Moore plane
In mathematics, the Moore plane, also sometimes called Niemytzki plane (or Nemytskii plane, Nemytskii's tangent disk topology), is a topological space. It is a completely regular Hausdorff space (that is, a Tychonoff space) that is not normal. It is an example of a Moore space that is not metrizable. It is named after Robert Lee Moore and Viktor Vladimirovich Nemytskii.
Definition
If is the (closed) upper half-plane , then a topology may be defined on by taking a local basis as follows:
- Elements of the local basis at points with are the open discs in the plane which are small enough to lie within .
- Elements of the local basis at points are sets where A is an open disc in the upper half-plane which is tangent to the x axis at p.
That is, the local basis is given by
Thus the subspace topology inherited by is the same as the subspace topology inherited from the standard topology of the Euclidean plane.
Properties
- The Moore plane is separable, that is, it has a countable dense subset.
- The Moore plane is a completely regular Hausdorff space (i.e. Tychonoff space), which is not normal.
- The subspace of has, as its subspace topology, the discrete topology. Thus, the Moore plane shows that a subspace of a separable space need not be separable.
- The Moore plane is first countable, but not second countable or Lindelöf.
- The Moore plane is not locally compact.
- The Moore plane is countably metacompact but not metacompact.
Proof that the Moore plane is not normal
The fact that this space is not normal can be established by the following counting argument (which is very similar to the argument that the Sorgenfrey plane is not normal):
- On the one hand, the countable set of points with rational coordinates is dense in ; hence every continuous function is determined by its restriction to , so there can be at most many continuous real-valued functions on .
- On the other hand, the real line is a closed discrete subspace of with many points. So there are many continuous functions from L to . Not all these functions can be extended to continuous functions on .
- Hence is not normal, because by the Tietze extension theorem all continuous functions defined on a closed subspace of a normal space can be extended to a continuous function on the whole space.
In fact, if X is a separable topological space having an uncountable closed discrete subspace, X cannot be normal.
See also
References
- Stephen Willard. General Topology, (1970) Addison-Wesley ISBN 0-201-08707-3.
- Steen, Lynn Arthur; Seebach, J. Arthur Jr. (1995) [1978], Counterexamples in Topology (Dover reprint of 1978 ed.), Berlin, New York: Springer-Verlag, ISBN 978-0-486-68735-3, MR 0507446 (Example 82)
- "Niemytzki plane". PlanetMath.