fpwwe2lem4

Description: Lemma for fpwwe2 . (Contributed by Mario Carneiro, 15-May-2015) (Revised by AV, 20-Jul-2024)

	Ref	Expression
Hypotheses	fpwwe2.1	\|- W = { <. x , r >. \| ( ( x C_ A /\ r C_ ( x X. x ) ) /\ ( r We x /\ A. y e. x [. ( `' r " { y } ) / u ]. ( u F ( r i^i ( u X. u ) ) ) = y ) ) }
	fpwwe2.2	\|- ( ph -> A e. V )
	fpwwe2.3	\|- ( ( ph /\ ( x C_ A /\ r C_ ( x X. x ) /\ r We x ) ) -> ( x F r ) e. A )
Assertion	fpwwe2lem4	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> ( X F R ) e. A )

Proof

Step	Hyp	Ref	Expression
1		fpwwe2.1	\|- W = { <. x , r >. \| ( ( x C_ A /\ r C_ ( x X. x ) ) /\ ( r We x /\ A. y e. x [. ( `' r " { y } ) / u ]. ( u F ( r i^i ( u X. u ) ) ) = y ) ) }
2		fpwwe2.2	\|- ( ph -> A e. V )
3		fpwwe2.3	\|- ( ( ph /\ ( x C_ A /\ r C_ ( x X. x ) /\ r We x ) ) -> ( x F r ) e. A )
4	2	adantr	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> A e. V )
5		simpr1	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> X C_ A )
6	4 5	ssexd	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> X e. _V )
7	6 6	xpexd	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> ( X X. X ) e. _V )
8		simpr2	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> R C_ ( X X. X ) )
9	7 8	ssexd	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> R e. _V )
10	6 9	jca	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> ( X e. _V /\ R e. _V ) )
11		sseq1	\|- ( x = X -> ( x C_ A <-> X C_ A ) )
12		xpeq12	\|- ( ( x = X /\ x = X ) -> ( x X. x ) = ( X X. X ) )
13	12	anidms	\|- ( x = X -> ( x X. x ) = ( X X. X ) )
14	13	sseq2d	\|- ( x = X -> ( r C_ ( x X. x ) <-> r C_ ( X X. X ) ) )
15		weeq2	\|- ( x = X -> ( r We x <-> r We X ) )
16	11 14 15	3anbi123d	\|- ( x = X -> ( ( x C_ A /\ r C_ ( x X. x ) /\ r We x ) <-> ( X C_ A /\ r C_ ( X X. X ) /\ r We X ) ) )
17	16	anbi2d	\|- ( x = X -> ( ( ph /\ ( x C_ A /\ r C_ ( x X. x ) /\ r We x ) ) <-> ( ph /\ ( X C_ A /\ r C_ ( X X. X ) /\ r We X ) ) ) )
18		oveq1	\|- ( x = X -> ( x F r ) = ( X F r ) )
19	18	eleq1d	\|- ( x = X -> ( ( x F r ) e. A <-> ( X F r ) e. A ) )
20	17 19	imbi12d	\|- ( x = X -> ( ( ( ph /\ ( x C_ A /\ r C_ ( x X. x ) /\ r We x ) ) -> ( x F r ) e. A ) <-> ( ( ph /\ ( X C_ A /\ r C_ ( X X. X ) /\ r We X ) ) -> ( X F r ) e. A ) ) )
21		sseq1	\|- ( r = R -> ( r C_ ( X X. X ) <-> R C_ ( X X. X ) ) )
22		weeq1	\|- ( r = R -> ( r We X <-> R We X ) )
23	21 22	3anbi23d	\|- ( r = R -> ( ( X C_ A /\ r C_ ( X X. X ) /\ r We X ) <-> ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) )
24	23	anbi2d	\|- ( r = R -> ( ( ph /\ ( X C_ A /\ r C_ ( X X. X ) /\ r We X ) ) <-> ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) ) )
25		oveq2	\|- ( r = R -> ( X F r ) = ( X F R ) )
26	25	eleq1d	\|- ( r = R -> ( ( X F r ) e. A <-> ( X F R ) e. A ) )
27	24 26	imbi12d	\|- ( r = R -> ( ( ( ph /\ ( X C_ A /\ r C_ ( X X. X ) /\ r We X ) ) -> ( X F r ) e. A ) <-> ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> ( X F R ) e. A ) ) )
28	20 27 3	vtocl2g	\|- ( ( X e. _V /\ R e. _V ) -> ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> ( X F R ) e. A ) )
29	10 28	mpcom	\|- ( ( ph /\ ( X C_ A /\ R C_ ( X X. X ) /\ R We X ) ) -> ( X F R ) e. A )

Metamath Proof Explorer

Theorem fpwwe2lem4

Proof