let D be non empty set ; :: thesis: for i being Nat
for T being Tuple of i,D
for F being BinOp of D st F is having_a_unity & F is associative & F is having_an_inverseOp holds
( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) )
let i be Nat; :: thesis: for T being Tuple of i,D
for F being BinOp of D st F is having_a_unity & F is associative & F is having_an_inverseOp holds
( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) )
let T be Tuple of i,D; :: thesis: for F being BinOp of D st F is having_a_unity & F is associative & F is having_an_inverseOp holds
( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) )
let F be BinOp of D; :: thesis: ( F is having_a_unity & F is associative & F is having_an_inverseOp implies ( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) ) )
assume A1: ( F is having_a_unity & F is associative & F is having_an_inverseOp ) ; :: thesis: ( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) )
reconsider uT = (the_inverseOp_wrt F) * T as Element of i -tuples_on D by FINSEQ_2:133;
set e = the_unity_wrt F;
per cases ( i = 0 or i <> 0 ) ;
suppose A2: i = 0 ; :: thesis: ( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) )
then ( F .: T,uT = <*> D & F .: uT,T = <*> D ) by Lm1;
hence ( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) ) by A2; :: thesis: verum
end;
suppose i <> 0 ; :: thesis: ( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) )
then reconsider C = Seg i as non empty set ;
T is Function of C,D by Lm4;
hence ( F .: T,((the_inverseOp_wrt F) * T) = i |-> (the_unity_wrt F) & F .: ((the_inverseOp_wrt F) * T),T = i |-> (the_unity_wrt F) ) by A1, Th75; :: thesis: verum
end;
end;