Zermelo-Fraenkel axioms

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The Zermelo-Fraenkel axioms form one of several possible formulations of axiomatic set theory.

The axioms

There are eight Zermelo-Fraenkel (ZF) axioms:[1]

  1. Axiom of extensionality: If X and Y have the same elements, then X=Y
  2. Axiom of pairing: For any a and b there exists a set {a, b} that contains exactly a and b
  3. Axiom schema of separation: If φ is a property with parameter p, then for any X and p there exists a set Y that contains all those elements uX that have the property φ; that is, the set Y={uX(u, p)}
  4. Axiom of union: For any set X there exists a set Y=∪X, the union of all elements of X
  5. Axiom of power set: For any X there exists a set Y=P(X), the set of all subsets of X
  6. Axiom of infinity: There exists an infinite set
  7. Axiom schema of replacement: If f is a function, then for any X there exists a set Y, denoted F(X) such that F(X)={f(x)|xX}
  8. Axiom of regularity: Every nonempty set has an ∈-minimal element

If to these is added the axiom of choice, the theory is designated as the ZFC theory:

 9. Axiom of choice: Every family of nonempty sets has a choice function

For further discussion of these axioms, see Suppes.[2]

References

  1. Thomas J Jech (1978). Set theory. Academic Press. ISBN 0123819504. 
  2. Patrick Suppes (1972). Axiomatic set theory, Reprint of D Van Nostrand 1960 ed. Courier-Dover, pp. 14 ff. ISBN 0486616304.