dffo3

Description: An onto mapping expressed in terms of function values. (Contributed by NM, 29-Oct-2006)

		Ref	Expression
	Assertion	dffo3	$⊢ F : A \underset{onto}{⟶} B \leftrightarrow (F : A ⟶ B \land \forall y \in B \exists x \in A y = F (x))$

Proof

Step	Hyp	Ref	Expression
1		dffo2	$⊢ F : A \underset{onto}{⟶} B \leftrightarrow (F : A ⟶ B \land ran F = B)$
2		ffn	$⊢ F : A ⟶ B \to F Fn A$
3		fnrnfv	$⊢ F Fn A \to ran F = \{y \| \exists x \in A y = F (x)\}$
4	3	eqeq1d	$⊢ F Fn A \to (ran F = B \leftrightarrow \{y \| \exists x \in A y = F (x)\} = B)$
5	2 4	syl	$⊢ F : A ⟶ B \to (ran F = B \leftrightarrow \{y \| \exists x \in A y = F (x)\} = B)$
6		simpr	$⊢ ((F : A ⟶ B \land x \in A) \land y = F (x)) \to y = F (x)$
7		ffvelrn	$⊢ (F : A ⟶ B \land x \in A) \to F (x) \in B$
8	7	adantr	$⊢ ((F : A ⟶ B \land x \in A) \land y = F (x)) \to F (x) \in B$
9	6 8	eqeltrd	$⊢ ((F : A ⟶ B \land x \in A) \land y = F (x)) \to y \in B$
10	9	rexlimdva2	$⊢ F : A ⟶ B \to (\exists x \in A y = F (x) \to y \in B)$
11	10	biantrurd	$⊢ F : A ⟶ B \to ((y \in B \to \exists x \in A y = F (x)) \leftrightarrow ((\exists x \in A y = F (x) \to y \in B) \land (y \in B \to \exists x \in A y = F (x))))$
12		dfbi2	$⊢ (\exists x \in A y = F (x) \leftrightarrow y \in B) \leftrightarrow ((\exists x \in A y = F (x) \to y \in B) \land (y \in B \to \exists x \in A y = F (x)))$
13	11 12	syl6rbbr	$⊢ F : A ⟶ B \to ((\exists x \in A y = F (x) \leftrightarrow y \in B) \leftrightarrow (y \in B \to \exists x \in A y = F (x)))$
14	13	albidv	$⊢ F : A ⟶ B \to (\forall y (\exists x \in A y = F (x) \leftrightarrow y \in B) \leftrightarrow \forall y (y \in B \to \exists x \in A y = F (x)))$
15		abeq1	$⊢ \{y \| \exists x \in A y = F (x)\} = B \leftrightarrow \forall y (\exists x \in A y = F (x) \leftrightarrow y \in B)$
16		df-ral	$⊢ \forall y \in B \exists x \in A y = F (x) \leftrightarrow \forall y (y \in B \to \exists x \in A y = F (x))$
17	14 15 16	3bitr4g	$⊢ F : A ⟶ B \to (\{y \| \exists x \in A y = F (x)\} = B \leftrightarrow \forall y \in B \exists x \in A y = F (x))$
18	5 17	bitrd	$⊢ F : A ⟶ B \to (ran F = B \leftrightarrow \forall y \in B \exists x \in A y = F (x))$
19	18	pm5.32i	$⊢ (F : A ⟶ B \land ran F = B) \leftrightarrow (F : A ⟶ B \land \forall y \in B \exists x \in A y = F (x))$
20	1 19	bitri	$⊢ F : A \underset{onto}{⟶} B \leftrightarrow (F : A ⟶ B \land \forall y \in B \exists x \in A y = F (x))$

Metamath Proof Explorer

Theorem dffo3

Proof