Limit point


In mathematics, a limit point of a set in a topological space is a point that can be "approximated" by points of in the sense that every neighbourhood of with respect to the topology on also contains a point of other than itself. A limit point of a set does not itself have to be an element of.
This concept profitably generalizes the notion of a limit and is the underpinning of concepts such as closed set and topological closure. Indeed, a set is closed if and only if it contains all of its limit points, and the topological closure operation can be thought of as an operation that enriches a set by uniting it with its limit points.
There is also a closely related concept for sequences. A cluster point of a sequence in a topological space is a point such that, for every neighbourhood of, there are infinitely many natural numbers such that. This concept generalizes to nets and filters.

Definition

Let be a subset of a topological space.
A point in is a limit point of if every neighbourhood of contains at least one point of different from itself.
Note that it doesn't make a difference if we restrict the condition to open neighbourhoods only. It is often convenient to use the "open neighbourhood" form of the definition to show that a point is a limit point and to use the "general neighbourhood" form of the definition to derive facts from a known limit point.
If is a space, then is a limit point of if and only if every neighbourhood of contains infinitely many points of. In fact, spaces are characterized by this property.
If is a Fréchet–Urysohn space, then is a limit point of if and only if there is a sequence of points in whose limit is. In fact, Fréchet–Urysohn spaces are characterized by this property.
The set of limit points of is called the derived set of.

Types of limit points

If every open set containing contains infinitely many points of, then is a specific type of limit point called an -accumulation point of .
If every open set containing contains uncountably many points of, then is a specific type of limit point called a condensation point of .
If every open set containing satisfies, then is a specific type of limit point called a of .

For sequences and nets

In a topological space, a point is said to be a cluster point of a sequence if, for every neighbourhood of, there are infinitely many such that. It is equivalent to say that for every neighbourhood of and every, there is some such that. If is a metric space or a first-countable space , then is cluster point of if and only if is a limit of some subsequence of.
The set of all cluster points of a sequence is sometimes called the limit set.
The concept of a net generalizes the idea of a sequence. A net is a function, where is a directed set and is a topological space. A point is said to be a cluster point of the net if, for every neighbourhood of and every, there is some such that, equivalently, if has a subnet which converges to. Cluster points in nets encompass the idea of both condensation points and ω-accumulation points. Clustering and limit points are also defined for the related topic of filters.

Selected facts