let IPP be 2-dimensional Desarguesian IncProjSp; :: thesis: for o being POINT of IPP
for A, B being LINE of IPP st not o on A & not o on B holds
IncProj A,o,B is one-to-one
let o be POINT of IPP; :: thesis: for A, B being LINE of IPP st not o on A & not o on B holds
IncProj A,o,B is one-to-one
let A, B be LINE of IPP; :: thesis: ( not o on A & not o on B implies IncProj A,o,B is one-to-one )
set f = IncProj A,o,B;
assume A1:
( not o on A & not o on B )
; :: thesis: IncProj A,o,B is one-to-one
now let x1,
x2 be
set ;
:: thesis: ( x1 in dom (IncProj A,o,B) & x2 in dom (IncProj A,o,B) & (IncProj A,o,B) . x1 = (IncProj A,o,B) . x2 implies x1 = x2 )assume that A2:
x1 in dom (IncProj A,o,B)
and A3:
x2 in dom (IncProj A,o,B)
and A4:
(IncProj A,o,B) . x1 = (IncProj A,o,B) . x2
;
:: thesis: x1 = x2
x1 in CHAIN A
by A1, A2, Th5;
then consider a being
POINT of
IPP such that A5:
x1 = a
and A6:
a on A
;
x2 in CHAIN A
by A1, A3, Th5;
then consider b being
POINT of
IPP such that A7:
x2 = b
and A8:
b on A
;
reconsider x =
(IncProj A,o,B) . a,
y =
(IncProj A,o,B) . b as
POINT of
IPP by A1, A6, A8, PROJRED1:22;
x = y
by A4, A5, A7;
hence
x1 = x2
by A1, A5, A6, A7, A8, PROJRED1:26;
:: thesis: verum end;
hence
IncProj A,o,B is one-to-one
by FUNCT_1:def 8; :: thesis: verum