let n be Nat; for C being connected compact non horizontal non vertical Subset of (TOP-REAL 2) holds E-bound (L~ (Cage (C,n))) = (E-bound C) + (((E-bound C) - (W-bound C)) / (2 |^ n))
let C be connected compact non horizontal non vertical Subset of (TOP-REAL 2); E-bound (L~ (Cage (C,n))) = (E-bound C) + (((E-bound C) - (W-bound C)) / (2 |^ n))
set a = N-bound C;
set s = S-bound C;
set w = W-bound C;
set e = E-bound C;
set f = Cage (C,n);
set G = Gauge (C,n);
consider p, q being Nat such that
A1:
( 1 <= p & p < len (Cage (C,n)) )
and
A2:
( 1 <= q & q <= width (Gauge (C,n)) )
and
A3:
(Cage (C,n)) /. p = (Gauge (C,n)) * ((len (Gauge (C,n))),q)
by Th57;
(Cage (C,n)) /. p in E-most (L~ (Cage (C,n)))
by A1, A2, A3, Th61;
then A4:
((Cage (C,n)) /. p) `1 = (E-min (L~ (Cage (C,n)))) `1
by PSCOMP_1:47;
4 <= len (Gauge (C,n))
by JORDAN8:10;
then
1 <= len (Gauge (C,n))
by XXREAL_0:2;
then A5:
[(len (Gauge (C,n))),q] in Indices (Gauge (C,n))
by A2, MATRIX_0:30;
thus E-bound (L~ (Cage (C,n))) =
(E-min (L~ (Cage (C,n)))) `1
by EUCLID:52
.=
|[((W-bound C) + ((((E-bound C) - (W-bound C)) / (2 |^ n)) * ((len (Gauge (C,n))) - 2))),((S-bound C) + ((((N-bound C) - (S-bound C)) / (2 |^ n)) * (q - 2)))]| `1
by A3, A4, A5, JORDAN8:def 1
.=
(W-bound C) + ((((E-bound C) - (W-bound C)) / (2 |^ n)) * ((len (Gauge (C,n))) - 2))
by EUCLID:52
.=
(E-bound C) + (((E-bound C) - (W-bound C)) / (2 |^ n))
by Lm10
; verum