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Theorem u3lem14aa2 775
Description: Used to prove ->1 "add antecedent" rule in ->3 system.
Assertion
Ref Expression
u3lem14aa2 (a ->3 (a ->3 (b ->3 (b ->3 a_|_)_|_))) = 1
Proof of Theorem u3lem14aa2
StepHypRef Expression
1 u3lem13a 771 . . . . 5 (b ->3 (b ->3 a_|_)_|_) = (b ->1 a)
2 u3lem13b 772 . . . . . 6 ((b ->3 a_|_) ->3 b_|_) = (b ->1 a)
32ax-r1 34 . . . . 5 (b ->1 a) = ((b ->3 a_|_) ->3 b_|_)
41, 3ax-r2 35 . . . 4 (b ->3 (b ->3 a_|_)_|_) = ((b ->3 a_|_) ->3 b_|_)
54ud3lem0a 252 . . 3 (a ->3 (b ->3 (b ->3 a_|_)_|_)) = (a ->3 ((b ->3 a_|_) ->3 b_|_))
65ud3lem0a 252 . 2 (a ->3 (a ->3 (b ->3 (b ->3 a_|_)_|_))) = (a ->3 (a ->3 ((b ->3 a_|_) ->3 b_|_)))
7 u3lem14aa 774 . 2 (a ->3 (a ->3 ((b ->3 a_|_) ->3 b_|_))) = 1
86, 7ax-r2 35 1 (a ->3 (a ->3 (b ->3 (b ->3 a_|_)_|_))) = 1
Colors of variables: term
Syntax hints:   = wb 1  _|_wn 4  1wt 9   ->1 wi1 13   ->3 wi3 15
This theorem was proved from axioms:  ax-a1 29  ax-a2 30  ax-a3 31  ax-a4 32  ax-a5 33  ax-r1 34  ax-r2 35  ax-r4 36  ax-r5 37  ax-r3 421
This theorem depends on definitions:  df-b 38  df-a 39  df-t 40  df-f 41  df-i1 43  df-i3 45  df-le1 122  df-le2 123  df-c1 124  df-c2 125
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