fsplitOLD

Description: Obsolete proof of fsplit as of 31-Dec-2023 . (Contributed by NM, 17-Sep-2007) (Proof modification is discouraged.) (New usage is discouraged.)

		Ref	Expression
	Assertion	fsplitOLD	$⊢ {({1^{st} ↾}_{I})}^{-1} = (x \in V ⟼ ⟨x, x⟩)$

Proof

Step	Hyp	Ref	Expression
1		vex	$⊢ x \in V$
2		vex	$⊢ y \in V$
3	1 2	brcnv	$⊢ x {({1^{st} ↾}_{I})}^{-1} y \leftrightarrow y ({1^{st} ↾}_{I}) x$
4	1	brresi	$⊢ y ({1^{st} ↾}_{I}) x \leftrightarrow (y \in I \land y 1^{st} x)$
5		19.42v	$⊢ \exists z (1^{st} (y) = x \land y = ⟨z, z⟩) \leftrightarrow (1^{st} (y) = x \land \exists z y = ⟨z, z⟩)$
6		vex	$⊢ z \in V$
7	6 6	op1std	$⊢ y = ⟨z, z⟩ \to 1^{st} (y) = z$
8	7	eqeq1d	$⊢ y = ⟨z, z⟩ \to (1^{st} (y) = x \leftrightarrow z = x)$
9	8	pm5.32ri	$⊢ (1^{st} (y) = x \land y = ⟨z, z⟩) \leftrightarrow (z = x \land y = ⟨z, z⟩)$
10	9	exbii	$⊢ \exists z (1^{st} (y) = x \land y = ⟨z, z⟩) \leftrightarrow \exists z (z = x \land y = ⟨z, z⟩)$
11		fo1st	$⊢ 1^{st} : V \underset{onto}{⟶} V$
12		fofn	$⊢ 1^{st} : V \underset{onto}{⟶} V \to 1^{st} Fn V$
13	11 12	ax-mp	$⊢ 1^{st} Fn V$
14		fnbrfvb	$⊢ (1^{st} Fn V \land y \in V) \to (1^{st} (y) = x \leftrightarrow y 1^{st} x)$
15	13 2 14	mp2an	$⊢ 1^{st} (y) = x \leftrightarrow y 1^{st} x$
16		dfid2	$⊢ I = \{⟨z, z⟩ \| z = z\}$
17	16	eleq2i	$⊢ y \in I \leftrightarrow y \in \{⟨z, z⟩ \| z = z\}$
18		nfe1	$⊢ Ⅎ z \exists z (y = ⟨z, z⟩ \land z = z)$
19	18	19.9	$⊢ \exists z \exists z (y = ⟨z, z⟩ \land z = z) \leftrightarrow \exists z (y = ⟨z, z⟩ \land z = z)$
20		elopab	$⊢ y \in \{⟨z, z⟩ \| z = z\} \leftrightarrow \exists z \exists z (y = ⟨z, z⟩ \land z = z)$
21		equid	$⊢ z = z$
22	21	biantru	$⊢ y = ⟨z, z⟩ \leftrightarrow (y = ⟨z, z⟩ \land z = z)$
23	22	exbii	$⊢ \exists z y = ⟨z, z⟩ \leftrightarrow \exists z (y = ⟨z, z⟩ \land z = z)$
24	19 20 23	3bitr4i	$⊢ y \in \{⟨z, z⟩ \| z = z\} \leftrightarrow \exists z y = ⟨z, z⟩$
25	17 24	bitr2i	$⊢ \exists z y = ⟨z, z⟩ \leftrightarrow y \in I$
26	15 25	anbi12ci	$⊢ (1^{st} (y) = x \land \exists z y = ⟨z, z⟩) \leftrightarrow (y \in I \land y 1^{st} x)$
27	5 10 26	3bitr3ri	$⊢ (y \in I \land y 1^{st} x) \leftrightarrow \exists z (z = x \land y = ⟨z, z⟩)$
28		id	$⊢ z = x \to z = x$
29	28 28	opeq12d	$⊢ z = x \to ⟨z, z⟩ = ⟨x, x⟩$
30	29	eqeq2d	$⊢ z = x \to (y = ⟨z, z⟩ \leftrightarrow y = ⟨x, x⟩)$
31	30	equsexvw	$⊢ \exists z (z = x \land y = ⟨z, z⟩) \leftrightarrow y = ⟨x, x⟩$
32	27 31	bitri	$⊢ (y \in I \land y 1^{st} x) \leftrightarrow y = ⟨x, x⟩$
33	4 32	bitri	$⊢ y ({1^{st} ↾}_{I}) x \leftrightarrow y = ⟨x, x⟩$
34	3 33	bitri	$⊢ x {({1^{st} ↾}_{I})}^{-1} y \leftrightarrow y = ⟨x, x⟩$
35	34	opabbii	$⊢ \{⟨x, y⟩ \| x {({1^{st} ↾}_{I})}^{-1} y\} = \{⟨x, y⟩ \| y = ⟨x, x⟩\}$
36		relcnv	$⊢ Rel {({1^{st} ↾}_{I})}^{-1}$
37		dfrel4v	$⊢ Rel {({1^{st} ↾}_{I})}^{-1} \leftrightarrow {({1^{st} ↾}_{I})}^{-1} = \{⟨x, y⟩ \| x {({1^{st} ↾}_{I})}^{-1} y\}$
38	36 37	mpbi	$⊢ {({1^{st} ↾}_{I})}^{-1} = \{⟨x, y⟩ \| x {({1^{st} ↾}_{I})}^{-1} y\}$
39		mptv	$⊢ (x \in V ⟼ ⟨x, x⟩) = \{⟨x, y⟩ \| y = ⟨x, x⟩\}$
40	35 38 39	3eqtr4i	$⊢ {({1^{st} ↾}_{I})}^{-1} = (x \in V ⟼ ⟨x, x⟩)$

Metamath Proof Explorer

Theorem fsplitOLD

Proof