funcnvpr

Description: The converse pair of ordered pairs is a function if the second members are different. Note that the second members need not be sets. (Contributed by AV, 23-Jan-2021)

		Ref	Expression
	Assertion	funcnvpr	$⊢ (A \in U \land C \in V \land B \neq D) \to Fun {\{⟨A, B⟩, ⟨C, D⟩\}}^{-1}$

Proof

Step	Hyp	Ref	Expression
1		funcnvsn	$⊢ Fun {\{⟨A, B⟩\}}^{-1}$
2		funcnvsn	$⊢ Fun {\{⟨C, D⟩\}}^{-1}$
3	1 2	pm3.2i	$⊢ (Fun {\{⟨A, B⟩\}}^{-1} \land Fun {\{⟨C, D⟩\}}^{-1})$
4		df-rn	$⊢ ran \{⟨A, B⟩\} = dom {\{⟨A, B⟩\}}^{-1}$
5		rnsnopg	$⊢ A \in U \to ran \{⟨A, B⟩\} = \{B\}$
6	4 5	eqtr3id	$⊢ A \in U \to dom {\{⟨A, B⟩\}}^{-1} = \{B\}$
7		df-rn	$⊢ ran \{⟨C, D⟩\} = dom {\{⟨C, D⟩\}}^{-1}$
8		rnsnopg	$⊢ C \in V \to ran \{⟨C, D⟩\} = \{D\}$
9	7 8	eqtr3id	$⊢ C \in V \to dom {\{⟨C, D⟩\}}^{-1} = \{D\}$
10	6 9	ineqan12d	$⊢ (A \in U \land C \in V) \to dom {\{⟨A, B⟩\}}^{-1} \cap dom {\{⟨C, D⟩\}}^{-1} = \{B\} \cap \{D\}$
11	10	3adant3	$⊢ (A \in U \land C \in V \land B \neq D) \to dom {\{⟨A, B⟩\}}^{-1} \cap dom {\{⟨C, D⟩\}}^{-1} = \{B\} \cap \{D\}$
12		disjsn2	$⊢ B \neq D \to \{B\} \cap \{D\} = \emptyset$
13	12	3ad2ant3	$⊢ (A \in U \land C \in V \land B \neq D) \to \{B\} \cap \{D\} = \emptyset$
14	11 13	eqtrd	$⊢ (A \in U \land C \in V \land B \neq D) \to dom {\{⟨A, B⟩\}}^{-1} \cap dom {\{⟨C, D⟩\}}^{-1} = \emptyset$
15		funun	$⊢ ((Fun {\{⟨A, B⟩\}}^{-1} \land Fun {\{⟨C, D⟩\}}^{-1}) \land dom {\{⟨A, B⟩\}}^{-1} \cap dom {\{⟨C, D⟩\}}^{-1} = \emptyset) \to Fun ({\{⟨A, B⟩\}}^{-1} \cup {\{⟨C, D⟩\}}^{-1})$
16	3 14 15	sylancr	$⊢ (A \in U \land C \in V \land B \neq D) \to Fun ({\{⟨A, B⟩\}}^{-1} \cup {\{⟨C, D⟩\}}^{-1})$
17		df-pr	$⊢ \{⟨A, B⟩, ⟨C, D⟩\} = \{⟨A, B⟩\} \cup \{⟨C, D⟩\}$
18	17	cnveqi	$⊢ {\{⟨A, B⟩, ⟨C, D⟩\}}^{-1} = {(\{⟨A, B⟩\} \cup \{⟨C, D⟩\})}^{-1}$
19		cnvun	$⊢ {(\{⟨A, B⟩\} \cup \{⟨C, D⟩\})}^{-1} = {\{⟨A, B⟩\}}^{-1} \cup {\{⟨C, D⟩\}}^{-1}$
20	18 19	eqtri	$⊢ {\{⟨A, B⟩, ⟨C, D⟩\}}^{-1} = {\{⟨A, B⟩\}}^{-1} \cup {\{⟨C, D⟩\}}^{-1}$
21	20	funeqi	$⊢ Fun {\{⟨A, B⟩, ⟨C, D⟩\}}^{-1} \leftrightarrow Fun ({\{⟨A, B⟩\}}^{-1} \cup {\{⟨C, D⟩\}}^{-1})$
22	16 21	sylibr	$⊢ (A \in U \land C \in V \land B \neq D) \to Fun {\{⟨A, B⟩, ⟨C, D⟩\}}^{-1}$

Metamath Proof Explorer

Theorem funcnvpr

Proof