let p1, p2, p3, p4, p be Point of (TOP-REAL 2); :: thesis: for a, b, r being real number st p1 in circle a,b,r & p2 in circle a,b,r & p3 in circle a,b,r & p4 in circle a,b,r & p in LSeg p1,p3 & p in LSeg p2,p4 & p1,p2,p3,p4 are_mutually_different holds
angle p1,p4,p2 = angle p1,p3,p2
let a, b, r be real number ; :: thesis: ( p1 in circle a,b,r & p2 in circle a,b,r & p3 in circle a,b,r & p4 in circle a,b,r & p in LSeg p1,p3 & p in LSeg p2,p4 & p1,p2,p3,p4 are_mutually_different implies angle p1,p4,p2 = angle p1,p3,p2 )
assume that
A1: p1 in circle a,b,r and
A2: p2 in circle a,b,r and
A3: p3 in circle a,b,r and
A4: p4 in circle a,b,r ; :: thesis: ( not p in LSeg p1,p3 or not p in LSeg p2,p4 or not p1,p2,p3,p4 are_mutually_different or angle p1,p4,p2 = angle p1,p3,p2 )
A5: (LSeg p1,p3) \ {p1,p3} c= inside_of_circle a,b,r by A1, A3, TOPREAL9:60;
assume that
A6: p in LSeg p1,p3 and
A7: p in LSeg p2,p4 ; :: thesis: ( not p1,p2,p3,p4 are_mutually_different or angle p1,p4,p2 = angle p1,p3,p2 )
assume A8: p1,p2,p3,p4 are_mutually_different ; :: thesis: angle p1,p4,p2 = angle p1,p3,p2
then A9: p1 <> p2 by ZFMISC_1:def 6;
A10: p3 <> p4 by A8, ZFMISC_1:def 6;
A11: p1 <> p4 by A8, ZFMISC_1:def 6;
A12: p2 <> p4 by A8, ZFMISC_1:def 6;
A13: p1 <> p3 by A8, ZFMISC_1:def 6;
A14: inside_of_circle a,b,r misses circle a,b,r by TOPREAL9:54;
A15: (LSeg p2,p4) \ {p2,p4} c= inside_of_circle a,b,r by A2, A4, TOPREAL9:60;
A16: ( p <> p1 & p <> p4 ) then A20: p1,p4,p are_mutually_different by A11, ZFMISC_1:def 5;
A21: p4,p,p1 are_mutually_different by A11, A16, ZFMISC_1:def 5;
A22: angle p1,p4,p = angle p1,p4,p2 by A7, A16, Th10;
A23: p2 <> p3 by A8, ZFMISC_1:def 6;
A24: ( p <> p2 & p <> p3 ) then A28: angle p4,p,p1 = angle p2,p,p3 by A6, A7, A16, Th15;
A29: p,p3,p2 are_mutually_different by A23, A24, ZFMISC_1:def 5;
A30: p2,p,p3 are_mutually_different by A23, A24, ZFMISC_1:def 5;
A31: angle p,p3,p2 = angle p1,p3,p2 by A6, A24, Th9;