let X be non empty compact TopSpace; :: thesis: for f, g, h being Function of the carrier of X,COMPLEX
for F, G, H being Point of (C_Normed_Algebra_of_ContinuousFunctions X) st f = F & g = G & h = H holds
( H = F * G iff for x being Element of X holds h . x = (f . x) * (g . x) )
let f, g, h be Function of the carrier of X,COMPLEX; :: thesis: for F, G, H being Point of (C_Normed_Algebra_of_ContinuousFunctions X) st f = F & g = G & h = H holds
( H = F * G iff for x being Element of X holds h . x = (f . x) * (g . x) )
let F, G, H be Point of (C_Normed_Algebra_of_ContinuousFunctions X); :: thesis: ( f = F & g = G & h = H implies ( H = F * G iff for x being Element of X holds h . x = (f . x) * (g . x) ) )
reconsider f1 = F, g1 = G, h1 = H as VECTOR of (C_Algebra_of_ContinuousFunctions X) ;
( H = F * G iff h1 = f1 * g1 ) ;
hence ( f = F & g = G & h = H implies ( H = F * G iff for x being Element of X holds h . x = (f . x) * (g . x) ) ) by Th12; :: thesis: verum