Separation property (finance): Difference between revisions

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In the [[mathematics|mathematical theory]] of [[Riemannian geometry]], '''Fermi coordinates''' are local coordinates that are adapted to a [[geodesic]].<ref>Manasse and Misner [http://link.aip.org/link/JMAPAQ/v4/i6/p735/s1], ''Fermi Normal Coordinates and Some Basic Concepts in Differential Geometry''. Journal of Mathematical Physics 4:6, 1963.</ref>
 
More formally, suppose ''M'' is an ''n''-dimensional [[Riemannian manifold]], <math>\gamma</math> is a geodesic on <math>M</math>, and <math>p</math> is a point on <math>\gamma</math>. Then there exists local coordinates <math>(t,x^2, \ldots, x^n)</math>
around <math>p</math> such that:
* For small ''t'', <math>(t,0,\ldots, 0)</math> represents the geodesic near <math>p</math>,
* On <math>\gamma</math>, the metric tensor is the Euclidean metric,
* On <math>\gamma</math>, all [[Christoffel symbol]]s vanish.
 
Such coordinates are called '''Fermi coordinates''' and are named after the Italian physicist [[Enrico Fermi]]. The above properties are only valid on the geodesic. For example, if all Christoffel symbols vanish near <math>p</math>, then the manifold is [[Curvature#Curvature of space|flat]] near <math>p</math>.
 
{{Reflist}}
 
==See also==
* [[Geodesic normal coordinates]]
* [[Christoffel symbols]]
* [[Isothermal coordinates]]
 
 
{{DEFAULTSORT:Fermi Coordinates}}
[[Category:Riemannian geometry]]
[[Category:Coordinate systems in differential geometry]]
[[Category:Enrico Fermi|Coordinates]]
{{differential-geometry-stub}}

Latest revision as of 04:53, 9 January 2013

In the mathematical theory of Riemannian geometry, Fermi coordinates are local coordinates that are adapted to a geodesic.[1]

More formally, suppose M is an n-dimensional Riemannian manifold, γ is a geodesic on M, and p is a point on γ. Then there exists local coordinates (t,x2,,xn) around p such that:

Such coordinates are called Fermi coordinates and are named after the Italian physicist Enrico Fermi. The above properties are only valid on the geodesic. For example, if all Christoffel symbols vanish near p, then the manifold is flat near p. 

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See also

Template:Differential-geometry-stub

  1. Manasse and Misner [1], Fermi Normal Coordinates and Some Basic Concepts in Differential Geometry. Journal of Mathematical Physics 4:6, 1963.
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