let D be non empty set ; for i being Nat
for T1, T2 being Tuple of i,D
for F being BinOp of D
for u being UnOp of D st u is_distributive_wrt F holds
u * (F .: T1,T2) = F .: (u * T1),(u * T2)
let i be Nat; for T1, T2 being Tuple of i,D
for F being BinOp of D
for u being UnOp of D st u is_distributive_wrt F holds
u * (F .: T1,T2) = F .: (u * T1),(u * T2)
let T1, T2 be Tuple of i,D; for F being BinOp of D
for u being UnOp of D st u is_distributive_wrt F holds
u * (F .: T1,T2) = F .: (u * T1),(u * T2)
let F be BinOp of D; for u being UnOp of D st u is_distributive_wrt F holds
u * (F .: T1,T2) = F .: (u * T1),(u * T2)
let u be UnOp of D; ( u is_distributive_wrt F implies u * (F .: T1,T2) = F .: (u * T1),(u * T2) )
assume
for d1, d2 being Element of D holds u . (F . d1,d2) = F . (u . d1),(u . d2)
; BINOP_1:def 20 u * (F .: T1,T2) = F .: (u * T1),(u * T2)
hence
u * (F .: T1,T2) = F .: (u * T1),(u * T2)
by Th49; verum