Classical Electrodynamics : Fundamentals and Applications / by Fabian Cadiz, Arnaud Couairon.

Format:

Book

Author/Creator:

Cadiz, Fabian.

Series:

Undergraduate Texts in Physics, 2510-4128

Language:

English

Subjects (All):

Electrodynamics.

Mathematical physics.

Classical Electrodynamics.

Theoretical, Mathematical and Computational Physics.

Mathematical Physics.

Mathematical Methods in Physics.

Local Subjects:

Classical Electrodynamics.

Theoretical, Mathematical and Computational Physics.

Mathematical Physics.

Mathematical Methods in Physics.

Physical Description:

1 online resource (1438 pages)

Edition:

1st ed. 2025.

Place of Publication:

Cham : Springer Nature Switzerland : Imprint: Springer, 2025.

Summary:

Classical electrodynamics is a cornerstone of physics and engineering education. Its principles underpin a vast array of technologies and serve as a foundation for advanced topics such as quantum mechanics, statistical physics, and relativity. This textbook aims to provide a unified treatment of classical electrodynamics and its applications, incorporating mathematical rigour, clear explanations of symmetry and invariance principles, and concrete connections to modern technologies. Each chapter is enriched with illustrations of contemporary applications, from the working principles of touchscreens, particle accelerators, 3D glasses and liquid crystal displays to medical imaging technologies like MRI. These real-world examples ground the theory in practical contexts and also inspire readers to see the relevance of electromagnetism in everyday life. Additionally, brief notes are provided on the most influential scientists who shaped the laws and principles discussed. Numerous fully solved exercises are available at the end of each chapter to deepen the knowledge. An ideal companion for any undergraduate and graduate course on this subject. .

Contents:

Chapter 1. Coulomb’s law, electric field and the superposition principle

Chapter 2. Gauss’s law and symmetry properties

Chapter 3. Electric potential, electrostatic energy and the circulation law

Chapter 4. Conductors at equilibirum and Poisson’s equation

Chapter 5. Capacitors

Chapter 6. The field in dielectric media

Chapter 7. Electric currents, Ohm’s law and electrical networks

Chapter 8. Magnetostatics, Biot-Savart’s law

Chapter 9. Amp`ere’s law and magnetic dipole

Chapter 10. The origin of magnetism in matter

Chapter 11. Electromagnetic induction, Faraday’s law and magnetic energy

Chapter 12. Circuits in transient regimes

Chapter 13. Maxwell’s equations, electromagnetic waves and light

Chapter 14. Electromagnetic waves in matter, polarizers and wave plates

Chapter 15. The laws of reflection and refraction

Chapter 16. Interferences and coherence

Chapter 17. Geometrical optics

Chapter 18. Diffraction

Chapter 19. Electromagnetic radiation

Chapter 20. Special relativity and covariant electrodynamics. Appendix.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

3-031-86785-8

9783031867859

OCLC:

1555347205