Introduction to Electrodynamics

Name: Introduction to Electrodynamics
SKU: 9781009397759
Price: 67.00 EUR
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Griffiths David

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In this new edition of the standard undergraduate textbook on electricity and magnetism, David Griffiths provides expanded discussions on topics such as the nature of field lines, the crystal ambiguity, eddy currents, and the Thomson kink model. Ideal for junior and senior undergraduate students from physics and electrical engineering, the book now includes many new examples and problems, including numerical applications (in Mathematica) to reflect the increasing importance of computational techniques in contemporary physics. Many figures have been redrawn, while updated references to recent research articles not only emphasize that new discoveries are constantly made in this field, but also help to expand readers' understanding of the topic and of its importance in current physics research.

New edition of the leading undergraduate textbook on electromagnetism for students in physics and electrical engineering
Retains the widely lauded clarity of previous editions, demystifying difficult and subtle mathematical and physical concepts without sacrificing rigor
Author is renowned within the physics community for this textbook and Introduction to Quantum Mechanics (Cambridge University Press, 3rd edition 2018)
Includes a selection of new problems (and several applied computational problems in Mathematica), worked examples, and updated references to recent research
Many figures have been revised or redrawn to provide enhanced pedagogical clarity

Author: Griffiths David

Publisher: CAMBRIDGE UNIVERSITY PRESS

Pages: 650

ISBN: 9781009397759

Cover: Hardback

Edition Number: 5

Release Year: 2024

Preface
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1. Vector analysis
2. Electrostatics
3. Potentials
4. Electric fields in matter
5. Magnetostatics
6. Magnetic fields in matter
7. Electrodynamics
8. Conservation laws
9. Electromagnetic waves
10. Potentials and fields
11. Radiation
12. Electrodynamics and relativity
Appendix A: Vector calculus in curvilinear coordinates
Appendix B: The Helmholtz theorem
Appendix C: Units
Index.

John Dold is a professor of applied mathematics, having trained in physics, mathematics and (briefly) history. Apart from some purely experimental studies, particularly of fire behaviour, his research primarily makes use of partial differential equations to model practical problems, including water waves and combustion phenomena. He founded the journal Combustion Theory and Modelling and he has organised or helped to organise major conferences on combustion research. In his teaching of mathematical methods and their application to various physical phenomena he has written a number of coursework texts.

David Griffiths trained originally as an applied mathematician and has spent his academic career as a numerical analyst at the University of Dundee specialising in the numerical solution of partial differential equations.

David Silvester is a Professor in the School of Mathematics at The University of Manchester. His research concerns numerical solution of partial differential equations, computational fluid dynamics, uncertainty quantification, and high performance computing.