Difference between revisions of "Final object"
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''terminal object, of a category'' | ''terminal object, of a category'' | ||
| − | A concept formalizing the categorical property of a one-point set. An object | + | A concept formalizing the categorical property of a one-point set. An object $T$ in a category $\mathfrak{K}$ is called final if for every object $X$ in $\mathfrak{K}$ the set $H_{\mathfrak{K}}(X,T)$ consists of a single morphism. A final object is also called a right null object of $\mathfrak{K}$. A left null or ''initial object'' of a category is defined in the dual way. |
| − | In the category of sets the final objects are just the one-point sets. In any category with null objects the final objects are the null objects. Other examples of final objects arise in various categories of diagrams, where the concept of a final object is essentially equivalent to that of the limit of a diagram. For example, suppose that | + | In the category of sets the final objects are just the one-point sets, and the initial object is the empty set.. In any category with null objects the final objects are the null objects (cf. [[Null object of a category]]). Other examples of final objects arise in various categories of diagrams, where the concept of a final object is essentially equivalent to that of the limit of a diagram. For example, suppose that $\alpha,\beta:A \rightarrow B$ and let $\mathrm{Eq}(\alpha,\beta)$ be the category of left equalizers of the pair $(\alpha,\beta)$; in other words, the objects of $\mathrm{Eq}(\alpha,\beta)$ are morphisms $\mu:X \rightarrow A$ for which $\mu\alpha = \mu\beta$, and morphisms in $\mathrm{Eq}(\alpha,\beta)$ are morphisms $\gamma : (X,\mu)\rightarrow (Y,\nu)$ for which $\gamma\nu=\mu$. A final object in $\mathrm{Eq}(\alpha,\beta)$ is a kernel of the pair of morphisms $(\alpha,\beta)$ (cf. [[Kernel of a morphism in a category]]). |
====Comments==== | ====Comments==== | ||
| − | The set | + | The set $H_{\mathfrak{K}}(X,T)$ is, by definition, the set of morphisms in $\mathfrak{K}$ from $X$ to $T$. Note that any two final objects of a category are (canonically) isomorphic, and so are two initial objects. |
====References==== | ====References==== | ||
| − | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> J. Adámek, "Theory of mathematical structures" , Reidel (1983)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> B. Mitchell, "Theory of categories" , Acad. Press (1965) pp. 4</TD></TR></table> | + | <table> |
| + | <TR><TD valign="top">[a1]</TD> <TD valign="top"> J. Adámek, "Theory of mathematical structures" , Reidel (1983)</TD></TR> | ||
| + | <TR><TD valign="top">[a2]</TD> <TD valign="top"> B. Mitchell, "Theory of categories" , Acad. Press (1965) pp. 4</TD></TR> | ||
| + | </table> | ||
Latest revision as of 21:19, 21 December 2017
2020 Mathematics Subject Classification: Primary: 18A05 [MSN][ZBL]
terminal object, of a category
A concept formalizing the categorical property of a one-point set. An object $T$ in a category $\mathfrak{K}$ is called final if for every object $X$ in $\mathfrak{K}$ the set $H_{\mathfrak{K}}(X,T)$ consists of a single morphism. A final object is also called a right null object of $\mathfrak{K}$. A left null or initial object of a category is defined in the dual way.
In the category of sets the final objects are just the one-point sets, and the initial object is the empty set.. In any category with null objects the final objects are the null objects (cf. Null object of a category). Other examples of final objects arise in various categories of diagrams, where the concept of a final object is essentially equivalent to that of the limit of a diagram. For example, suppose that $\alpha,\beta:A \rightarrow B$ and let $\mathrm{Eq}(\alpha,\beta)$ be the category of left equalizers of the pair $(\alpha,\beta)$; in other words, the objects of $\mathrm{Eq}(\alpha,\beta)$ are morphisms $\mu:X \rightarrow A$ for which $\mu\alpha = \mu\beta$, and morphisms in $\mathrm{Eq}(\alpha,\beta)$ are morphisms $\gamma : (X,\mu)\rightarrow (Y,\nu)$ for which $\gamma\nu=\mu$. A final object in $\mathrm{Eq}(\alpha,\beta)$ is a kernel of the pair of morphisms $(\alpha,\beta)$ (cf. Kernel of a morphism in a category).
Comments
The set $H_{\mathfrak{K}}(X,T)$ is, by definition, the set of morphisms in $\mathfrak{K}$ from $X$ to $T$. Note that any two final objects of a category are (canonically) isomorphic, and so are two initial objects.
References
| [a1] | J. Adámek, "Theory of mathematical structures" , Reidel (1983) |
| [a2] | B. Mitchell, "Theory of categories" , Acad. Press (1965) pp. 4 |
Final object. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Final_object&oldid=13638