isthincd2lem1

	Ref	Expression
Hypotheses	isthincd2lem1.1	$⊢ φ \to X \in B$
	isthincd2lem1.2	$⊢ φ \to Y \in B$
	isthincd2lem1.3	$⊢ φ \to F \in (X H Y)$
	isthincd2lem1.4	$⊢ φ \to G \in (X H Y)$
	isthincd2lem1.5	$⊢ φ \to \forall x \in B \forall y \in B \exists^{*} f f \in (x H y)$
Assertion	isthincd2lem1	$⊢ φ \to F = G$

Proof

Step	Hyp	Ref	Expression
1		isthincd2lem1.1	$⊢ φ \to X \in B$
2		isthincd2lem1.2	$⊢ φ \to Y \in B$
3		isthincd2lem1.3	$⊢ φ \to F \in (X H Y)$
4		isthincd2lem1.4	$⊢ φ \to G \in (X H Y)$
5		isthincd2lem1.5	$⊢ φ \to \forall x \in B \forall y \in B \exists^{*} f f \in (x H y)$
6		oveq1	$⊢ x = z \to x H y = z H y$
7	6	eleq2d	$⊢ x = z \to (f \in (x H y) \leftrightarrow f \in (z H y))$
8	7	mobidv	$⊢ x = z \to (\exists^{} f f \in (x H y) \leftrightarrow \exists^{} f f \in (z H y))$
9		oveq2	$⊢ y = w \to z H y = z H w$
10	9	eleq2d	$⊢ y = w \to (f \in (z H y) \leftrightarrow f \in (z H w))$
11	10	mobidv	$⊢ y = w \to (\exists^{} f f \in (z H y) \leftrightarrow \exists^{} f f \in (z H w))$
12	8 11	cbvral2vw	$⊢ \forall x \in B \forall y \in B \exists^{} f f \in (x H y) \leftrightarrow \forall z \in B \forall w \in B \exists^{} f f \in (z H w)$
13	5 12	sylib	$⊢ φ \to \forall z \in B \forall w \in B \exists^{*} f f \in (z H w)$
14		oveq1	$⊢ z = X \to z H w = X H w$
15	14	eleq2d	$⊢ z = X \to (f \in (z H w) \leftrightarrow f \in (X H w))$
16	15	mobidv	$⊢ z = X \to (\exists^{} f f \in (z H w) \leftrightarrow \exists^{} f f \in (X H w))$
17		nfv	$⊢ Ⅎ k f \in (X H w)$
18		nfv	$⊢ Ⅎ f k \in (X H w)$
19		eleq1w	$⊢ f = k \to (f \in (X H w) \leftrightarrow k \in (X H w))$
20	17 18 19	cbvmow	$⊢ \exists^{} f f \in (X H w) \leftrightarrow \exists^{} k k \in (X H w)$
21		oveq2	$⊢ w = Y \to X H w = X H Y$
22	21	eleq2d	$⊢ w = Y \to (k \in (X H w) \leftrightarrow k \in (X H Y))$
23	22	mobidv	$⊢ w = Y \to (\exists^{} k k \in (X H w) \leftrightarrow \exists^{} k k \in (X H Y))$
24	20 23	syl5bb	$⊢ w = Y \to (\exists^{} f f \in (X H w) \leftrightarrow \exists^{} k k \in (X H Y))$
25		eqidd	$⊢ (φ \land z = X) \to B = B$
26	16 24 1 25 2	rspc2vd	$⊢ φ \to (\forall z \in B \forall w \in B \exists^{} f f \in (z H w) \to \exists^{} k k \in (X H Y))$
27	13 26	mpd	$⊢ φ \to \exists^{*} k k \in (X H Y)$
28		moel	$⊢ \exists^{*} k k \in (X H Y) \leftrightarrow \forall k \in (X H Y) \forall l \in (X H Y) k = l$
29	27 28	sylib	$⊢ φ \to \forall k \in (X H Y) \forall l \in (X H Y) k = l$
30		eqeq1	$⊢ k = F \to (k = l \leftrightarrow F = l)$
31		eqeq2	$⊢ l = G \to (F = l \leftrightarrow F = G)$
32		eqidd	$⊢ (φ \land k = F) \to X H Y = X H Y$
33	30 31 3 32 4	rspc2vd	$⊢ φ \to (\forall k \in (X H Y) \forall l \in (X H Y) k = l \to F = G)$
34	29 33	mpd	$⊢ φ \to F = G$

Metamath Proof Explorer

Theorem isthincd2lem1

Proof