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Solving Mathematical Physics Problems in the Wolfram Mathematica System
Современные информационные технологии и IT-образование, 2019 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.
Vladimir Kristalinskii +1 more
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Analytical derivation: An epistemic game for solving mathematically based physics problems
Physical Review Physics Education Research, 2016 Problem solving, which often involves multiple steps, is an integral part of physics learning and teaching. Using the perspective of the epistemic game, we documented a specific game that is commonly pursued by students while solving mathematically based
Rabindra R. Bajracharya +1 more
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Solutions for Some Mathematical Physics Problems Issued from Modeling Real Phenomena: Part 1
Axioms, 2023 This paper brings together methods to solve and/or characterize solutions of some problems of mathematical physics equations involving p-Laplacian and p-pseudo-Laplacian.
Irina Meghea
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VAGO method for the solution of elliptic second-order boundary value problems [PDF]
, 2010 Mathematical physics problems are often formulated using differential oprators of vector analysis - invariant operators of first order, namely, divergence, gradient and rotor operators.
Vabishchevich, Nikolay P. +1 more
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RUDN Journal of Informatization in Education, 2021 Problem and goal. In modern conditions, specialists in various subject areas who have an information culture and are able to solve complex professional problems using modern information and communication technologies are in demand. Currently, specialists
Viktor S. Kornilov, Alexey S. Rusinov
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Bosonization of the Schwinger Model by Noncommutative Chiral Bosons [PDF]
, 2006 Bosonization of the Schwinger model with noncommutative chiral bosons is considered on a spacetime of cylinder topology. Using point splitting regularization, manifest gauge invariance is maintained throughout. Physical consequences are discussed.Comment:
Geloun, Joseph Ben +2 more
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Random Problems in Mathematical Physics
, 2023 PhD Thesis, University of Copenhagen. Comments welcome.
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Mathematical-physical model of solving inventive problems [PDF]
FME Transactions, 2021 The spatial-temporal LT-contradiction matrix is an inventology tool that enables exact calculations of certain parameters in an engineering system through mathematical-physical modeling. It objectifies the decision-making process and creates the preconditions to finding an adequate resource (X-element) with a higher probability, and thus to reach a ...
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Constructive Field Theory and Applications: Perspectives and Open Problems
, 2000 In this paper we review many interesting open problems in mathematical physics which may be attacked with the help of tools from constructive field theory. They could give work for future mathematical physicists trained with the constructive methods well
Abdesselam A. +45 more
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Understanding student use of differentials in physics integration problems
Physical Review Special Topics. Physics Education Research, 2013 This study focuses on students’ use of the mathematical concept of differentials in physics problem solving. For instance, in electrostatics, students need to set up an integral to find the electric field due to a charged bar, an activity that involves ...
Dehui Hu, N. Sanjay Rebello
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