set K = F_Complex ;
set qf = RQ*Form f;
set R = RKer (f *' );
set qW = VectQuot W,(RKer (f *' ));
A1:
rightker f = rightker (f *' )
by Th58;
thus
rightker (RQ*Form f) c= {(0. (VectQuot W,(RKer (f *' ))))}
XBOOLE_0:def 10,BILINEAR:def 25 K192(the carrier of (VectQuot W,(RKer (f *' ))),(0. (VectQuot W,(RKer (f *' ))))) c= rightker (RQ*Form f)proof
let x be
set ;
TARSKI:def 3 ( not x in rightker (RQ*Form f) or x in {(0. (VectQuot W,(RKer (f *' ))))} )
assume
x in rightker (RQ*Form f)
;
x in {(0. (VectQuot W,(RKer (f *' ))))}
then consider ww being
Vector of
(VectQuot W,(RKer (f *' ))) such that A2:
x = ww
and A3:
for
v being
Vector of
V holds
(RQ*Form f) . v,
ww = 0. F_Complex
;
consider w being
Vector of
W such that A4:
ww = w + (RKer (f *' ))
by VECTSP10:23;
then
w in rightker f
;
then
w in the
carrier of
(RKer (f *' ))
by A1, BILINEAR:def 20;
then
w in RKer (f *' )
by STRUCT_0:def 5;
then w + (RKer (f *' )) =
zeroCoset W,
(RKer (f *' ))
by VECTSP_4:64
.=
0. (VectQuot W,(RKer (f *' )))
by VECTSP10:22
;
hence
x in {(0. (VectQuot W,(RKer (f *' ))))}
by A2, A4, TARSKI:def 1;
verum
end;
let x be set ; TARSKI:def 3 ( not x in K192(the carrier of (VectQuot W,(RKer (f *' ))),(0. (VectQuot W,(RKer (f *' ))))) or x in rightker (RQ*Form f) )
assume
x in {(0. (VectQuot W,(RKer (f *' ))))}
; x in rightker (RQ*Form f)
then A5:
x = 0. (VectQuot W,(RKer (f *' )))
by TARSKI:def 1;
for v being Vector of V holds (RQ*Form f) . v,(0. (VectQuot W,(RKer (f *' )))) = 0. F_Complex
by BILINEAR:30;
hence
x in rightker (RQ*Form f)
by A5; verum