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Difference between revisions of "Neighbourhood"

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(Hausdroff neighbourhood axioms, cite Franz (1967))
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''of a point $x$ (of a subset $A$) of a [[Topological space|topological space]]''
 
''of a point $x$ (of a subset $A$) of a [[Topological space|topological space]]''
  
 
Any open subset of this space containing the point $x$ (the set $A$). Sometimes a neighbourhood of the point $x$ (the set $A$) is defined as any subset of this topological space containing the point $x$ (the set $A$) in its interior (cf. also [[Interior of a set|Interior of a set]]).
 
Any open subset of this space containing the point $x$ (the set $A$). Sometimes a neighbourhood of the point $x$ (the set $A$) is defined as any subset of this topological space containing the point $x$ (the set $A$) in its interior (cf. also [[Interior of a set|Interior of a set]]).
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In the first definition, the neighbourhoods are precisely the open sets of the topology.
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In the second definition, the system of neighbourhoods $\mathfrak{N}(x)$ of a point $x$ satisfy the following four properties:
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# $x \in N$ for every $N \in \mathfrak{N}(x)$;
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# If $M \superset N$ for $N \in \mathfrak{N}(x)$, then $M \in \mathfrak{N}(x)$;
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# If $N_1, N_2 \in \mathfrak{N}(x)$ then $N_1 \cap N_2 \in \mathfrak{N}(x)$;
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# For each $N \in \mathfrak{N}(x)$ there exists $M \in \mathfrak{N}(x)$ such that $N \in \mathfrak{N}(y)$ for each $y \in M$.
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In the opposite direction, properties (1)--(4) may be taken as the definition of a topology; a set $N$ is open if it is in $\mathfrak{N}(x)$ for each of its elements $x$: these are the Hausdorff nesighourhood axioms.
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==References==
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* Franz, Wolfgang.  ''General topology'' (Harrap, 1967).

Revision as of 12:24, 29 September 2013



of a point $x$ (of a subset $A$) of a topological space

Any open subset of this space containing the point $x$ (the set $A$). Sometimes a neighbourhood of the point $x$ (the set $A$) is defined as any subset of this topological space containing the point $x$ (the set $A$) in its interior (cf. also Interior of a set).

In the first definition, the neighbourhoods are precisely the open sets of the topology.

In the second definition, the system of neighbourhoods $\mathfrak{N}(x)$ of a point $x$ satisfy the following four properties:

  1. $x \in N$ for every $N \in \mathfrak{N}(x)$;
  2. If $M \superset N$ for $N \in \mathfrak{N}(x)$, then $M \in \mathfrak{N}(x)$;
  3. If $N_1, N_2 \in \mathfrak{N}(x)$ then $N_1 \cap N_2 \in \mathfrak{N}(x)$;
  4. For each $N \in \mathfrak{N}(x)$ there exists $M \in \mathfrak{N}(x)$ such that $N \in \mathfrak{N}(y)$ for each $y \in M$.

In the opposite direction, properties (1)--(4) may be taken as the definition of a topology; a set $N$ is open if it is in $\mathfrak{N}(x)$ for each of its elements $x$: these are the Hausdorff nesighourhood axioms.

References

  • Franz, Wolfgang. General topology (Harrap, 1967).
How to Cite This Entry:
Neighbourhood. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Neighbourhood&oldid=30570
This article was adapted from an original article by B.A. Pasynkov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article