Difference between revisions of "Equalizer"
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− | * Saunders MacLane, "Categories for the working mathematician" Graduate Texts in Mathematics '''5''' Springer (1988) ISBN 0-387-98403-8 {{ZBL|0705.18001 | + | * Saunders MacLane, "Categories for the working mathematician" Graduate Texts in Mathematics '''5''' Springer (1988) {{ISBN|0-387-98403-8}} {{ZBL|0705.18001}} |
Latest revision as of 18:08, 14 November 2023
2020 Mathematics Subject Classification: Primary: 18A30 [MSN][ZBL]
An equaliser of two morphisms $f,g$ between the objects $X, Y$ of a category $\mathfrak{K}$ is a morphism $e : W \rightarrow X$ such that $ef = eh$ and any morphism $d : A \rightarrow X$ such that $df = dg$ factors through $e$, that is, there exists $c : A \rightarrow W$ such that $cd = e$. A coequaliser is the dual notion.
An equaliser in the category of sets exists: it is the inclusion map on $\{ x \in X : f(x) = g(x) \}$. Similarly, a co-equaliser exists: it is the quotient map on $X$ determined by the equivalence relation $\sim$ generated by $f(x) \sim g(x),\ x \in X$.
If $\mathfrak{J}$ is the category ${\downarrow}{\downarrow}$, and $F$ is a functor from $\mathfrak{J}$ to $\mathfrak{K}$, then a limit of $F$ is an equaliser and a colimit of $F$ is a coequaliser.
Every equaliser in a category $\mathfrak{K}$ is a monomorphism and every coequaliser is an epimorphism. A monomorphism (resp. epimorphism) which is an equaliser (resp. coequaliser) is termed regular.
References
- Saunders MacLane, "Categories for the working mathematician" Graduate Texts in Mathematics 5 Springer (1988) ISBN 0-387-98403-8 Zbl 0705.18001
Equalizer. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Equalizer&oldid=42155