let x be set ; :: according to TARSKI:def 3 :: thesis: ( not x in Ball pe,((t - s1) / 2) or x in P )
assume x in Ball pe,((t - s1) / 2) ; :: thesis: x in P
then x in { q where q is Element of (Euclid 2) : dist pe,q < (t - s1) / 2 } by METRIC_1:18;
then consider q being Element of (Euclid 2) such that
A6: q = x and
A7: dist pe,q < (t - s1) / 2 ;
reconsider ppe = pe, pq = q as Point of (TOP-REAL 2) by EUCLID:25;
(Pitag_dist 2) . pe,q = dist pe,q by METRIC_1:def 1;
then A8: sqrt ((((ppe `1 ) - (pq `1 )) ^2 ) + (((ppe `2 ) - (pq `2 )) ^2 )) < (t - s1) / 2 by A7, TOPREAL3:12;
A9: 0 <= ((ppe `1 ) - (pq `1 )) ^2 by XREAL_1:65;
0 <= ((ppe `2 ) - (pq `2 )) ^2 by XREAL_1:65;
then A10: 0 + 0 <= (((ppe `1 ) - (pq `1 )) ^2 ) + (((ppe `2 ) - (pq `2 )) ^2 ) by A9, XREAL_1:9;
then 0 <= sqrt ((((ppe `1 ) - (pq `1 )) ^2 ) + (((ppe `2 ) - (pq `2 )) ^2 )) by SQUARE_1:def 4;
then (sqrt ((((ppe `1 ) - (pq `1 )) ^2 ) + (((ppe `2 ) - (pq `2 )) ^2 ))) ^2 < ((t - s1) / 2) ^2 by A8, SQUARE_1:78;
then A11: (((ppe `1 ) - (pq `1 )) ^2 ) + (((ppe `2 ) - (pq `2 )) ^2 ) < ((t - s1) / 2) ^2 by A10, SQUARE_1:def 4;
((ppe `2 ) - (pq `2 )) ^2 <= (((ppe `2 ) - (pq `2 )) ^2 ) + (((ppe `1 ) - (pq `1 )) ^2 ) by XREAL_1:33, XREAL_1:65;
then ((ppe `2 ) - (pq `2 )) ^2 < ((t - s1) / 2) ^2 by A11, XXREAL_0:2;
then (ppe `2 ) - (pq `2 ) < (t - s1) / 2 by A5, SQUARE_1:77;
then ppe `2 < (pq `2 ) + ((t - s1) / 2) by XREAL_1:21;
then (ppe `2 ) - ((t - s1) / 2) < pq `2 by XREAL_1:21;
then A12: t - ((t - s1) / 2) < pq `2 by A2, EUCLID:56;
t - ((t - s1) / 2) = ((t - s1) / 2) + s1 ;
then A13: s1 < t - ((t - s1) / 2) by A4, XREAL_1:31, XREAL_1:141;
A14: |[(pq `1 ),(pq `2 )]| = x by A6, EUCLID:57;
s1 < pq `2 by A12, A13, XXREAL_0:2;
hence x in P by A1, A14; :: thesis: verum