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翻訳と辞書　辞書検索 [ 開発暫定版 ] スポンサード リンク Riemannian curvature ： ウィキペディア英語版 Riemann curvature tensor In the mathematical field of differential geometry, the Riemann curvature tensor or Riemann–Christoffel tensor (after Bernhard Riemann and Elwin Bruno Christoffel) is the most common method used to express the curvature of Riemannian manifolds. It associates a tensor to each point of a Riemannian manifold (i.e., it is a tensor field), that measures the extent to which the metric tensor is not locally isometric to that of Euclidean space. The curvature tensor can also be defined for any pseudo-Riemannian manifold, or indeed any manifold equipped with an affine connection. It is a central mathematical tool in the theory of general relativity, the modern theory of gravity, and the curvature of spacetime is in principle observable via the geodesic deviation equation. The curvature tensor represents the tidal force experienced by a rigid body moving along a geodesic in a sense made precise by the Jacobi equation. The curvature tensor is given in terms of the Levi-Civita connection $\backslash nabla$ by the following formula: :$R(u,v)w=\backslash nabla\_u\backslash nabla\_v\; w\; -\; \backslash nabla\_v\; \backslash nabla\_u\; w\; -\; \backslash nabla\_\; w$ where () is the Lie bracket of vector fields. For each pair of tangent vectors ''u'', ''v'', ''R''(''u'',''v'') is a linear transformation of the tangent space of the manifold. It is linear in ''u'' and ''v'', and so defines a tensor. Occasionally, the curvature tensor is defined with the opposite sign. If $u=\backslash partial/\backslash partial\; x^i$ and $v=\backslash partial/\backslash partial\; x^j$ are coordinate vector fields then $()=0$ and therefore the formula simplifies to :$R(u,v)w=\backslash nabla\_u\backslash nabla\_v\; w\; -\; \backslash nabla\_v\; \backslash nabla\_u\; w\; .$ The curvature tensor measures ''noncommutativity of the covariant derivative'', and as such is the integrability obstruction for the existence of an isometry with Euclidean space (called, in this context, ''flat'' space). The linear transformation $w\backslash mapsto\; R(u,v)w$ is also called the curvature transformation or endomorphism. The curvature formula can also be expressed in terms of the second covariant derivative defined as: : $\backslash nabla^2\_\; w\; =\; \backslash nabla\_u\backslash nabla\_v\; w\; -\; \backslash nabla\_\; w$ which is linear in ''u'' and ''v''. Then: : $R(u,v)=\backslash nabla^2\_\; -\; \backslash nabla^2\_$ Thus in the general case of non-coordinate vectors ''u'' and ''v'', the curvature tensor measures the noncommutativity of the second covariant derivative. ==Geometrical meaning== 抄文引用元・出典: フリー百科事典『 ウィキペディア（Wikipedia）』 ■ウィキペディアで「Riemann curvature tensor」の詳細全文を読む スポンサード リンク 翻訳と辞書 : 翻訳のためのインターネットリソース Copyright(C) kotoba.ne.jp 1997-2016. All Rights Reserved.