let A be non empty set ; :: thesis: for h, f, g being Element of Funcs A,REAL holds
( h = (RealFuncMult A) . f,g iff for x being Element of A holds h . x = (f . x) * (g . x) )
let h, f, g be Element of Funcs A,REAL ; :: thesis: ( h = (RealFuncMult A) . f,g iff for x being Element of A holds h . x = (f . x) * (g . x) )
A1: now
assume A2: for x being Element of A holds h . x = (f . x) * (g . x) ; :: thesis: h = (RealFuncMult A) . f,g
now
let x be Element of A; :: thesis: ((RealFuncMult A) . f,g) . x = h . x
A3: x in dom (multreal .: f,g) by Lm1;
thus ((RealFuncMult A) . f,g) . x = (multreal .: f,g) . x by Def3
.= multreal . (f . x),(g . x) by A3, FUNCOP_1:28
.= (f . x) * (g . x) by BINOP_2:def 11
.= h . x by A2 ; :: thesis: verum
end;
hence h = (RealFuncMult A) . f,g by FUNCT_2:113; :: thesis: verum
end;
now
assume A4: h = (RealFuncMult A) . f,g ; :: thesis: for x being Element of A holds h . x = (f . x) * (g . x)
let x be Element of A; :: thesis: h . x = (f . x) * (g . x)
A5: x in dom (multreal .: f,g) by Lm1;
thus h . x = (multreal .: f,g) . x by A4, Def3
.= multreal . (f . x),(g . x) by A5, FUNCOP_1:28
.= (f . x) * (g . x) by BINOP_2:def 11 ; :: thesis: verum
end;
hence ( h = (RealFuncMult A) . f,g iff for x being Element of A holds h . x = (f . x) * (g . x) ) by A1; :: thesis: verum