axc11n-16

Description: This theorem shows that, given ax-c16 , we can derive a version of ax-c11n . However, it is weaker than ax-c11n because it has a distinct variable requirement. (Contributed by Andrew Salmon, 27-Jul-2011) (Proof modification is discouraged.) (New usage is discouraged.)

		Ref	Expression
	Assertion	axc11n-16	$⊢ \forall x x = z \to \forall z z = x$

Proof

Step	Hyp	Ref	Expression
1		ax-c16	$⊢ \forall x x = z \to (x = w \to \forall x x = w)$
2	1	alrimiv	$⊢ \forall x x = z \to \forall w (x = w \to \forall x x = w)$
3	2	axc4i-o	$⊢ \forall x x = z \to \forall x \forall w (x = w \to \forall x x = w)$
4		equequ1	$⊢ x = z \to (x = w \leftrightarrow z = w)$
5	4	cbvalvw	$⊢ \forall x x = w \leftrightarrow \forall z z = w$
6	5	a1i	$⊢ x = z \to (\forall x x = w \leftrightarrow \forall z z = w)$
7	4 6	imbi12d	$⊢ x = z \to ((x = w \to \forall x x = w) \leftrightarrow (z = w \to \forall z z = w))$
8	7	albidv	$⊢ x = z \to (\forall w (x = w \to \forall x x = w) \leftrightarrow \forall w (z = w \to \forall z z = w))$
9	8	cbvalvw	$⊢ \forall x \forall w (x = w \to \forall x x = w) \leftrightarrow \forall z \forall w (z = w \to \forall z z = w)$
10	9	biimpi	$⊢ \forall x \forall w (x = w \to \forall x x = w) \to \forall z \forall w (z = w \to \forall z z = w)$
11		nfa1-o	$⊢ Ⅎ z \forall z z = w$
12	11	19.23	$⊢ \forall z (z = w \to \forall z z = w) \leftrightarrow (\exists z z = w \to \forall z z = w)$
13	12	albii	$⊢ \forall w \forall z (z = w \to \forall z z = w) \leftrightarrow \forall w (\exists z z = w \to \forall z z = w)$
14		ax6ev	$⊢ \exists z z = w$
15		pm2.27	$⊢ \exists z z = w \to ((\exists z z = w \to \forall z z = w) \to \forall z z = w)$
16	14 15	ax-mp	$⊢ (\exists z z = w \to \forall z z = w) \to \forall z z = w$
17	16	alimi	$⊢ \forall w (\exists z z = w \to \forall z z = w) \to \forall w \forall z z = w$
18		equequ2	$⊢ w = x \to (z = w \leftrightarrow z = x)$
19	18	spv	$⊢ \forall w z = w \to z = x$
20	19	sps-o	$⊢ \forall z \forall w z = w \to z = x$
21	20	alcoms	$⊢ \forall w \forall z z = w \to z = x$
22	17 21	syl	$⊢ \forall w (\exists z z = w \to \forall z z = w) \to z = x$
23	13 22	sylbi	$⊢ \forall w \forall z (z = w \to \forall z z = w) \to z = x$
24	23	alcoms	$⊢ \forall z \forall w (z = w \to \forall z z = w) \to z = x$
25	24	axc4i-o	$⊢ \forall z \forall w (z = w \to \forall z z = w) \to \forall z z = x$
26	3 10 25	3syl	$⊢ \forall x x = z \to \forall z z = x$

Metamath Proof Explorer

Theorem axc11n-16

Proof