let n be Element of NAT ; for C being being_simple_closed_curve Subset of (TOP-REAL 2) st n is_sufficiently_large_for C holds
cell (Gauge C,n),((X-SpanStart C,n) -' 1),(Y-SpanStart C,n) c= BDD C
let C be being_simple_closed_curve Subset of (TOP-REAL 2); ( n is_sufficiently_large_for C implies cell (Gauge C,n),((X-SpanStart C,n) -' 1),(Y-SpanStart C,n) c= BDD C )
assume A1:
n is_sufficiently_large_for C
; cell (Gauge C,n),((X-SpanStart C,n) -' 1),(Y-SpanStart C,n) c= BDD C
then
Y-SpanStart C,n <= ((2 |^ (n -' (ApproxIndex C))) * ((Y-InitStart C) -' 2)) + 2
by Th5;
hence
cell (Gauge C,n),((X-SpanStart C,n) -' 1),(Y-SpanStart C,n) c= BDD C
by A1, Def3; verum