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Split exact sequence
Short exact sequence where the middle term is the direct sum of the outer ones with the structure maps being the canonical inclusion and projection

The term split exact sequence is used in two different ways by different people. Some people mean a short exact sequence that right-splits (thus corresponding to a semidirect product) and some people mean a short exact sequence that left-splits (which implies it right-splits, and corresponds to a direct product). This article takes the latter approach, but both are in common use. When reading a book or paper, it is important to note precisely which of the two meanings is in use.

In mathematics, a split exact sequence is a short exact sequence in which the middle term is built out of the two outer terms in the simplest possible way.

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Equivalent characterizations

A short exact sequence of abelian groups or of modules over a fixed ring, or more generally of objects in an abelian category

0 → A → a B → b C → 0 {\displaystyle 0\to A\mathrel {\stackrel {a}{\to }} B\mathrel {\stackrel {b}{\to }} C\to 0}

is called split exact if it is isomorphic to the exact sequence where the middle term is the direct sum of the outer ones:

0 → A → i A ⊕ C → p C → 0 {\displaystyle 0\to A\mathrel {\stackrel {i}{\to }} A\oplus C\mathrel {\stackrel {p}{\to }} C\to 0}

The requirement that the sequence is isomorphic means that there is an isomorphism f : B → A ⊕ C {\displaystyle f:B\to A\oplus C} such that the composite f ∘ a {\displaystyle f\circ a} is the natural inclusion i : A → A ⊕ C {\displaystyle i:A\to A\oplus C} and such that the composite p ∘ f {\displaystyle p\circ f} equals b. This can be summarized by a commutative diagram as:

The splitting lemma provides further equivalent characterizations of split exact sequences.

Examples

A trivial example of a split short exact sequence is

0 → M 1 → q M 1 ⊕ M 2 → p M 2 → 0 {\displaystyle 0\to M_{1}\mathrel {\stackrel {q}{\to }} M_{1}\oplus M_{2}\mathrel {\stackrel {p}{\to }} M_{2}\to 0}

where M 1 , M 2 {\displaystyle M_{1},M_{2}} are R-modules, q {\displaystyle q} is the canonical injection and p {\displaystyle p} is the canonical projection.

Any short exact sequence of vector spaces is split exact. This is a rephrasing of the fact that any set of linearly independent vectors in a vector space can be extended to a basis.

The exact sequence 0 → Z → 2 Z → Z / 2 Z → 0 {\displaystyle 0\to \mathbf {Z} \mathrel {\stackrel {2}{\to }} \mathbf {Z} \to \mathbf {Z} /2\mathbf {Z} \to 0} (where the first map is multiplication by 2) is not split exact.

Pure exact sequences can be characterized as the filtered colimits of split exact sequences.1

Sources

  • Fuchs, László (2015), Abelian Groups, Springer Monographs in Mathematics, Springer, ISBN 9783319194226
  • Sharp, R. Y., Rodney (2001), Steps in Commutative Algebra, 2nd ed., London Mathematical Society Student Texts, Cambridge University Press, ISBN 0521646235

References

  1. Fuchs (2015, Ch. 5, Thm. 3.4) - Fuchs, László (2015), Abelian Groups, Springer Monographs in Mathematics, Springer, ISBN 9783319194226