let n be Ordinal; :: thesis: for T being connected TermOrder of n
for L being non trivial right_complementable almost_left_invertible associative commutative well-unital distributive add-associative right_zeroed doubleLoopStr
for P being Subset of (Polynom-Ring n,L) st ( for b being bag of n st b in HT (P -Ideal ),T holds
ex b9 being bag of n st
( b9 in HT P,T & b9 divides b ) ) holds
HT (P -Ideal ),T c= multiples (HT P,T)
let T be connected TermOrder of n; :: thesis: for L being non trivial right_complementable almost_left_invertible associative commutative well-unital distributive add-associative right_zeroed doubleLoopStr
for P being Subset of (Polynom-Ring n,L) st ( for b being bag of n st b in HT (P -Ideal ),T holds
ex b9 being bag of n st
( b9 in HT P,T & b9 divides b ) ) holds
HT (P -Ideal ),T c= multiples (HT P,T)
let L be non trivial right_complementable almost_left_invertible associative commutative well-unital distributive add-associative right_zeroed doubleLoopStr ; :: thesis: for P being Subset of (Polynom-Ring n,L) st ( for b being bag of n st b in HT (P -Ideal ),T holds
ex b9 being bag of n st
( b9 in HT P,T & b9 divides b ) ) holds
HT (P -Ideal ),T c= multiples (HT P,T)
let P be Subset of (Polynom-Ring n,L); :: thesis: ( ( for b being bag of n st b in HT (P -Ideal ),T holds
ex b9 being bag of n st
( b9 in HT P,T & b9 divides b ) ) implies HT (P -Ideal ),T c= multiples (HT P,T) )
assume A1: for b being bag of n st b in HT (P -Ideal ),T holds
ex b9 being bag of n st
( b9 in HT P,T & b9 divides b ) ; :: thesis: HT (P -Ideal ),T c= multiples (HT P,T)
now
let u be set ; :: thesis: ( u in HT (P -Ideal ),T implies u in multiples (HT P,T) )
assume A2: u in HT (P -Ideal ),T ; :: thesis: u in multiples (HT P,T)
then reconsider u9 = u as Element of Bags n ;
ex b9 being bag of n st
( b9 in HT P,T & b9 divides u9 ) by A1, A2;
hence u in multiples (HT P,T) ; :: thesis: verum
end;
hence HT (P -Ideal ),T c= multiples (HT P,T) by TARSKI:def 3; :: thesis: verum