let k, m be Nat; ( 1 <= k & k <= m implies ( 0 < (x_r-seq m) . k & (x_r-seq m) . k < PI / 2 ) )
set f = x_r-seq m;
A1:
rng (x_r-seq m) c= ].0,(PI / 2).[
by Th20;
A2:
len (x_r-seq m) = m
by Th19;
assume
( 1 <= k & k <= m )
; ( 0 < (x_r-seq m) . k & (x_r-seq m) . k < PI / 2 )
then
k in dom (x_r-seq m)
by A2, FINSEQ_3:25;
then
(x_r-seq m) . k in rng (x_r-seq m)
by FUNCT_1:def 3;
hence
( 0 < (x_r-seq m) . k & (x_r-seq m) . k < PI / 2 )
by A1, XXREAL_1:4; verum