Mathematical Methods In Chemistry And Physics


Mathematical Methods for Physical and Analytical Chemistry

Author : David Z. Goodson

Publisher : John Wiley & Sons

Page : 408 pages

File Size : 12,39 MB

Release : 2011-11-14

Category : Science

ISBN : 1118135172

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Book Description

Mathematical Methods for Physical and Analytical Chemistry presents mathematical and statistical methods to students of chemistry at the intermediate, post-calculus level. The content includes a review of general calculus; a review of numerical techniques often omitted from calculus courses, such as cubic splines and Newton’s method; a detailed treatment of statistical methods for experimental data analysis; complex numbers; extrapolation; linear algebra; and differential equations. With numerous example problems and helpful anecdotes, this text gives chemistry students the mathematical knowledge they need to understand the analytical and physical chemistry professional literature.





Mathematical Methods in Physics, Engineering, and Chemistry

Author : Brett Borden

Publisher : John Wiley & Sons

Page : 446 pages

File Size : 44,86 MB

Release : 2019-10-11

Category : Science

ISBN : 1119579686

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Book Description

A concise and up-to-date introduction to mathematical methods for students in the physical sciences Mathematical Methods in Physics, Engineering and Chemistry offers an introduction to the most important methods of theoretical physics. Written by two physics professors with years of experience, the text puts the focus on the essential math topics that the majority of physical science students require in the course of their studies. This concise text also contains worked examples that clearly illustrate the mathematical concepts presented and shows how they apply to physical problems. This targeted text covers a range of topics including linear algebra, partial differential equations, power series, Sturm-Liouville theory, Fourier series, special functions, complex analysis, the Green’s function method, integral equations, and tensor analysis. This important text: Provides a streamlined approach to the subject by putting the focus on the mathematical topics that physical science students really need Offers a text that is different from the often-found definition-theorem-proof scheme Includes more than 150 worked examples that help with an understanding of the problems presented Presents a guide with more than 200 exercises with different degrees of difficulty Written for advanced undergraduate and graduate students of physics, materials science, and engineering, Mathematical Methods in Physics, Engineering and Chemistry includes the essential methods of theoretical physics. The text is streamlined to provide only the most important mathematical concepts that apply to physical problems.



Mathematical Methods for Scientists and Engineers

Author : Donald Allan McQuarrie

Publisher : University Science Books

Page : 1188 pages

File Size : 47,75 MB

Release : 2003

Category : Mathematics

ISBN : 9781891389245

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Book Description

"Intended for upper-level undergraduate and graduate courses in chemistry, physics, math and engineering, this book will also become a must-have for the personal library of all advanced students in the physical sciences. Comprised of more than 2000 problems and 700 worked examples that detail every single step, this text is exceptionally well adapted for self study as well as for course use."--From publisher description.



Mathematical Methods Using Mathematica®

Author : Sadri Hassani

Publisher : Springer Science & Business Media

Page : 240 pages

File Size : 30,42 MB

Release : 2006-04-10

Category : Science

ISBN : 038721559X

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Book Description

Intended as a companion for textbooks in mathematical methods for science and engineering, this book presents a large number of numerical topics and exercises together with discussions of methods for solving such problems using Mathematica(R). Although it is primarily designed for use with the author's "Mathematical Methods: For Students of Physics and Related Fields," the discussions in the book sufficiently self-contained that the book can be used as a supplement to any of the standard textbooks in mathematical methods for undergraduate students of physical sciences or engineering.



Mathematical Methods in the Physical Sciences

Author : Mary L. Boas

Publisher : John Wiley & Sons

Page : 868 pages

File Size : 41,51 MB

Release : 2006

Category : Mathematical physics

ISBN : 9788126508105

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Book Description

Market_Desc: · Physicists and Engineers· Students in Physics and Engineering Special Features: · Covers everything from Linear Algebra, Calculus, Analysis, Probability and Statistics, to ODE, PDE, Transforms and more· Emphasizes intuition and computational abilities· Expands the material on DE and multiple integrals· Focuses on the applied side, exploring material that is relevant to physics and engineering· Explains each concept in clear, easy-to-understand steps About The Book: The book provides a comprehensive introduction to the areas of mathematical physics. It combines all the essential math concepts into one compact, clearly written reference. This book helps readers gain a solid foundation in the many areas of mathematical methods in order to achieve a basic competence in advanced physics, chemistry, and engineering.



Mathematical Physics in Theoretical Chemistry

Author : S.M. Blinder

Publisher : Elsevier

Page : 426 pages

File Size : 44,1 MB

Release : 2018-11-26

Category : Science

ISBN : 0128137010

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Book Description

Mathematical Physics in Theoretical Chemistry deals with important topics in theoretical and computational chemistry. Topics covered include density functional theory, computational methods in biological chemistry, and Hartree-Fock methods. As the second volume in the Developments in Physical & Theoretical Chemistry series, this volume further highlights the major advances and developments in research, also serving as a basis for advanced study. With a multidisciplinary and encompassing structure guided by a highly experienced editor, the series is designed to enable researchers in both academia and industry stay abreast of developments in physical and theoretical chemistry. - Brings together the most important aspects and recent advances in theoretical and computational chemistry - Covers computational methods for small molecules, density-functional methods, and computational chemistry on personal and quantum computers - Presents cutting-edge developments in theoretical and computational chemistry that are applicable to graduate students and research professionals in chemistry, physics, materials science and biochemistry



Algebraic Methods in Quantum Chemistry and Physics

Author : Francisco M. Fernandez

Publisher : CRC Press

Page : 284 pages

File Size : 43,79 MB

Release : 1995-10-24

Category : Science

ISBN : 9780849382925

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Book Description

Algebraic Methods in Quantum Chemistry and Physics provides straightforward presentations of selected topics in theoretical chemistry and physics, including Lie algebras and their applications, harmonic oscillators, bilinear oscillators, perturbation theory, numerical solutions of the Schrödinger equation, and parameterizations of the time-evolution operator. The mathematical tools described in this book are presented in a manner that clearly illustrates their application to problems arising in theoretical chemistry and physics. The application techniques are carefully explained with step-by-step instructions that are easy to follow, and the results are organized to facilitate both manual and numerical calculations. Algebraic Methods in Quantum Chemistry and Physics demonstrates how to obtain useful analytical results with elementary algebra and calculus and an understanding of basic quantum chemistry and physics.



Many-Body Methods in Chemistry and Physics

Author : Isaiah Shavitt

Publisher : Cambridge University Press

Page : 547 pages

File Size : 42,69 MB

Release : 2009-08-06

Category : Science

ISBN : 052181832X

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Book Description

This book describes the mathematical and diagrammatic techniques employed in the popular many-body methods to determine molecular structure, properties and interactions.