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Theorem ifeq2 2365
Description: Equality theorem for conditional operator.
Assertion
Ref Expression
ifeq2 |- (A = B -> if(ph, C, A) = if(ph, C, B))
Proof of Theorem ifeq2
StepHypRef Expression
1 eleq2 1535 . . . . 5 |- (A = B -> (x e. A <-> x e. B))
21anbi1d 617 . . . 4 |- (A = B -> ((x e. A /\ -. ph) <-> (x e. B /\ -. ph)))
32orbi2d 614 . . 3 |- (A = B -> (((x e. C /\ ph) \/ (x e. A /\ -. ph)) <-> ((x e. C /\ ph) \/ (x e. B /\ -. ph))))
43abbidv 1577 . 2 |- (A = B -> {x | ((x e. C /\ ph) \/ (x e. A /\ -. ph))} = {x | ((x e. C /\ ph) \/ (x e. B /\ -. ph))})
5 df-if 2362 . 2 |- if(ph, C, A) = {x | ((x e. C /\ ph) \/ (x e. A /\ -. ph))}
6 df-if 2362 . 2 |- if(ph, C, B) = {x | ((x e. C /\ ph) \/ (x e. B /\ -. ph))}
74, 5, 63eqtr4g 1531 1 |- (A = B -> if(ph, C, A) = if(ph, C, B))
Colors of variables: wff set class
Syntax hints:  -. wn 2   -> wi 3   \/ wo 222   /\ wa 223   = wceq 956   e. wcel 958  {cab 1463  ifcif 2361
This theorem is referenced by:  ifeq12 2368  ifeq2d 2370  unxpdomlem 4843  metxptval 7830  spwval2 8653
This theorem was proved from axioms:  ax-1 4  ax-2 5  ax-3 6  ax-mp 7  ax-7 962  ax-gen 963  ax-8 964  ax-10 966  ax-12 968  ax-17 971  ax-4 973  ax-5o 975  ax-6o 978  ax-9o 1123  ax-10o 1140  ax-16 1210  ax-11o 1218  ax-ext 1459
This theorem depends on definitions:  df-bi 147  df-or 224  df-an 225  df-ex 981  df-sb 1172  df-clab 1464  df-cleq 1469  df-clel 1472  df-if 2362
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