let n be Element of NAT ; :: thesis:
let C be connected compact non horizontal non vertical Subset of (TOP-REAL 2); :: thesis:
let j be Element of NAT ; :: thesis:
assume that
A1: (Gauge C,(n + 1)) * (Center (Gauge C,(n + 1))),j in Upper_Arc (L~ (Cage C,(n + 1))) and
A2: 1 <= j and
A3: j <= width (Gauge C,(n + 1)) ; :: thesis:
set in1 = Center (Gauge C,(n + 1));
A4: 1 <= Center (Gauge C,(n + 1)) by JORDAN1B:12;
A5: Upper_Arc (L~ (Cage C,(n + 1))) c= L~ (Cage C,(n + 1)) by JORDAN6:76;
A6: Center (Gauge C,(n + 1)) <= len (Gauge C,(n + 1)) by JORDAN1B:14;
n + 1 >= 0 + 1 by NAT_1:11;
then LSeg ((Gauge C,(n + 1)) * (Center (Gauge C,(n + 1))),1),((Gauge C,(n + 1)) * (Center (Gauge C,(n + 1))),j) c= LSeg ((Gauge C,1) * (Center (Gauge C,1)),1),((Gauge C,(n + 1)) * (Center (Gauge C,(n + 1))),j) by A2, A3, JORDAN1A:66;
hence LSeg ((Gauge C,1) * (Center (Gauge C,1)),1),((Gauge C,(n + 1)) * (Center (Gauge C,(n + 1))),j) meets Lower_Arc (L~ (Cage C,(n + 1))) by A1, A2, A3, A4, A6, A5, JORDAN1G:65, XBOOLE_1:63; :: thesis: