Difference between revisions of "Null object of a category"
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''zero (object) of a category'' | ''zero (object) of a category'' | ||
− | An object (usually denoted by 0) such that for every object | + | An object (usually denoted by 0) such that for every object $X$ of the category the sets $H(X,0)$ and $H(0,X)$ are singletons. The null object, if it exists in a given category, is uniquely determined up to isomorphism. In the category of sets with a distinguished point the null object is a singleton, in the category of groups it is the trivial group, in the category of modules it is the zero module, etc. Not every category contains a null object, but a null object can always be formally adjoined to any given category. Every category with a null object has null morphisms. |
====Comments==== | ====Comments==== | ||
− | An object | + | An object $I$ of a category is called initial if there is just one morphism $I\to X$ for any $X$, and terminal (or final) if there is just one morphism $X\to I$ for any $X$. Thus a null object is one which is both initial and terminal. If an initial object exists in a given category, it is unique up to isomorphism, and similarly for terminal objects; but a category may have non-isomorphic initial and terminal objects. For example, in the category of sets, the empty set is an initial object and any singleton is terminal. A terminal object of a category may be regarded as a limit for the empty diagram in that category (cf. the editorial comments to [[Limit|Limit]] for the concept of a limit of a diagram in a category). Conversely, a limit of an arbitrary diagram may be defined as a terminal object in an appropriate category of cones. |
Revision as of 13:23, 10 April 2014
zero (object) of a category
An object (usually denoted by 0) such that for every object $X$ of the category the sets $H(X,0)$ and $H(0,X)$ are singletons. The null object, if it exists in a given category, is uniquely determined up to isomorphism. In the category of sets with a distinguished point the null object is a singleton, in the category of groups it is the trivial group, in the category of modules it is the zero module, etc. Not every category contains a null object, but a null object can always be formally adjoined to any given category. Every category with a null object has null morphisms.
Comments
An object $I$ of a category is called initial if there is just one morphism $I\to X$ for any $X$, and terminal (or final) if there is just one morphism $X\to I$ for any $X$. Thus a null object is one which is both initial and terminal. If an initial object exists in a given category, it is unique up to isomorphism, and similarly for terminal objects; but a category may have non-isomorphic initial and terminal objects. For example, in the category of sets, the empty set is an initial object and any singleton is terminal. A terminal object of a category may be regarded as a limit for the empty diagram in that category (cf. the editorial comments to Limit for the concept of a limit of a diagram in a category). Conversely, a limit of an arbitrary diagram may be defined as a terminal object in an appropriate category of cones.
Null object of a category. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Null_object_of_a_category&oldid=31479