Metamath Proof Explorer

Theorem cgrcoml

Description: Congruence commutes on the left. Biconditional version of Theorem 2.4 of Schwabhauser p. 27. (Contributed by Scott Fenton, 12-Jun-2013)

		Ref	Expression
	Assertion	cgrcoml	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to (⟨A, B⟩ Cgr ⟨C, D⟩ \leftrightarrow ⟨B, A⟩ Cgr ⟨C, D⟩)$

Proof

Step	Hyp	Ref	Expression
1		simp1	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to N \in ℕ$
2		simp2l	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to A \in 𝔼 (N)$
3		simp2r	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to B \in 𝔼 (N)$
4	1 2 3	cgrrflx2d	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to ⟨A, B⟩ Cgr ⟨B, A⟩$
5		simp3l	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to C \in 𝔼 (N)$
6		simp3r	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to D \in 𝔼 (N)$
7		axcgrtr	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N) \land B \in 𝔼 (N)) \land (A \in 𝔼 (N) \land C \in 𝔼 (N) \land D \in 𝔼 (N))) \to ((⟨A, B⟩ Cgr ⟨B, A⟩ \land ⟨A, B⟩ Cgr ⟨C, D⟩) \to ⟨B, A⟩ Cgr ⟨C, D⟩)$
8	1 2 3 3 2 5 6 7	syl133anc	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to ((⟨A, B⟩ Cgr ⟨B, A⟩ \land ⟨A, B⟩ Cgr ⟨C, D⟩) \to ⟨B, A⟩ Cgr ⟨C, D⟩)$
9	4 8	mpand	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to (⟨A, B⟩ Cgr ⟨C, D⟩ \to ⟨B, A⟩ Cgr ⟨C, D⟩)$
10	1 3 2	cgrrflx2d	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to ⟨B, A⟩ Cgr ⟨A, B⟩$
11		axcgrtr	$⊢ (N \in ℕ \land (B \in 𝔼 (N) \land A \in 𝔼 (N) \land A \in 𝔼 (N)) \land (B \in 𝔼 (N) \land C \in 𝔼 (N) \land D \in 𝔼 (N))) \to ((⟨B, A⟩ Cgr ⟨A, B⟩ \land ⟨B, A⟩ Cgr ⟨C, D⟩) \to ⟨A, B⟩ Cgr ⟨C, D⟩)$
12	1 3 2 2 3 5 6 11	syl133anc	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to ((⟨B, A⟩ Cgr ⟨A, B⟩ \land ⟨B, A⟩ Cgr ⟨C, D⟩) \to ⟨A, B⟩ Cgr ⟨C, D⟩)$
13	10 12	mpand	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to (⟨B, A⟩ Cgr ⟨C, D⟩ \to ⟨A, B⟩ Cgr ⟨C, D⟩)$
14	9 13	impbid	$⊢ (N \in ℕ \land (A \in 𝔼 (N) \land B \in 𝔼 (N)) \land (C \in 𝔼 (N) \land D \in 𝔼 (N))) \to (⟨A, B⟩ Cgr ⟨C, D⟩ \leftrightarrow ⟨B, A⟩ Cgr ⟨C, D⟩)$