let i, j, n be Nat; for C being compact non horizontal non vertical Subset of (TOP-REAL 2) st [i,j] in Indices (Gauge (C,n)) & [i,(j + 1)] in Indices (Gauge (C,n)) holds
dist (((Gauge (C,n)) * (i,j)),((Gauge (C,n)) * (i,(j + 1)))) = ((N-bound C) - (S-bound C)) / (2 |^ n)
let C be compact non horizontal non vertical Subset of (TOP-REAL 2); ( [i,j] in Indices (Gauge (C,n)) & [i,(j + 1)] in Indices (Gauge (C,n)) implies dist (((Gauge (C,n)) * (i,j)),((Gauge (C,n)) * (i,(j + 1)))) = ((N-bound C) - (S-bound C)) / (2 |^ n) )
set G = Gauge (C,n);
set a = N-bound C;
set e = E-bound C;
set s = S-bound C;
set w = W-bound C;
set p1 = (Gauge (C,n)) * (i,j);
set p2 = (Gauge (C,n)) * (i,(j + 1));
assume that
A1:
[i,j] in Indices (Gauge (C,n))
and
A2:
[i,(j + 1)] in Indices (Gauge (C,n))
; dist (((Gauge (C,n)) * (i,j)),((Gauge (C,n)) * (i,(j + 1)))) = ((N-bound C) - (S-bound C)) / (2 |^ n)
A3:
(Gauge (C,n)) * (i,(j + 1)) = |[((W-bound C) + ((((E-bound C) - (W-bound C)) / (2 |^ n)) * (i - 2))),((S-bound C) + ((((N-bound C) - (S-bound C)) / (2 |^ n)) * ((j + 1) - 2)))]|
by A2, JORDAN8:def 1;
N-bound C >= S-bound C
by SPRECT_1:22;
then A4:
(N-bound C) - (S-bound C) >= (S-bound C) - (S-bound C)
by XREAL_1:9;
set x = ((N-bound C) - (S-bound C)) / (2 |^ n);
consider p, q being Point of (Euclid 2) such that
A5:
( p = (Gauge (C,n)) * (i,j) & q = (Gauge (C,n)) * (i,(j + 1)) )
and
A6:
dist (((Gauge (C,n)) * (i,j)),((Gauge (C,n)) * (i,(j + 1)))) = dist (p,q)
by TOPREAL6:def 1;
A7:
(Gauge (C,n)) * (i,j) = |[((W-bound C) + ((((E-bound C) - (W-bound C)) / (2 |^ n)) * (i - 2))),((S-bound C) + ((((N-bound C) - (S-bound C)) / (2 |^ n)) * (j - 2)))]|
by A1, JORDAN8:def 1;
dist (p,q) =
(Pitag_dist 2) . (p,q)
by METRIC_1:def 1
.=
sqrt ((((((Gauge (C,n)) * (i,j)) `1) - (((Gauge (C,n)) * (i,(j + 1))) `1)) ^2) + (((((Gauge (C,n)) * (i,j)) `2) - (((Gauge (C,n)) * (i,(j + 1))) `2)) ^2))
by A5, TOPREAL3:7
.=
sqrt (((((W-bound C) + ((((E-bound C) - (W-bound C)) / (2 |^ n)) * (i - 2))) - (((Gauge (C,n)) * (i,(j + 1))) `1)) ^2) + (((((Gauge (C,n)) * (i,j)) `2) - (((Gauge (C,n)) * (i,(j + 1))) `2)) ^2))
by A7
.=
sqrt (((((W-bound C) + ((((E-bound C) - (W-bound C)) / (2 |^ n)) * (i - 2))) - ((W-bound C) + ((((E-bound C) - (W-bound C)) / (2 |^ n)) * (i - 2)))) ^2) + (((((Gauge (C,n)) * (i,j)) `2) - (((Gauge (C,n)) * (i,(j + 1))) `2)) ^2))
by A3
.=
|.((((Gauge (C,n)) * (i,j)) `2) - (((Gauge (C,n)) * (i,(j + 1))) `2)).|
by COMPLEX1:72
.=
|.(((S-bound C) + ((((N-bound C) - (S-bound C)) / (2 |^ n)) * (j - 2))) - (((Gauge (C,n)) * (i,(j + 1))) `2)).|
by A7
.=
|.(((S-bound C) + ((((N-bound C) - (S-bound C)) / (2 |^ n)) * (j - 2))) - ((S-bound C) + ((((N-bound C) - (S-bound C)) / (2 |^ n)) * ((j + 1) - 2)))).|
by A3
.=
|.(- (((N-bound C) - (S-bound C)) / (2 |^ n))).|
.=
|.(((N-bound C) - (S-bound C)) / (2 |^ n)).|
by COMPLEX1:52
.=
|.((N-bound C) - (S-bound C)).| / |.(2 |^ n).|
by COMPLEX1:67
.=
((N-bound C) - (S-bound C)) / |.(2 |^ n).|
by A4, ABSVALUE:def 1
;
hence
dist (((Gauge (C,n)) * (i,j)),((Gauge (C,n)) * (i,(j + 1)))) = ((N-bound C) - (S-bound C)) / (2 |^ n)
by A6, ABSVALUE:def 1; verum