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Theorem orddif 4462
Description: Ordinal derived from its successor. (Contributed by NM, 20-May-1998.)
Assertion
Ref Expression
orddif |- ( Ord A -> A = ( suc A \ { A } ) )
Proof of Theorem orddif
StepHypRef Expression
1 orddisj 4461 . 2 |- ( Ord A -> ( A i^i { A } ) = (/) )
2 disj3 3415 . . 3 |- ( ( A i^i { A } ) = (/) <-> A = ( A \ { A } ) )
3 df-suc 4293 . . . . . 6 |- suc A = ( A u. { A } )
43difeq1i 3190 . . . . 5 |- ( suc A \ { A } ) = ( ( A u. { A } ) \ { A } )
5 difun2 3442 . . . . 5 |- ( ( A u. { A } ) \ { A } ) = ( A \ { A } )
64, 5eqtri 2160 . . . 4 |- ( suc A \ { A } ) = ( A \ { A } )
76eqeq2i 2150 . . 3 |- ( A = ( suc A \ { A } ) <-> A = ( A \ { A } ) )
82, 7bitr4i 186 . 2 |- ( ( A i^i { A } ) = (/) <-> A = ( suc A \ { A } ) )
91, 8sylib 121 1 |- ( Ord A -> A = ( suc A \ { A } ) )
Colors of variables: wff set class
Syntax hints:   -> wi 4   = wceq 1331   \ cdif 3068   u. cun 3069   i^i cin 3070   (/)c0 3363   {csn 3527   Ord word 4284   suc csuc 4287
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-ia1 105  ax-ia2 106  ax-ia3 107  ax-in1 603  ax-in2 604  ax-io 698  ax-5 1423  ax-7 1424  ax-gen 1425  ax-ie1 1469  ax-ie2 1470  ax-8 1482  ax-10 1483  ax-11 1484  ax-i12 1485  ax-bndl 1486  ax-4 1487  ax-17 1506  ax-i9 1510  ax-ial 1514  ax-i5r 1515  ax-ext 2121  ax-setind 4452
This theorem depends on definitions:  df-bi 116  df-3an 964  df-tru 1334  df-fal 1337  df-nf 1437  df-sb 1736  df-clab 2126  df-cleq 2132  df-clel 2135  df-nfc 2270  df-ne 2309  df-ral 2421  df-rab 2425  df-v 2688  df-dif 3073  df-un 3075  df-in 3077  df-ss 3084  df-nul 3364  df-sn 3533  df-suc 4293
This theorem is referenced by:  phplem3  6748  phplem4  6749  phplem4dom  6756  phplem4on  6761  dif1en  6773
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