cgrahl2

Description: Angle congruence is independent of the choice of points on the rays. Proposition 11.10 of Schwabhauser p. 95. (Contributed by Thierry Arnoux, 1-Aug-2020)

	Ref	Expression
Hypotheses	iscgra.p	\|- P = ( Base ` G )
	iscgra.i	\|- I = ( Itv ` G )
	iscgra.k	\|- K = ( hlG ` G )
	iscgra.g	\|- ( ph -> G e. TarskiG )
	iscgra.a	\|- ( ph -> A e. P )
	iscgra.b	\|- ( ph -> B e. P )
	iscgra.c	\|- ( ph -> C e. P )
	iscgra.d	\|- ( ph -> D e. P )
	iscgra.e	\|- ( ph -> E e. P )
	iscgra.f	\|- ( ph -> F e. P )
	cgrahl1.2	\|- ( ph -> <" A B C "> ( cgrA ` G ) <" D E F "> )
	cgrahl1.x	\|- ( ph -> X e. P )
	cgrahl2.1	\|- ( ph -> X ( K ` E ) F )
Assertion	cgrahl2	\|- ( ph -> <" A B C "> ( cgrA ` G ) <" D E X "> )

Proof

Step	Hyp	Ref	Expression
1		iscgra.p	\|- P = ( Base ` G )
2		iscgra.i	\|- I = ( Itv ` G )
3		iscgra.k	\|- K = ( hlG ` G )
4		iscgra.g	\|- ( ph -> G e. TarskiG )
5		iscgra.a	\|- ( ph -> A e. P )
6		iscgra.b	\|- ( ph -> B e. P )
7		iscgra.c	\|- ( ph -> C e. P )
8		iscgra.d	\|- ( ph -> D e. P )
9		iscgra.e	\|- ( ph -> E e. P )
10		iscgra.f	\|- ( ph -> F e. P )
11		cgrahl1.2	\|- ( ph -> <" A B C "> ( cgrA ` G ) <" D E F "> )
12		cgrahl1.x	\|- ( ph -> X e. P )
13		cgrahl2.1	\|- ( ph -> X ( K ` E ) F )
14	4	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> G e. TarskiG )
15	5	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> A e. P )
16	6	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> B e. P )
17	7	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> C e. P )
18	8	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> D e. P )
19	9	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> E e. P )
20	12	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> X e. P )
21		simpllr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> x e. P )
22		simplr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> y e. P )
23		simpr1	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> <" A B C "> ( cgrG ` G ) <" x E y "> )
24		simpr2	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> x ( K ` E ) D )
25	10	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> F e. P )
26		simpr3	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> y ( K ` E ) F )
27	13	ad3antrrr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> X ( K ` E ) F )
28	1 2 3 20 25 19 14 27	hlcomd	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> F ( K ` E ) X )
29	1 2 3 22 25 20 14 19 26 28	hltr	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> y ( K ` E ) X )
30	1 2 3 14 15 16 17 18 19 20 21 22 23 24 29	iscgrad	\|- ( ( ( ( ph /\ x e. P ) /\ y e. P ) /\ ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) -> <" A B C "> ( cgrA ` G ) <" D E X "> )
31	1 2 3 4 5 6 7 8 9 10	iscgra	\|- ( ph -> ( <" A B C "> ( cgrA ` G ) <" D E F "> <-> E. x e. P E. y e. P ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) ) )
32	11 31	mpbid	\|- ( ph -> E. x e. P E. y e. P ( <" A B C "> ( cgrG ` G ) <" x E y "> /\ x ( K ` E ) D /\ y ( K ` E ) F ) )
33	30 32	r19.29vva	\|- ( ph -> <" A B C "> ( cgrA ` G ) <" D E X "> )

Metamath Proof Explorer

Theorem cgrahl2

Proof