let a be Domain-Sequence; :: thesis: for d, d' being BinOp of (product a) st ( for f, g being Element of product a
for i being Element of dom a holds (d . f,g) . i = (d' . f,g) . i ) holds
d = d'
let d, d' be BinOp of (product a); :: thesis: ( ( for f, g being Element of product a
for i being Element of dom a holds (d . f,g) . i = (d' . f,g) . i ) implies d = d' )
assume A1:
for f, g being Element of product a
for i being Element of dom a holds (d . f,g) . i = (d' . f,g) . i
; :: thesis: d = d'
now let f,
g be
Element of
product a;
:: thesis: d . f,g = d' . f,g
(
dom (d . f,g) = dom a &
dom (d' . f,g) = dom a & ( for
x being
set st
x in dom a holds
(d . f,g) . x = (d' . f,g) . x ) )
by A1, CARD_3:18;
hence
d . f,
g = d' . f,
g
by FUNCT_1:9;
:: thesis: verum end;
hence
d = d'
by BINOP_1:2; :: thesis: verum