Isomorphism theorems for modules. #
- The Noether's first, second, and third isomorphism theorems for modules are proved as
LinearMap.quotKerEquivRange
,LinearMap.quotientInfEquivSupQuotient
andSubmodule.quotientQuotientEquivQuotient
.
The first and second isomorphism theorems for modules.
The first isomorphism law for modules. The quotient of M
by the kernel of f
is linearly
equivalent to the range of f
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
The first isomorphism theorem for surjective linear maps.
Equations
Instances For
Linear map from p
to p+p'/p'
where p p'
are submodules of R
Equations
- LinearMap.subToSupQuotient p p' = LinearMap.comp (Submodule.mkQ (Submodule.comap (Submodule.subtype (p ⊔ p')) p')) (Submodule.inclusion (_ : p ≤ p ⊔ p'))
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Canonical linear map from the quotient p/(p ∩ p')
to (p+p')/p'
, mapping x + (p ∩ p')
to x + p'
, where p
and p'
are submodules of an ambient module.
Equations
- One or more equations did not get rendered due to their size.
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Second Isomorphism Law : the canonical map from p/(p ∩ p')
to (p+p')/p'
as a linear isomorphism.
Equations
- One or more equations did not get rendered due to their size.
Instances For
The third isomorphism theorem for modules.
The map from the third isomorphism theorem for modules: (M / S) / (T / S) → M / T
.
Equations
- One or more equations did not get rendered due to their size.
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Noether's third isomorphism theorem for modules: (M / S) / (T / S) ≃ M / T
.
Equations
- One or more equations did not get rendered due to their size.
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Corollary of the third isomorphism theorem: [S : T] [M : S] = [M : T]