let seq, seq1 be Real_Sequence; ( seq is divergent_to+infty & ( for n being Nat holds seq . n <= seq1 . n ) implies seq1 is divergent_to+infty )
assume that
A1:
seq is divergent_to+infty
and
A2:
for n being Nat holds seq . n <= seq1 . n
; seq1 is divergent_to+infty
let r be Real; LIMFUNC1:def 4 ex n being Nat st
for m being Nat st n <= m holds
r < seq1 . m
consider n being Nat such that
A3:
for m being Nat st n <= m holds
r < seq . m
by A1;
take
n
; for m being Nat st n <= m holds
r < seq1 . m
let m be Nat; ( n <= m implies r < seq1 . m )
assume
n <= m
; r < seq1 . m
then A4:
r < seq . m
by A3;
seq . m <= seq1 . m
by A2;
hence
r < seq1 . m
by A4, XXREAL_0:2; verum