let m be Nat; :: thesis:
set f = x_r-seq m;
A1: len (sqr (cosec (x_r-seq m))) = len (cosec (x_r-seq m)) by CARD_1:def 7;
A2: len (cosec (x_r-seq m)) = len (x_r-seq m) by CARD_1:def 7;
A3: len (x_r-seq m) = m by Th19;
A4: len (1 + (sqr (cot (x_r-seq m)))) = len (sqr (cot (x_r-seq m))) by CARD_1:def 7;
A5: len (sqr (cot (x_r-seq m))) = len (cot (x_r-seq m)) by CARD_1:def 7;
A6: len (cot (x_r-seq m)) = len (x_r-seq m) by CARD_1:def 7;
thus len (sqr (cosec (x_r-seq m))) = len (1 + (sqr (cot (x_r-seq m)))) by A1, A2, A4, A5, CARD_1:def 7; :: according to FINSEQ_1:def 18 :: thesis:
let k be Nat; :: thesis:
assume that
A7: 1 <= k and
A8: k <= len (sqr (cosec (x_r-seq m))) ; :: thesis:
A9: k in dom (x_r-seq m) by A1, A2, A7, A8, FINSEQ_3:25;
then A10: (cosec (x_r-seq m)) . k = cosec ((x_r-seq m) . k) by Def4;
A11: (sqr (cot (x_r-seq m))) . k = ((cot (x_r-seq m)) . k) ^2 by VALUED_1:11;
A12: (cot (x_r-seq m)) . k = cot ((x_r-seq m) . k) by A9, Def3;
A13: 0 < (x_r-seq m) . k by A1, A2, A3, A7, A8, Th21;
A14: (x_r-seq m) . k < PI / 2 by A1, A2, A3, A7, A8, Th21;
PI / 2 < PI / 1 by XREAL_1:76;
then (x_r-seq m) . k < PI by A14, XXREAL_0:2;
then (x_r-seq m) . k in ].0,PI.[ by A13, XXREAL_1:4;
then sin ((x_r-seq m) . k) <> 0 by COMPTRIG:7;
then A15: (cosec ((x_r-seq m) . k)) ^2 = 1 + ((cot ((x_r-seq m) . k)) ^2) by SIN_COS5:14;
k in dom (1 + (sqr (cot (x_r-seq m)))) by A1, A2, A4, A5, A6, A7, A8, FINSEQ_3:25;
hence (1 + (sqr (cot (x_r-seq m)))) . k = ((cosec (x_r-seq m)) . k) ^2 by A10, A11, A12, A15, VALUED_1:def 2
.= (sqr (cosec (x_r-seq m))) . k by VALUED_1:11 ;
:: thesis: