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Theorem zorn2lem3 9320
Description: Lemma for zorn2 9328. (Contributed by NM, 3-Apr-1997.) (Revised by Mario Carneiro, 9-May-2015.)
Hypotheses
Ref Expression
zorn2lem.3 |- F = recs ( ( f e. _V |-> ( iota_ v e. C A. u e. C -. u w v ) ) )
zorn2lem.4 |- C = { z e. A | A. g e. ran f g R z }
zorn2lem.5 |- D = { z e. A | A. g e. ( F " x ) g R z }
Assertion
Ref Expression
zorn2lem3 |- ( ( R Po A /\ ( x e. On /\ ( w We A /\ D =/= (/) ) ) ) -> ( y e. x -> -. ( F ` x ) = ( F ` y ) ) )
Distinct variable groups:   f, g, u, v, w, x, y, z, A   D, f, u, v, y   f, F, g, u, v, x, y, z   R, f, g, u, v, w, x, y, z   v, C
Allowed substitution hints:   C( x, y, z, w, u, f, g)   D( x, z, w, g)   F( w)
Proof of Theorem zorn2lem3
StepHypRef Expression
1 zorn2lem.3 . . . 4 |- F = recs ( ( f e. _V |-> ( iota_ v e. C A. u e. C -. u w v ) ) )
2 zorn2lem.4 . . . 4 |- C = { z e. A | A. g e. ran f g R z }
3 zorn2lem.5 . . . 4 |- D = { z e. A | A. g e. ( F " x ) g R z }
41, 2, 3zorn2lem2 9319 . . 3 |- ( ( x e. On /\ ( w We A /\ D =/= (/) ) ) -> ( y e. x -> ( F ` y ) R ( F ` x ) ) )
54adantl 482 . 2 |- ( ( R Po A /\ ( x e. On /\ ( w We A /\ D =/= (/) ) ) ) -> ( y e. x -> ( F ` y ) R ( F ` x ) ) )
6 ssrab2 3687 . . . . 5 |- { z e. A | A. g e. ( F " x ) g R z } C_ A
73, 6eqsstri 3635 . . . 4 |- D C_ A
81, 2, 3zorn2lem1 9318 . . . 4 |- ( ( x e. On /\ ( w We A /\ D =/= (/) ) ) -> ( F ` x ) e. D )
97, 8sseldi 3601 . . 3 |- ( ( x e. On /\ ( w We A /\ D =/= (/) ) ) -> ( F ` x ) e. A )
10 breq1 4656 . . . . . 6 |- ( ( F ` x ) = ( F ` y ) -> ( ( F ` x ) R ( F ` x ) <-> ( F ` y ) R ( F ` x ) ) )
1110biimprcd 240 . . . . 5 |- ( ( F ` y ) R ( F ` x ) -> ( ( F ` x ) = ( F ` y ) -> ( F ` x ) R ( F ` x ) ) )
12 poirr 5046 . . . . 5 |- ( ( R Po A /\ ( F ` x ) e. A ) -> -. ( F ` x ) R ( F ` x ) )
1311, 12nsyli 155 . . . 4 |- ( ( F ` y ) R ( F ` x ) -> ( ( R Po A /\ ( F ` x ) e. A ) -> -. ( F ` x ) = ( F ` y ) ) )
1413com12 32 . . 3 |- ( ( R Po A /\ ( F ` x ) e. A ) -> ( ( F ` y ) R ( F ` x ) -> -. ( F ` x ) = ( F ` y ) ) )
159, 14sylan2 491 . 2 |- ( ( R Po A /\ ( x e. On /\ ( w We A /\ D =/= (/) ) ) ) -> ( ( F ` y ) R ( F ` x ) -> -. ( F ` x ) = ( F ` y ) ) )
165, 15syld 47 1 |- ( ( R Po A /\ ( x e. On /\ ( w We A /\ D =/= (/) ) ) ) -> ( y e. x -> -. ( F ` x ) = ( F ` y ) ) )
Colors of variables: wff setvar class
Syntax hints:   -. wn 3   -> wi 4   /\ wa 384   = wceq 1483   e. wcel 1990   =/= wne 2794   A.wral 2912   {crab 2916   _Vcvv 3200   (/)c0 3915   class class class wbr 4653   |-> cmpt 4729   Po wpo 5033   We wwe 5072   ran crn 5115   "cima 5117   Oncon0 5723   ` cfv 5888   iota_crio 6610  recscrecs 7467
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1722  ax-4 1737  ax-5 1839  ax-6 1888  ax-7 1935  ax-8 1992  ax-9 1999  ax-10 2019  ax-11 2034  ax-12 2047  ax-13 2246  ax-ext 2602  ax-rep 4771  ax-sep 4781  ax-nul 4789  ax-pow 4843  ax-pr 4906  ax-un 6949
This theorem depends on definitions:  df-bi 197  df-or 385  df-an 386  df-3or 1038  df-3an 1039  df-tru 1486  df-ex 1705  df-nf 1710  df-sb 1881  df-eu 2474  df-mo 2475  df-clab 2609  df-cleq 2615  df-clel 2618  df-nfc 2753  df-ne 2795  df-ral 2917  df-rex 2918  df-reu 2919  df-rmo 2920  df-rab 2921  df-v 3202  df-sbc 3436  df-csb 3534  df-dif 3577  df-un 3579  df-in 3581  df-ss 3588  df-pss 3590  df-nul 3916  df-if 4087  df-sn 4178  df-pr 4180  df-tp 4182  df-op 4184  df-uni 4437  df-iun 4522  df-br 4654  df-opab 4713  df-mpt 4730  df-tr 4753  df-id 5024  df-eprel 5029  df-po 5035  df-so 5036  df-fr 5073  df-we 5075  df-xp 5120  df-rel 5121  df-cnv 5122  df-co 5123  df-dm 5124  df-rn 5125  df-res 5126  df-ima 5127  df-pred 5680  df-ord 5726  df-on 5727  df-suc 5729  df-iota 5851  df-fun 5890  df-fn 5891  df-f 5892  df-f1 5893  df-fo 5894  df-f1o 5895  df-fv 5896  df-riota 6611  df-wrecs 7407  df-recs 7468
This theorem is referenced by:  zorn2lem4  9321
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