2lplnj

Description: The join of two different lattice planes in a (3-dimensional) lattice volume equals the volume. (Contributed by NM, 12-Jul-2012)

	Ref	Expression
Hypotheses	2lplnj.l	\|- .<_ = ( le ` K )
	2lplnj.j	\|- .\/ = ( join ` K )
	2lplnj.p	\|- P = ( LPlanes ` K )
	2lplnj.v	\|- V = ( LVols ` K )
Assertion	2lplnj	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) -> ( X .\/ Y ) = W )

Proof

Step	Hyp	Ref	Expression
1		2lplnj.l	\|- .<_ = ( le ` K )
2		2lplnj.j	\|- .\/ = ( join ` K )
3		2lplnj.p	\|- P = ( LPlanes ` K )
4		2lplnj.v	\|- V = ( LVols ` K )
5		eqid	\|- ( Base ` K ) = ( Base ` K )
6		eqid	\|- ( Atoms ` K ) = ( Atoms ` K )
7	5 1 2 6 3	islpln2	\|- ( K e. HL -> ( X e. P <-> ( X e. ( Base ` K ) /\ E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) ) )
8		simpr	\|- ( ( X e. ( Base ` K ) /\ E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) )
9	7 8	syl6bi	\|- ( K e. HL -> ( X e. P -> E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) )
10	5 1 2 6 3	islpln2	\|- ( K e. HL -> ( Y e. P <-> ( Y e. ( Base ` K ) /\ E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) ) )
11		simpr	\|- ( ( Y e. ( Base ` K ) /\ E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) )
12	10 11	syl6bi	\|- ( K e. HL -> ( Y e. P -> E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) )
13	9 12	anim12d	\|- ( K e. HL -> ( ( X e. P /\ Y e. P ) -> ( E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) /\ E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) ) )
14	13	imp	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P ) ) -> ( E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) /\ E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) )
15	14	3adantr3	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) ) -> ( E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) /\ E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) )
16	15	3adant3	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) -> ( E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) /\ E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) )
17		simpl33	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> X = ( ( q .\/ r ) .\/ s ) )
18	17	3ad2ant1	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> X = ( ( q .\/ r ) .\/ s ) )
19		simp33	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> Y = ( ( t .\/ u ) .\/ v ) )
20	18 19	oveq12d	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( X .\/ Y ) = ( ( ( q .\/ r ) .\/ s ) .\/ ( ( t .\/ u ) .\/ v ) ) )
21		simp11	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> K e. HL )
22		simp123	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> W e. V )
23	21 22	jca	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> ( K e. HL /\ W e. V ) )
24	23	adantr	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> ( K e. HL /\ W e. V ) )
25	24	3ad2ant1	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( K e. HL /\ W e. V ) )
26		simp2l	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> q e. ( Atoms ` K ) )
27		simp2rl	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> r e. ( Atoms ` K ) )
28		simp2rr	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> s e. ( Atoms ` K ) )
29	26 27 28	3jca	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> ( q e. ( Atoms ` K ) /\ r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) )
30	29	adantr	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> ( q e. ( Atoms ` K ) /\ r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) )
31	30	3ad2ant1	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( q e. ( Atoms ` K ) /\ r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) )
32		simpl31	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> q =/= r )
33	32	3ad2ant1	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> q =/= r )
34		simpl32	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> -. s .<_ ( q .\/ r ) )
35	34	3ad2ant1	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> -. s .<_ ( q .\/ r ) )
36	33 35	jca	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( q =/= r /\ -. s .<_ ( q .\/ r ) ) )
37		simp1r	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> t e. ( Atoms ` K ) )
38		simp2l	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> u e. ( Atoms ` K ) )
39		simp2r	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> v e. ( Atoms ` K ) )
40	37 38 39	3jca	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( t e. ( Atoms ` K ) /\ u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) )
41		simp31	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> t =/= u )
42		simp32	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> -. v .<_ ( t .\/ u ) )
43	41 42	jca	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( t =/= u /\ -. v .<_ ( t .\/ u ) ) )
44		simpl13	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> ( X .<_ W /\ Y .<_ W /\ X =/= Y ) )
45	44	3ad2ant1	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( X .<_ W /\ Y .<_ W /\ X =/= Y ) )
46		breq1	\|- ( X = ( ( q .\/ r ) .\/ s ) -> ( X .<_ W <-> ( ( q .\/ r ) .\/ s ) .<_ W ) )
47		neeq1	\|- ( X = ( ( q .\/ r ) .\/ s ) -> ( X =/= Y <-> ( ( q .\/ r ) .\/ s ) =/= Y ) )
48	46 47	3anbi13d	\|- ( X = ( ( q .\/ r ) .\/ s ) -> ( ( X .<_ W /\ Y .<_ W /\ X =/= Y ) <-> ( ( ( q .\/ r ) .\/ s ) .<_ W /\ Y .<_ W /\ ( ( q .\/ r ) .\/ s ) =/= Y ) ) )
49		breq1	\|- ( Y = ( ( t .\/ u ) .\/ v ) -> ( Y .<_ W <-> ( ( t .\/ u ) .\/ v ) .<_ W ) )
50		neeq2	\|- ( Y = ( ( t .\/ u ) .\/ v ) -> ( ( ( q .\/ r ) .\/ s ) =/= Y <-> ( ( q .\/ r ) .\/ s ) =/= ( ( t .\/ u ) .\/ v ) ) )
51	49 50	3anbi23d	\|- ( Y = ( ( t .\/ u ) .\/ v ) -> ( ( ( ( q .\/ r ) .\/ s ) .<_ W /\ Y .<_ W /\ ( ( q .\/ r ) .\/ s ) =/= Y ) <-> ( ( ( q .\/ r ) .\/ s ) .<_ W /\ ( ( t .\/ u ) .\/ v ) .<_ W /\ ( ( q .\/ r ) .\/ s ) =/= ( ( t .\/ u ) .\/ v ) ) ) )
52	48 51	sylan9bb	\|- ( ( X = ( ( q .\/ r ) .\/ s ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( ( X .<_ W /\ Y .<_ W /\ X =/= Y ) <-> ( ( ( q .\/ r ) .\/ s ) .<_ W /\ ( ( t .\/ u ) .\/ v ) .<_ W /\ ( ( q .\/ r ) .\/ s ) =/= ( ( t .\/ u ) .\/ v ) ) ) )
53	18 19 52	syl2anc	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( ( X .<_ W /\ Y .<_ W /\ X =/= Y ) <-> ( ( ( q .\/ r ) .\/ s ) .<_ W /\ ( ( t .\/ u ) .\/ v ) .<_ W /\ ( ( q .\/ r ) .\/ s ) =/= ( ( t .\/ u ) .\/ v ) ) ) )
54	45 53	mpbid	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( ( ( q .\/ r ) .\/ s ) .<_ W /\ ( ( t .\/ u ) .\/ v ) .<_ W /\ ( ( q .\/ r ) .\/ s ) =/= ( ( t .\/ u ) .\/ v ) ) )
55	1 2 6 4	2lplnja	\|- ( ( ( ( K e. HL /\ W e. V ) /\ ( q e. ( Atoms ` K ) /\ r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) ) ) /\ ( ( t e. ( Atoms ` K ) /\ u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) ) ) /\ ( ( ( q .\/ r ) .\/ s ) .<_ W /\ ( ( t .\/ u ) .\/ v ) .<_ W /\ ( ( q .\/ r ) .\/ s ) =/= ( ( t .\/ u ) .\/ v ) ) ) -> ( ( ( q .\/ r ) .\/ s ) .\/ ( ( t .\/ u ) .\/ v ) ) = W )
56	25 31 36 40 43 54 55	syl321anc	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( ( ( q .\/ r ) .\/ s ) .\/ ( ( t .\/ u ) .\/ v ) ) = W )
57	20 56	eqtrd	\|- ( ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) /\ ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) /\ ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( X .\/ Y ) = W )
58	57	3exp	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> ( ( u e. ( Atoms ` K ) /\ v e. ( Atoms ` K ) ) -> ( ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( X .\/ Y ) = W ) ) )
59	58	rexlimdvv	\|- ( ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) /\ t e. ( Atoms ` K ) ) -> ( E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( X .\/ Y ) = W ) )
60	59	rexlimdva	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) /\ ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) ) -> ( E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( X .\/ Y ) = W ) )
61	60	3exp	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) -> ( ( q e. ( Atoms ` K ) /\ ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) ) -> ( ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) -> ( E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( X .\/ Y ) = W ) ) ) )
62	61	expdimp	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ q e. ( Atoms ` K ) ) -> ( ( r e. ( Atoms ` K ) /\ s e. ( Atoms ` K ) ) -> ( ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) -> ( E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( X .\/ Y ) = W ) ) ) )
63	62	rexlimdvv	\|- ( ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) /\ q e. ( Atoms ` K ) ) -> ( E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) -> ( E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( X .\/ Y ) = W ) ) )
64	63	rexlimdva	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) -> ( E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) -> ( E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) -> ( X .\/ Y ) = W ) ) )
65	64	impd	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) -> ( ( E. q e. ( Atoms ` K ) E. r e. ( Atoms ` K ) E. s e. ( Atoms ` K ) ( q =/= r /\ -. s .<_ ( q .\/ r ) /\ X = ( ( q .\/ r ) .\/ s ) ) /\ E. t e. ( Atoms ` K ) E. u e. ( Atoms ` K ) E. v e. ( Atoms ` K ) ( t =/= u /\ -. v .<_ ( t .\/ u ) /\ Y = ( ( t .\/ u ) .\/ v ) ) ) -> ( X .\/ Y ) = W ) )
66	16 65	mpd	\|- ( ( K e. HL /\ ( X e. P /\ Y e. P /\ W e. V ) /\ ( X .<_ W /\ Y .<_ W /\ X =/= Y ) ) -> ( X .\/ Y ) = W )

Metamath Proof Explorer

Theorem 2lplnj

Proof