Description: Third congruence theorem: SSS. Theorem 11.51 of Schwabhauser p. 109. (Contributed by Thierry Arnoux, 1-Aug-2020)
Ref | Expression | ||
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Hypotheses | tgsas.p | |- P = ( Base ` G ) |
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tgsas.m | |- .- = ( dist ` G ) |
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tgsas.i | |- I = ( Itv ` G ) |
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tgsas.g | |- ( ph -> G e. TarskiG ) |
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tgsas.a | |- ( ph -> A e. P ) |
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tgsas.b | |- ( ph -> B e. P ) |
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tgsas.c | |- ( ph -> C e. P ) |
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tgsas.d | |- ( ph -> D e. P ) |
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tgsas.e | |- ( ph -> E e. P ) |
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tgsas.f | |- ( ph -> F e. P ) |
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tgsss.1 | |- ( ph -> ( A .- B ) = ( D .- E ) ) |
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tgsss.2 | |- ( ph -> ( B .- C ) = ( E .- F ) ) |
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tgsss.3 | |- ( ph -> ( C .- A ) = ( F .- D ) ) |
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tgsss.4 | |- ( ph -> A =/= B ) |
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tgsss.5 | |- ( ph -> B =/= C ) |
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tgsss.6 | |- ( ph -> C =/= A ) |
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Assertion | tgsss3 | |- ( ph -> <" B C A "> ( cgrA ` G ) <" E F D "> ) |
Step | Hyp | Ref | Expression |
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1 | tgsas.p | |- P = ( Base ` G ) |
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2 | tgsas.m | |- .- = ( dist ` G ) |
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3 | tgsas.i | |- I = ( Itv ` G ) |
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4 | tgsas.g | |- ( ph -> G e. TarskiG ) |
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5 | tgsas.a | |- ( ph -> A e. P ) |
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6 | tgsas.b | |- ( ph -> B e. P ) |
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7 | tgsas.c | |- ( ph -> C e. P ) |
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8 | tgsas.d | |- ( ph -> D e. P ) |
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9 | tgsas.e | |- ( ph -> E e. P ) |
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10 | tgsas.f | |- ( ph -> F e. P ) |
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11 | tgsss.1 | |- ( ph -> ( A .- B ) = ( D .- E ) ) |
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12 | tgsss.2 | |- ( ph -> ( B .- C ) = ( E .- F ) ) |
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13 | tgsss.3 | |- ( ph -> ( C .- A ) = ( F .- D ) ) |
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14 | tgsss.4 | |- ( ph -> A =/= B ) |
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15 | tgsss.5 | |- ( ph -> B =/= C ) |
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16 | tgsss.6 | |- ( ph -> C =/= A ) |
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17 | 1 2 3 4 6 7 5 9 10 8 12 13 11 15 16 14 | tgsss1 | |- ( ph -> <" B C A "> ( cgrA ` G ) <" E F D "> ) |