let AFP be AffinPlane; :: thesis: for o, a, b, y being Element of AFP st o <> a & o <> b & LIN o,a,b holds
ex x being Element of AFP st
( ( not LIN o,a,x & LIN o,x,y & a,x // b,y ) or ( LIN o,a,x & ex p, p9 being Element of AFP st
( not LIN o,a,p & LIN o,p,p9 & a,p // b,p9 & p,x // p9,y & LIN o,a,y ) ) )
let o, a, b, y be Element of AFP; :: thesis: ( o <> a & o <> b & LIN o,a,b implies ex x being Element of AFP st
( ( not LIN o,a,x & LIN o,x,y & a,x // b,y ) or ( LIN o,a,x & ex p, p9 being Element of AFP st
( not LIN o,a,p & LIN o,p,p9 & a,p // b,p9 & p,x // p9,y & LIN o,a,y ) ) ) )
assume that
A1: o <> a and
A2: o <> b and
A3: LIN o,a,b ; :: thesis: ex x being Element of AFP st
( ( not LIN o,a,x & LIN o,x,y & a,x // b,y ) or ( LIN o,a,x & ex p, p9 being Element of AFP st
( not LIN o,a,p & LIN o,p,p9 & a,p // b,p9 & p,x // p9,y & LIN o,a,y ) ) )
A4: LIN o,b,a by A3, AFF_1:15;
then consider x being Element of AFP such that
A5: ( ( not LIN o,b,y & LIN o,y,x & b,y // a,x ) or ( LIN o,b,y & ex p, p9 being Element of AFP st
( not LIN o,b,p & LIN o,p,p9 & b,p // a,p9 & p,y // p9,x & LIN o,b,x ) ) ) by A2, Lm8;
( ( not LIN o,a,x & LIN o,x,y & a,x // b,y ) or ( LIN o,a,x & ex p, p9 being Element of AFP st
( not LIN o,a,p & LIN o,p,p9 & a,p // b,p9 & p,x // p9,y & LIN o,a,y ) ) ) by A1, A2, A4, A5, Lm6;
hence ex x being Element of AFP st
( ( not LIN o,a,x & LIN o,x,y & a,x // b,y ) or ( LIN o,a,x & ex p, p9 being Element of AFP st
( not LIN o,a,p & LIN o,p,p9 & a,p // b,p9 & p,x // p9,y & LIN o,a,y ) ) ) ; :: thesis: verum