let A be set ; :: thesis: for f being Element of Funcs (A,REAL) holds (RealFuncMult A) . ((RealFuncUnit A),f) = f
let f be Element of Funcs (A,REAL); :: thesis: (RealFuncMult A) . ((RealFuncUnit A),f) = f
per cases ( A = {} or A <> {} ) ;
suppose A = {} ; :: thesis: (RealFuncMult A) . ((RealFuncUnit A),f) = f
then A1: f = {} ;
thus (RealFuncMult A) . ((RealFuncUnit A),f) = multreal .: ((RealFuncUnit A),f) by Def3
.= f by A1 ; :: thesis: verum
end;
suppose A <> {} ; :: thesis: (RealFuncMult A) . ((RealFuncUnit A),f) = f
then reconsider A = A as non empty set ;
reconsider f = f as Element of Funcs (A,REAL) ;
now
let x be Element of A; :: thesis: ((RealFuncMult A) . ((RealFuncUnit A),f)) . x = f . x
thus ((RealFuncMult A) . ((RealFuncUnit A),f)) . x = ((RealFuncUnit A) . x) * (f . x) by Th11
.= 1 * (f . x) by FUNCOP_1:7
.= f . x ; :: thesis: verum
end;
hence (RealFuncMult A) . ((RealFuncUnit A),f) = f by FUNCT_2:63; :: thesis: verum
end;
end;