Metamath Proof Explorer

Theorem dmdsl3

Description: Sublattice mapping for a dual-modular pair. Part of Theorem 1.3 of MaedaMaeda p. 2. (Contributed by NM, 26-Apr-2006) (New usage is discouraged.)

		Ref	Expression
	Assertion	dmdsl3	\|- ( ( ( A e. CH /\ B e. CH /\ C e. CH ) /\ ( B MH* A /\ A C_ C /\ C C_ ( A vH B ) ) ) -> ( ( C i^i B ) vH A ) = C )

Proof

Step	Hyp	Ref	Expression
1		dmdi	\|- ( ( ( B e. CH /\ A e. CH /\ C e. CH ) /\ ( B MH* A /\ A C_ C ) ) -> ( ( C i^i B ) vH A ) = ( C i^i ( B vH A ) ) )
2	1	exp32	\|- ( ( B e. CH /\ A e. CH /\ C e. CH ) -> ( B MH* A -> ( A C_ C -> ( ( C i^i B ) vH A ) = ( C i^i ( B vH A ) ) ) ) )
3	2	3com12	\|- ( ( A e. CH /\ B e. CH /\ C e. CH ) -> ( B MH* A -> ( A C_ C -> ( ( C i^i B ) vH A ) = ( C i^i ( B vH A ) ) ) ) )
4	3	imp32	\|- ( ( ( A e. CH /\ B e. CH /\ C e. CH ) /\ ( B MH* A /\ A C_ C ) ) -> ( ( C i^i B ) vH A ) = ( C i^i ( B vH A ) ) )
5	4	3adantr3	\|- ( ( ( A e. CH /\ B e. CH /\ C e. CH ) /\ ( B MH* A /\ A C_ C /\ C C_ ( A vH B ) ) ) -> ( ( C i^i B ) vH A ) = ( C i^i ( B vH A ) ) )
6		chjcom	\|- ( ( A e. CH /\ B e. CH ) -> ( A vH B ) = ( B vH A ) )
7	6	ineq2d	\|- ( ( A e. CH /\ B e. CH ) -> ( C i^i ( A vH B ) ) = ( C i^i ( B vH A ) ) )
8	7	3adant3	\|- ( ( A e. CH /\ B e. CH /\ C e. CH ) -> ( C i^i ( A vH B ) ) = ( C i^i ( B vH A ) ) )
9		df-ss	\|- ( C C_ ( A vH B ) <-> ( C i^i ( A vH B ) ) = C )
10	9	biimpi	\|- ( C C_ ( A vH B ) -> ( C i^i ( A vH B ) ) = C )
11	8 10	sylan9req	\|- ( ( ( A e. CH /\ B e. CH /\ C e. CH ) /\ C C_ ( A vH B ) ) -> ( C i^i ( B vH A ) ) = C )
12	11	3ad2antr3	\|- ( ( ( A e. CH /\ B e. CH /\ C e. CH ) /\ ( B MH* A /\ A C_ C /\ C C_ ( A vH B ) ) ) -> ( C i^i ( B vH A ) ) = C )
13	5 12	eqtrd	\|- ( ( ( A e. CH /\ B e. CH /\ C e. CH ) /\ ( B MH* A /\ A C_ C /\ C C_ ( A vH B ) ) ) -> ( ( C i^i B ) vH A ) = C )