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Related theorems
Unicode version
Theorem ghomlin 10388
Description: Linearity of a group homomorphism. (Contributed by Paul Chapman, 3-Mar-2008.)
Hypothesis
Ref Expression
ghomlin.1 |- X = ran G
Assertion
Ref Expression
ghomlin |- (((G e. Grp /\ H e. Grp /\ F e. (G GrpHom H)) /\ (A e. X /\ B e. X)) -> ((F` A)H(F` B)) = (F` (AGB)))
Proof of Theorem ghomlin
StepHypRef Expression
1 ghomlin.1 . . . . 5 |- X = ran G
2 eqid 1478 . . . . 5 |- ran H = ran H
31, 2elghom 10379 . . . 4 |- ((G e. Grp /\ H e. Grp) -> (F e. (G GrpHom H) <-> (F:X-->ran H /\ A.x e. X A.y e. X ((F` x)H(F` y)) = (F` (xGy)))))
43biimp3a 921 . . 3 |- ((G e. Grp /\ H e. Grp /\ F e. (G GrpHom H)) -> (F:X-->ran H /\ A.x e. X A.y e. X ((F` x)H(F` y)) = (F` (xGy))))
54pm3.27d 325 . 2 |- ((G e. Grp /\ H e. Grp /\ F e. (G GrpHom H)) -> A.x e. X A.y e. X ((F` x)H(F` y)) = (F` (xGy)))
6 fveq2 3730 . . . . 5 |- (x = A -> (F` x) = (F` A))
76opreq1d 3981 . . . 4 |- (x = A -> ((F` x)H(F` y)) = ((F` A)H(F` y)))
8 opreq1 3974 . . . . 5 |- (x = A -> (xGy) = (AGy))
98fveq2d 3734 . . . 4 |- (x = A -> (F` (xGy)) = (F` (AGy)))
107, 9eqeq12d 1492 . . 3 |- (x = A -> (((F` x)H(F` y)) = (F` (xGy)) <-> ((F` A)H(F` y)) = (F` (AGy))))
11 fveq2 3730 . . . . 5 |- (y = B -> (F` y) = (F` B))
1211opreq2d 3982 . . . 4 |- (y = B -> ((F` A)H(F` y)) = ((F` A)H(F` B)))
13 opreq2 3975 . . . . 5 |- (y = B -> (AGy) = (AGB))
1413fveq2d 3734 . . . 4 |- (y = B -> (F` (AGy)) = (F` (AGB)))
1512, 14eqeq12d 1492 . . 3 |- (y = B -> (((F` A)H(F` y)) = (F` (AGy)) <-> ((F` A)H(F` B)) = (F` (AGB))))
1610, 15rcla42v 1883 . 2 |- ((A e. X /\ B e. X) -> (A.x e. X A.y e. X ((F` x)H(F` y)) = (F` (xGy)) -> ((F` A)H(F` B)) = (F` (AGB))))
175, 16mpan9 472 1 |- (((G e. Grp /\ H e. Grp /\ F e. (G GrpHom H)) /\ (A e. X /\ B e. X)) -> ((F` A)H(F` B)) = (F` (AGB)))
Colors of variables: wff set class
Syntax hints:   -> wi 3   /\ wa 223   /\ w3a 777   = wceq 958   e. wcel 960  A.wral 1648  ran crn 3177  -->wf 3184  ` cfv 3188  (class class class)co 3969  Grpcgr 8030   GrpHom cghom 10373
This theorem is referenced by:  ghomid 10389  ghomf1olem 10391
This theorem was proved from axioms:  ax-1 4  ax-2 5  ax-3 6  ax-mp 7  ax-7 964  ax-gen 965  ax-8 966  ax-9 967  ax-10 968  ax-11 969  ax-12 970  ax-13 971  ax-14 972  ax-17 973  ax-4 975  ax-5o 977  ax-6o 980  ax-9o 1125  ax-10o 1142  ax-16 1212  ax-11o 1220  ax-ext 1462  ax-rep 2698  ax-sep 2708  ax-pow 2748  ax-pr 2785  ax-un 2872
This theorem depends on definitions:  df-bi 147  df-or 224  df-an 225  df-3an 779  df-ex 983  df-sb 1174  df-eu 1384  df-mo 1385  df-clab 1467  df-cleq 1472  df-clel 1475  df-ne 1590  df-ral 1652  df-rex 1653  df-v 1815  df-sbc 1945  df-csb 2005  df-dif 2052  df-un 2053  df-in 2054  df-ss 2056  df-nul 2284  df-pw 2406  df-sn 2416  df-pr 2417  df-op 2420  df-uni 2508  df-br 2625  df-opab 2672  df-id 2841  df-xp 3190  df-rel 3191  df-cnv 3192  df-co 3193  df-dm 3194  df-rn 3195  df-res 3196  df-ima 3197  df-fun 3198  df-fn 3199  df-f 3200  df-fv 3204  df-opr 3971  df-oprab 3972  df-ghom 10375
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