bnj66

Description: Technical lemma for bnj60 . This lemma may no longer be used or have become an indirect lemma of the theorem in question (i.e. a lemma of a lemma... of the theorem). (Contributed by Jonathan Ben-Naim, 3-Jun-2011) (New usage is discouraged.)

	Ref	Expression
Hypotheses	bnj66.1	$⊢ B = \{d \| (d \subseteq A \land \forall x \in d pred (x, A, R) \subseteq d)\}$
	bnj66.2	$⊢ Y = ⟨x, {f ↾}_{pred (x, A, R)}⟩$
	bnj66.3	$⊢ C = \{f \| \exists d \in B (f Fn d \land \forall x \in d f (x) = G (Y))\}$
Assertion	bnj66	$⊢ g \in C \to Rel g$

Proof

Step	Hyp	Ref	Expression
1		bnj66.1	$⊢ B = \{d \| (d \subseteq A \land \forall x \in d pred (x, A, R) \subseteq d)\}$
2		bnj66.2	$⊢ Y = ⟨x, {f ↾}_{pred (x, A, R)}⟩$
3		bnj66.3	$⊢ C = \{f \| \exists d \in B (f Fn d \land \forall x \in d f (x) = G (Y))\}$
4		fneq1	$⊢ g = f \to (g Fn d \leftrightarrow f Fn d)$
5		fveq1	$⊢ g = f \to g (x) = f (x)$
6		reseq1	$⊢ g = f \to {g ↾}_{pred (x, A, R)} = {f ↾}_{pred (x, A, R)}$
7	6	opeq2d	$⊢ g = f \to ⟨x, {g ↾}_{pred (x, A, R)}⟩ = ⟨x, {f ↾}_{pred (x, A, R)}⟩$
8	7 2	eqtr4di	$⊢ g = f \to ⟨x, {g ↾}_{pred (x, A, R)}⟩ = Y$
9	8	fveq2d	$⊢ g = f \to G (⟨x, {g ↾}_{pred (x, A, R)}⟩) = G (Y)$
10	5 9	eqeq12d	$⊢ g = f \to (g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩) \leftrightarrow f (x) = G (Y))$
11	10	ralbidv	$⊢ g = f \to (\forall x \in d g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩) \leftrightarrow \forall x \in d f (x) = G (Y))$
12	4 11	anbi12d	$⊢ g = f \to ((g Fn d \land \forall x \in d g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩)) \leftrightarrow (f Fn d \land \forall x \in d f (x) = G (Y)))$
13	12	rexbidv	$⊢ g = f \to (\exists d \in B (g Fn d \land \forall x \in d g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩)) \leftrightarrow \exists d \in B (f Fn d \land \forall x \in d f (x) = G (Y)))$
14	13	cbvabv	$⊢ \{g \| \exists d \in B (g Fn d \land \forall x \in d g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩))\} = \{f \| \exists d \in B (f Fn d \land \forall x \in d f (x) = G (Y))\}$
15	3 14	eqtr4i	$⊢ C = \{g \| \exists d \in B (g Fn d \land \forall x \in d g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩))\}$
16	15	bnj1436	$⊢ g \in C \to \exists d \in B (g Fn d \land \forall x \in d g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩))$
17		bnj1239	$⊢ \exists d \in B (g Fn d \land \forall x \in d g (x) = G (⟨x, {g ↾}_{pred (x, A, R)}⟩)) \to \exists d \in B g Fn d$
18		fnrel	$⊢ g Fn d \to Rel g$
19	18	rexlimivw	$⊢ \exists d \in B g Fn d \to Rel g$
20	16 17 19	3syl	$⊢ g \in C \to Rel g$

Metamath Proof Explorer

Theorem bnj66

Proof