let X be non empty TopSpace; :: thesis: for X1, X2 being non empty closed SubSpace of X holds X1 union X2 is closed SubSpace of X
let X1, X2 be non empty closed SubSpace of X; :: thesis: X1 union X2 is closed SubSpace of X
reconsider A2 = the carrier of X2 as Subset of X by Th1;
reconsider A1 = the carrier of X1 as Subset of X by Th1;
reconsider A = the carrier of (X1 union X2) as Subset of X by Th1;
( A1 is closed & A2 is closed ) by Th11;
then A1 \/ A2 is closed ;
then A is closed by Def2;
hence X1 union X2 is closed SubSpace of X by Th11; :: thesis: verum