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Theorem sb9i 1247
Description: Commutation of quantification and substitution variables.
Assertion
Ref Expression
sb9i |- (A.x[x / y]ph -> A.y[y / x]ph)
Proof of Theorem sb9i
StepHypRef Expression
1 drsb1 1158 . . . . 5 |- (A.y y = x -> ([y / y]ph <-> [y / x]ph))
2 drsb2 1214 . . . . 5 |- (A.y y = x -> ([y / y]ph <-> [x / y]ph))
31, 2bitr3d 528 . . . 4 |- (A.y y = x -> ([y / x]ph <-> [x / y]ph))
43dral1 1137 . . 3 |- (A.y y = x -> (A.y[y / x]ph <-> A.x[x / y]ph))
54biimprd 154 . 2 |- (A.y y = x -> (A.x[x / y]ph -> A.y[y / x]ph))
6 hbsb2 1211 . . . . 5 |- (-. A.y y = x -> ([x / y]ph -> A.y[x / y]ph))
7619.20ii 971 . . . 4 |- (A.x -. A.y y = x -> (A.x[x / y]ph -> A.xA.y[x / y]ph))
87hbnaes 1131 . . 3 |- (-. A.y y = x -> (A.x[x / y]ph -> A.xA.y[x / y]ph))
9 stdpc4 1168 . . . . . 6 |- (A.x[x / y]ph -> [y / x][x / y]ph)
10 sbco 1236 . . . . . 6 |- ([y / x][x / y]ph <-> [y / x]ph)
119, 10sylib 198 . . . . 5 |- (A.x[x / y]ph -> [y / x]ph)
121119.20i 968 . . . 4 |- (A.yA.x[x / y]ph -> A.y[y / x]ph)
1312a7s 967 . . 3 |- (A.xA.y[x / y]ph -> A.y[y / x]ph)
148, 13syl6 22 . 2 |- (-. A.y y = x -> (A.x[x / y]ph -> A.y[y / x]ph))
155, 14pm2.61i 126 1 |- (A.x[x / y]ph -> A.y[y / x]ph)
Colors of variables: wff set class
Syntax hints:  -. wn 2   -> wi 3  A.wal 950  [wsbc 1153
This theorem is referenced by:  sb9 1248
This theorem was proved from axioms:  ax-1 4  ax-2 5  ax-3 6  ax-mp 7  ax-4 951  ax-5 952  ax-6 953  ax-7 954  ax-gen 955  ax-8 1101  ax-9 1102  ax-10 1103  ax-12 1104  ax-11o 1202
This theorem depends on definitions:  df-bi 147  df-or 224  df-an 225  df-ex 957  df-sb 1155
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