Metamath Proof Explorer

Theorem tgsss2

Description: Third congruence theorem: SSS. Theorem 11.51 of Schwabhauser p. 109. (Contributed by Thierry Arnoux, 1-Aug-2020)

Ref Expression
Hypotheses tgsas.p 
|- P = ( Base ` G )
tgsas.m 
|- .- = ( dist ` G )
tgsas.i 
|- I = ( Itv ` G )
tgsas.g 
|- ( ph -> G e. TarskiG )
tgsas.a 
|- ( ph -> A e. P )
tgsas.b 
|- ( ph -> B e. P )
tgsas.c 
|- ( ph -> C e. P )
tgsas.d 
|- ( ph -> D e. P )
tgsas.e 
|- ( ph -> E e. P )
tgsas.f 
|- ( ph -> F e. P )
tgsss.1 
|- ( ph -> ( A .- B ) = ( D .- E ) )
tgsss.2 
|- ( ph -> ( B .- C ) = ( E .- F ) )
tgsss.3 
|- ( ph -> ( C .- A ) = ( F .- D ) )
tgsss.4 
|- ( ph -> A =/= B )
tgsss.5 
|- ( ph -> B =/= C )
tgsss.6 
|- ( ph -> C =/= A )
Assertion tgsss2 
|- ( ph -> <" C A B "> ( cgrA ` G ) <" F D E "> )

Proof

Step Hyp Ref Expression
1 tgsas.p 
 |-  P = ( Base ` G )
2 tgsas.m 
 |-  .- = ( dist ` G )
3 tgsas.i 
 |-  I = ( Itv ` G )
4 tgsas.g 
 |-  ( ph -> G e. TarskiG )
5 tgsas.a 
 |-  ( ph -> A e. P )
6 tgsas.b 
 |-  ( ph -> B e. P )
7 tgsas.c 
 |-  ( ph -> C e. P )
8 tgsas.d 
 |-  ( ph -> D e. P )
9 tgsas.e 
 |-  ( ph -> E e. P )
10 tgsas.f 
 |-  ( ph -> F e. P )
11 tgsss.1 
 |-  ( ph -> ( A .- B ) = ( D .- E ) )
12 tgsss.2 
 |-  ( ph -> ( B .- C ) = ( E .- F ) )
13 tgsss.3 
 |-  ( ph -> ( C .- A ) = ( F .- D ) )
14 tgsss.4 
 |-  ( ph -> A =/= B )
15 tgsss.5 
 |-  ( ph -> B =/= C )
16 tgsss.6 
 |-  ( ph -> C =/= A )
17 1 2 3 4 7 5 6 10 8 9 13 11 12 16 14 15 tgsss1 
 |-  ( ph -> <" C A B "> ( cgrA ` G ) <" F D E "> )