let V be RealUnitarySpace; :: thesis: for W being Subspace of V
for u, v being VECTOR of V holds
( u + v in v + W iff u in W )
let W be Subspace of V; :: thesis: for u, v being VECTOR of V holds
( u + v in v + W iff u in W )
let u, v be VECTOR of V; :: thesis: ( u + v in v + W iff u in W )
thus ( u + v in v + W implies u in W ) :: thesis: ( u in W implies u + v in v + W )
proof
assume u + v in v + W ; :: thesis: u in W
then ex v1 being VECTOR of V st
( u + v = v + v1 & v1 in W ) ;
hence u in W by RLVECT_1:8; :: thesis: verum
end;
assume u in W ; :: thesis: u + v in v + W
hence u + v in v + W ; :: thesis: verum