let i, n be Element of NAT ; for T being non empty Subset of (TOP-REAL 2) st 1 <= i & i <= len (Gauge T,n) holds
((Gauge T,n) * i,((len (Gauge T,n)) -' 1)) `2 = N-bound T
let T be non empty Subset of (TOP-REAL 2); ( 1 <= i & i <= len (Gauge T,n) implies ((Gauge T,n) * i,((len (Gauge T,n)) -' 1)) `2 = N-bound T )
set G = Gauge T,n;
set W = W-bound T;
set S = S-bound T;
set E = E-bound T;
set N = N-bound T;
assume that
A1:
1 <= i
and
A2:
i <= len (Gauge T,n)
; ((Gauge T,n) * i,((len (Gauge T,n)) -' 1)) `2 = N-bound T
A3:
len (Gauge T,n) = (2 |^ n) + 3
by Def1;
A4:
len (Gauge T,n) = width (Gauge T,n)
by Def1;
A5:
len (Gauge T,n) >= 4
by Th13;
then
1 < len (Gauge T,n)
by XXREAL_0:2;
then A6:
1 <= (len (Gauge T,n)) -' 1
by NAT_D:49;
A7: ((len (Gauge T,n)) -' 1) - 2 =
((len (Gauge T,n)) - 1) - 2
by A5, XREAL_1:235, XXREAL_0:2
.=
2 |^ n
by A3
;
A8:
2 |^ n > 0
by NEWTON:102;
(len (Gauge T,n)) -' 1 <= len (Gauge T,n)
by NAT_D:35;
then
[i,((len (Gauge T,n)) -' 1)] in Indices (Gauge T,n)
by A1, A2, A4, A6, MATRIX_1:37;
then
(Gauge T,n) * i,((len (Gauge T,n)) -' 1) = |[((W-bound T) + ((((E-bound T) - (W-bound T)) / (2 |^ n)) * (i - 2))),((S-bound T) + ((((N-bound T) - (S-bound T)) / (2 |^ n)) * (((len (Gauge T,n)) -' 1) - 2)))]|
by Def1;
hence ((Gauge T,n) * i,((len (Gauge T,n)) -' 1)) `2 =
(S-bound T) + ((((N-bound T) - (S-bound T)) / (2 |^ n)) * (2 |^ n))
by A7, EUCLID:56
.=
(S-bound T) + ((N-bound T) - (S-bound T))
by A8, XCMPLX_1:88
.=
N-bound T
;
verum