Axiom ax-c5 38883

Description: Axiom of Specialization. A universally quantified wff implies the wff without the universal quantifier (i.e., an instance, or special case, of the generalized wff). In other words, if something is true for all 𝑥, then it is true for any specific 𝑥 (that would typically occur as a free variable in the wff substituted for 𝜑). (A free variable is one that does not occur in the scope of a quantifier: 𝑥 and 𝑦 are both free in 𝑥 = 𝑦, but only 𝑥 is free in ∀𝑦𝑥 = 𝑦.) Axiom scheme C5' in [Megill] p. 448 (p. 16 of the preprint). Also appears as Axiom B5 of [Tarski] p. 67 (under his system S2, defined in the last paragraph on p. 77).

Note that the converse of this axiom does not hold in general, but a weaker inference form of the converse holds and is expressed as rule ax-gen 1795. Conditional forms of the converse are given by ax-13 2371, ax-c14 38891, ax-c16 38892, and ax-5 1910.

Unlike the more general textbook Axiom of Specialization, we cannot choose a variable different from 𝑥 for the special case. In our axiomatization, that requires the assistance of equality axioms, and we deal with it later after we introduce the definition of proper substitution (see stdpc4 2069).

An interesting alternate axiomatization uses axc5c711 38918 and ax-c4 38884 in place of ax-c5 38883, ax-4 1809, ax-10 2142, and ax-11 2158.

This axiom is obsolete and should no longer be used. It is proved above as Theorem sp 2184. (Contributed by NM, 3-Jan-1993.) Use sp 2184 instead. (New usage is discouraged.)

Assertion

Ref	Expression
ax-c5	⊢ (∀𝑥𝜑 → 𝜑)

Detailed syntax breakdown of Axiom ax-c5

Step	Hyp	Ref	Expression
1		wph	. . 3 wff 𝜑
2		vx	. . 3 setvar 𝑥
3	1, 2	wal 1538	. 2 wff ∀𝑥𝜑
4	3, 1	wi 4	1 wff (∀𝑥𝜑 → 𝜑)

This axiom is referenced by:  ax4fromc4  38894  ax10fromc7  38895  hba1-o  38897  equid1  38899  hbae-o  38903  ax12fromc15  38905  ax13fromc9  38906  sps-o  38908  axc5c7  38911  axc711toc7  38916  axc5c711  38918  ax12indalem  38945  ax12inda2ALT  38946