Metamath Proof Explorer

Theorem dalem6

Description: Lemma for dath . Analogue of dalem5 for S . (Contributed by NM, 21-Jul-2012)

		Ref	Expression
	Hypotheses	dalema.ph	\|- ( ph <-> ( ( ( K e. HL /\ C e. ( Base ` K ) ) /\ ( P e. A /\ Q e. A /\ R e. A ) /\ ( S e. A /\ T e. A /\ U e. A ) ) /\ ( Y e. O /\ Z e. O ) /\ ( ( -. C .<_ ( P .\/ Q ) /\ -. C .<_ ( Q .\/ R ) /\ -. C .<_ ( R .\/ P ) ) /\ ( -. C .<_ ( S .\/ T ) /\ -. C .<_ ( T .\/ U ) /\ -. C .<_ ( U .\/ S ) ) /\ ( C .<_ ( P .\/ S ) /\ C .<_ ( Q .\/ T ) /\ C .<_ ( R .\/ U ) ) ) ) )
		dalemc.l	\|- .<_ = ( le ` K )
		dalemc.j	\|- .\/ = ( join ` K )
		dalemc.a	\|- A = ( Atoms ` K )
		dalem6.o	\|- O = ( LPlanes ` K )
		dalem6.y	\|- Y = ( ( P .\/ Q ) .\/ R )
		dalem6.z	\|- Z = ( ( S .\/ T ) .\/ U )
		dalem6.w	\|- W = ( Y .\/ C )
	Assertion	dalem6	\|- ( ph -> S .<_ W )

Proof

Step	Hyp	Ref	Expression
1		dalema.ph	\|- ( ph <-> ( ( ( K e. HL /\ C e. ( Base ` K ) ) /\ ( P e. A /\ Q e. A /\ R e. A ) /\ ( S e. A /\ T e. A /\ U e. A ) ) /\ ( Y e. O /\ Z e. O ) /\ ( ( -. C .<_ ( P .\/ Q ) /\ -. C .<_ ( Q .\/ R ) /\ -. C .<_ ( R .\/ P ) ) /\ ( -. C .<_ ( S .\/ T ) /\ -. C .<_ ( T .\/ U ) /\ -. C .<_ ( U .\/ S ) ) /\ ( C .<_ ( P .\/ S ) /\ C .<_ ( Q .\/ T ) /\ C .<_ ( R .\/ U ) ) ) ) )
2		dalemc.l	\|- .<_ = ( le ` K )
3		dalemc.j	\|- .\/ = ( join ` K )
4		dalemc.a	\|- A = ( Atoms ` K )
5		dalem6.o	\|- O = ( LPlanes ` K )
6		dalem6.y	\|- Y = ( ( P .\/ Q ) .\/ R )
7		dalem6.z	\|- Z = ( ( S .\/ T ) .\/ U )
8		dalem6.w	\|- W = ( Y .\/ C )
9	1 2 3 4 6 7	dalemrot	\|- ( ph -> ( ( ( K e. HL /\ C e. ( Base ` K ) ) /\ ( Q e. A /\ R e. A /\ P e. A ) /\ ( T e. A /\ U e. A /\ S e. A ) ) /\ ( ( ( Q .\/ R ) .\/ P ) e. O /\ ( ( T .\/ U ) .\/ S ) e. O ) /\ ( ( -. C .<_ ( Q .\/ R ) /\ -. C .<_ ( R .\/ P ) /\ -. C .<_ ( P .\/ Q ) ) /\ ( -. C .<_ ( T .\/ U ) /\ -. C .<_ ( U .\/ S ) /\ -. C .<_ ( S .\/ T ) ) /\ ( C .<_ ( Q .\/ T ) /\ C .<_ ( R .\/ U ) /\ C .<_ ( P .\/ S ) ) ) ) )
10		biid	\|- ( ( ( ( K e. HL /\ C e. ( Base ` K ) ) /\ ( Q e. A /\ R e. A /\ P e. A ) /\ ( T e. A /\ U e. A /\ S e. A ) ) /\ ( ( ( Q .\/ R ) .\/ P ) e. O /\ ( ( T .\/ U ) .\/ S ) e. O ) /\ ( ( -. C .<_ ( Q .\/ R ) /\ -. C .<_ ( R .\/ P ) /\ -. C .<_ ( P .\/ Q ) ) /\ ( -. C .<_ ( T .\/ U ) /\ -. C .<_ ( U .\/ S ) /\ -. C .<_ ( S .\/ T ) ) /\ ( C .<_ ( Q .\/ T ) /\ C .<_ ( R .\/ U ) /\ C .<_ ( P .\/ S ) ) ) ) <-> ( ( ( K e. HL /\ C e. ( Base ` K ) ) /\ ( Q e. A /\ R e. A /\ P e. A ) /\ ( T e. A /\ U e. A /\ S e. A ) ) /\ ( ( ( Q .\/ R ) .\/ P ) e. O /\ ( ( T .\/ U ) .\/ S ) e. O ) /\ ( ( -. C .<_ ( Q .\/ R ) /\ -. C .<_ ( R .\/ P ) /\ -. C .<_ ( P .\/ Q ) ) /\ ( -. C .<_ ( T .\/ U ) /\ -. C .<_ ( U .\/ S ) /\ -. C .<_ ( S .\/ T ) ) /\ ( C .<_ ( Q .\/ T ) /\ C .<_ ( R .\/ U ) /\ C .<_ ( P .\/ S ) ) ) ) )
11		eqid	\|- ( ( Q .\/ R ) .\/ P ) = ( ( Q .\/ R ) .\/ P )
12		eqid	\|- ( ( ( Q .\/ R ) .\/ P ) .\/ C ) = ( ( ( Q .\/ R ) .\/ P ) .\/ C )
13	10 2 3 4 5 11 12	dalem5	\|- ( ( ( ( K e. HL /\ C e. ( Base ` K ) ) /\ ( Q e. A /\ R e. A /\ P e. A ) /\ ( T e. A /\ U e. A /\ S e. A ) ) /\ ( ( ( Q .\/ R ) .\/ P ) e. O /\ ( ( T .\/ U ) .\/ S ) e. O ) /\ ( ( -. C .<_ ( Q .\/ R ) /\ -. C .<_ ( R .\/ P ) /\ -. C .<_ ( P .\/ Q ) ) /\ ( -. C .<_ ( T .\/ U ) /\ -. C .<_ ( U .\/ S ) /\ -. C .<_ ( S .\/ T ) ) /\ ( C .<_ ( Q .\/ T ) /\ C .<_ ( R .\/ U ) /\ C .<_ ( P .\/ S ) ) ) ) -> S .<_ ( ( ( Q .\/ R ) .\/ P ) .\/ C ) )
14	9 13	syl	\|- ( ph -> S .<_ ( ( ( Q .\/ R ) .\/ P ) .\/ C ) )
15	1 3 4	dalemqrprot	\|- ( ph -> ( ( Q .\/ R ) .\/ P ) = ( ( P .\/ Q ) .\/ R ) )
16	6 15	eqtr4id	\|- ( ph -> Y = ( ( Q .\/ R ) .\/ P ) )
17	16	oveq1d	\|- ( ph -> ( Y .\/ C ) = ( ( ( Q .\/ R ) .\/ P ) .\/ C ) )
18	8 17	eqtrid	\|- ( ph -> W = ( ( ( Q .\/ R ) .\/ P ) .\/ C ) )
19	14 18	breqtrrd	\|- ( ph -> S .<_ W )