Neighbourhood (mathematics)

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## Definitions

### Neighbourhood of a point

### Neighbourhood of a set

## In a metric space

## Examples

## Topology from neighbourhoods

## Uniform neighbourhoods

## Deleted neighbourhood

## See also

## References

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

Neighbourhood Mathematics

In topology and related areas of mathematics, a **neighbourhood** (or **neighborhood**) is one of the basic concepts in a topological space. It is closely related to the concepts of open set and interior. Intuitively speaking, a neighbourhood of a point is a set of points containing that point where one can move some amount in any direction away from that point without leaving the set.

If is a topological space and is a point in , a **neighbourhood** of is a subset of that includes an open set containing ,

This is also equivalent to being in the interior of .

The neighbourhood need not be an open set itself. If is open it is called an **open neighbourhood**.^{[1]} Some mathematicians require neighbourhoods to be open, so it is important to note conventions.

A set that is a neighbourhood of each of its points is open since it can be expressed as the union of open sets containing each of its points. A rectangle, as illustrated in the figure, is not a neighbourhood of all its points; points on the edges or corners of the rectangle are not contained in any open set that is contained within the rectangle.

The collection of all neighbourhoods of a point is called the neighbourhood system at the point.

If S is a subset of topological space X then a **neighbourhood** of S is a set V that includes an open set U containing S.
It follows that a set V is a neighbourhood of S if and only if it is a neighbourhood of all the points in S.
Furthermore, V is a neighbourhood of S if and only if S is a subset of the interior of V.
A neighbourhood of S that is also an open set is called an **open neighbourhood** of S.
The neighbourhood of a point is just a special case of this definition.

In a metric space , a set is a **neighbourhood** of a point if there exists an open ball with centre and radius , such that

is contained in .

is called **uniform neighbourhood** of a set if there exists a positive number such that for all elements of ,

is contained in .

For the **-neighbourhood** of a set is the set of all points in that are at distance less than from (or equivalently, _{$r$} is the union of all the open balls of radius that are centred at a point in ):

It directly follows that an -neighbourhood is a uniform neighbourhood, and that a set is a uniform neighbourhood if and only if it contains an -neighbourhood for some value of .

Given the set of real numbers with the usual Euclidean metric and a subset defined as

then is a neighbourhood for the set of natural numbers, but is *not* a uniform neighbourhood of this set.

The above definition is useful if the notion of open set is already defined. There is an alternative way to define a topology, by first defining the neighbourhood system, and then open sets as those sets containing a neighbourhood of each of their points.

A neighbourhood system on is the assignment of a filter of subsets of to each in , such that

- the point is an element of each in
- each in contains some in such that for each in , is in .

One can show that both definitions are compatible, i.e. the topology obtained from the neighbourhood system defined using open sets is the original one, and vice versa when starting out from a neighbourhood system.

In a uniform space , is called a **uniform neighbourhood** of if there exists an entourage such that contains all points of that are -close to some point of ; that is, for all .

A **deleted neighbourhood** of a point (sometimes called a **punctured neighbourhood**) is a neighbourhood of , without . For instance, the interval is a neighbourhood of in the real line, so the set is a deleted neighbourhood of . A deleted neighbourhood of a given point is not in fact a neighbourhood of the point. The concept of deleted neighbourhood occurs in the definition of the limit of a function.

**^**Dixmier, Jacques (1984).*General Topology*. Undergraduate Texts in Mathematics. Translated by Sterling K. Berberian. Springer. p. 6. ISBN 0-387-90972-9.According to this definition, an

*open neighborhood of x*is nothing more than an open subset of E that contains*x*.

- Kelley, John L. (1975).
*General topology*. New York: Springer-Verlag. ISBN 0-387-90125-6. - Bredon, Glen E. (1993).
*Topology and geometry*. New York: Springer-Verlag. ISBN 0-387-97926-3. - Kaplansky, Irving (2001).
*Set Theory and Metric Spaces*. American Mathematical Society. ISBN 0-8218-2694-8.

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

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