same information as) the two Propositions

(1) "Some Members of the Subject are Members of the Predicate";

(2) "No Members of the Subject are Members of the Class whose Differentia is contradictory to that of the Predicate".

[Thus, the Proposition "All bankers are rich men" is a Double Proposition, and is equivalent to the two Propositions

(1) "Some bankers are rich men";

(2) "No bankers are poor men".]

pg019 Sec. 4.

What is implied, in a Proposition of Relation, as to the Reality of its Terms?

Note that the rules, here laid down, are arbitrary, and only apply to Part I of my "Symbolic Logic."

A Proposition of Relation, beginning with "Some", is henceforward to be understood as asserting that there are some existing Things, which, being Members of the Subject, are also Members of the Predicate; i.e. that some existing Things are Members of both Terms at once. Hence it is to be understood as implying that each Term, taken by itself, is Real.

[Thus, the Proposition "Some rich men are invalids" is to be understood as asserting that some existing Things are "rich invalids". Hence it implies that each of the two Classes, "rich men" and "invalids", taken by itself, is Real.]

A Proposition of Relation, beginning with "No", is henceforward to be understood as asserting that there are no existing Things which, being Members of the Subject, are also Members of the Predicate; i.e. that no existing Things are Members of both Terms at once. But this implies nothing as to the Reality of either Term taken by itself.

[Thus, the Proposition "No mermaids are milliners" is to be understood as asserting that no existing Things are "mermaid-milliners". But this implies nothing as to the Reality, or the Unreality, of either of the two Classes, "mermaids" and "milliners", taken by itself. In this case as it happens, the Subject is Imaginary, and the Predicate Real.]

A Proposition of Relation, beginning with "All", contains (see Sec. 3) a similar Proposition beginning with "Some". Hence it is to be understood as implying that each Term, taken by itself, is Real.

[Thus, the Proposition "All hyaenas are savage animals" contains the Proposition "Some hyaenas are savage animals". Hence it implies that each of the two Classes, "hyaenas" and "savage animals", taken by itself, is Real.]

pg020 Sec. 5.

Translation of a Proposition of Relation into one or more Propositions of Existence.

We have seen that a Proposition of Relation, beginning with "Some," asserts that some existing Things, being Members of its Subject, are also Members of its Predicate. Hence, it asserts that some existing Things are Members of both; i.e. it asserts that some existing Things are Members of the Class of Things which have all the Attributes of the Subject and the Predicate.

Hence, to translate it into a Proposition of Existence, we take "existing Things" as the new Subject, and Things, which have all the Attributes of the Subject and the Predicate, as the new Predicate.

Similarly for a Proposition of Relation beginning with "No".

A Proposition of Relation, beginning with "All", is (as shown in Sec. 3) equivalent to two Propositions, one beginning with "Some" and the other with "No", each of which we now know how to translate.

[Let us work a few Examples, to illustrate these Rules.

(1)

"Some apples are not ripe."

Here we arrange thus:—

"Some" Sign of Quantity. "existing Things" Subject. "are" Copula. "not-ripe apples" Predicate.

or thus:—

"Some existing Things are not-ripe apples." pg021 (2)

"Some farmers always grumble at the weather, whatever it may be."

Here we arrange thus:—

"Some existing Things are farmers who always grumble at the weather, whatever it may be."

(3)

"No lambs are accustomed to smoke cigars."

Here we arrange thus:—

"No existing Things are lambs accustomed to smoke cigars."

(4)

"None of my speculations have brought me as much as 5 per cent."

Here we arrange thus:—

"No existing Things are speculations of mine, which have brought me as much as 5 per cent."

(5)

"None but the brave deserve the fair."

Here we note, to begin with, that the phrase "none but the brave" is equivalent to "no not-brave men." We then arrange thus:—

"No existing Things are not-brave men deserving of the fair."

(6)

"All bankers are rich men."

This is equivalent to the two Propositions "Some bankers are rich men" and "No bankers are poor men."

Here we arrange thus:—

"Some existing Things are rich bankers"; and "No existing Things are poor bankers."]

[Work Examples Sec. 1, 1-4 (p. 97).]

pg022

BOOK III.

THE BILITERAL DIAGRAM.

. -. xy xy' x'y x'y' . -.



CHAPTER I.

SYMBOLS AND CELLS.

First, let us suppose that the above Diagram is an enclosure assigned to a certain Class of Things, which we have selected as our 'Universe of Discourse.' or, more briefly, as our 'Univ'.

[For example, we might say "Let Univ. be 'books'"; and we might imagine the Diagram to be a large table, assigned to all "books."]

[The Reader is strongly advised, in reading this Chapter, not to refer to the above Diagram, but to draw a large one for himself, without any letters, and to have it by him while he reads, and keep his finger on that particular part of it, about which he is reading.] pg023 Secondly, let us suppose that we have selected a certain Adjunct, which we may call "x," and have divided the large Class, to which we have assigned the whole Diagram, into the two smaller Classes whose Differentiae are "x" and "not-x" (which we may call "x'"), and that we have assigned the North Half of the Diagram to the one (which we may call "the Class of x-Things," or "the x-Class"), and the South Half to the other (which we may call "the Class of x'-Things," or "the x'-Class").

[For example, we might say "Let x mean 'old,' so that x' will mean 'new'," and we might suppose that we had divided books into the two Classes whose Differentiae are "old" and "new," and had assigned the North Half of the table to "old books" and the South Half to "new books."]

Thirdly, let us suppose that we have selected another Adjunct, which we may call "y", and have subdivided the x-Class into the two Classes whose Differentiae are "y" and "y'", and that we have assigned the North-West Cell to the one (which we may call "the xy-Class"), and the North-East Cell to the other (which we may call "the xy'-Class").

[For example, we might say "Let y mean 'English,' so that y' will mean 'foreign'", and we might suppose that we had subdivided "old books" into the two Classes whose Differentiae are "English" and "foreign", and had assigned the North-West Cell to "old English books", and the North-East Cell to "old foreign books."]

Fourthly, let us suppose that we have subdivided the x'-Class in the same manner, and have assigned the South-West Cell to the x'y-Class, and the South-East Cell to the x'y'-Class.

[For example, we might suppose that we had subdivided "new books" into the two Classes "new English books" and "new foreign books", and had assigned the South-West Cell to the one, and the South-East Cell to the other.]

It is evident that, if we had begun by dividing for y and y', and had then subdivided for x and x', we should have got the same four Classes. Hence we see that we have assigned the West Half to the y-Class, and the East Half to the y'-Class. pg024 [Thus, in the above Example, we should find that we had assigned the West Half of the table to "English books" and the East Half to "foreign books."

. -. old old English foreign books books - - new new English foreign books books . -.

We have, in fact, assigned the four Quarters of the table to four different Classes of books, as here shown.]

The Reader should carefully remember that, in such a phrase as "the x-Things," the word "Things" means that particular kind of Things, to which the whole Diagram has been assigned.

[Thus, if we say "Let Univ. be 'books'," we mean that we have assigned the whole Diagram to "books." In that case, if we took "x" to mean "old", the phrase "the x-Things" would mean "the old books."]

The Reader should not go on to the next Chapter until he is quite familiar with the blank Diagram I have advised him to draw.

He ought to be able to name, instantly, the Adjunct assigned to any Compartment named in the right-hand column of the following Table.

Also he ought to be able to name, instantly, the Compartment assigned to any Adjunct named in the left-hand column.

To make sure of this, he had better put the book into the hands of some genial friend, while he himself has nothing but the blank Diagram, and get that genial friend to question him on this Table, dodging about as much as possible. The Questions and Answers should be something like this:—

pg025 TABLE I.

. . Adjuncts Compartments, or Cells, of assigned to them. Classes. - x North Half. x' South " y West " y' East " - xy North-West Cell. xy' " East " x'y South-West " x'y' " East " . .

Q. "Adjunct for West Half?" A. "y." Q. "Compartment for xy'?" A. "North-East Cell." Q. "Adjunct for South-West Cell?" A. "x'y." &c., &c.

After a little practice, he will find himself able to do without the blank Diagram, and will be able to see it mentally ("in my mind's eye, Horatio!") while answering the questions of his genial friend. When this result has been reached, he may safely go on to the next Chapter.

pg026

CHAPTER II.

COUNTERS.

Let us agree that a Red Counter, placed within a Cell, shall mean "This Cell is occupied" (i.e. "There is at least one Thing in it").

Let us also agree that a Red Counter, placed on the partition between two Cells, shall mean "The Compartment, made up of these two Cells, is occupied; but it is not known whereabouts, in it, its occupants are." Hence it may be understood to mean "At least one of these two Cells is occupied: possibly both are."

Our ingenious American cousins have invented a phrase to describe the condition of a man who has not yet made up his mind which of two political parties he will join: such a man is said to be "sitting on the fence." This phrase exactly describes the condition of the Red Counter.

Let us also agree that a Grey Counter, placed within a Cell, shall mean "This Cell is empty" (i.e. "There is nothing in it").

[The Reader had better provide himself with 4 Red Counters and 5 Grey ones.]

pg027

CHAPTER III.

REPRESENTATION OF PROPOSITIONS.

Sec. 1.

Introductory.

Henceforwards, in stating such Propositions as "Some x-Things exist" or "No x-Things are y-Things", I shall omit the word "Things", which the Reader can supply for himself, and shall write them as "Some x exist" or "No x are y".

[Note that the word "Things" is here used with a special meaning, as explained at p. 23.]

A Proposition, containing only one of the Letters used as Symbols for Attributes, is said to be 'Uniliteral'.

[For example, "Some x exist", "No y' exist", &c.]

A Proposition, containing two Letters, is said to be 'Biliteral'.

[For example, "Some xy' exist", "No x' are y", &c.]

A Proposition is said to be 'in terms of' the Letters it contains, whether with or without accents.

[Thus, "Some xy' exist", "No x' are y", &c., are said to be in terms of x and y.]

pg028 Sec. 2.

Representation of Propositions of Existence.

Let us take, first, the Proposition "Some x exist".

[Note that this Proposition is (as explained at p. 12) equivalent to "Some existing Things are x-Things."]

This tells us that there is at least one Thing in the North Half; that is, that the North Half is occupied. And this we can evidently represent by placing a Red Counter (here represented by a dotted circle) on the partition which divides the North Half.

. -. (.) - - . -.

[In the "books" example, this Proposition would be "Some old books exist".]

Similarly we may represent the three similar Propositions "Some x' exist", "Some y exist", and "Some y' exist".

[The Reader should make out all these for himself. In the "books" example, these Propositions would be "Some new books exist", &c.]

Let us take, next, the Proposition "No x exist".

This tells us that there is nothing in the North Half; that is, that the North Half is empty; that is, that the North-West Cell and the North-East Cell are both of them empty. And this we can represent by placing two Grey Counters in the North Half, one in each Cell.

. -. ( ) ( ) - - . -.

[The Reader may perhaps think that it would be enough to place a Grey Counter on the partition in the North Half, and that, just as a Red Counter, so placed, would mean "This Half is occupied", so a Grey one would mean "This Half is empty".

This, however, would be a mistake. We have seen that a Red Counter, so placed, would mean "At least one of these two Cells is occupied: possibly both are." Hence a Grey one would merely mean "At least one of these two Cells is empty: possibly both are". But what we have to represent is, that both Cells are certainly empty: and this can only be done by placing a Grey Counter in each of them.

In the "books" example, this Proposition would be "No old books exist".] pg029 Similarly we may represent the three similar Propositions "No x' exist", "No y exist", and "No y' exist".

[The Reader should make out all these for himself. In the "books" example, these three Propositions would be "No new books exist", &c.]

Let us take, next, the Proposition "Some xy exist".

This tells us that there is at least one Thing in the North-West Cell; that is, that the North-West Cell is occupied. And this we can represent by placing a Red Counter in it.

. -. (.) - - . -.

[In the "books" example, this Proposition would be "Some old English books exist".]

Similarly we may represent the three similar Propositions "Some xy' exist", "Some x'y exist", and "Some x'y' exist".

[The Reader should make out all these for himself. In the "books" example, these three Propositions would be "Some old foreign books exist", &c.]

Let us take, next, the Proposition "No xy exist".

This tells us that there is nothing in the North-West Cell; that is, that the North-West Cell is empty. And this we can represent by placing a Grey Counter in it.

. -. ( ) - - . -.

[In the "books" example, this Proposition would be "No old English books exist".]

Similarly we may represent the three similar Propositions "No xy' exist", "No x'y exist", and "No x'y' exist".

[The Reader should make out all these for himself. In the "books" example, these three Propositions would be "No old foreign books exist", &c.] pg030 We have seen that the Proposition "No x exist" may be represented by placing two Grey Counters in the North Half, one in each Cell.

. -. ( ) ( ) - - . -.

We have also seen that these two Grey Counters, taken separately, represent the two Propositions "No xy exist" and "No xy' exist".

Hence we see that the Proposition "No x exist" is a Double Proposition, and is equivalent to the two Propositions "No xy exist" and "No xy' exist".

[In the "books" example, this Proposition would be "No old books exist".

Hence this is a Double Proposition, and is equivalent to the two Propositions "No old English books exist" and "No old foreign books exist".]

Sec. 3.

Representation of Propositions of Relation.

Let us take, first, the Proposition "Some x are y".

This tells us that at least one Thing, in the North Half, is also in the West Half. Hence it must be in the space common to them, that is, in the North-West Cell. Hence the North-West Cell is occupied. And this we can represent by placing a Red Counter in it.

. -. (.) - - . -.

[Note that the Subject of the Proposition settles which Half we are to use; and that the Predicate settles in which portion of it we are to place the Red Counter.

In the "books" example, this Proposition would be "Some old books are English".]

Similarly we may represent the three similar Propositions "Some x are y'", "Some x' are y", and "Some x' are y'".

[The Reader should make out all these for himself. In the "books" example, these three Propositions would be "Some old books are foreign", &c.] pg031 Let us take, next, the Proposition "Some y are x".

This tells us that at least one Thing, in the West Half, is also in the North Half. Hence it must be in the space common to them, that is, in the North-West Cell. Hence the North-West Cell is occupied. And this we can represent by placing a Red Counter in it.

. -. (.) - - . -.

[In the "books" example, this Proposition would be "Some English books are old".]

Similarly we may represent the three similar Propositions "Some y are x'", "Some y' are x", and "Some y' are x'".

[The Reader should make out all these for himself. In the "books" example, these three Propositions would be "Some English books are new", &c.]

We see that this one Diagram has now served to represent no less than three Propositions, viz.

(1) "Some xy exist; (2) Some x are y; (3) Some y are x".

. -. (.) - - . -.

Hence these three Propositions are equivalent.

[In the "books" example, these Propositions would be

(1) "Some old English books exist; (2) Some old books are English; (3) Some English books are old".]

The two equivalent Propositions, "Some x are y" and "Some y are x", are said to be 'Converse' to each other; and the Process, of changing one into the other, is called 'Converting', or 'Conversion'.

[For example, if we were told to convert the Proposition

"Some apples are not ripe,"

we should first choose our Univ. (say "fruit"), and then complete the Proposition, by supplying the Substantive "fruit" in the Predicate, so that it would be

"Some apples are not-ripe fruit";

and we should then convert it by interchanging its Terms, so that it would be

"Some not-ripe fruit are apples".] pg032 Similarly we may represent the three similar Trios of equivalent Propositions; the whole Set of four Trios being as follows:—

(1) "Some xy exist" = "Some x are y" = "Some y are x". (2) "Some xy' exist" = "Some x are y'" = "Some y' are x". (3) "Some x'y exist" = "Some x' are y" = "Some y are x'". (4) "Some x'y' exist" = "Some x' are y'" = "Some y' are x'".

Let us take, next, the Proposition "No x are y".

This tell us that no Thing, in the North Half, is also in the West Half. Hence there is nothing in the space common to them, that is, in the North-West Cell. Hence the North-West Cell is empty. And this we can represent by placing a Grey Counter in it.

. -. ( ) - - . -.

[In the "books" example, this Proposition would be "No old books are English".]

Similarly we may represent the three similar Propositions "No x are y'", and "No x' are y", and "No x' are y'".

[The Reader should make out all these for himself. In the "books" example, these three Propositions would be "No old books are foreign", &c.]

Let us take, next, the Proposition "No y are x".

This tells us that no Thing, in the West Half, is also in the North Half. Hence there is nothing in the space common to them, that is, in the North-West Cell. That is, the North-West Cell is empty. And this we can represent by placing a Grey Counter in it.

. -. ( ) - - . -.

[In the "books" example, this Proposition would be "No English books are old".]

Similarly we may represent the three similar Propositions "No y are x'", "No y' are x", and "No y' are x'".

[The Reader should make out all these for himself. In the "books" example, these three Propositions would be "No English books are new", &c.] pg033 . -. ( ) - - . -.

We see that this one Diagram has now served to present no less than three Propositions, viz.

(1) "No xy exist; (2) No x are y; (3) No y are x."

Hence these three Propositions are equivalent.

[In the "books" example, these Propositions would be

(1) "No old English books exist; (2) No old books are English; (3) No English books are old".]

The two equivalent Propositions, "No x are y" and "No y are x", are said to be 'Converse' to each other.

[For example, if we were told to convert the Proposition

"No porcupines are talkative",

we should first choose our Univ. (say "animals"), and then complete the Proposition, by supplying the Substantive "animals" in the Predicate, so that it would be

"No porcupines are talkative animals", and we should then convert it, by interchanging its Terms, so that it would be

"No talkative animals are porcupines".]

Similarly we may represent the three similar Trios of equivalent Propositions; the whole Set of four Trios being as follows:—

(1) "No xy exist" = "No x are y" = "No y are x". (2) "No xy' exist" = "No x are y'" = "No y' are x". (3) "No x'y exist" = "No x' are y" = "No y are x'". (4) "No x'y' exist" = "No x' are y'" = "No y' are x'".

Let us take, next, the Proposition "All x are y".

We know (see p. 17) that this is a Double Proposition, and equivalent to the two Propositions "Some x are y" and "No x are y'", each of which we already know how to represent.

. -. (.) ( ) - - . -.

[Note that the Subject of the given Proposition settles which Half we are to use; and that its Predicate settles in which portion of that Half we are to place the Red Counter.]

pg034 TABLE II.

. -. . -. . -. (.) ( ) ( ) Some x exist - - No x exist - - . -. . -. - - - - . -. . -. Some x' exist - - No x' exist - - (.) ( ) ( ) . -. . -. - - - - . -. . -. ( ) Some y exist (.) - No y exist - - ( ) . -. . -. - - - - . -. . -. ( ) Some y' exist - (.) No y' exist - - ( ) . -. . -. . -.

Similarly we may represent the seven similar Propositions "All x are y'", "All x' are y", "All x' are y'", "All y are x", "All y are x'", "All y' are x", and "All y' are x'".

Let us take, lastly, the Double Proposition "Some x are y and some are y'", each part of which we already know how to represent.

. -. (.) (.) - - . -.

Similarly we may represent the three similar Propositions, "Some x' are y and some are y'", "Some y are x and some are x'", "Some y' are x and some are x'".

The Reader should now get his genial friend to question him, severely, on these two Tables. The Inquisitor should have the Tables before him: but the Victim should have nothing but a blank Diagram, and the Counters with which he is to represent the various Propositions named by his friend, e.g. "Some y exist", "No y' are x", "All x are y", &c. &c.

pg035 TABLE III.

. -. . -. . -. Some xy exist (.) (.) ( ) = Some x are y - - All x are y - - = Some y are x . -. . -. - - . -. . -. Some xy' exist (.) ( ) (.) = Some x are y' - - All x are y' - - = Some y' are x . -. . -. - - . -. . -. Some x'y exist = Some x' are y - - All x' are y - - = Some y are x' (.) (.) ( ) . -. . -. - - . -. . -. Some x'y' exist = Some x' are y' - - All x' are y' - - = Some y' are x' (.) ( ) (.) . -. . -. . -.

. -. . -. . -. No xy exist ( ) (.) = No x are y - - All y are x - - = No y are x ( ) . -. . -. - - . -. . -. No xy' exist ( ) ( ) = No x are y' - - All y are x' - - = No y' are x (.) . -. . -. - - . -. . -. No x'y exist (.) = No x' are y - - All y' are x - - = No y are x' ( ) ( ) . -. . -. - - . -. . -. No x'y' exist ( ) = No x' are y' - - All y' are x' - - = No y' are x' ( ) (.) . -. . -. . -.

. -. . -. . -. (.) (.) (.) Some x are y, - - Some y are x - - and some are y' and some are x' (.) . -. . -. - - . -. . -. (.) Some x' are y, - - Some y' are x - - and some are y' (.) (.) and some are x' (.) . -. . -. . -.

pg036

CHAPTER IV.

INTERPRETATION OF BILITERAL DIAGRAM WHEN MARKED WITH COUNTERS.

The Diagram is supposed to be set before us, with certain Counters placed upon it; and the problem is to find out what Proposition, or Propositions, the Counters represent.

As the process is simply the reverse of that discussed in the previous Chapter, we can avail ourselves of the results there obtained, as far as they go.

First, let us suppose that we find a Red Counter placed in the North-West Cell.

. -. (.) - - . -.

We know that this represents each of the Trio of equivalent Propositions

"Some xy exist" = "Some x are y" = "Some y are x".

Similarly we may interpret a Red Counter, when placed in the North-East, or South-West, or South-East Cell.

Next, let us suppose that we find a Grey Counter placed in the North-West Cell.

. -. ( ) - - . -.

We know that this represents each of the Trio of equivalent Propositions

"No xy exist" = "No x are y" = "No y are x".

Similarly we may interpret a Grey Counter, when placed in the North-East, or South-West, or South-East Cell. pg037 Next, let us suppose that we find a Red Counter placed on the partition which divides the North Half.

. -. (.) - - . -.

We know that this represents the Proposition "Some x exist."

Similarly we may interpret a Red Counter, when placed on the partition which divides the South, or West, or East Half.

* * * * *

Next, let us suppose that we find two Red Counters placed in the North Half, one in each Cell.

. -. (.) (.) - - . -.

We know that this represents the Double Proposition "Some x are y and some are y'".

Similarly we may interpret two Red Counters, when placed in the South, or West, or East Half.

* * * * *

Next, let us suppose that we find two Grey Counters placed in the North Half, one in each Cell.

. -. ( ) ( ) - - . -.

We know that this represents the Proposition "No x exist".

Similarly we may interpret two Grey Counters, when placed in the South, or West, or East Half.

* * * * *

Lastly, let us suppose that we find a Red and a Grey Counter placed in the North Half, the Red in the North-West Cell, and the Grey in the North-East Cell.

. -. (.) ( ) - - . -.

We know that this represents the Proposition, "All x are y".

[Note that the Half, occupied by the two Counters, settles what is to be the Subject of the Proposition, and that the Cell, occupied by the Red Counter, settles what is to be its Predicate.] pg038 Similarly we may interpret a Red and a Grey counter, when placed in any one of the seven similar positions

Red in North-East, Grey in North-West; Red in South-West, Grey in South-East; Red in South-East, Grey in South-West; Red in North-West, Grey in South-West; Red in South-West, Grey in North-West; Red in North-East, Grey in South-East; Red in South-East, Grey in North-East.

Once more the genial friend must be appealed to, and requested to examine the Reader on Tables II and III, and to make him not only represent Propositions, but also interpret Diagrams when marked with Counters.

The Questions and Answers should be like this:—

Q. Represent "No x' are y'." A. Grey Counter in S.E. Cell. Q. Interpret Red Counter on E. partition. A. "Some y' exist." Q. Represent "All y' are x." A. Red in N.E. Cell; Grey in S.E. Q. Interpret Grey Counter in S.W. Cell. A. "No x'y exist" = "No x' are y" = "No y are x'". &c., &c.

At first the Examinee will need to have the Board and Counters before him; but he will soon learn to dispense with these, and to answer with his eyes shut or gazing into vacancy.

[Work Examples Sec. 1, 5-8 (p. 97).]

pg039

BOOK IV.

THE TRILITERAL DIAGRAM.

. -. . -. xy xy' m' m' xy xy' . . xy xy' m m - - x'y x'y' m m x'y x'y' . . x'y x'y' m' m' . -. . -.



CHAPTER I.

SYMBOLS AND CELLS.

First, let us suppose that the above left-hand Diagram is the Biliteral Diagram that we have been using in Book III., and that we change it into a Triliteral Diagram by drawing an Inner Square, so as to divide each of its 4 Cells into 2 portions, thus making 8 Cells altogether. The right-hand Diagram shows the result.

[The Reader is strongly advised, in reading this Chapter, not to refer to the above Diagrams, but to make a large copy of the right-hand one for himself, without any letters, and to have it by him while he reads, and keep his finger on that particular part of it, about which he is reading.] pg040 Secondly, let us suppose that we have selected a certain Adjunct, which we may call "m", and have subdivided the xy-Class into the two Classes whose Differentiae are m and m', and that we have assigned the N.W. Inner Cell to the one (which we may call "the Class of xym-Things", or "the xym-Class"), and the N.W. Outer Cell to the other (which we may call "the Class of xym'-Things", or "the xym'-Class").

[Thus, in the "books" example, we might say "Let m mean 'bound', so that m' will mean 'unbound'", and we might suppose that we had subdivided the Class "old English books" into the two Classes, "old English bound books" and "old English unbound books", and had assigned the N.W. Inner Cell to the one, and the N.W. Outer Cell to the other.]

Thirdly, let us suppose that we have subdivided the xy'-Class, the x'y-Class, and the x'y'-Class in the same manner, and have, in each case, assigned the Inner Cell to the Class possessing the Attribute m, and the Outer Cell to the Class possessing the Attribute m'.

[Thus, in the "books" example, we might suppose that we had subdivided the "new English books" into the two Classes, "new English bound books" and "new English unbound books", and had assigned the S.W. Inner Cell to the one, and the S.W. Outer Cell to the other.]

It is evident that we have now assigned the Inner Square to the m-Class, and the Outer Border to the m'-Class.

[Thus, in the "books" example, we have assigned the Inner Square to "bound books" and the Outer Border to "unbound books".]

When the Reader has made himself familiar with this Diagram, he ought to be able to find, in a moment, the Compartment assigned to a particular pair of Attributes, or the Cell assigned to a particular trio of Attributes. The following Rules will help him in doing this:—

(1) Arrange the Attributes in the order x, y, m. pg041 (2) Take the first of them and find the Compartment assigned to it.

(3) Then take the second, and find what portion of that compartment is assigned to it.

(4) Treat the third, if there is one, in the same way.

[For example, suppose we have to find the Compartment assigned to ym. We say to ourselves "y has the West Half; and m has the Inner portion of that West Half."

Again, suppose we have to find the Cell assigned to x'ym'. We say to ourselves "x' has the South Half; y has the West portion of that South Half, i.e. has the South-West Quarter; and m' has the Outer portion of that South-West Quarter."]

The Reader should now get his genial friend to question him on the Table given on the next page, in the style of the following specimen-Dialogue.

Q. Adjunct for South Half, Inner Portion? A. x'm. Q. Compartment for m'? A. The Outer Border. Q. Adjunct for North-East Quarter, Outer Portion? A. xy'm'. Q. Compartment for ym? A. West Half, Inner Portion. Q. Adjunct for South Half? A. x'. Q. Compartment for x'y'm? A. South-East Quarter, Inner Portion. &c. &c.

pg042 TABLE IV.

. -. Adjunct of Compartments, or Cells, assigned Classes. to them. x North Half. x' South " y West " y' East " m Inner Square. m' Outer Border. xy North-West Quarter. xy' " East " x'y South-West " x'y' " East " xm North Half, Inner Portion. xm' " " Outer " x'm South " Inner " x'm' " " Outer " ym West " Inner " ym' " " Outer " y'm East " Inner " y'm' " " Outer " xym North-West Quarter, Inner Portion. xym' " " " Outer " xy'm " East " Inner " xy'm' " " " Outer " x'ym South-West " Inner " x'ym' " " " Outer " x'y'm " East " Inner " x'y'm' " " " Outer " . -.

pg043

CHAPTER II.

REPRESENTATION OF PROPOSITIONS IN TERMS OF x AND m, OR OF y AND m.

Sec. 1.

Representation of Propositions of Existence in terms of x and m, or of y and m.

Let us take, first, the Proposition "Some xm exist".

[Note that the full meaning of this Proposition is (as explained at p. 12) "Some existing Things are xm-Things".]

This tells us that there is at least one Thing in the Inner portion of the North Half; that is, that this Compartment is occupied. And this we can evidently represent by placing a Red Counter on the partition which divides it.

. -. . - -. (.) - - - - . - -. . -.

[In the "books" example, this Proposition would mean "Some old bound books exist" (or "There are some old bound books").]

Similarly we may represent the seven similar Propositions, "Some xm' exist", "Some x'm exist", "Some x'm' exist", "Some ym exist", "Some ym' exist", "Some y'm exist", and "Some y'm' exist". pg044 Let us take, next, the Proposition "No xm exist".

This tells us that there is nothing in the Inner portion of the North Half; that is, that this Compartment is empty. And this we can represent by placing two Grey Counters in it, one in each Cell.

. -. . - -. ( ) ( ) - - - - . - -. . -.

Similarly we may represent the seven similar Propositions, in terms of x and m, or of y and m, viz. "No xm' exist", "No x'm exist", &c.

* * * * *

These sixteen Propositions of Existence are the only ones that we shall have to represent on this Diagram.

Sec. 2.

Representation of Propositions of Relation in terms of x and m, or of y and m.

Let us take, first, the Pair of Converse Propositions

"Some x are m" = "Some m are x."

We know that each of these is equivalent to the Proposition of Existence "Some xm exist", which we already know how to represent.

. -. . - -. (.) - - - - . - -. . -.

Similarly for the seven similar Pairs, in terms of x and m, or of y and m.

Let us take, next, the Pair of Converse Propositions

"No x are m" = "No m are x."

We know that each of these is equivalent to the Proposition of Existence "No xm exist", which we already know how to represent.

. -. . - -. ( ) ( ) - - - - . - -. . -.

Similarly for the seven similar Pairs, in terms of x and m, or of y and m. pg045 Let us take, next, the Proposition "All x are m."

. -. ( ) ( ) . - -. (.) - - - - . - -. . -.

We know (see p. 18) that this is a Double Proposition, and equivalent to the two Propositions "Some x are m" and "No x are m' ", each of which we already know how to represent.

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