| Preface |
| List of Symbols |
| Prologue / Chapter 1: |
| Scalars and vectors / 1.1: |
| Effect of rotations on scalars and vectors / 1.2: |
| Integrals involving vectors / 1.3: |
| Gradient and curl, conservative field and scalar potential / 1.4: |
| Divergence, conservative flux, and vector potential / 1.5: |
| Other properties of the vector differential operator / 1.6: |
| Invariance and physical laws / 1.7: |
| Electric charges in nature / 1.8: |
| Interactions in nature / 1.9: |
| Problems / 1.10: |
| Electrostatics in Vacuum / Chapter 2: |
| Electric forces and field / 2.1: |
| Electric energy and potential / 2.2: |
| The two fundamental laws of electrostatics / 2.3: |
| Poisson's equation and its solutions / 2.4: |
| Symmetries of the electric field and potential / 2.5: |
| Electric dipole / 2.6: |
| Electric field and potential of simple charge configurations / 2.7: |
| Some general properties of the electric field and potential / 2.8: |
| Electrostatic energy of a system of charges / 2.9: |
| Electrostatic binding energy of ionic crystals and atomic nuclei / 2.10: |
| Interaction-at-a-distance and local interaction* / 2.11: |
| Conductors and Currents / 2.12: |
| Conductors in equilibrium / 3.1: |
| Conductors with cavities, electric shielding / 3.2: |
| Capacitors / 3.3: |
| Mutual electric influence of conductors / 3.4: |
| Electric forces between conductors / 3.5: |
| Currents and current densities / 3.6: |
| Classical model of conduction, Ohm's law and the Joule effect / 3.7: |
| Resistance of conductors / 3.8: |
| Variation of resistivity with temperature, superconductivity / 3.9: |
| Band theory of conduction, semiconductors* / 3.10: |
| Electric circuits / 3.11: |
| Dielectrics / 3.12: |
| Effects of dielectric on capacitors / 4.1: |
| Polarization of dielectrics / 4.2: |
| Microscopic interpretation of polarization / 4.3: |
| Polarization charges in dielectric / 4.4: |
| Potential and field of polarized dielectrics / 4.5: |
| Gauss's law in the case of dielectrics, electric displacement / 4.6: |
| Electrostatic equations in dielectrics / 4.7: |
| Field and potential of permanent dielectrics / 4.8: |
| Polarization of a dielectric in an external field / 4.9: |
| Energy and force in dielectrics / 4.10: |
| Action of an electric field on a polarized medium / 4.11: |
| Electric susceptibility and permitivity / 4.12: |
| Variation of polarization with temperature / 4.13: |
| Nonlinear of dielectrics and non-isotropic dielectrics / 4.14: |
| Special Techniques and Approximation Methods / 4.15: |
| Unicity of the solution / 5.1: |
| Method of images / 5.2: |
| Method of analytic functions / 5.3: |
| Method of separation of variables / 5.4: |
| Laplace's equation in Cartesian coordinates / 5.5: |
| Laplace's equation in spherical coordinates / 5.6: |
| Laplace's equation in cylindrical coordinates / 5.7: |
| Multipole expansion / 5.8: |
| Other methods / 5.9: |
| Magnetic Field in Vacuum / 5.10: |
| Force exerted by a magnetic field on a moving charge / 6.1: |
| Force exerted by a magnetic field on a current, Laplace's force / 6.2: |
| Magnetic flux and vector potential / 6.3: |
| Magnetic field of particles and currents, Biot-Savart's law / 6.4: |
| Magnetic moment / 6.5: |
| Symmetries of the magnetic field / 6.6: |
| Ampère's law in the integral form / 6.7: |
| Field and potential of some simple circuits / 6.8: |
| Equations of time-independent magnetism in vacuum, singularities of B / 6.9: |
| Magnetic energy of a circuit in a field B / 6.10: |
| Magnetic forces / 6.11: |
| Question of magnetic monopoles* / 6.12: |
| Magnetism in Matter / 6.13: |
| Types of magnetism / 7.1: |
| Diamagnetism and paramagnetism / 7.2: |
| Magnetization current / 7.3: |
| Magnetic field and vector potential in the presence of magnetic matter / 7.4: |
| Ampère's law in the integral form in the presence of magnetic matter / 7.5: |
| Equations of time-independent magnetism in the presence of matter / 7.6: |
| Discontinuities of the magnetic field / 7.7: |
| Examples of calculation of the field of permanent magnets / 7.8: |
| Magnetization of a body in an external field / 7.9: |
| Magnetic susceptibility, nonlinear mediums and non-isotropic mediums / 7.10: |
| Action of a magnetic field on a magnetic body / 7.11: |
| Magnetic energy in matter / 7.12: |
| Variation of magnetization with temperature / 7.13: |
| Ferromagnetism / 7.14: |
| Magnetic circuits / 7.15: |
| Induction / 7.16: |
| Induction due to the variation of the flux, Faraday's and Lenz's laws / 8.1: |
| Neumann's induction / 8.2: |
| Lorentz induction / 8.3: |
| Lorentz induction and the Galilean transformation of fields / 8.4: |
| Mutual inductance and self-inductance / 8.5: |
| LR circuit / 8.6: |
| Magnetic energy / 8.7: |
| Magnetic forces acting on circuits / 8.8: |
| Some applications of induction / 8.9: |
| Maxwell's Equations / 8.10: |
| Fundamental laws of electromagnetism / 9.1: |
| Maxwell's equations / 9.2: |
| Electromagnetic potentials and gauge transformation / 9.3: |
| Quasi-permanent approximation / 9.4: |
| Discontinuities on the interface of two mediums / 9.5: |
| Electromagnetic energy and Poynting vector / 9.6: |
| Electromagnetic pressure, Maxwell's tensor / 9.7: |
| Electromagnetic Waves / 9.8: |
| A short review on waves / 10.1: |
| Electromagnetic waves in infinite vacuum and dielectrics / 10.2: |
| Polarization of electromagnetic waves / 10.3: |
| Energy and intensity of plane electromagnetic waves / 10.4: |
| Momentum and angular momentum densities, radiation pressure / 10.5: |
| A simple model of dispersion / 10.6: |
| Electromagnetic waves in conductors / 10.7: |
| Electromagnetic waves in plasmas / 10.8: |
| Quantization of electromagnetic waves / 10.9: |
| Electromagnetic spectrum / 10.10: |
| Emission of electromagnetic radiations / 10.11: |
| Spontaneous and stimulated emissions / 10.12: |
| Reflection, Interference, Diffraction and Diffusion / 10.13: |
| General laws of reflection and refraction / 11.1: |
| Reflection and refraction on the interface of two dielectrics / 11.2: |
| Total reflection / 11.3: |
| Reflection on a conductor / 11.4: |
| Reflection on a plasma / 11.5: |
| Interference of two electromagnetic waves / 11.6: |
| Superposition of several waves, conditions for observable interference / 11.7: |
| Huygens-Fresnel's principle and diffraction by an aperture / 11.8: |
| Diffraction by an obstacle, Babinet's theorem / 11.9: |
| Diffraction by several randomly distributed identical apertures / 11.10: |
| Diffraction grating / 11.11: |
| X-ray diffraction / 11.12: |
| Diffusion of waves* / 11.13: |
| Cross-section* / 11.14: |
| Guided Waves / 11.15: |
| Transmission lines / 12.1: |
| Guided waves / 12.2: |
| Waveguides formed by two plane and parallel plates / 12.3: |
| Guided electromagnetic waves in a hollow conductor / 12.4: |
| Energy propagation in waveguides / 12.5: |
| Cavities / 12.6: |
| Applications of waveguides / 12.7: |
| Special Relativity and Electrodynamics / 12.8: |
| Galilean relativity in mechanics / 13.1: |
| Galilean relativity and wave theory* / 13.2: |
| The 19th Century experiments on the velocity of light / 13.3: |
| Special theory of relativity / 13.4: |
| Four-dimensional formalism / 13.5: |
| Elements of relativistic mechanics / 13.6: |
| Special relativity and wave theory* / 13.7: |
| Elements of relativistic electrodynamics / 13.8: |
| Motion of Charged Particles in an Electromagnetic Field / 13.9: |
| Motion of a charged particle in an electric field / 14.1: |
| Bohr model for the hydrogen atom* / 14.2: |
| Rutherford's scattering* / 14.3: |
| Motion of a charged particle in a magnetic field / 14.4: |
| Motion in crossed electric and magnetic fields / 14.5: |
| Magnetic moment in a magnetic field / 14.6: |
| Emission of Radiation / 14.7: |
| Retarded potentials and fields / 15.1: |
| Dipole radiation / 15.2: |
| Electric dipole radiation / 15.3: |
| Magnetic dipole radiation / 15.4: |
| Antennas / 15.5: |
| Potentials and fields of a charged particle* / 15.6: |
| Case of a charged particle with constant velocity* / 15.7: |
| Radiated energy by a moving charge / 15.8: |
| Answers to Some Problems / 15.9: |
| Mathematical Review / Appendix A: |
| Units in Physics / Appendix B: |
| Some Physical Constants / Appendix C: |
| Further Reading |
| Index |
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