let p, q be Point of (TOP-REAL 2); :: thesis:
let f be Function of (TOP-REAL 2),(TOP-REAL 2); :: thesis:
assume A1: ( f = Sq_Circ & p in LSeg |[(- 1),(- 1)]|,|[(- 1),1]| & q in LSeg |[1,(- 1)]|,|[(- 1),(- 1)]| ) ; :: thesis:
then A2: ( p `1 = - 1 & - 1 <= p `2 & p `2 <= 1 ) by Th9;
A3: ( q `2 = - 1 & - 1 <= q `1 & q `1 <= 1 ) by A1, Th11;
A4: p <> 0. (TOP-REAL 2) by A2, EUCLID:56, EUCLID:58;
A5: q <> 0. (TOP-REAL 2) by A3, EUCLID:56, EUCLID:58;
p `2 <= - (p `1 ) by A2;
then f . p = |[((p `1 ) / (sqrt (1 + (((p `2 ) / (p `1 )) ^2 )))),((p `2 ) / (sqrt (1 + (((p `2 ) / (p `1 )) ^2 ))))]| by A1, A2, A4, JGRAPH_3:def 1;
then A6: (f . p) `1 = (- 1) / (sqrt (1 + (((p `2 ) / (- 1)) ^2 ))) by A2, EUCLID:56
.= (- 1) / (sqrt (1 + ((p `2 ) ^2 ))) ;
A7: (p `2 ) ^2 >= 0 by XREAL_1:65;
A8: sqrt (1 + ((p `2 ) ^2 )) > 0 by A7, SQUARE_1:93;
A9: (q `1 ) ^2 >= 0 by XREAL_1:65;
A10: sqrt (1 + ((q `1 ) ^2 )) > 0 by A9, SQUARE_1:93;
q `1 <= - (q `2 ) by A3;
then f . q = |[((q `1 ) / (sqrt (1 + (((q `1 ) / (q `2 )) ^2 )))),((q `2 ) / (sqrt (1 + (((q `1 ) / (q `2 )) ^2 ))))]| by A1, A3, A5, JGRAPH_3:14;
then A11: (f . q) `1 = (q `1 ) / (sqrt (1 + (((q `1 ) / (- 1)) ^2 ))) by A3, EUCLID:56
.= (q `1 ) / (sqrt (1 + ((q `1 ) ^2 ))) ;
- (sqrt (1 + ((q `1 ) ^2 ))) <= (q `1 ) * (sqrt (1 + ((p `2 ) ^2 ))) by A2, A3, SQUARE_1:125;
then ((- 1) * (sqrt (1 + ((q `1 ) ^2 )))) / (sqrt (1 + ((q `1 ) ^2 ))) <= ((q `1 ) * (sqrt (1 + ((p `2 ) ^2 )))) / (sqrt (1 + ((q `1 ) ^2 ))) by A10, XREAL_1:74;
then - 1 <= ((q `1 ) * (sqrt (1 + ((p `2 ) ^2 )))) / (sqrt (1 + ((q `1 ) ^2 ))) by A10, XCMPLX_1:90;
then - 1 <= ((q `1 ) / (sqrt (1 + ((q `1 ) ^2 )))) * (sqrt (1 + ((p `2 ) ^2 ))) by XCMPLX_1:75;
then (- 1) / (sqrt (1 + ((p `2 ) ^2 ))) <= (((q `1 ) / (sqrt (1 + ((q `1 ) ^2 )))) * (sqrt (1 + ((p `2 ) ^2 )))) / (sqrt (1 + ((p `2 ) ^2 ))) by A8, XREAL_1:74;
hence (f . p) `1 <= (f . q) `1 by A6, A8, A11, XCMPLX_1:90; :: thesis: