Classical Theory of Electricity and Magnetism
portes grátis
Classical Theory of Electricity and Magnetism
A Course of Lectures
Raychaudhuri, Amal Kumar
Springer Verlag, Singapore
04/2022
300
Dura
Inglês
9789811681387
15 a 20 dias
641
Descrição não disponível.
1. Empirical Basis of Electrostatics.- 2. Direct Calculation of Field in Some Cases.- 3. Gauss' Theorem, Laplace and Poisson Equations.- 4. Analysis of the Electrostatic Field: Multipole Moments.- 5. Dielectrics and the Uniqueness Theorem.- 6. Solution of the Laplace Equation.- 7. Field Energy and Forces in Electrostatics.- 8. Stationary currents and magnetic fields.- 9. Electromagnetic induction and energy of the magnetic field.- 10. Maxwell's Equations, Electromagnetic Energy and Momentum.- 11. Reflection and Refraction of Electromagnetic Waves.- 12. Wave Guides and Cavity Resonators.- 13. Electromagnetic Waves in Anisotropic Media.- 14. Solution of Maxwell Equations: Retarded and Advanced potentials.- 15. Analysis of the Radiation Field.- 16. Field due to a Moving Charged Particle.- 17. Field of a Particle in Non-Uniform Motion.- 18. Electrons in Material Media.- 19. Motion of Charged Particles in Electromagnetic Fields.- 20. Magnetohydrodynamics-conducting fluids and magnetic fields.- 21. Two Component Plasma Oscillations.- 22. The Theory of the Electron.- 23. Special Theory of Relativity and Electromagnetism.- 24. ariational Principle Formulation of Maxwell's Equations and Lagrangian Dynamics of Charged Particles in Electromagnetic Fields.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
electrostatics;magnetism;Gauss' theorem;Laplace equation;Poisson equation;multipole moments;dielectrics and uniqueness theorem;field energy;magnetic fields;electromagnetic induction;Maxwell's equations;electromagnetic waves;wave guide and cavity resonators;anisotropic media;radiation field;moving charged particle;magnetohydrodynamics;plasma oscillations;relativity
1. Empirical Basis of Electrostatics.- 2. Direct Calculation of Field in Some Cases.- 3. Gauss' Theorem, Laplace and Poisson Equations.- 4. Analysis of the Electrostatic Field: Multipole Moments.- 5. Dielectrics and the Uniqueness Theorem.- 6. Solution of the Laplace Equation.- 7. Field Energy and Forces in Electrostatics.- 8. Stationary currents and magnetic fields.- 9. Electromagnetic induction and energy of the magnetic field.- 10. Maxwell's Equations, Electromagnetic Energy and Momentum.- 11. Reflection and Refraction of Electromagnetic Waves.- 12. Wave Guides and Cavity Resonators.- 13. Electromagnetic Waves in Anisotropic Media.- 14. Solution of Maxwell Equations: Retarded and Advanced potentials.- 15. Analysis of the Radiation Field.- 16. Field due to a Moving Charged Particle.- 17. Field of a Particle in Non-Uniform Motion.- 18. Electrons in Material Media.- 19. Motion of Charged Particles in Electromagnetic Fields.- 20. Magnetohydrodynamics-conducting fluids and magnetic fields.- 21. Two Component Plasma Oscillations.- 22. The Theory of the Electron.- 23. Special Theory of Relativity and Electromagnetism.- 24. ariational Principle Formulation of Maxwell's Equations and Lagrangian Dynamics of Charged Particles in Electromagnetic Fields.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
electrostatics;magnetism;Gauss' theorem;Laplace equation;Poisson equation;multipole moments;dielectrics and uniqueness theorem;field energy;magnetic fields;electromagnetic induction;Maxwell's equations;electromagnetic waves;wave guide and cavity resonators;anisotropic media;radiation field;moving charged particle;magnetohydrodynamics;plasma oscillations;relativity
