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Theorem oneqmini 2272
Description: A way to show that an ordinal number equals the minimum of a collection of ordinal numbers: it must be in the collection, and it must not be larger than any member of the collection.
Assertion
Ref Expression
oneqmini |- (B (_ On -> ((A e. B /\ A.x e. A -. x e. B) -> A = |^|B))
Distinct variable group(s):   x,A   x,B
Proof of Theorem oneqmini
StepHypRef Expression
1 ssel 1502 . . . . . . . . . . . . . 14 |- (B (_ On -> (A e. B -> A e. On))
2 ssel 1502 . . . . . . . . . . . . . 14 |- (B (_ On -> (x e. B -> x e. On))
31, 2anim12d 431 . . . . . . . . . . . . 13 |- (B (_ On -> ((A e. B /\ x e. B) -> (A e. On /\ x e. On)))
4 ontri1 2232 . . . . . . . . . . . . 13 |- ((A e. On /\ x e. On) -> (A (_ x <-> -. x e. A))
53, 4syl6 23 . . . . . . . . . . . 12 |- (B (_ On -> ((A e. B /\ x e. B) -> (A (_ x <-> -. x e. A)))
65exp3a 292 . . . . . . . . . . 11 |- (B (_ On -> (A e. B -> (x e. B -> (A (_ x <-> -. x e. A))))
76imp 277 . . . . . . . . . 10 |- ((B (_ On /\ A e. B) -> (x e. B -> (A (_ x <-> -. x e. A)))
87pm5.74d 444 . . . . . . . . 9 |- ((B (_ On /\ A e. B) -> ((x e. B -> A (_ x) <-> (x e. B -> -. x e. A)))
9 bi2.03 144 . . . . . . . . 9 |- ((x e. B -> -. x e. A) <-> (x e. A -> -. x e. B))
108, 9syl6bb 414 . . . . . . . 8 |- ((B (_ On /\ A e. B) -> ((x e. B -> A (_ x) <-> (x e. A -> -. x e. B)))
1110biraldv2 1221 . . . . . . 7 |- ((B (_ On /\ A e. B) -> (A.x e. B A (_ x <-> A.x e. A -. x e. B))
12 ssint 1980 . . . . . . 7 |- (A (_ |^|B <-> A.x e. B A (_ x)
1311, 12syl5bb 410 . . . . . 6 |- ((B (_ On /\ A e. B) -> (A (_ |^|B <-> A.x e. A -. x e. B))
1413biimprd 136 . . . . 5 |- ((B (_ On /\ A e. B) -> (A.x e. A -. x e. B -> A (_ |^|B))
1514exp 291 . . . 4 |- (B (_ On -> (A e. B -> (A.x e. A -. x e. B -> A (_ |^|B)))
1615imp3a 279 . . 3 |- (B (_ On -> ((A e. B /\ A.x e. A -. x e. B) -> A (_ |^|B))
17 intss1 1979 . . . . 5 |- (A e. B -> |^|B (_ A)
1817a1i 7 . . . 4 |- (B (_ On -> (A e. B -> |^|B (_ A))
1918adantrd 308 . . 3 |- (B (_ On -> ((A e. B /\ A.x e. A -. x e. B) -> |^|B (_ A))
2016, 19jcad 455 . 2 |- (B (_ On -> ((A e. B /\ A.x e. A -. x e. B) -> (A (_ |^|B /\ |^|B (_ A)))
21 eqss 1516 . 2 |- (A = |^|B <-> (A (_ |^|B /\ |^|B (_ A))
2220, 21syl6ibr 186 1 |- (B (_ On -> ((A e. B /\ A.x e. A -. x e. B) -> A = |^|B))
Colors of variables: wff set class
Syntax hints:  -. wn 1   -> wi 2   <-> wb 127   /\ wa 196   = wceq 1091   e. wcel 1092  A.wral 1201   (_ wss 1487  |^|cint 1965  Oncon0 2199
This theorem is referenced by:  oneqmin 2273  cfsuc 3709
This theorem was proved from axioms:  ax-1 3  ax-2 4  ax-3 5  ax-mp 6  ax-4 673  ax-5 674  ax-6 675  ax-7 676  ax-gen 677  ax-8 798  ax-9 799  ax-10 800  ax-11 801  ax-12 802  ax-13 804  ax-14 805  ax-16 922  ax-17 925  ax-ext 1074  ax-rep 1075  ax-pow 1077
This theorem depends on definitions:  df-bi 128  df-or 197  df-an 198  df-3or 582  df-3an 583  df-ex 679  df-sb 853  df-clab 1093  df-cleq 1097  df-clel 1099  df-ral 1205  df-rex 1206  df-v 1349  df-dif 1489  df-un 1490  df-in 1491  df-ss 1492  df-nul 1708  df-pw 1799  df-sn 1811  df-pr 1812  df-op 1815  df-uni 1920  df-int 1966  df-tr 2042  df-br 2063  df-opab 2098  df-eprel 2122  df-po 2128  df-so 2138  df-fr 2169  df-we 2186  df-ord 2202  df-on 2203
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