assume
number_e is rational
; contradiction
then consider n being Nat such that
A1:
n >= 2
and
A2:
(n !) * number_e is integer
by Th31;
reconsider ne = (n !) * number_e as Integer by A2;
set x = 1 / (n + 1);
reconsider ne1 = (n !) * ((Partial_Sums eseq) . n) as Integer by Th37;
(n !) * number_e =
(n !) * (((Partial_Sums eseq) . n) + (Sum (eseq ^\ (n + 1))))
by Th23, SERIES_1:15
.=
((n !) * ((Partial_Sums eseq) . n)) + ((n !) * (Sum (eseq ^\ (n + 1))))
;
then A3:
(n !) * (Sum (eseq ^\ (n + 1))) = ne - ne1
;
( (1 / (n + 1)) / (1 - (1 / (n + 1))) < 1 & (n !) * (Sum (eseq ^\ (n + 1))) <= (1 / (n + 1)) / (1 - (1 / (n + 1))) )
by A1, Th39, Th40;
then
(n !) * (Sum (eseq ^\ (n + 1))) < 0 + 1
by XXREAL_0:2;
hence
contradiction
by A3, Th35, INT_1:7; verum