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Theorem nodenselem3 25638
Description: Lemma for nodense 25644. If one surreal is older than another, then there is an ordinal at which they are not equal. (Contributed by Scott Fenton, 16-Jun-2011.)
Assertion
Ref Expression
nodenselem3  |-  ( ( A  e.  No  /\  B  e.  No )  ->  ( ( bday `  A
)  e.  ( bday `  B )  ->  E. a  e.  On  ( A `  a )  =/=  ( B `  a )
) )
Distinct variable groups:    A, a    B, a

Proof of Theorem nodenselem3
StepHypRef Expression
1 bdayval 25603 . . . 4  |-  ( B  e.  No  ->  ( bday `  B )  =  dom  B )
21adantl 453 . . 3  |-  ( ( A  e.  No  /\  B  e.  No )  ->  ( bday `  B
)  =  dom  B
)
32eleq2d 2503 . 2  |-  ( ( A  e.  No  /\  B  e.  No )  ->  ( ( bday `  A
)  e.  ( bday `  B )  <->  ( bday `  A )  e.  dom  B ) )
4 bdayelon 25635 . . . 4  |-  ( bday `  A )  e.  On
5 nosgnn0 25613 . . . . . . . . 9  |-  -.  (/)  e.  { 1o ,  2o }
6 norn 25606 . . . . . . . . . . . 12  |-  ( B  e.  No  ->  ran  B 
C_  { 1o ,  2o } )
76adantr 452 . . . . . . . . . . 11  |-  ( ( B  e.  No  /\  ( bday `  A )  e.  dom  B )  ->  ran  B  C_  { 1o ,  2o } )
8 nofun 25604 . . . . . . . . . . . 12  |-  ( B  e.  No  ->  Fun  B )
9 fvelrn 5866 . . . . . . . . . . . 12  |-  ( ( Fun  B  /\  ( bday `  A )  e. 
dom  B )  -> 
( B `  ( bday `  A ) )  e.  ran  B )
108, 9sylan 458 . . . . . . . . . . 11  |-  ( ( B  e.  No  /\  ( bday `  A )  e.  dom  B )  -> 
( B `  ( bday `  A ) )  e.  ran  B )
117, 10sseldd 3349 . . . . . . . . . 10  |-  ( ( B  e.  No  /\  ( bday `  A )  e.  dom  B )  -> 
( B `  ( bday `  A ) )  e.  { 1o ,  2o } )
12 eleq1 2496 . . . . . . . . . 10  |-  ( ( B `  ( bday `  A ) )  =  (/)  ->  ( ( B `
 ( bday `  A
) )  e.  { 1o ,  2o }  <->  (/)  e.  { 1o ,  2o } ) )
1311, 12syl5ibcom 212 . . . . . . . . 9  |-  ( ( B  e.  No  /\  ( bday `  A )  e.  dom  B )  -> 
( ( B `  ( bday `  A )
)  =  (/)  ->  (/)  e.  { 1o ,  2o } ) )
145, 13mtoi 171 . . . . . . . 8  |-  ( ( B  e.  No  /\  ( bday `  A )  e.  dom  B )  ->  -.  ( B `  ( bday `  A ) )  =  (/) )
1514neneqad 2674 . . . . . . 7  |-  ( ( B  e.  No  /\  ( bday `  A )  e.  dom  B )  -> 
( B `  ( bday `  A ) )  =/=  (/) )
1615adantll 695 . . . . . 6  |-  ( ( ( A  e.  No  /\  B  e.  No )  /\  ( bday `  A
)  e.  dom  B
)  ->  ( B `  ( bday `  A
) )  =/=  (/) )
17 fvnobday 25637 . . . . . . 7  |-  ( A  e.  No  ->  ( A `  ( bday `  A ) )  =  (/) )
1817ad2antrr 707 . . . . . 6  |-  ( ( ( A  e.  No  /\  B  e.  No )  /\  ( bday `  A
)  e.  dom  B
)  ->  ( A `  ( bday `  A
) )  =  (/) )
1916, 18neeqtrrd 2625 . . . . 5  |-  ( ( ( A  e.  No  /\  B  e.  No )  /\  ( bday `  A
)  e.  dom  B
)  ->  ( B `  ( bday `  A
) )  =/=  ( A `  ( bday `  A ) ) )
2019necomd 2687 . . . 4  |-  ( ( ( A  e.  No  /\  B  e.  No )  /\  ( bday `  A
)  e.  dom  B
)  ->  ( A `  ( bday `  A
) )  =/=  ( B `  ( bday `  A ) ) )
21 fveq2 5728 . . . . . 6  |-  ( a  =  ( bday `  A
)  ->  ( A `  a )  =  ( A `  ( bday `  A ) ) )
22 fveq2 5728 . . . . . 6  |-  ( a  =  ( bday `  A
)  ->  ( B `  a )  =  ( B `  ( bday `  A ) ) )
2321, 22neeq12d 2616 . . . . 5  |-  ( a  =  ( bday `  A
)  ->  ( ( A `  a )  =/=  ( B `  a
)  <->  ( A `  ( bday `  A )
)  =/=  ( B `
 ( bday `  A
) ) ) )
2423rspcev 3052 . . . 4  |-  ( ( ( bday `  A
)  e.  On  /\  ( A `  ( bday `  A ) )  =/=  ( B `  ( bday `  A ) ) )  ->  E. a  e.  On  ( A `  a )  =/=  ( B `  a )
)
254, 20, 24sylancr 645 . . 3  |-  ( ( ( A  e.  No  /\  B  e.  No )  /\  ( bday `  A
)  e.  dom  B
)  ->  E. a  e.  On  ( A `  a )  =/=  ( B `  a )
)
2625ex 424 . 2  |-  ( ( A  e.  No  /\  B  e.  No )  ->  ( ( bday `  A
)  e.  dom  B  ->  E. a  e.  On  ( A `  a )  =/=  ( B `  a ) ) )
273, 26sylbid 207 1  |-  ( ( A  e.  No  /\  B  e.  No )  ->  ( ( bday `  A
)  e.  ( bday `  B )  ->  E. a  e.  On  ( A `  a )  =/=  ( B `  a )
) )
Colors of variables: wff set class
Syntax hints:    -> wi 4    /\ wa 359    = wceq 1652    e. wcel 1725    =/= wne 2599   E.wrex 2706    C_ wss 3320   (/)c0 3628   {cpr 3815   Oncon0 4581   dom cdm 4878   ran crn 4879   Fun wfun 5448   ` cfv 5454   1oc1o 6717   2oc2o 6718   Nocsur 25595   bdaycbday 25597
This theorem is referenced by:  nodenselem4  25639
This theorem was proved from axioms:  ax-1 5  ax-2 6  ax-3 7  ax-mp 8  ax-gen 1555  ax-5 1566  ax-17 1626  ax-9 1666  ax-8 1687  ax-13 1727  ax-14 1729  ax-6 1744  ax-7 1749  ax-11 1761  ax-12 1950  ax-ext 2417  ax-rep 4320  ax-sep 4330  ax-nul 4338  ax-pow 4377  ax-pr 4403  ax-un 4701
This theorem depends on definitions:  df-bi 178  df-or 360  df-an 361  df-3or 937  df-3an 938  df-tru 1328  df-ex 1551  df-nf 1554  df-sb 1659  df-eu 2285  df-mo 2286  df-clab 2423  df-cleq 2429  df-clel 2432  df-nfc 2561  df-ne 2601  df-ral 2710  df-rex 2711  df-reu 2712  df-rab 2714  df-v 2958  df-sbc 3162  df-csb 3252  df-dif 3323  df-un 3325  df-in 3327  df-ss 3334  df-pss 3336  df-nul 3629  df-if 3740  df-pw 3801  df-sn 3820  df-pr 3821  df-tp 3822  df-op 3823  df-uni 4016  df-iun 4095  df-br 4213  df-opab 4267  df-mpt 4268  df-tr 4303  df-eprel 4494  df-id 4498  df-po 4503  df-so 4504  df-fr 4541  df-we 4543  df-ord 4584  df-on 4585  df-suc 4587  df-xp 4884  df-rel 4885  df-cnv 4886  df-co 4887  df-dm 4888  df-rn 4889  df-res 4890  df-ima 4891  df-iota 5418  df-fun 5456  df-fn 5457  df-f 5458  df-f1 5459  df-fo 5460  df-f1o 5461  df-fv 5462  df-1o 6724  df-2o 6725  df-no 25598  df-bday 25600
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