let K, L be Ring; for J being Function of K,L
for x being Scalar of K st J is linear holds
J . (- x) = - (J . x)
let J be Function of K,L; for x being Scalar of K st J is linear holds
J . (- x) = - (J . x)
let x be Scalar of K; ( J is linear implies J . (- x) = - (J . x) )
set a = 0. K;
set b = 0. L;
set y = J . x;
A1:
x + (- x) = 0. K
by RLVECT_1:5;
A2:
(J . x) + (- (J . x)) = 0. L
by RLVECT_1:5;
assume A3:
J is linear
; J . (- x) = - (J . x)
then (J . x) + (J . (- x)) =
J . (0. K)
by A1, VECTSP_1:def 20
.=
0. L
by A3, Lm6
;
hence
J . (- x) = - (J . x)
by A2, RLVECT_1:8; verum