let s1, s2 be Real_Sequence; :: thesis: ( s1 is summable & s2 is summable implies ( s1 + s2 is summable & Sum (s1 + s2) = (Sum s1) + (Sum s2) ) )
assume ( s1 is summable & s2 is summable ) ; :: thesis: ( s1 + s2 is summable & Sum (s1 + s2) = (Sum s1) + (Sum s2) )
then A1: ( Partial_Sums s1 is convergent & Partial_Sums s2 is convergent ) by Def2;
then (Partial_Sums s1) + (Partial_Sums s2) is convergent ;
then Partial_Sums (s1 + s2) is convergent by Th8;
hence s1 + s2 is summable by Def2; :: thesis: Sum (s1 + s2) = (Sum s1) + (Sum s2)
thus Sum (s1 + s2) = lim ((Partial_Sums s1) + (Partial_Sums s2)) by Th8
.= (Sum s1) + (Sum s2) by A1, SEQ_2:6 ; :: thesis: verum