let X be BCK-algebra; :: thesis: ( ( for I being Ideal of X holds I is commutative Ideal of X ) iff for x, y being Element of X holds x \ (x \ y) <= y \ (y \ x) )
thus ( ( for I being Ideal of X holds I is commutative Ideal of X ) implies for x, y being Element of X holds x \ (x \ y) <= y \ (y \ x) ) :: thesis: ( ( for x, y being Element of X holds x \ (x \ y) <= y \ (y \ x) ) implies for I being Ideal of X holds I is commutative Ideal of X )
proof
assume for I being Ideal of X holds I is commutative Ideal of X ; :: thesis: for x, y being Element of X holds x \ (x \ y) <= y \ (y \ x)
then X is commutative BCK-algebra by Th37;
hence for x, y being Element of X holds x \ (x \ y) <= y \ (y \ x) by BCIALG_3:1; :: thesis: verum
end;
assume for x, y being Element of X holds x \ (x \ y) <= y \ (y \ x) ; :: thesis: for I being Ideal of X holds I is commutative Ideal of X
then X is commutative BCK-algebra by BCIALG_3:1;
hence for I being Ideal of X holds I is commutative Ideal of X by Th37; :: thesis: verum