let E, D be non empty set ; for i being Nat
for h being Function of D,E
for T1, T2 being Tuple of i,D
for F being BinOp of D
for H being BinOp of E st ( for d1, d2 being Element of D holds h . (F . d1,d2) = H . (h . d1),(h . d2) ) holds
h * (F .: T1,T2) = H .: (h * T1),(h * T2)
let i be Nat; for h being Function of D,E
for T1, T2 being Tuple of i,D
for F being BinOp of D
for H being BinOp of E st ( for d1, d2 being Element of D holds h . (F . d1,d2) = H . (h . d1),(h . d2) ) holds
h * (F .: T1,T2) = H .: (h * T1),(h * T2)
let h be Function of D,E; for T1, T2 being Tuple of i,D
for F being BinOp of D
for H being BinOp of E st ( for d1, d2 being Element of D holds h . (F . d1,d2) = H . (h . d1),(h . d2) ) holds
h * (F .: T1,T2) = H .: (h * T1),(h * T2)
let T1, T2 be Tuple of i,D; for F being BinOp of D
for H being BinOp of E st ( for d1, d2 being Element of D holds h . (F . d1,d2) = H . (h . d1),(h . d2) ) holds
h * (F .: T1,T2) = H .: (h * T1),(h * T2)
let F be BinOp of D; for H being BinOp of E st ( for d1, d2 being Element of D holds h . (F . d1,d2) = H . (h . d1),(h . d2) ) holds
h * (F .: T1,T2) = H .: (h * T1),(h * T2)
let H be BinOp of E; ( ( for d1, d2 being Element of D holds h . (F . d1,d2) = H . (h . d1),(h . d2) ) implies h * (F .: T1,T2) = H .: (h * T1),(h * T2) )
assume A1:
for d1, d2 being Element of D holds h . (F . d1,d2) = H . (h . d1),(h . d2)
; h * (F .: T1,T2) = H .: (h * T1),(h * T2)