let P be compact Subset of (TOP-REAL 2); :: thesis: ( |[(- 1),0 ]|,|[1,0 ]| realize-max-dist-in P implies ( E-min P = |[1,0 ]| & E-max P = |[1,0 ]| ) )
set M = E-most P;
assume A1: |[(- 1),0 ]|,|[1,0 ]| realize-max-dist-in P ; :: thesis: ( E-min P = |[1,0 ]| & E-max P = |[1,0 ]| )
then A2: E-most P = {|[1,0 ]|} by Th78;
set f = proj2 | (E-most P);
A3: dom (proj2 | (E-most P)) = the carrier of ((TOP-REAL 2) | (E-most P)) by FUNCT_2:def 1;
A4: the carrier of ((TOP-REAL 2) | (E-most P)) = E-most P by PRE_TOPC:29;
A5: |[1,0 ]| in {|[1,0 ]|} by TARSKI:def 1;
A6: (proj2 | (E-most P)) .: the carrier of ((TOP-REAL 2) | (E-most P)) = Im (proj2 | (E-most P)),|[1,0 ]| by A1, A4, Th78
.= {((proj2 | (E-most P)) . |[1,0 ]|)} by A2, A3, A4, A5, FUNCT_1:117
.= {(proj2 . |[1,0 ]|)} by A2, A5, FUNCT_1:72
.= {(|[1,0 ]| `2 )} by PSCOMP_1:def 29 ;
then A7: inf (proj2 | (E-most P)) = |[1,0 ]| `2 by SEQ_4:22;
A8: sup (proj2 | (E-most P)) = |[1,0 ]| `2 by A6, SEQ_4:22;
|[1,0 ]| = |[(|[1,0 ]| `1 ),(|[1,0 ]| `2 )]| by EUCLID:57;
hence ( E-min P = |[1,0 ]| & E-max P = |[1,0 ]| ) by A1, A7, A8, Lm17, Th76; :: thesis: verum