let F, G be PartFunc of REAL,REAL; ( F is even & G is even & (dom F) /\ (dom G) is symmetrical implies F - G is even )
assume that
A1:
F is even
and
A2:
G is even
and
A3:
(dom F) /\ (dom G) is symmetrical
; F - G is even
A4:
(dom F) /\ (dom G) = dom (F - G)
by VALUED_1:12;
then A5:
dom (F - G) c= dom G
by XBOOLE_1:17;
A6:
dom (F - G) c= dom F
by A4, XBOOLE_1:17;
for x being Real st x in dom (F - G) & - x in dom (F - G) holds
(F - G) . (- x) = (F - G) . x
proof
let x be
Real;
( x in dom (F - G) & - x in dom (F - G) implies (F - G) . (- x) = (F - G) . x )
assume that A7:
x in dom (F - G)
and A8:
- x in dom (F - G)
;
(F - G) . (- x) = (F - G) . x
(F - G) . (- x) =
(F . (- x)) - (G . (- x))
by A8, VALUED_1:13
.=
(F . x) - (G . (- x))
by A1, A6, A7, A8, Def3
.=
(F . x) - (G . x)
by A2, A5, A7, A8, Def3
.=
(F - G) . x
by A7, VALUED_1:13
;
hence
(F - G) . (- x) = (F - G) . x
;
verum
end;
then
( F - G is with_symmetrical_domain & F - G is quasi_even )
by A3, A4;
hence
F - G is even
; verum