Theorem fnop 3591

Description: The first argument of an ordered pair in a function belongs to the function's domain.

Assertion

Ref	Expression
fnop	|- ((F Fn A /\ <.B, C>. e. F) -> B e. A)

Proof of Theorem fnop

Step	Hyp	Ref	Expression
1		fnbr 3590	. 2 |- ((F Fn A /\ BFC) -> B e. A)
2		df-br 2620	. 2 |- (BFC <-> <.B, C>. e. F)
3	1, 2	sylan2br 453	1 |- ((F Fn A /\ <.B, C>. e. F) -> B e. A)

Syntax hints:   -> wi 3   /\ wa 223   e. wcel 958  <.cop 2411   class class class wbr 2619   Fn wfn 3177

This theorem is referenced by:  2elresin 3598  fcoi1 3645  fnopabfv 3758  tfrlem2 3912  tfrlem9 3919

This theorem was proved from axioms:  ax-1 4  ax-2 5  ax-3 6  ax-mp 7  ax-7 962  ax-gen 963  ax-8 964  ax-10 966  ax-11 967  ax-12 968  ax-13 969  ax-14 970  ax-17 971  ax-4 973  ax-5o 975  ax-6o 978  ax-9o 1123  ax-10o 1140  ax-16 1210  ax-11o 1218  ax-ext 1459  ax-sep 2703  ax-pow 2742  ax-pr 2779

This theorem depends on definitions:  df-bi 147  df-or 224  df-an 225  df-ex 981  df-sb 1172  df-eu 1382  df-mo 1383  df-clab 1464  df-cleq 1469  df-clel 1472  df-ne 1587  df-v 1812  df-dif 2049  df-un 2050  df-in 2051  df-ss 2053  df-nul 2281  df-pw 2402  df-sn 2412  df-pr 2413  df-op 2416  df-br 2620  df-opab 2667  df-xp 3184  df-rel 3185  df-dm 3188  df-fun 3192  df-fn 3193

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