Solving Mathematical Physics Problems in the Wolfram Mathematica System

Solving Mathematical Physics Problems in the Wolfram Mathematica System

Mathematical models of various processes are built on the base of partial differential equations, which are called equations of mathematical physics. The investigation of such an equation is a very difficult problem. At the same time increase of volumes of problems of modeling demands the readiness...

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Main Authors: Vladimir Kristalinskii, Roman Kristalinskii
Format: Article
Language:Russian
Published: The Fund for Promotion of Internet media, IT education, human development «League Internet Media» 2019-12-01
Series:Современные информационные технологии и IT-образование
Subjects:
problems of mathematical physics
wolfram mathematica system
Online Access:http://sitito.cs.msu.ru/index.php/SITITO/article/view/584
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spelling doaj-7b1b1339519b4d4d92f2b6e31b0596262021-08-06T12:03:16ZrusThe Fund for Promotion of Internet media, IT education, human development «League Internet Media»Современные информационные технологии и IT-образование2411-14732019-12-0115498199110.25559/SITITO.15.201904.981-991Solving Mathematical Physics Problems in the Wolfram Mathematica SystemVladimir Kristalinskii0https://orcid.org/0000-0003-1205-990XRoman Kristalinskii1https://orcid.org/0000-0001-8881-3978Smolensk State UniversityMilitary Academy of military air defense of the Armed Forces of the Russian Federation named after Marshal of the Soviet Union A.M. VasilevskyMathematical models of various processes are built on the base of partial differential equations, which are called equations of mathematical physics. The investigation of such an equation is a very difficult problem. At the same time increase of volumes of problems of modeling demands the readiness of many specialists, working in applied fields, to investigate such class of models. Modern scientific software, in particular, Mathematica system, helps to solve this problem. The article is devoted to the methods of usage of this system for the investigation of the mathematical models, leading to the need for the solution of such equations. These methods help to increase the effectiveness of learning of disciplines, connected with mathematical modeling and solution of problems of scientific and research character. The examples of the solution for linear and nonlinear partial differential equations are given.http://sitito.cs.msu.ru/index.php/SITITO/article/view/584problems of mathematical physicswolfram mathematica system
collection DOAJ
language Russian
format Article
sources DOAJ
author Vladimir Kristalinskii
Roman Kristalinskii
spellingShingle Vladimir Kristalinskii
Roman Kristalinskii
Solving Mathematical Physics Problems in the Wolfram Mathematica System
Современные информационные технологии и IT-образование
problems of mathematical physics
wolfram mathematica system
author_facet Vladimir Kristalinskii
Roman Kristalinskii
author_sort Vladimir Kristalinskii
title Solving Mathematical Physics Problems in the Wolfram Mathematica System
title_short Solving Mathematical Physics Problems in the Wolfram Mathematica System
title_full Solving Mathematical Physics Problems in the Wolfram Mathematica System
title_fullStr Solving Mathematical Physics Problems in the Wolfram Mathematica System
title_full_unstemmed Solving Mathematical Physics Problems in the Wolfram Mathematica System
title_sort solving mathematical physics problems in the wolfram mathematica system
publisher The Fund for Promotion of Internet media, IT education, human development «League Internet Media»
series Современные информационные технологии и IT-образование
issn 2411-1473
publishDate 2019-12-01
description Mathematical models of various processes are built on the base of partial differential equations, which are called equations of mathematical physics. The investigation of such an equation is a very difficult problem. At the same time increase of volumes of problems of modeling demands the readiness of many specialists, working in applied fields, to investigate such class of models. Modern scientific software, in particular, Mathematica system, helps to solve this problem. The article is devoted to the methods of usage of this system for the investigation of the mathematical models, leading to the need for the solution of such equations. These methods help to increase the effectiveness of learning of disciplines, connected with mathematical modeling and solution of problems of scientific and research character. The examples of the solution for linear and nonlinear partial differential equations are given.
topic problems of mathematical physics
wolfram mathematica system
url http://sitito.cs.msu.ru/index.php/SITITO/article/view/584
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AT romankristalinskii solvingmathematicalphysicsproblemsinthewolframmathematicasystem
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