Manifold (geometry)

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Revision as of 16:53, 11 July 2007 by imported>Natalie Watson (Added a bit on differentiable manifolds)
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A manifold is an abstract mathematical space that looks locally like Euclidean space, but globally may have a very different structure. An example of this is a sphere: if one is very close to the surface of the sphere, it looks like a flat plane, but globally the sphere and plane are very different. Other examples of manifolds include lines and circles, and more abstract spaces such as the orthogonal group

The concept of a manifold is very important within mathematics and physics, and is fundamental to certain fields such as differential geometry, Riemannian geometry and General Relativity.

The most basic manifold is a topological manifold, but additional structures can be defined on the manifold to create objects such differentiable manifolds and Riemannian manifolds.

Mathematical Definition

Topological Manifold

In topology, a manifold of dimension , or an n-manifold, is defined as a Hausdorff space where an open neighbourhood of each point is homeomorphic to .

Differentiable Manifold

To define differentiable manifolds, the concept of an atlas, chart and a coordinate change need to be introduced. An atlas of the Earth uses these concepts: an atlas is a collection of different overlapping patches of small parts of a spherical object onto a plane. The way in which these different patches overlap is defined by the coordinate change.

Let M be a set. An atlas of M is a collection of pairs for some varying over an index set such that

  • maps bijectively to an open set , and for the image is an open set.
  • For , the coordinate change is a differentiable map between two open sets in whereby

Then the set M is a differentiable manifold if and only if it comes equipped with a countable atlas and satisfies the Hausdorff property.