omlfh3N

Description: Foulis-Holland Theorem, part 3. Dual of omlfh1N . (Contributed by NM, 8-Nov-2011) (New usage is discouraged.)

	Ref	Expression
Hypotheses	omlfh1.b	\|- B = ( Base ` K )
	omlfh1.j	\|- .\/ = ( join ` K )
	omlfh1.m	\|- ./\ = ( meet ` K )
	omlfh1.c	\|- C = ( cm ` K )
Assertion	omlfh3N	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) /\ ( X C Y /\ X C Z ) ) -> ( X .\/ ( Y ./\ Z ) ) = ( ( X .\/ Y ) ./\ ( X .\/ Z ) ) )

Proof

Step	Hyp	Ref	Expression
1		omlfh1.b	\|- B = ( Base ` K )
2		omlfh1.j	\|- .\/ = ( join ` K )
3		omlfh1.m	\|- ./\ = ( meet ` K )
4		omlfh1.c	\|- C = ( cm ` K )
5		eqid	\|- ( oc ` K ) = ( oc ` K )
6	1 5 4	cmt4N	\|- ( ( K e. OML /\ X e. B /\ Y e. B ) -> ( X C Y <-> ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Y ) ) )
7	6	3adant3r3	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( X C Y <-> ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Y ) ) )
8	1 5 4	cmt4N	\|- ( ( K e. OML /\ X e. B /\ Z e. B ) -> ( X C Z <-> ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Z ) ) )
9	8	3adant3r2	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( X C Z <-> ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Z ) ) )
10	7 9	anbi12d	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( X C Y /\ X C Z ) <-> ( ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Y ) /\ ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Z ) ) ) )
11		simpl	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> K e. OML )
12		omlop	\|- ( K e. OML -> K e. OP )
13	12	adantr	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> K e. OP )
14		simpr1	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> X e. B )
15	1 5	opoccl	\|- ( ( K e. OP /\ X e. B ) -> ( ( oc ` K ) ` X ) e. B )
16	13 14 15	syl2anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` X ) e. B )
17		simpr2	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> Y e. B )
18	1 5	opoccl	\|- ( ( K e. OP /\ Y e. B ) -> ( ( oc ` K ) ` Y ) e. B )
19	13 17 18	syl2anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` Y ) e. B )
20		simpr3	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> Z e. B )
21	1 5	opoccl	\|- ( ( K e. OP /\ Z e. B ) -> ( ( oc ` K ) ` Z ) e. B )
22	13 20 21	syl2anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` Z ) e. B )
23	16 19 22	3jca	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( ( oc ` K ) ` X ) e. B /\ ( ( oc ` K ) ` Y ) e. B /\ ( ( oc ` K ) ` Z ) e. B ) )
24	1 2 3 4	omlfh1N	\|- ( ( K e. OML /\ ( ( ( oc ` K ) ` X ) e. B /\ ( ( oc ` K ) ` Y ) e. B /\ ( ( oc ` K ) ` Z ) e. B ) /\ ( ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Y ) /\ ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Z ) ) ) -> ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) = ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) )
25	24	fveq2d	\|- ( ( K e. OML /\ ( ( ( oc ` K ) ` X ) e. B /\ ( ( oc ` K ) ` Y ) e. B /\ ( ( oc ` K ) ` Z ) e. B ) /\ ( ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Y ) /\ ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Z ) ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) )
26	25	3exp	\|- ( K e. OML -> ( ( ( ( oc ` K ) ` X ) e. B /\ ( ( oc ` K ) ` Y ) e. B /\ ( ( oc ` K ) ` Z ) e. B ) -> ( ( ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Y ) /\ ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Z ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) ) ) )
27	11 23 26	sylc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Y ) /\ ( ( oc ` K ) ` X ) C ( ( oc ` K ) ` Z ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) ) )
28	10 27	sylbid	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( X C Y /\ X C Z ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) ) )
29	28	3impia	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) /\ ( X C Y /\ X C Z ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) )
30		omlol	\|- ( K e. OML -> K e. OL )
31	30	adantr	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> K e. OL )
32		omllat	\|- ( K e. OML -> K e. Lat )
33	32	adantr	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> K e. Lat )
34	1 2	latjcl	\|- ( ( K e. Lat /\ ( ( oc ` K ) ` Y ) e. B /\ ( ( oc ` K ) ` Z ) e. B ) -> ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) e. B )
35	33 19 22 34	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) e. B )
36	1 2 3 5	oldmm2	\|- ( ( K e. OL /\ X e. B /\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) e. B ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( X .\/ ( ( oc ` K ) ` ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) )
37	31 14 35 36	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( X .\/ ( ( oc ` K ) ` ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) )
38	1 2 3 5	oldmj4	\|- ( ( K e. OL /\ Y e. B /\ Z e. B ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) = ( Y ./\ Z ) )
39	31 17 20 38	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) = ( Y ./\ Z ) )
40	39	oveq2d	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( X .\/ ( ( oc ` K ) ` ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) = ( X .\/ ( Y ./\ Z ) ) )
41	37 40	eqtr2d	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( X .\/ ( Y ./\ Z ) ) = ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) )
42	41	3adant3	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) /\ ( X C Y /\ X C Z ) ) -> ( X .\/ ( Y ./\ Z ) ) = ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( ( oc ` K ) ` Y ) .\/ ( ( oc ` K ) ` Z ) ) ) ) )
43	1 3	latmcl	\|- ( ( K e. Lat /\ ( ( oc ` K ) ` X ) e. B /\ ( ( oc ` K ) ` Y ) e. B ) -> ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) e. B )
44	33 16 19 43	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) e. B )
45	1 3	latmcl	\|- ( ( K e. Lat /\ ( ( oc ` K ) ` X ) e. B /\ ( ( oc ` K ) ` Z ) e. B ) -> ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) e. B )
46	33 16 22 45	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) e. B )
47	1 2 3 5	oldmj1	\|- ( ( K e. OL /\ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) e. B /\ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) e. B ) -> ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) = ( ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) ) ./\ ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) )
48	31 44 46 47	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) = ( ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) ) ./\ ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) )
49	1 2 3 5	oldmm4	\|- ( ( K e. OL /\ X e. B /\ Y e. B ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) ) = ( X .\/ Y ) )
50	31 14 17 49	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) ) = ( X .\/ Y ) )
51	1 2 3 5	oldmm4	\|- ( ( K e. OL /\ X e. B /\ Z e. B ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) = ( X .\/ Z ) )
52	31 14 20 51	syl3anc	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) = ( X .\/ Z ) )
53	50 52	oveq12d	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) ) ./\ ( ( oc ` K ) ` ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) = ( ( X .\/ Y ) ./\ ( X .\/ Z ) ) )
54	48 53	eqtr2d	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) ) -> ( ( X .\/ Y ) ./\ ( X .\/ Z ) ) = ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) )
55	54	3adant3	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) /\ ( X C Y /\ X C Z ) ) -> ( ( X .\/ Y ) ./\ ( X .\/ Z ) ) = ( ( oc ` K ) ` ( ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Y ) ) .\/ ( ( ( oc ` K ) ` X ) ./\ ( ( oc ` K ) ` Z ) ) ) ) )
56	29 42 55	3eqtr4d	\|- ( ( K e. OML /\ ( X e. B /\ Y e. B /\ Z e. B ) /\ ( X C Y /\ X C Z ) ) -> ( X .\/ ( Y ./\ Z ) ) = ( ( X .\/ Y ) ./\ ( X .\/ Z ) ) )

Metamath Proof Explorer

Theorem omlfh3N

Proof