tensor/Ricciscalar

はじめる前に
新機能一覧
Maple ワークシートの作成
Mapleワークシートを共有
Maple ウィンドウのカスタマイズ
Maple システムのカスタマイズ
コネクティビティ
Mathematics
数学
物理
プログラミング
グラフィックス
Student パッケージ
Science and Engineering
科学・エンジニアリング
アプリケーションと例題
リファレンス
システム
MapleSim
MapleSim ツールボックス
MapleSim ヘルプ
Tasks
Toolboxes
エラーメッセージガイド
マニュアル
数学アプリ

tensor[Ricciscalar] - compute the Ricci scalar

	Calling Sequence
	Ricciscalar(ginv, Ricci)

Parameters

ginv	-	rank two tensor_type of character [-1,-1] representing the contravariant metric tensor; specifically, $(ginv[compts])[i,j]:=g^{ij}$
Ricci	-	rank two tensor_type of character [-1,-1] representing the COVARIANT Ricci tensor; specifically, Ricci[compts][i,j] := R_{ij}

Description

•	The result of this routine is the Ricci scalar (note it is represented by a rank zero tensor_type).

•	Both ginv and Ricci should use the Maple symmetric indexing function for their components.

•

Simplification: This routine uses the `tensor/Ricciscalar/simp` routine for simplification purposes. The simplification routine is applied to each component of result after it is computed. By default, `tensor/Ricciscalar/simp` is initialized to the `tensor/simp` routine. It is recommended that the `tensor/Ricciscalar/simp` routine be customized to suit the needs of the particular problem.

•	This function is part of the tensor package, and so can be used in the form Ricciscalar(..) only after performing the command with(tensor) or with(tensor, Ricciscalar). The function can always be accessed in the long form tensor[Ricciscalar](..).

Examples

Define the coordinate variables and the covariant components of the Schwarzchild metric.

g := TABLE([compts = matrix([[1-2*m/r, 0, 0, 0], [0, -1/(1-2*m/r), 0, 0], [0, 0, r^2, 0], [0, 0, 0, r^2*sin(theta)^2]]), index_char = [-1, -1]])

(1)

Compute the Ricci scalar.

(2)

You can also view the result using the tensor package function displayGR.

	See Also
	Physics[Christoffel], Physics[D_], Physics[d_], Physics[Einstein], Physics[g_], Physics[LeviCivita], Physics[Ricci], Physics[Riemann], Physics[Weyl], tensor, tensor[displayGR], tensor[invert], tensor[Ricci], tensor[simp], tensor[tensorsGR]