Difference between revisions of "Topological manifold"

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(Created page with "'''Note:''' This page refers to a '''Topological Manifold''' ==Definition== We say {{M|M}} is a ''topological manifold of dimension {{M|n}}'' or simply ''an {{M|n-}}manifold'...")
 
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'''Note:''' This page refers to a '''Topological Manifold'''
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'''Note:''' This page refers to a '''Topological Manifold''' a special kind of [[Manifold]]
  
 
==Definition==
 
==Definition==
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# Let {{M|M}} be an {{M|n-}}manifold
 
# Let {{M|M}} be an {{M|n-}}manifold
 
# Let {{M|M^n}} be a manifold
 
# Let {{M|M^n}} be a manifold
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==See also==
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* [[Chart]]
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* [[Atlas]]
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* [[Manifolds]]
  
 
==References==
 
==References==

Latest revision as of 01:13, 6 April 2015

Note: This page refers to a Topological Manifold a special kind of Manifold

Definition

We say [ilmath]M[/ilmath] is a topological manifold of dimension [ilmath]n[/ilmath] or simply an [ilmath]n-[/ilmath]manifold if it has the following properties[1]:

  1. [ilmath]M[/ilmath] is a Hausdorff space - that is for every pair of distinct points [ilmath]p,q\in M\ \exists\ U,V\subseteq M\text{ (that are open) } [/ilmath] such that [ilmath]U\cap V=\emptyset[/ilmath] and [ilmath]p\in U,\ q\in V[/ilmath]
  2. [ilmath]M[/ilmath] is Second countable - there exists a countable basis for the topology of [ilmath]M[/ilmath]
  3. [ilmath]M[/ilmath] is locally Euclidean of dimension [ilmath]n[/ilmath] - each point of [ilmath]M[/ilmath] has a neighbourhood that his homeomorphic to an open subset of [ilmath]\mathbb{R}^n[/ilmath]
    This actually means that for each [ilmath]p\in M[/ilmath] we can find:
    • an open subset [ilmath]U\subseteq M[/ilmath] with [ilmath]p\in U[/ilmath]
    • an open subset [ilmath]\hat{U}\subseteq\mathbb{R}^n[/ilmath]
    • and a Homeomorphism [ilmath]\varphi:U\rightarrow\hat{U} [/ilmath]

Notations

The following are all equivalent (most common first):

  1. Let [ilmath]M[/ilmath] be a manifold of dimension [ilmath]n[/ilmath]
  2. Let [ilmath]M[/ilmath] be an [ilmath]n-[/ilmath]manifold
  3. Let [ilmath]M^n[/ilmath] be a manifold

See also

References

  1. John M Lee - Introduction to smooth manifolds - Second Edition