hvaddsub4

Description: Hilbert vector space addition/subtraction law. (Contributed by NM, 18-May-2005) (New usage is discouraged.)

		Ref	Expression
	Assertion	hvaddsub4	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( ( A +h B ) = ( C +h D ) <-> ( A -h C ) = ( D -h B ) ) )

Proof

Step	Hyp	Ref	Expression
1		hvaddcl	\|- ( ( A e. ~H /\ B e. ~H ) -> ( A +h B ) e. ~H )
2	1	adantr	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( A +h B ) e. ~H )
3		hvaddcl	\|- ( ( C e. ~H /\ D e. ~H ) -> ( C +h D ) e. ~H )
4	3	adantl	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( C +h D ) e. ~H )
5		hvaddcl	\|- ( ( C e. ~H /\ B e. ~H ) -> ( C +h B ) e. ~H )
6	5	ancoms	\|- ( ( B e. ~H /\ C e. ~H ) -> ( C +h B ) e. ~H )
7	6	ad2ant2lr	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( C +h B ) e. ~H )
8		hvsubcan2	\|- ( ( ( A +h B ) e. ~H /\ ( C +h D ) e. ~H /\ ( C +h B ) e. ~H ) -> ( ( ( A +h B ) -h ( C +h B ) ) = ( ( C +h D ) -h ( C +h B ) ) <-> ( A +h B ) = ( C +h D ) ) )
9	2 4 7 8	syl3anc	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( ( ( A +h B ) -h ( C +h B ) ) = ( ( C +h D ) -h ( C +h B ) ) <-> ( A +h B ) = ( C +h D ) ) )
10		simpr	\|- ( ( A e. ~H /\ B e. ~H ) -> B e. ~H )
11	10	anim2i	\|- ( ( C e. ~H /\ ( A e. ~H /\ B e. ~H ) ) -> ( C e. ~H /\ B e. ~H ) )
12	11	ancoms	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ C e. ~H ) -> ( C e. ~H /\ B e. ~H ) )
13		hvsub4	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ B e. ~H ) ) -> ( ( A +h B ) -h ( C +h B ) ) = ( ( A -h C ) +h ( B -h B ) ) )
14	12 13	syldan	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ C e. ~H ) -> ( ( A +h B ) -h ( C +h B ) ) = ( ( A -h C ) +h ( B -h B ) ) )
15		hvsubid	\|- ( B e. ~H -> ( B -h B ) = 0h )
16	15	ad2antlr	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ C e. ~H ) -> ( B -h B ) = 0h )
17	16	oveq2d	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ C e. ~H ) -> ( ( A -h C ) +h ( B -h B ) ) = ( ( A -h C ) +h 0h ) )
18		hvsubcl	\|- ( ( A e. ~H /\ C e. ~H ) -> ( A -h C ) e. ~H )
19		ax-hvaddid	\|- ( ( A -h C ) e. ~H -> ( ( A -h C ) +h 0h ) = ( A -h C ) )
20	18 19	syl	\|- ( ( A e. ~H /\ C e. ~H ) -> ( ( A -h C ) +h 0h ) = ( A -h C ) )
21	20	adantlr	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ C e. ~H ) -> ( ( A -h C ) +h 0h ) = ( A -h C ) )
22	14 17 21	3eqtrd	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ C e. ~H ) -> ( ( A +h B ) -h ( C +h B ) ) = ( A -h C ) )
23	22	adantrr	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( ( A +h B ) -h ( C +h B ) ) = ( A -h C ) )
24		simpl	\|- ( ( C e. ~H /\ D e. ~H ) -> C e. ~H )
25	24	anim1i	\|- ( ( ( C e. ~H /\ D e. ~H ) /\ B e. ~H ) -> ( C e. ~H /\ B e. ~H ) )
26		hvsub4	\|- ( ( ( C e. ~H /\ D e. ~H ) /\ ( C e. ~H /\ B e. ~H ) ) -> ( ( C +h D ) -h ( C +h B ) ) = ( ( C -h C ) +h ( D -h B ) ) )
27	25 26	syldan	\|- ( ( ( C e. ~H /\ D e. ~H ) /\ B e. ~H ) -> ( ( C +h D ) -h ( C +h B ) ) = ( ( C -h C ) +h ( D -h B ) ) )
28		hvsubid	\|- ( C e. ~H -> ( C -h C ) = 0h )
29	28	ad2antrr	\|- ( ( ( C e. ~H /\ D e. ~H ) /\ B e. ~H ) -> ( C -h C ) = 0h )
30	29	oveq1d	\|- ( ( ( C e. ~H /\ D e. ~H ) /\ B e. ~H ) -> ( ( C -h C ) +h ( D -h B ) ) = ( 0h +h ( D -h B ) ) )
31		hvsubcl	\|- ( ( D e. ~H /\ B e. ~H ) -> ( D -h B ) e. ~H )
32		hvaddid2	\|- ( ( D -h B ) e. ~H -> ( 0h +h ( D -h B ) ) = ( D -h B ) )
33	31 32	syl	\|- ( ( D e. ~H /\ B e. ~H ) -> ( 0h +h ( D -h B ) ) = ( D -h B ) )
34	33	adantll	\|- ( ( ( C e. ~H /\ D e. ~H ) /\ B e. ~H ) -> ( 0h +h ( D -h B ) ) = ( D -h B ) )
35	27 30 34	3eqtrd	\|- ( ( ( C e. ~H /\ D e. ~H ) /\ B e. ~H ) -> ( ( C +h D ) -h ( C +h B ) ) = ( D -h B ) )
36	35	ancoms	\|- ( ( B e. ~H /\ ( C e. ~H /\ D e. ~H ) ) -> ( ( C +h D ) -h ( C +h B ) ) = ( D -h B ) )
37	36	adantll	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( ( C +h D ) -h ( C +h B ) ) = ( D -h B ) )
38	23 37	eqeq12d	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( ( ( A +h B ) -h ( C +h B ) ) = ( ( C +h D ) -h ( C +h B ) ) <-> ( A -h C ) = ( D -h B ) ) )
39	9 38	bitr3d	\|- ( ( ( A e. ~H /\ B e. ~H ) /\ ( C e. ~H /\ D e. ~H ) ) -> ( ( A +h B ) = ( C +h D ) <-> ( A -h C ) = ( D -h B ) ) )

Metamath Proof Explorer

Theorem hvaddsub4

Proof