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Theorem ss1oel2o 16127
Description: Any subset of ordinal one being an element of ordinal two is equivalent to excluded middle. A variation of exmid01 4258 which more directly illustrates the contrast with el2oss1o 6552. (Contributed by Jim Kingdon, 8-Aug-2022.)
Assertion
Ref Expression
ss1oel2o |- (EXMID <-> A. x ( x C_ 1o -> x e. 2o ) )
Proof of Theorem ss1oel2o
StepHypRef Expression
1 exmid01 4258 . 2 |- (EXMID <-> A. x ( x C_ { (/) } -> ( x = (/) \/ x = { (/) } ) ) )
2 df1o2 6538 . . . . 5 |- 1o = { (/) }
32sseq2i 3228 . . . 4 |- ( x C_ 1o <-> x C_ { (/) } )
4 df2o2 6540 . . . . . 6 |- 2o = { (/) , { (/) } }
54eleq2i 2274 . . . . 5 |- ( x e. 2o <-> x e. { (/) , { (/) } } )
6 vex 2779 . . . . . 6 |- x e. _V
76elpr 3664 . . . . 5 |- ( x e. { (/) , { (/) } } <-> ( x = (/) \/ x = { (/) } ) )
85, 7bitri 184 . . . 4 |- ( x e. 2o <-> ( x = (/) \/ x = { (/) } ) )
93, 8imbi12i 239 . . 3 |- ( ( x C_ 1o -> x e. 2o ) <-> ( x C_ { (/) } -> ( x = (/) \/ x = { (/) } ) ) )
109albii 1494 . 2 |- ( A. x ( x C_ 1o -> x e. 2o ) <-> A. x ( x C_ { (/) } -> ( x = (/) \/ x = { (/) } ) ) )
111, 10bitr4i 187 1 |- (EXMID <-> A. x ( x C_ 1o -> x e. 2o ) )
Colors of variables: wff set class
Syntax hints:   -> wi 4   <-> wb 105   \/ wo 710   A.wal 1371   = wceq 1373   e. wcel 2178   C_ wss 3174   (/)c0 3468   {csn 3643   {cpr 3644  EXMIDwem 4254   1oc1o 6518   2oc2o 6519
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-ia1 106  ax-ia2 107  ax-ia3 108  ax-in1 615  ax-in2 616  ax-io 711  ax-5 1471  ax-7 1472  ax-gen 1473  ax-ie1 1517  ax-ie2 1518  ax-8 1528  ax-10 1529  ax-11 1530  ax-i12 1531  ax-bndl 1533  ax-4 1534  ax-17 1550  ax-i9 1554  ax-ial 1558  ax-i5r 1559  ax-ext 2189  ax-nul 4186
This theorem depends on definitions:  df-bi 117  df-dc 837  df-tru 1376  df-nf 1485  df-sb 1787  df-clab 2194  df-cleq 2200  df-clel 2203  df-nfc 2339  df-v 2778  df-dif 3176  df-un 3178  df-in 3180  df-ss 3187  df-nul 3469  df-sn 3649  df-pr 3650  df-exmid 4255  df-suc 4436  df-1o 6525  df-2o 6526
This theorem is referenced by: (None)
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