On the use of algebraic programming in the general relativity

D.N. Vulcanov (The West University of Timisoara; Theoretical and; Computational Physics Dept.; Timisoara; Romania)

arXiv:gr-qc/0010085·gr-qc·May 23, 2007

On the use of algebraic programming in the general relativity

D.N. Vulcanov (The West University of Timisoara, Theoretical and, Computational Physics Dept., Timisoara, Romania)

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TL;DR

This review discusses how algebraic programming and computer algebra systems are applied to solve various problems in general relativity, highlighting existing research and methodologies.

Contribution

It compiles and analyzes previous work on algebraic programming's role in general relativity, emphasizing its applications and effectiveness.

Findings

01

Algebraic programming aids in solving complex relativity equations.

02

Computer algebra systems facilitate symbolic calculations in gravitational research.

03

The review consolidates key results from published studies.

Abstract

This is a review devoted to some results of Algebraic Programming (Computer Algebra) used in treating several problems of general relativity, based mainly on already published articles. The article contains the talk given by the author at The Albert Einstein Institut, Max Planck Institut fur Gravitationstheorie, Golm, Germany, september 2000

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Taxonomy

TopicsRelativity and Gravitational Theory · Mathematics and Applications · Cosmology and Gravitation Theories