let C be non empty set ; :: thesis: for f, g, h being Membership_Func of C holds f * (max g,h) = max (f * g),(f * h)
let f, g, h be Membership_Func of C; :: thesis: f * (max g,h) = max (f * g),(f * h)
A1: C = dom (max (f * g),(f * h)) by FUNCT_2:def 1;
A2: for c being Element of C st c in C holds
(f * (max g,h)) . c = (max (f * g),(f * h)) . c
proof
let c be Element of C; :: thesis: ( c in C implies (f * (max g,h)) . c = (max (f * g),(f * h)) . c )
(f * (max g,h)) . c = (f . c) * ((max g,h) . c) by Def2
.= (f . c) * (max (g . c),(h . c)) by FUZZY_1:6
.= max ((f . c) * (g . c)),((f . c) * (h . c)) by Lm2, Th1
.= max ((f * g) . c),((f . c) * (h . c)) by Def2
.= max ((f * g) . c),((f * h) . c) by Def2 ;
hence ( c in C implies (f * (max g,h)) . c = (max (f * g),(f * h)) . c ) by FUZZY_1:6; :: thesis: verum
end;
C = dom (f * (max g,h)) by FUNCT_2:def 1;
hence f * (max g,h) = max (f * g),(f * h) by A1, A2, PARTFUN1:34; :: thesis: verum