Classical Electrodynamics: covers the essential theoretical foundations of electrodynamics from the vector calculus formulation to the classical gauge field theory.
Classical Electrodynamics: covers the essential theoretical foundations of electrodynamics from the vector calculus formulation to the classical gauge field theory.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Meng Lee Leek is a Senior Lecturer of Physics at Nanyang Technological University of Singapore (NTU). He has been awarded the Nanyang Education Award once and the Teaching Excellence Award 3 times. His research interests lie in theoretical physics, and he enjoys showing students the world of theoretical physics through supervision of numerous student projects.
Inhaltsangabe
Part I Basic Formalism of Electrodynamics (in vector calculus form) 1 Conservation Laws 2 Potential Formulation of Electrodynamics 3 Standard Application 1: Point Charge 4 Standard Application 2: Radiation 5 Standard Application 3: Scattering of EM waves 6 Exercises for Part I Part II Electrodynamics in Lorentz Covariant Form (in tensor calculus form) 7 Special Relativity 8 Electrodynamics recast into a manifestly Lorentz covariant form 9 Exercises for Part II Part III Classical Relativistic U(1) Gauge Theory 10 Lagrangian description of a classical relativistic U(1) gauge theory 11 Exercises for Part III Part IV Solutions to the Problems 12 Solutions to Exercises in Part I 13 Solutions to Exercises for Part II 14 Solutions to Exercises for Part III Part V Appendices 15 Mathematics: Vector Calculus 16 Summary of Electromagnetism Bibliography
Part I Basic Formalism of Electrodynamics (in vector calculus form) 1 Conservation Laws 2 Potential Formulation of Electrodynamics 3 Standard Application 1: Point Charge 4 Standard Application 2: Radiation 5 Standard Application 3: Scattering of EM waves 6 Exercises for Part I Part II Electrodynamics in Lorentz Covariant Form (in tensor calculus form) 7 Special Relativity 8 Electrodynamics recast into a manifestly Lorentz covariant form 9 Exercises for Part II Part III Classical Relativistic U(1) Gauge Theory 10 Lagrangian description of a classical relativistic U(1) gauge theory 11 Exercises for Part III Part IV Solutions to the Problems 12 Solutions to Exercises in Part I 13 Solutions to Exercises for Part II 14 Solutions to Exercises for Part III Part V Appendices 15 Mathematics: Vector Calculus 16 Summary of Electromagnetism Bibliography
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