elghomlem1OLD

Description: Obsolete as of 15-Mar-2020. Lemma for elghomOLD . (Contributed by Paul Chapman, 25-Feb-2008) (New usage is discouraged.) (Proof modification is discouraged.)

		Ref	Expression
	Hypothesis	elghomlem1OLD.1	$⊢ S = \{f \| (f : ran G ⟶ ran H \land \forall x \in ran G \forall y \in ran G f (x) H f (y) = f (x G y))\}$
	Assertion	elghomlem1OLD	$⊢ (G \in GrpOp \land H \in GrpOp) \to G GrpOpHom H = S$

Proof

Step	Hyp	Ref	Expression
1		elghomlem1OLD.1	$⊢ S = \{f \| (f : ran G ⟶ ran H \land \forall x \in ran G \forall y \in ran G f (x) H f (y) = f (x G y))\}$
2		rnexg	$⊢ G \in GrpOp \to ran G \in V$
3		rnexg	$⊢ H \in GrpOp \to ran H \in V$
4	1	fabexg	$⊢ (ran G \in V \land ran H \in V) \to S \in V$
5	2 3 4	syl2an	$⊢ (G \in GrpOp \land H \in GrpOp) \to S \in V$
6		rneq	$⊢ g = G \to ran g = ran G$
7	6	feq2d	$⊢ g = G \to (f : ran g ⟶ ran h \leftrightarrow f : ran G ⟶ ran h)$
8		oveq	$⊢ g = G \to x g y = x G y$
9	8	fveq2d	$⊢ g = G \to f (x g y) = f (x G y)$
10	9	eqeq2d	$⊢ g = G \to (f (x) h f (y) = f (x g y) \leftrightarrow f (x) h f (y) = f (x G y))$
11	6 10	raleqbidv	$⊢ g = G \to (\forall y \in ran g f (x) h f (y) = f (x g y) \leftrightarrow \forall y \in ran G f (x) h f (y) = f (x G y))$
12	6 11	raleqbidv	$⊢ g = G \to (\forall x \in ran g \forall y \in ran g f (x) h f (y) = f (x g y) \leftrightarrow \forall x \in ran G \forall y \in ran G f (x) h f (y) = f (x G y))$
13	7 12	anbi12d	$⊢ g = G \to ((f : ran g ⟶ ran h \land \forall x \in ran g \forall y \in ran g f (x) h f (y) = f (x g y)) \leftrightarrow (f : ran G ⟶ ran h \land \forall x \in ran G \forall y \in ran G f (x) h f (y) = f (x G y)))$
14	13	abbidv	$⊢ g = G \to \{f \| (f : ran g ⟶ ran h \land \forall x \in ran g \forall y \in ran g f (x) h f (y) = f (x g y))\} = \{f \| (f : ran G ⟶ ran h \land \forall x \in ran G \forall y \in ran G f (x) h f (y) = f (x G y))\}$
15		rneq	$⊢ h = H \to ran h = ran H$
16	15	feq3d	$⊢ h = H \to (f : ran G ⟶ ran h \leftrightarrow f : ran G ⟶ ran H)$
17		oveq	$⊢ h = H \to f (x) h f (y) = f (x) H f (y)$
18	17	eqeq1d	$⊢ h = H \to (f (x) h f (y) = f (x G y) \leftrightarrow f (x) H f (y) = f (x G y))$
19	18	2ralbidv	$⊢ h = H \to (\forall x \in ran G \forall y \in ran G f (x) h f (y) = f (x G y) \leftrightarrow \forall x \in ran G \forall y \in ran G f (x) H f (y) = f (x G y))$
20	16 19	anbi12d	$⊢ h = H \to ((f : ran G ⟶ ran h \land \forall x \in ran G \forall y \in ran G f (x) h f (y) = f (x G y)) \leftrightarrow (f : ran G ⟶ ran H \land \forall x \in ran G \forall y \in ran G f (x) H f (y) = f (x G y)))$
21	20	abbidv	$⊢ h = H \to \{f \| (f : ran G ⟶ ran h \land \forall x \in ran G \forall y \in ran G f (x) h f (y) = f (x G y))\} = \{f \| (f : ran G ⟶ ran H \land \forall x \in ran G \forall y \in ran G f (x) H f (y) = f (x G y))\}$
22	21 1	eqtr4di	$⊢ h = H \to \{f \| (f : ran G ⟶ ran h \land \forall x \in ran G \forall y \in ran G f (x) h f (y) = f (x G y))\} = S$
23		df-ghomOLD	$⊢ GrpOpHom = (g \in GrpOp, h \in GrpOp ⟼ \{f \| (f : ran g ⟶ ran h \land \forall x \in ran g \forall y \in ran g f (x) h f (y) = f (x g y))\})$
24	14 22 23	ovmpog	$⊢ (G \in GrpOp \land H \in GrpOp \land S \in V) \to G GrpOpHom H = S$
25	5 24	mpd3an3	$⊢ (G \in GrpOp \land H \in GrpOp) \to G GrpOpHom H = S$

Metamath Proof Explorer

Theorem elghomlem1OLD

Proof