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Theorem fcoconst 5599
Description: Composition with a constant function. (Contributed by Stefan O'Rear, 11-Mar-2015.)
Assertion
Ref Expression
fcoconst |- ( ( F Fn X /\ Y e. X ) -> ( F o. ( I X. { Y } ) ) = ( I X. { ( F ` Y ) } ) )
Proof of Theorem fcoconst
Dummy variables x y are mutually distinct and distinct from all other variables.
StepHypRef Expression
1 simplr 520 . . 3 |- ( ( ( F Fn X /\ Y e. X ) /\ x e. I ) -> Y e. X )
2 fconstmpt 4594 . . . 4 |- ( I X. { Y } ) = ( x e. I |-> Y )
32a1i 9 . . 3 |- ( ( F Fn X /\ Y e. X ) -> ( I X. { Y } ) = ( x e. I |-> Y ) )
4 simpl 108 . . . . 5 |- ( ( F Fn X /\ Y e. X ) -> F Fn X )
5 dffn2 5282 . . . . 5 |- ( F Fn X <-> F : X --> _V )
64, 5sylib 121 . . . 4 |- ( ( F Fn X /\ Y e. X ) -> F : X --> _V )
76feqmptd 5482 . . 3 |- ( ( F Fn X /\ Y e. X ) -> F = ( y e. X |-> ( F ` y ) ) )
8 fveq2 5429 . . 3 |- ( y = Y -> ( F ` y ) = ( F ` Y ) )
91, 3, 7, 8fmptco 5594 . 2 |- ( ( F Fn X /\ Y e. X ) -> ( F o. ( I X. { Y } ) ) = ( x e. I |-> ( F ` Y ) ) )
10 fconstmpt 4594 . 2 |- ( I X. { ( F ` Y ) } ) = ( x e. I |-> ( F ` Y ) )
119, 10eqtr4di 2191 1 |- ( ( F Fn X /\ Y e. X ) -> ( F o. ( I X. { Y } ) ) = ( I X. { ( F ` Y ) } ) )
Colors of variables: wff set class
Syntax hints:   -> wi 4   /\ wa 103   = wceq 1332   e. wcel 1481   _Vcvv 2689   {csn 3532   |-> cmpt 3997   X. cxp 4545   o. ccom 4551   Fn wfn 5126   -->wf 5127   ` cfv 5131
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-ia1 105  ax-ia2 106  ax-ia3 107  ax-io 699  ax-5 1424  ax-7 1425  ax-gen 1426  ax-ie1 1470  ax-ie2 1471  ax-8 1483  ax-10 1484  ax-11 1485  ax-i12 1486  ax-bndl 1487  ax-4 1488  ax-14 1493  ax-17 1507  ax-i9 1511  ax-ial 1515  ax-i5r 1516  ax-ext 2122  ax-sep 4054  ax-pow 4106  ax-pr 4139
This theorem depends on definitions:  df-bi 116  df-3an 965  df-tru 1335  df-nf 1438  df-sb 1737  df-eu 2003  df-mo 2004  df-clab 2127  df-cleq 2133  df-clel 2136  df-nfc 2271  df-ral 2422  df-rex 2423  df-rab 2426  df-v 2691  df-sbc 2914  df-csb 3008  df-un 3080  df-in 3082  df-ss 3089  df-pw 3517  df-sn 3538  df-pr 3539  df-op 3541  df-uni 3745  df-br 3938  df-opab 3998  df-mpt 3999  df-id 4223  df-xp 4553  df-rel 4554  df-cnv 4555  df-co 4556  df-dm 4557  df-rn 4558  df-res 4559  df-ima 4560  df-iota 5096  df-fun 5133  df-fn 5134  df-f 5135  df-fv 5139
This theorem is referenced by: (None)
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