let n be Ordinal; for O being connected TermOrder of n
for L being non trivial right_complementable add-associative right_zeroed addLoopStr
for p being Polynomial of n,L holds Support (Red p,O) = (Support p) \ {(HT p,O)}
let O be connected TermOrder of n; for L being non trivial right_complementable add-associative right_zeroed addLoopStr
for p being Polynomial of n,L holds Support (Red p,O) = (Support p) \ {(HT p,O)}
let L be non trivial right_complementable add-associative right_zeroed addLoopStr ; for p being Polynomial of n,L holds Support (Red p,O) = (Support p) \ {(HT p,O)}
let p be Polynomial of n,L; Support (Red p,O) = (Support p) \ {(HT p,O)}
A1:
now let u be
set ;
( u in Support (Red p,O) implies u in (Support p) \ {(HT p,O)} )assume A2:
u in Support (Red p,O)
;
u in (Support p) \ {(HT p,O)}then reconsider u9 =
u as
Element of
Bags n ;
reconsider u9 =
u9 as
bag of
n ;
A3:
(p - (HM p,O)) . u9 <> 0. L
by A2, POLYNOM1:def 9;
A4:
not
u9 = HT p,
O
by A2, Lm15;
(p + (- (HM p,O))) . u9 =
(p . u9) + ((- (HM p,O)) . u9)
by POLYNOM1:def 21
.=
(p . u9) + (- ((HM p,O) . u9))
by POLYNOM1:def 22
;
then (p + (- (HM p,O))) . u9 =
(p . u9) + (- (0. L))
by A4, Th19
.=
(p . u9) + (0. L)
by RLVECT_1:25
.=
p . u9
by RLVECT_1:10
;
then
p . u9 <> 0. L
by A3, POLYNOM1:def 23;
then A5:
u9 in Support p
by POLYNOM1:def 9;
not
u9 in {(HT p,O)}
by A4, TARSKI:def 1;
hence
u in (Support p) \ {(HT p,O)}
by A5, XBOOLE_0:def 5;
verum end;
now let u be
set ;
( u in (Support p) \ {(HT p,O)} implies u in Support (Red p,O) )assume A6:
u in (Support p) \ {(HT p,O)}
;
u in Support (Red p,O)then reconsider u9 =
u as
Element of
Bags n ;
reconsider u9 =
u9 as
bag of
n ;
not
u in {(HT p,O)}
by A6, XBOOLE_0:def 5;
then A7:
u9 <> HT p,
O
by TARSKI:def 1;
u in Support p
by A6, XBOOLE_0:def 5;
hence
u in Support (Red p,O)
by A7, Lm16;
verum end;
hence
Support (Red p,O) = (Support p) \ {(HT p,O)}
by A1, TARSKI:2; verum