let P be Element of absolute ; ex u being non zero Element of (TOP-REAL 3) st
( u . 3 = 1 & P = Dir u )
consider u being Element of (TOP-REAL 3) such that
A1:
not u is zero
and
A2:
P = Dir u
by ANPROJ_1:26;
u . 3 <> 0
by A1, A2, BKMODEL1:83;
then A3:
u `3 <> 0
by EUCLID_5:def 3;
reconsider v = |[((u `1) / (u `3)),((u `2) / (u `3)),1]| as non zero Element of (TOP-REAL 3) ;
take
v
; ( v . 3 = 1 & P = Dir v )
thus v . 3 =
v `3
by EUCLID_5:def 3
.=
1
by EUCLID_5:2
; P = Dir v
(u `3) * v =
|[((u `3) * ((u `1) / (u `3))),((u `3) * ((u `2) / (u `3))),((u `3) * 1)]|
by EUCLID_5:8
.=
|[(u `1),((u `3) * ((u `2) / (u `3))),((u `3) * 1)]|
by A3, XCMPLX_1:87
.=
|[(u `1),(u `2),((u `3) * 1)]|
by A3, XCMPLX_1:87
.=
u
by EUCLID_5:3
;
then
are_Prop u,v
by A3, ANPROJ_1:1;
hence
P = Dir v
by A1, A2, ANPROJ_1:22; verum