let seq be Complex_Sequence; ( ( for n being Nat holds seq . n = 0c ) implies seq is absolutely_summable )
assume A1:
for n being Nat holds seq . n = 0c
; seq is absolutely_summable
take
0
; COMSEQ_2:def 5,SERIES_1:def 2,COMSEQ_3:def 9 for b1 being object holds
( b1 <= 0 or ex b2 being set st
for b3 being set holds
( not b2 <= b3 or not b1 <= |.(((Partial_Sums |.seq.|) . b3) - 0).| ) )
let p be Real; ( p <= 0 or ex b1 being set st
for b2 being set holds
( not b1 <= b2 or not p <= |.(((Partial_Sums |.seq.|) . b2) - 0).| ) )
assume A2:
0 < p
; ex b1 being set st
for b2 being set holds
( not b1 <= b2 or not p <= |.(((Partial_Sums |.seq.|) . b2) - 0).| )
take
0
; for b1 being set holds
( not 0 <= b1 or not p <= |.(((Partial_Sums |.seq.|) . b1) - 0).| )
let m be Nat; ( not 0 <= m or not p <= |.(((Partial_Sums |.seq.|) . m) - 0).| )
|.(((Partial_Sums |.seq.|) . m) - 0).| =
|.(0 - 0).|
by A1, Th25
.=
0
by ABSVALUE:def 1
;
hence
( not 0 <= m or not p <= |.(((Partial_Sums |.seq.|) . m) - 0).| )
by A2; verum