let C be Simple_closed_curve; for A1, A2 being Subset of (TOP-REAL 2)
for p1, p2 being Point of (TOP-REAL 2) st A1 is_an_arc_of p1,p2 & A2 is_an_arc_of p1,p2 & A1 c= C & A2 c= C & A1 <> A2 holds
( A1 \/ A2 = C & A1 /\ A2 = {p1,p2} )
let A1, A2 be Subset of (TOP-REAL 2); for p1, p2 being Point of (TOP-REAL 2) st A1 is_an_arc_of p1,p2 & A2 is_an_arc_of p1,p2 & A1 c= C & A2 c= C & A1 <> A2 holds
( A1 \/ A2 = C & A1 /\ A2 = {p1,p2} )
let p1, p2 be Point of (TOP-REAL 2); ( A1 is_an_arc_of p1,p2 & A2 is_an_arc_of p1,p2 & A1 c= C & A2 c= C & A1 <> A2 implies ( A1 \/ A2 = C & A1 /\ A2 = {p1,p2} ) )
assume that
A1:
A1 is_an_arc_of p1,p2
and
A2:
A2 is_an_arc_of p1,p2
and
A3:
A1 c= C
and
A4:
( A2 c= C & A1 <> A2 )
; ( A1 \/ A2 = C & A1 /\ A2 = {p1,p2} )
A5:
p2 in A1
by A1, TOPREAL1:1;
( p1 <> p2 & p1 in A1 )
by A1, JORDAN6:37, TOPREAL1:1;
then consider P1, P2 being non empty Subset of (TOP-REAL 2) such that
A6:
( P1 is_an_arc_of p1,p2 & P2 is_an_arc_of p1,p2 & C = P1 \/ P2 & P1 /\ P2 = {p1,p2} )
by A3, A5, TOPREAL2:5;
reconsider P1 = P1, P2 = P2 as non empty Subset of (TOP-REAL 2) ;
( A1 = P1 or A1 = P2 )
by A1, A3, A6, Th10;
hence
( A1 \/ A2 = C & A1 /\ A2 = {p1,p2} )
by A2, A4, A6, Th10; verum