let m, n, j be Element of NAT ; :: thesis:
let E be compact non horizontal non vertical Subset of (TOP-REAL 2); :: thesis:
set a = N-bound E;
set s = S-bound E;
set w = W-bound E;
set e = E-bound E;
set G = Gauge E,n;
set M = Gauge E,m;
set sn = Center (Gauge E,n);
set sm = Center (Gauge E,m);
assume that
A1: 1 <= m and
A2: m <= n and
A3: 1 <= j and
A4: j <= width (Gauge E,n) ; :: thesis:
A5: ( 1 <= Center (Gauge E,m) & Center (Gauge E,m) <= len (Gauge E,m) ) by Lm3;
A6: ( 1 <= Center (Gauge E,n) & Center (Gauge E,n) <= len (Gauge E,n) ) by Lm3;
then A7: ((Gauge E,n) * (Center (Gauge E,n)),(len (Gauge E,n))) `2 <= ((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) `2 by A2, A5, Th61;
len (Gauge E,n) = width (Gauge E,n) by JORDAN8:def 1;
then ((Gauge E,n) * (Center (Gauge E,n)),j) `2 <= ((Gauge E,n) * (Center (Gauge E,n)),(len (Gauge E,n))) `2 by A3, A4, A6, SPRECT_3:24;
then A8: ((Gauge E,n) * (Center (Gauge E,n)),j) `2 <= ((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) `2 by A7, XXREAL_0:2;
A9: 0 < (N-bound E) - (S-bound E) by SPRECT_1:34, XREAL_1:52;
then A10: (S-bound E) - (((N-bound E) - (S-bound E)) / (2 |^ m)) <= (S-bound E) - 0 by XREAL_1:15;
A11: 1 <= len (Gauge E,m) by GOBRD11:34;
then [(Center (Gauge E,m)),1] in Indices (Gauge E,m) by Lm4;
then A12: ((Gauge E,m) * (Center (Gauge E,m)),1) `2 = (S-bound E) - (((N-bound E) - (S-bound E)) / (2 |^ m)) by Lm11;
A13: ((N-bound E) - (S-bound E)) / (2 |^ n) <= ((N-bound E) - (S-bound E)) / (2 |^ m) by A2, A9, Lm7;
A14: len (Gauge E,n) = width (Gauge E,n) by JORDAN8:def 1;
then A15: [(Center (Gauge E,n)),j] in Indices (Gauge E,n) by A3, A4, Lm4;
then A16: ((Gauge E,n) * (Center (Gauge E,n)),j) `2 = |[((W-bound E) + ((((E-bound E) - (W-bound E)) / (2 |^ n)) * ((Center (Gauge E,n)) - 2))),((S-bound E) + ((((N-bound E) - (S-bound E)) / (2 |^ n)) * (j - 2)))]| `2 by JORDAN8:def 1
.= (S-bound E) + ((((N-bound E) - (S-bound E)) / (2 |^ n)) * (j - 2)) by EUCLID:56 ;

A17: now

per cases by A3, XXREAL_0:1;

suppose j = 1 ; :: thesis:

then ((Gauge E,n) * (Center (Gauge E,n)),j) `2 = (S-bound E) - (((N-bound E) - (S-bound E)) / (2 |^ n)) by A15, Lm11;
hence ((Gauge E,m) * (Center (Gauge E,m)),1) `2 <= ((Gauge E,n) * (Center (Gauge E,n)),j) `2 by A13, A12, XREAL_1:15; :: thesis:

end;

suppose j > 1 ; :: thesis:

then j >= 1 + 1 by NAT_1:13;
then j - 2 >= 2 - 2 by XREAL_1:11;
then (S-bound E) + 0 <= (S-bound E) + ((((N-bound E) - (S-bound E)) / (2 |^ n)) * (j - 2)) by A9, XREAL_1:8;
hence ((Gauge E,m) * (Center (Gauge E,m)),1) `2 <= ((Gauge E,n) * (Center (Gauge E,n)),j) `2 by A12, A16, A10, XXREAL_0:2; :: thesis:

end;

len (Gauge E,m) = width (Gauge E,m) by JORDAN8:def 1;
then A18: ((Gauge E,m) * (Center (Gauge E,m)),1) `2 <= ((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) `2 by A11, A5, SPRECT_3:24;
((Gauge E,m) * (Center (Gauge E,m)),1) `1 = ((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) `1 by A1, A11, Th57;
then A19: (Gauge E,m) * (Center (Gauge E,m)),1 in LSeg ((Gauge E,m) * (Center (Gauge E,m)),1),((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) by A18, GOBOARD7:8;
( ((Gauge E,m) * (Center (Gauge E,m)),1) `1 = ((Gauge E,n) * (Center (Gauge E,n)),j) `1 & ((Gauge E,n) * (Center (Gauge E,n)),j) `1 = ((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) `1 ) by A1, A2, A3, A4, A11, A14, Th57;
then (Gauge E,n) * (Center (Gauge E,n)),j in LSeg ((Gauge E,m) * (Center (Gauge E,m)),1),((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) by A17, A8, GOBOARD7:8;
hence LSeg ((Gauge E,m) * (Center (Gauge E,m)),1),((Gauge E,n) * (Center (Gauge E,n)),j) c= LSeg ((Gauge E,m) * (Center (Gauge E,m)),1),((Gauge E,m) * (Center (Gauge E,m)),(len (Gauge E,m))) by A19, TOPREAL1:12; :: thesis: