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Theorem poirr2 4767
Description: A partial order relation is irreflexive. (Contributed by Mario Carneiro, 2-Nov-2015.)
Assertion
Ref Expression
poirr2 |- ( R Po A -> ( R i^i ( _I |` A ) ) = (/) )
Proof of Theorem poirr2
Dummy variables x y are mutually distinct and distinct from all other variables.
StepHypRef Expression
1 relres 4687 . . . 4 |- Rel ( _I |` A )
2 relin2 4504 . . . 4 |- ( Rel ( _I |` A ) -> Rel ( R i^i ( _I |` A ) ) )
31, 2mp1i 10 . . 3 |- ( R Po A -> Rel ( R i^i ( _I |` A ) ) )
4 df-br 3806 . . . . 5 |- ( x ( R i^i ( _I |` A ) ) y <-> <. x , y >. e. ( R i^i ( _I |` A ) ) )
5 brin 3852 . . . . 5 |- ( x ( R i^i ( _I |` A ) ) y <-> ( x R y /\ x ( _I |` A ) y ) )
64, 5bitr3i 184 . . . 4 |- ( <. x , y >. e. ( R i^i ( _I |` A ) ) <-> ( x R y /\ x ( _I |` A ) y ) )
7 vex 2613 . . . . . . . . 9 |- y e. _V
87brres 4666 . . . . . . . 8 |- ( x ( _I |` A ) y <-> ( x _I y /\ x e. A ) )
9 poirr 4090 . . . . . . . . . . 11 |- ( ( R Po A /\ x e. A ) -> -. x R x )
107ideq 4536 . . . . . . . . . . . . 13 |- ( x _I y <-> x = y )
11 breq2 3809 . . . . . . . . . . . . 13 |- ( x = y -> ( x R x <-> x R y ) )
1210, 11sylbi 119 . . . . . . . . . . . 12 |- ( x _I y -> ( x R x <-> x R y ) )
1312notbid 625 . . . . . . . . . . 11 |- ( x _I y -> ( -. x R x <-> -. x R y ) )
149, 13syl5ibcom 153 . . . . . . . . . 10 |- ( ( R Po A /\ x e. A ) -> ( x _I y -> -. x R y ) )
1514expimpd 355 . . . . . . . . 9 |- ( R Po A -> ( ( x e. A /\ x _I y ) -> -. x R y ) )
1615ancomsd 265 . . . . . . . 8 |- ( R Po A -> ( ( x _I y /\ x e. A ) -> -. x R y ) )
178, 16syl5bi 150 . . . . . . 7 |- ( R Po A -> ( x ( _I |` A ) y -> -. x R y ) )
1817con2d 587 . . . . . 6 |- ( R Po A -> ( x R y -> -. x ( _I |` A ) y ) )
19 imnan 657 . . . . . 6 |- ( ( x R y -> -. x ( _I |` A ) y ) <-> -. ( x R y /\ x ( _I |` A ) y ) )
2018, 19sylib 120 . . . . 5 |- ( R Po A -> -. ( x R y /\ x ( _I |` A ) y ) )
2120pm2.21d 582 . . . 4 |- ( R Po A -> ( ( x R y /\ x ( _I |` A ) y ) -> <. x , y >. e. (/) ) )
226, 21syl5bi 150 . . 3 |- ( R Po A -> ( <. x , y >. e. ( R i^i ( _I |` A ) ) -> <. x , y >. e. (/) ) )
233, 22relssdv 4478 . 2 |- ( R Po A -> ( R i^i ( _I |` A ) ) C_ (/) )
24 ss0 3300 . 2 |- ( ( R i^i ( _I |` A ) ) C_ (/) -> ( R i^i ( _I |` A ) ) = (/) )
2523, 24syl 14 1 |- ( R Po A -> ( R i^i ( _I |` A ) ) = (/) )
Colors of variables: wff set class
Syntax hints:   -. wn 3   -> wi 4   /\ wa 102   <-> wb 103   = wceq 1285   e. wcel 1434   i^i cin 2981   C_ wss 2982   (/)c0 3267   <.cop 3419   class class class wbr 3805   _I cid 4071   Po wpo 4077   |` cres 4393   Rel wrel 4396
This theorem was proved from axioms:  ax-1 5  ax-2 6  ax-mp 7  ax-ia1 104  ax-ia2 105  ax-ia3 106  ax-in1 577  ax-in2 578  ax-io 663  ax-5 1377  ax-7 1378  ax-gen 1379  ax-ie1 1423  ax-ie2 1424  ax-8 1436  ax-10 1437  ax-11 1438  ax-i12 1439  ax-bndl 1440  ax-4 1441  ax-14 1446  ax-17 1460  ax-i9 1464  ax-ial 1468  ax-i5r 1469  ax-ext 2065  ax-sep 3916  ax-pow 3968  ax-pr 3992
This theorem depends on definitions:  df-bi 115  df-3an 922  df-tru 1288  df-nf 1391  df-sb 1688  df-eu 1946  df-mo 1947  df-clab 2070  df-cleq 2076  df-clel 2079  df-nfc 2212  df-ral 2358  df-rex 2359  df-v 2612  df-dif 2984  df-un 2986  df-in 2988  df-ss 2995  df-nul 3268  df-pw 3402  df-sn 3422  df-pr 3423  df-op 3425  df-br 3806  df-opab 3860  df-id 4076  df-po 4079  df-xp 4397  df-rel 4398  df-res 4403
This theorem is referenced by: (None)
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