dfco2

Description: Alternate definition of a class composition, using only one bound variable. (Contributed by NM, 19-Dec-2008)

		Ref	Expression
	Assertion	dfco2	$⊢ A \circ B = ⋃_{x \in V} (B^{-1} [\{x\}] \times A [\{x\}])$

Proof

Step	Hyp	Ref	Expression
1		relco	$⊢ Rel (A \circ B)$
2		reliun	$⊢ Rel ⋃_{x \in V} (B^{-1} [\{x\}] \times A [\{x\}]) \leftrightarrow \forall x \in V Rel (B^{-1} [\{x\}] \times A [\{x\}])$
3		relxp	$⊢ Rel (B^{-1} [\{x\}] \times A [\{x\}])$
4	3	a1i	$⊢ x \in V \to Rel (B^{-1} [\{x\}] \times A [\{x\}])$
5	2 4	mprgbir	$⊢ Rel ⋃_{x \in V} (B^{-1} [\{x\}] \times A [\{x\}])$
6		opelco2g	$⊢ (y \in V \land z \in V) \to (⟨y, z⟩ \in (A \circ B) \leftrightarrow \exists x (⟨y, x⟩ \in B \land ⟨x, z⟩ \in A))$
7	6	el2v	$⊢ ⟨y, z⟩ \in (A \circ B) \leftrightarrow \exists x (⟨y, x⟩ \in B \land ⟨x, z⟩ \in A)$
8		eliun	$⊢ ⟨y, z⟩ \in ⋃_{x \in V} (B^{-1} [\{x\}] \times A [\{x\}]) \leftrightarrow \exists x \in V ⟨y, z⟩ \in (B^{-1} [\{x\}] \times A [\{x\}])$
9		rexv	$⊢ \exists x \in V ⟨y, z⟩ \in (B^{-1} [\{x\}] \times A [\{x\}]) \leftrightarrow \exists x ⟨y, z⟩ \in (B^{-1} [\{x\}] \times A [\{x\}])$
10		opelxp	$⊢ ⟨y, z⟩ \in (B^{-1} [\{x\}] \times A [\{x\}]) \leftrightarrow (y \in B^{-1} [\{x\}] \land z \in A [\{x\}])$
11		vex	$⊢ x \in V$
12		vex	$⊢ y \in V$
13	11 12	elimasn	$⊢ y \in B^{-1} [\{x\}] \leftrightarrow ⟨x, y⟩ \in B^{-1}$
14	11 12	opelcnv	$⊢ ⟨x, y⟩ \in B^{-1} \leftrightarrow ⟨y, x⟩ \in B$
15	13 14	bitri	$⊢ y \in B^{-1} [\{x\}] \leftrightarrow ⟨y, x⟩ \in B$
16		vex	$⊢ z \in V$
17	11 16	elimasn	$⊢ z \in A [\{x\}] \leftrightarrow ⟨x, z⟩ \in A$
18	15 17	anbi12i	$⊢ (y \in B^{-1} [\{x\}] \land z \in A [\{x\}]) \leftrightarrow (⟨y, x⟩ \in B \land ⟨x, z⟩ \in A)$
19	10 18	bitri	$⊢ ⟨y, z⟩ \in (B^{-1} [\{x\}] \times A [\{x\}]) \leftrightarrow (⟨y, x⟩ \in B \land ⟨x, z⟩ \in A)$
20	19	exbii	$⊢ \exists x ⟨y, z⟩ \in (B^{-1} [\{x\}] \times A [\{x\}]) \leftrightarrow \exists x (⟨y, x⟩ \in B \land ⟨x, z⟩ \in A)$
21	8 9 20	3bitrri	$⊢ \exists x (⟨y, x⟩ \in B \land ⟨x, z⟩ \in A) \leftrightarrow ⟨y, z⟩ \in ⋃_{x \in V} (B^{-1} [\{x\}] \times A [\{x\}])$
22	7 21	bitri	$⊢ ⟨y, z⟩ \in (A \circ B) \leftrightarrow ⟨y, z⟩ \in ⋃_{x \in V} (B^{-1} [\{x\}] \times A [\{x\}])$
23	1 5 22	eqrelriiv	$⊢ A \circ B = ⋃_{x \in V} (B^{-1} [\{x\}] \times A [\{x\}])$

Metamath Proof Explorer

Theorem dfco2

Proof