Coequalizer

In category theory, a coequalizer (or coequaliser) is a generalization of a quotient by an equivalence relation to objects in an arbitrary category. It is the categorical construction dual to the equalizer (hence the name).

Definition

A coequalizer is a colimit of the diagram consisting of two objects X and Y and two parallel morphisms f, g : XY.

More explicitly, a coequalizer can be defined as an object Q together with a morphism q : YQ such that qf = qg. Moreover, the pair (Q, q) must be universal in the sense that given any other such pair (Q, q) there exists a unique morphism u : QQ for which the following diagram commutes:

As with all universal constructions, a coequalizer, if it exists, is unique up to a unique isomorphism (this is why, by abuse of language, one sometimes speaks of "the" coequalizer of two parallel arrows).

It can be shown that a coequalizer q is an epimorphism in any category.

Examples

S=\{f(x)g(x)^{-1}\ |\ x\in X\}

Properties

Special cases

In categories with zero morphisms, one can define a cokernel of a morphism f as the coequalizer of f and the parallel zero morphism.

In preadditive categories it makes sense to add and subtract morphisms (the hom-sets actually form abelian groups). In such categories, one can define the coequalizer of two morphisms f and g as the cokernel of their difference:

coeq(f, g) = coker(gf).

A stronger notion is that of an absolute coequalizer, this is a coequalizer that is preserved under all functors. Formally, an absolute coequalizer of a pair f,g: X \to Y in a category C is a coequalizer as defined above but with the added property that given any functor F: C \to D F(Q) together with F(q) is the coequalizer of F(f) and F(g) in the category D. Split coequalizers are examples of absolute coequalizers.

See also

Notes

  1. Barr, Michael; Wells, Charles (1998). Category theory for computing science (PDF). p. 278. Retrieved 2013-07-25.

References

External links

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