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Classical electrodynamics : lecture notes /

Essential Advanced Physics is a series comprising four parts: Classical Mechanics, Classical Electrodynamics, Quantum Mechanics and Statistical Mechanics. Each part consists of two volumes, Lecture notes and Problems with solutions, further supplemented by an additional collection of test problems a...

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Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autor principal:	Likharev, K. K. (Konstantin Konstantinovich) (Autor)
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2018]
Colección:	IOP (Series). Release 5. Essential advanced physics ; v. 3. Essential advanced physics. Part EM. IOP expanding physics.
Temas:	Mechanics. Electricity, electromagnetism & magnetism. SCIENCE / Physics / Electromagnetism.
Acceso en línea:	Texto completo

Tabla de Contenidos:

1. Electric charge interaction
1.1. The Coulomb law
1.2. The Gauss law
1.3. Scalar potential and electric field energy
1.4. Problems
2. Charges and conductors
2.1. Polarization and screening
2.2. Capacitance
2.3. The simplest boundary problems
2.4. Using other orthogonal coordinates
2.5. Variable separation--Cartesian coordinates
2.6. Variable separation--polar coordinates
2.7. Variable separation--cylindrical coordinates
2.8. Variable separation--spherical coordinates
2.9. Charge images
2.10. Green's functions
2.11. Numerical methods
2.12. Problems
3. Dipoles and dielectrics
3.1. Electric dipole
3.2. Dipole media
3.3. Polarization of dielectrics
3.4. Electrostatics of linear dielectrics
3.5. Energy of electric field in a dielectric
3.6. Problems
4. DC currents
4.1. Continuity equation and the Kirchhoff laws
4.2. The Ohm law
4.3. Boundary problems
4.4. Energy dissipation
4.5. Problems
5. Magnetism
5.1. Magnetic interaction of currents
5.2. Vector-potential and the Ampère law
5.3. Magnetic energy, flux, and inductance
5.4. Magnetic dipole moment, and magnetic dipole media
5.5. Magnetic materials
5.6. Systems with magnetics
5.7. Problems
6. Electromagnetism
6.1. Electromagnetic induction
6.2. Magnetic energy revisited
6.3. Quasi-static approximation and skin effect
6.4. Electrodynamics of superconductivity and gauge invariance
6.5. Electrodynamics of macroscopic quantum phenomena
6.6. Inductors, transformers, and ac Kirchhoff laws
6.7. Displacement currents
6.8. Finally, the full Maxwell equation system
6.9. Problems
7. Electromagnetic wave propagation
7.1. Plane waves
7.2. Attenuation and dispersion
7.3. Reflection
7.4. Refraction
7.5. Transmission lines : TEM waves
7.6. Waveguides : H and E waves
7.7. Dielectric waveguides, optical fibers, and paraxial beams
7.8. Resonators
7.9. Energy loss effects
7.10. Problems
8. Radiation, scattering, interference, and diffraction
8.1. Retarded potentials
8.2. Electric dipole radiation
8.3. Wave scattering
8.4. Interference and diffraction
8.5. The Huygens principle
8.6. Fresnel and Fraunhofer diffraction patterns
8.7. Geometrical optics placeholder
8.8. Fraunhofer diffraction from more complex scatterers
8.9. Magnetic dipole and electric quadrupole radiation
8.10. Problems
9. Special relativity
9.1. Einstein postulates and the Lorentz transform
9.2. Relativistic kinematic effects
9.3. Four-vectors, momentum, mass, and energy
9.4. More on four-vectors and four-tensors
9.5. Maxwell equations in the four-form
9.6. Relativistic particles in electric and magnetic fields
9.7. Analytical mechanics of charged particles
9.8. Analytical mechanics of the electromagnetic field
10. Radiation by relativistic charges
10.1. Liénard-Wiechert potentials
10.2. Radiation power
10.3. Synchrotron radiation
10.4. Bremsstrahlung and Coulomb losses
10.5. Density effects and Cherenkov radiation
10.6. Radiation's back-action
10.7. Problems
Appendices. A. Selected mathematical formulas
B. Selected physical constants.

Classical electrodynamics : lecture notes /

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