rankelop

Description: Rank membership is inherited by ordered pairs. (Contributed by NM, 18-Sep-2006)

	Ref	Expression
Hypotheses	rankelun.1	$⊢ A \in V$
	rankelun.2	$⊢ B \in V$
	rankelun.3	$⊢ C \in V$
	rankelun.4	$⊢ D \in V$
Assertion	rankelop	$⊢ (rank (A) \in rank (C) \land rank (B) \in rank (D)) \to rank (⟨A, B⟩) \in rank (⟨C, D⟩)$

Proof

Step	Hyp	Ref	Expression
1		rankelun.1	$⊢ A \in V$
2		rankelun.2	$⊢ B \in V$
3		rankelun.3	$⊢ C \in V$
4		rankelun.4	$⊢ D \in V$
5	1 2 3 4	rankelpr	$⊢ (rank (A) \in rank (C) \land rank (B) \in rank (D)) \to rank (\{A, B\}) \in rank (\{C, D\})$
6		rankon	$⊢ rank (\{C, D\}) \in On$
7	6	onordi	$⊢ Ord rank (\{C, D\})$
8		ordsucelsuc	$⊢ Ord rank (\{C, D\}) \to (rank (\{A, B\}) \in rank (\{C, D\}) \leftrightarrow suc rank (\{A, B\}) \in suc rank (\{C, D\}))$
9	7 8	ax-mp	$⊢ rank (\{A, B\}) \in rank (\{C, D\}) \leftrightarrow suc rank (\{A, B\}) \in suc rank (\{C, D\})$
10	5 9	sylib	$⊢ (rank (A) \in rank (C) \land rank (B) \in rank (D)) \to suc rank (\{A, B\}) \in suc rank (\{C, D\})$
11	1 2	rankop	$⊢ rank (⟨A, B⟩) = suc suc (rank (A) \cup rank (B))$
12	1 2	rankpr	$⊢ rank (\{A, B\}) = suc (rank (A) \cup rank (B))$
13		suceq	$⊢ rank (\{A, B\}) = suc (rank (A) \cup rank (B)) \to suc rank (\{A, B\}) = suc suc (rank (A) \cup rank (B))$
14	12 13	ax-mp	$⊢ suc rank (\{A, B\}) = suc suc (rank (A) \cup rank (B))$
15	11 14	eqtr4i	$⊢ rank (⟨A, B⟩) = suc rank (\{A, B\})$
16	3 4	rankop	$⊢ rank (⟨C, D⟩) = suc suc (rank (C) \cup rank (D))$
17	3 4	rankpr	$⊢ rank (\{C, D\}) = suc (rank (C) \cup rank (D))$
18		suceq	$⊢ rank (\{C, D\}) = suc (rank (C) \cup rank (D)) \to suc rank (\{C, D\}) = suc suc (rank (C) \cup rank (D))$
19	17 18	ax-mp	$⊢ suc rank (\{C, D\}) = suc suc (rank (C) \cup rank (D))$
20	16 19	eqtr4i	$⊢ rank (⟨C, D⟩) = suc rank (\{C, D\})$
21	10 15 20	3eltr4g	$⊢ (rank (A) \in rank (C) \land rank (B) \in rank (D)) \to rank (⟨A, B⟩) \in rank (⟨C, D⟩)$

Metamath Proof Explorer

Theorem rankelop

Proof