Relations are Not Sets of Ordered Pairs

1. Relations are NotSets of Ordered Pairs Ingvar Johansson, Institute for Formal Ontology and Medical Information Science, Saarbrücken 2004-10-09

2. The Importance of Relations • The question of relations is one of the most important that arise in philosophy, as most other issues turn on it: monism and pluralism; the question whether anything is wholly true except the whole of truth, or wholly real except the whole of reality; idealism and realism, in some of their forms; perhaps the very existence of philosophy as a subject distinct from science and possessing a method of its own. (Bertrand Russell, Logical Atomism, 1924.)

3. General Message • Features of representations must not be conflated with what is represented.

4. Specific Message • An internal relation can be represented by, but not be identical withan ordered pair or a set of ordered pairs.

5. Interesting Consequence • There are no anti-symmetrical internal relations in the language-independent world.

6. Circles are not identical with an equation. Relations are not identical with sets of ordered pairs, In both cases, it is merely a matter of representation. (x - a)2 + (y - b)2 = r2 Identity and Representation y b x a

7. Relations in Set Theory • relation, a two-or-more-place property (e.g. loves or between), or the extension of such a property. In set theory, a relation is any set of ordered pairs (or triples, etc., but these are reducible to pairs). For simplicity, the formal exposition here uses the language of set theory, although an intensional (property-theoretic) view is later assumed. (The Cambridge Dictionary of Philosophy, 1999.)

8. Quotation • “Because relations are sets of ordered pairs, we can combine them using set of operations of union, intersection, and complement. These are called Boolean operations.”

9. Relation Terminology • Relation – relations • Relatum – relata • Binary, ternary, …, n-ary • Symbolism: Rab (=aRb), Rabc, Rabcd, etc. • Ordered pair: <a, b> • Set of ordered pairs: <x, y>: such that …or <a, b>, <f, g>, ...

10. Kinds of Ontological Relations • Relations of Existential dependence;relata are existentially dependent on each other, e.g., perceived color and perceived spatial extension. • Intentional relations;can exist with only one relatum, e.g., love. • External relations;independent of the qualities of the relata related, e.g. spatial distance. • Internal relations (comparative, grounded);dependent on the qualities of the relata related, e.g. larger than, lighter than, rounder than.

11. The thing T1 is larger than the thing T2 because T1 has an area-instance, a, that is larger than the area-instance of T2, b. Every area-instance that instantiates the same universal as a is larger than every area-instance that instantiates the same universal as b. Internal Relations Between Quality Instances are Grounded in Universals T1 : a T2: b

12. Possibly, a exists but not b, or vice versa (compare existential dependence). Necessarily: if both a and b exist, then the relation of “being larger than” is instantiated (compare external relations). Internal Relations haveSpecific Features a b

13. a is larger than b b is larger than c a is larger than c a and d are equally large a is more similar to b than to c Internal Relations can be Perceived a d b c

14. a is larger than b a and d are equally large a is more similar to b than to c a, b, c, and d are different determinate instances of the same determinable. Internal Relations require a Determinable a d b c

15. Internal Relations require a Determinable • Statements describing internal relations: “a is smaller than b”, “a is heavier than b”, “a is more electrically charged than b”, “a has greater intensity than b”, etc. • These internal relations have different relata of the same kind. • Resemblance (both exact and non-exact) is always resemblance in a certain respect. • A determinate-determinable distinction (W.E. Johnson) has to be made explicit.

16. Exact Resemblance • When two things are equally large there is a relation of exact resemblance between the two quality instances in question. • But there is only one universal. • When two particulars are qualitatively identical there is necessarily a relation of exact resemblance between them.

17. Non-Exact Resemblance • When two things have different areas there is a relation of non-exact resemblance between the two area instances in question. • There are then two universals. • Between these universals there is an internal relation, a determinate kind of resemblance. • When the universals are instantiated there is also an internal relation between the corresponding instances.

18. We discover that a is larger than b, that a and d are equally large, and that a is more similar to b than to c. True of both binary and ternary relations. Internal Relations can be Mind-Independent a d b c

19. a and d are equally large. a is larger than b. There are epiphenomenal natural facts. Epiphenomena add to being. Internal Relations are Epiphenomena a d b c

20. Language Lumps Together blue green y red • What is true of the ordinary language terms, are true of “larger than”, too. • But not of “2.13 times as large as”.

21. a is larger than b =def<a, b>  <x, y>: such that x is larger than y? No, circular definition. <a, b> <a, b>, <d, b>, <d, c>, <a, c>, …? No, can’t distinguish between extensionally equivalent relations. Internal Relations in Set Theory a d b c

22. a is larger than b =def<a, b> ? No, can’t distinguish between extensionally equivalent relations. But, of course, <a, b> can be used to represent the fact that a is larger than b. Internal Relations in Set Theory a d b c

23. ‘larger than’ (L) is asymmetric:xy (Lxy  ¬Lyx) Lab & ¬Lba ‘equally large’ (E) is symmetric:xy (Exy  Eyx) Ead & Eda Properties of Internal Relations a d b c

24. ‘larger than or equal to’ is anti-symmetric:xy (x≥ y) & (y ≥ x)  x = y. (a ≥d) & (d ≥a) & (a = d). In the individual case there is only symmetry. (a ≥ b) & ¬(b ≥ a) In the individual case there is only asymmetry. No case is anti-symmetric. Anti-Symmetrical Relations a d b c

25. Anti-Symmetrical Relations and their Relata • Anti-symmetry: (a ≥d & d ≥ a)  (a = d). • If a and d are numbers, then ‘=’ means numerical identity. • If a and d are quality instances, then ‘=’ means qualitative identity. • If a and d are universals, then ‘=’ means numerical identity.

26. Representations and Represented:Possible Mistake • There are no anti-symmetrical internal relational universals. • Predicates ( ≥ ) can be anti-symmetric. • Sets of ordered pairs can be anti-symmetric. • Representations of internal relations can be anti-symmetric but internal relations cannot.

27. Representations and Represented:Logical Constants and the World • The statement “The spot is red or green” contains a disjunction. • The language-independent world contains no corresponding disjunctive fact. The spot is red or green

28. Can’t Disjunctions be Truthmakers even for Categorical Assertions? • “The spot is red or green.” • “The spot is red.” • Isn’t in both cases a disjunction a truthmaker? • v v v v v v . • Answer: In the latter case, we talk as if there is in the world only one property. Language lumps together.

29. Representations and Represented:Scales and Quantities 0 1 2 3 4 5 6 7 8 9 10 meter ‘1 m’ represents the standard meter. ‘7 m’ represents all things that are seven times as long as the standard meter. ‘0 m’ represents nothing at all, but it is part of the scale.

30. The End • There are in the language-independent world no disjunctive facts. • There are in the language-independent world no zero quantities. • There are in the language-independent world no anti-symmetrical relations. • In language, there are disjunctions, zero quantities, as well as anti-symmetrical relations.