A module over a division ring is noetherian if and only if it is finite. #
A module over a division ring is noetherian if and only if
its dimension (as a cardinal) is strictly less than the first infinite cardinal ℵ₀
.
Alias of rank_lt_aleph0
.
The rank of a finite module is finite.
In a noetherian module over a division ring, all bases are indexed by a finite type.
Equations
Instances For
In a noetherian module over a division ring,
Basis.ofVectorSpace
is indexed by a finite type.
Equations
- IsNoetherian.instFintypeElemOfVectorSpaceIndex = IsNoetherian.fintypeBasisIndex (Basis.ofVectorSpace K V)
In a noetherian module over a division ring, if a basis is indexed by a set, that set is finite.
In a noetherian module over a division ring,
there exists a finite basis. This is the indexing Finset
.
Equations
Instances For
In a noetherian module over a division ring, there exists a finite basis.
This is indexed by the Finset
FiniteDimensional.finsetBasisIndex
.
This is in contrast to the result finite_basis_index (Basis.ofVectorSpace K V)
,
which provides a set and a Set.finite
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
A module over a division ring is noetherian if and only if it is finitely generated.