Products in Mathematical and Theoretical Physics |
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 | Mathematical Physics
by Donald H. Menzel
Useful treatment of classical mechanics, electromagnetic theory, and relativity includes explanations of function theory, vectors, matrices, dyadics, tensors, partial differential equations, other advanced mathematical techniques. Nearly 200 problems with answers.
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 | Mathematical Tools for Physics
by James Nearing
Encouraging students' development of intuition, this original work begins with a review of basic mathematics and advances to infinite series, complex algebra, differential equations, Fourier series, and more. 2010 edition.
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 | Mathematics for Physicists
by Philippe Dennery, André Krzywicki
Superb text provides math needed to understand today's more advanced topics in physics and engineering. Theory of functions of a complex variable, linear vector spaces, much more. Problems. 1967 edition.
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 | Mathematics of Classical and Quantum Physics
by Frederick W. Byron, Jr., Robert W. Fuller
Graduate-level text offers unified treatment of mathematics applicable to many branches of physics. Theory of vector spaces, analytic function theory, theory of integral equations, group theory, more. Many problems. Bibliography.
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 | Methods of Applied Mathematics
by Francis B. Hildebrand
Offering a number of mathematical facts and techniques not commonly treated in courses in advanced calculus, this book explores linear algebraic equations, quadratic and Hermitian forms, the calculus of variations, more.
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 | Molecular Collision Theory
by M. S. Child
This high-level monograph offers an analytical treatment of classical scattering by a central force, quantum scattering by a central force, elastic scattering phase shifts, and semi-classical elastic scattering. 1974 edition.
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 | Partial Differential Equations of Mathematical Physics
by S. L. Sobolev
Unusually accessible introduction to equations used to investigate many physical problems. Detailed, precise coverage of Riemann method, Lebesgue integration, Green's function, many other topics. Only knowledge of elementary analysis required. 1964 edition.
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 | Perturbation Techniques in Mathematics, Engineering and Physics
by Richard Bellman
Graduate students receive a stimulating introduction to analytical approximation techniques for solving differential equations in this text, which introduces scientifically significant problems and indicates useful solutions. 1966 edition.
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 | Plasma Confinement
by R. D. Hazeltine, J. D. Meiss
Graduate-level text examines the essential physics underlying international research in magnetic confinement fusion with accounts of fundamental concepts behind methods of confining plasma at or near thermonuclear conditions. 1992 edition.
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 | Realizability Theory for Continuous Linear Systems
by A. H. Zemanian
Concise exposition of realizability theory as applied to continous linear systems, specifically to the operators generated by physical systems as mappings of stimuli into responses. Many problems included.
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 | Strength of Materials
by J. P. Den Hartog
In addition to coverage of customary elementary subjects (tension, torsion, bending, etc.), this introductory text features advanced material on engineering methods and applications, plus 350 problems and answers. 1949 edition.
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 | A Survey of Physical Theory
by Max Planck
In this classic of scientific literature, the Nobel Laureate and creator of the quantum revolution explores the basics of physics, concluding with an engrossing narrative of how he developed quantum theory. 1925 edition.
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 | Tensor Analysis for Physicists, Second Edition
by J. A. Schouten
Rigorous, advanced mathematical explanation of classic tensor analysis, written by a founder of tensor calculus. Well-chosen physical examples of the theory involve elasticity, classical dynamics, relativity, and Dirac's matrix calculus. 1954 edition.
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 | Theoretical Nuclear Physics
by John M. Blatt, Victor F. Weisskopf
An uncommonly clear and cogent investigation and correlation of key aspects of theoretical nuclear physics by leading experts: the nucleus, nuclear forces, nuclear spectroscopy, two-, three- and four-body problems, nuclear reactions, beta-decay and nuclear shell structure.
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 | Theoretical Physics
by Georg Joos, Ira M. Freeman
Classic treatise covers mathematical topics needed by theoretical and experimental physicists (vector analysis, calculus of variations, etc.), followed by coverage of mechanics, electromagnetic theory, thermodynamics, quantum mechanics, and nuclear physics.
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