( the carrier of l2_Space = the_set_of_l2RealSequences & ( for x being set holds
( x is VECTOR of l2_Space iff ( x is Real_Sequence & (seq_id x) (#) (seq_id x) is summable ) ) ) & 0. l2_Space = Zeroseq & ( for u being VECTOR of l2_Space holds u = seq_id u ) & ( for u, v being VECTOR of l2_Space holds u + v = (seq_id u) + (seq_id v) ) & ( for r being Real
for u being VECTOR of l2_Space holds r * u = r (#) (seq_id u) ) & ( for u being VECTOR of l2_Space holds
( - u = - (seq_id u) & seq_id (- u) = - (seq_id u) ) ) & ( for u, v being VECTOR of l2_Space holds u - v = (seq_id u) - (seq_id v) ) & ( for v, w being VECTOR of l2_Space holds (seq_id v) (#) (seq_id w) is summable ) & ( for v, w being VECTOR of l2_Space holds v .|. w = Sum ((seq_id v) (#) (seq_id w)) ) )