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EspañolSINGLETON (MATHEMATICS)
In mathematics, a 'singleton' is a set with exactly one element. For example, the set {0} is a singleton.
Let S be a class defined by a Boolean-valued function .
Then S is called a '''singleton''' if and only if b is equal to some function , with for some .
Traditionally, this definition was introduced by Whitehead and Russell [1] along with the definition of the natural number 1, as , where .
Note that a set such as
A set is a singleton if and only if its cardinality is . In the set-theoretic construction of the natural numbers, the number 1 is ''defined'' as the singleton {0}.
In axiomatic set theory, the existence of singletons is a consequence of the axiom of empty set and the axiom of pairing: the former yields the empty set {}, and the latter, applied to the pairing of {} and {}, yields the singleton .
If ''A'' is any set and ''S'' is any singleton, then there exists precisely one function from ''A'' to ''S'', the function sending every element of ''A'' to the one element of ''S''.
In topology, a space is a T1 space if and only if every singleton is closed.
Structures built on singletons often serve as terminal objects or zero objects of various categories:
★ The statement above shows that the singleton sets are precisely the terminal objects in the category 'Set' of sets. No other sets are terminal.
★ Any singleton can be turned into a topological space in just one way (all subsets are open). These singleton topological spaces are terminal objects in the category of topological spaces and continuous functions. No other spaces are terminal in that category.
★ Any singleton can be turned into a group in just one way (the unique element serving as identity element). These singleton groups are zero objects in the category of groups and group homomorphisms. No other groups are terminal in that category.
★ Class (set theory)
1. Principia Mathematica, , Alfred North, Whitehead, , 1861,
| Contents |
| Formal definition |
| Properties |
| Singletons in topology |
| See also |
| References |
Formal definition
Let S be a class defined by a Boolean-valued function .
Then S is called a '''singleton''' if and only if b is equal to some function , with for some .
Traditionally, this definition was introduced by Whitehead and Russell [1] along with the definition of the natural number 1, as , where .
Properties
Note that a set such as
A set is a singleton if and only if its cardinality is . In the set-theoretic construction of the natural numbers, the number 1 is ''defined'' as the singleton {0}.
In axiomatic set theory, the existence of singletons is a consequence of the axiom of empty set and the axiom of pairing: the former yields the empty set {}, and the latter, applied to the pairing of {} and {}, yields the singleton .
If ''A'' is any set and ''S'' is any singleton, then there exists precisely one function from ''A'' to ''S'', the function sending every element of ''A'' to the one element of ''S''.
Singletons in topology
In topology, a space is a T1 space if and only if every singleton is closed.
Structures built on singletons often serve as terminal objects or zero objects of various categories:
★ The statement above shows that the singleton sets are precisely the terminal objects in the category 'Set' of sets. No other sets are terminal.
★ Any singleton can be turned into a topological space in just one way (all subsets are open). These singleton topological spaces are terminal objects in the category of topological spaces and continuous functions. No other spaces are terminal in that category.
★ Any singleton can be turned into a group in just one way (the unique element serving as identity element). These singleton groups are zero objects in the category of groups and group homomorphisms. No other groups are terminal in that category.
See also
★ Class (set theory)
References
1. Principia Mathematica, , Alfred North, Whitehead, , 1861,
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