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Theorem opelopabsbALT 4745
Description: The law of concretion in terms of substitutions. Less general than opelopabsb 4746, but having a much shorter proof. (Contributed by NM, 30-Sep-2002.) (Proof shortened by Andrew Salmon, 25-Jul-2011.) (New usage is discouraged.) (Proof modification is discouraged.)
Assertion
Ref Expression
opelopabsbALT  |-  ( <.
z ,  w >.  e. 
{ <. x ,  y
>.  |  ph }  <->  [ w  /  y ] [
z  /  x ] ph )
Distinct variable groups:    x, y,
z    x, w, y
Allowed substitution hints:    ph( x, y, z, w)

Proof of Theorem opelopabsbALT
StepHypRef Expression
1 excom 1854 . . 3  |-  ( E. x E. y (
<. z ,  w >.  = 
<. x ,  y >.  /\  ph )  <->  E. y E. x ( <. z ,  w >.  =  <. x ,  y >.  /\  ph ) )
2 vex 3109 . . . . . . 7  |-  z  e. 
_V
3 vex 3109 . . . . . . 7  |-  w  e. 
_V
42, 3opth 4711 . . . . . 6  |-  ( <.
z ,  w >.  = 
<. x ,  y >.  <->  ( z  =  x  /\  w  =  y )
)
5 equcom 1799 . . . . . . 7  |-  ( z  =  x  <->  x  =  z )
6 equcom 1799 . . . . . . 7  |-  ( w  =  y  <->  y  =  w )
75, 6anbi12ci 696 . . . . . 6  |-  ( ( z  =  x  /\  w  =  y )  <->  ( y  =  w  /\  x  =  z )
)
84, 7bitri 249 . . . . 5  |-  ( <.
z ,  w >.  = 
<. x ,  y >.  <->  ( y  =  w  /\  x  =  z )
)
98anbi1i 693 . . . 4  |-  ( (
<. z ,  w >.  = 
<. x ,  y >.  /\  ph )  <->  ( (
y  =  w  /\  x  =  z )  /\  ph ) )
1092exbii 1673 . . 3  |-  ( E. y E. x (
<. z ,  w >.  = 
<. x ,  y >.  /\  ph )  <->  E. y E. x ( ( y  =  w  /\  x  =  z )  /\  ph ) )
111, 10bitri 249 . 2  |-  ( E. x E. y (
<. z ,  w >.  = 
<. x ,  y >.  /\  ph )  <->  E. y E. x ( ( y  =  w  /\  x  =  z )  /\  ph ) )
12 elopab 4744 . 2  |-  ( <.
z ,  w >.  e. 
{ <. x ,  y
>.  |  ph }  <->  E. x E. y ( <. z ,  w >.  =  <. x ,  y >.  /\  ph ) )
13 2sb5 2189 . 2  |-  ( [ w  /  y ] [ z  /  x ] ph  <->  E. y E. x
( ( y  =  w  /\  x  =  z )  /\  ph ) )
1411, 12, 133bitr4i 277 1  |-  ( <.
z ,  w >.  e. 
{ <. x ,  y
>.  |  ph }  <->  [ w  /  y ] [
z  /  x ] ph )
Colors of variables: wff setvar class
Syntax hints:    <-> wb 184    /\ wa 367    = wceq 1398   E.wex 1617   [wsb 1744    e. wcel 1823   <.cop 4022   {copab 4496
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1623  ax-4 1636  ax-5 1709  ax-6 1752  ax-7 1795  ax-9 1827  ax-10 1842  ax-11 1847  ax-12 1859  ax-13 2004  ax-ext 2432  ax-sep 4560  ax-nul 4568  ax-pr 4676
This theorem depends on definitions:  df-bi 185  df-or 368  df-an 369  df-3an 973  df-tru 1401  df-ex 1618  df-nf 1622  df-sb 1745  df-clab 2440  df-cleq 2446  df-clel 2449  df-nfc 2604  df-ne 2651  df-rab 2813  df-v 3108  df-dif 3464  df-un 3466  df-in 3468  df-ss 3475  df-nul 3784  df-if 3930  df-sn 4017  df-pr 4019  df-op 4023  df-opab 4498
This theorem is referenced by:  inopab  5122  cnvopab  5392  brabsb2  30846
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