let p1, p2, p be Point of (TOP-REAL 2); :: thesis: for a being Real st p in LSeg (p1,p2) & p1 `1 >= a & p2 `1 >= a holds
p `1 >= a
let a be Real; :: thesis: ( p in LSeg (p1,p2) & p1 `1 >= a & p2 `1 >= a implies p `1 >= a )
assume that
A1: p in LSeg (p1,p2) and
A2: p1 `1 >= a and
A3: p2 `1 >= a ; :: thesis: p `1 >= a
consider r being Real such that
A4: p = ((1 - r) * p1) + (r * p2) and
A5: 0 <= r and
A6: r <= 1 by A1;
A7: p `1 = (((1 - r) * p1) `1) + ((r * p2) `1) by A4, TOPREAL3:2
.= (((1 - r) * p1) `1) + (r * (p2 `1)) by TOPREAL3:4
.= ((1 - r) * (p1 `1)) + (r * (p2 `1)) by TOPREAL3:4 ;
1 - r >= 0 by A6, XREAL_1:48;
then A8: (1 - r) * (p1 `1) >= (1 - r) * a by A2, XREAL_1:64;
A9: ((1 - r) * a) + (r * a) = a ;
r * (p2 `1) >= r * a by A3, A5, XREAL_1:64;
hence p `1 >= a by A7, A8, A9, XREAL_1:7; :: thesis: verum