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Classical Electrodynamics [Hardback]

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  • Formāts: Hardback, 424 pages
  • Izdošanas datums: 12-Feb-1998
  • Izdevniecība: World Scientific Publishing Co Pte Ltd
  • ISBN-10: 9810230419
  • ISBN-13: 9789810230418
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Classical ElectrodynamicsPalielināt
  • Formāts: Hardback, 424 pages
  • Izdošanas datums: 12-Feb-1998
  • Izdevniecība: World Scientific Publishing Co Pte Ltd
  • ISBN-10: 9810230419
  • ISBN-13: 9789810230418
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9789810230418.html
Keywords:
This is a comprehensive and user-friendly textbook for a two-semester graduate level course in physics and electrical engineering. Many applications are given in the text. Over two hundred problems are also given. Problem solving by simple and direct approaches (with detailed calculations) are included, and hints are provided to solve the more difficult problems. Approaches to choosing suitable diagrams, coordinating systems and to symmetry requirements are discussed. Mathematical reviews are also given, with emphasis on intuition and fundamentals.
Preface v
Introduction and Review
1(25)
Coulomb's Law, Electric Field and Potential
1(3)
Gauss Law
4(1)
Divergence Theorem
5(2)
Curl and Stokes Theorem
7(1)
Cylindrical Coordinates
8(1)
Spherical Coordinates
9(3)
Electric Dipoles
12(1)
Vector Formulas and Vector Projection
13(1)
Conductors, Surface Charges and Boundary Conditions
14(1)
Laplace and Poisson Equations, Method of Images
15(3)
Capacitance
18(1)
Electrostatic Potential Energy and Energy Density
19(2)
Dirac Delta-Function
21(5)
Problems
23(3)
Electrostatics, Multipoles, Dielectrics
26(41)
Fourier Series and Orthogonality
26(2)
Two-Dimensional Potential Problems in Rectangles
28(3)
Fourier Transform
31(2)
Legendre Polynomials and Laplace Equations in Spherical Coordinates
33(6)
Spherical Harmonics
39(1)
Cylindrical Coordinates and Bessel Functions
40(5)
Strong Electric Fields near Sharp Edges and Sharp Points
45(1)
Matrices
46(4)
Multipole Expansion
50(3)
Spherical Harmonics Addition Theorem
53(2)
Multipoles in External Electric Field
55(1)
Large Conductor Plate with Circular Hole
56(1)
Dielectric Media
57(2)
Electrostatics and Boundary Conditions in Dielectrics
59(3)
Potential Energy and Energy Density in Dielectrics
62(5)
Problems
63(4)
Magnetostatics
67(19)
Current Density and Equation of Continuity
67(1)
Biot and Savart Law
68(1)
Magnetic Vector Potential
69(5)
Force and Torque on Local Currents due to Magnetic Induction
74(1)
Electromotive Force (EMF) and Magnetic Flux
75(2)
Magnetic Material and Magnetic Intensity Vector
77(2)
Magnetic Scalar Potential, Magnetic Shielding
79(1)
Permanent Magnet
80(3)
Current Density in Parallel Plate Diode
83(3)
Problems
84(2)
Electromagnetic Field Equations
86(14)
Faraday Law of Induction; Magnetic Energy Density
86(1)
Maxwell Equations
87(1)
Introduction to Electromagnetic Waves
88(2)
Poynting Theorem and Poynting Vector
90(2)
Electromagnetic Momentum and Stress Tensor
92(1)
Electromagnetic Potentials
93(7)
Problems
97(3)
Plane Electromagnetic Waves
100(37)
Plane Waves in Isotropic Non-conducting Media
100(1)
Poynting Theorem for Complex Fields
101(1)
Linear, Circular and Elliptical Polarizations
102(1)
Refraction and Reflection at Dielectric Surfaces
103(4)
Wave Propagation in Anisotropic Dielectric Media
107(3)
Wave Propagation in Conducting Media
110(2)
Dispersions in Materials and Plasmas
112(5)
Wave Propagation in Plasma in Presence of Magnetic Field
117(2)
Superposition of Waves, Phase and Group Velocity
119(2)
Cauchy Integral, Contour Integral in Complex Plane
121(4)
Kramers-Kronig Relations
125(3)
Nonlinear Media, Harmonic Generation, Parametric Amplification
128(9)
Problems
132(5)
Wave Guides
137(38)
Metallic Boundary Conditions
137(2)
Wave Propagation between Two Metallic Plane Mirrors
137(2)
Cylindrical Wave Guides
139(1)
TEM Waves
140(2)
TE and TM Waves in Rectangular Wave Guides
142(5)
Power Loss in Wave Guides
147(3)
Energy Flow and Group Velocity in Wave Guides
150(2)
Rectangular Resonant Cavities
152(5)
Circular Metal Wave Guide and Cavity
157(2)
Dielectric Wave Guides, Fiber Optics
159(4)
Localized Field Sources in Wave Guides
163(4)
Plane Diaphragms in Rectangular Wave Guides
167(3)
Spherical Cavity
170(5)
Problems
171(4)
Radiating Systems
175(22)
Electric Dipole Radiation
175(5)
Center-Fed Linear Antenna
180(4)
Magnetic Dipole and Electric Quadrupole Radiation
184(5)
Radiation from Wave Guide Apertures
189(4)
Green's Function and Retardation Potential
193(4)
Problems
195(2)
Scattering and Radiation
197(25)
Scattering Cross Section
197(1)
Scattering by a Small Dielectric Sphere
197(3)
Scattering Cross Section of Electrons
200(1)
Blue Sky and Red Sunset
200(3)
Scattering by a Small Conducting Sphere
203(2)
Coherent and Incoherent Scattering of X-rays in Atoms and Crystals
205(2)
Green's Theorem
207(1)
Helmholtz-Kirchoff Integral in Diffraction
208(1)
Kirchoff Diffraction Theory
209(2)
Fraunhofer Diffraction
211(6)
Fresnel Diffraction by a Straight Edge
217(5)
Problems
220(2)
Special Theory of Relativity
222(24)
Basic Postulates of Special Relativity
222(1)
Lorentz Transformation
223(3)
Four-Vectors
226(2)
Relativistic Momentum and Energy
228(2)
Four-Dimensional Matrices and Tensors
230(2)
Covariant Electrodynamics
232(3)
Point Charge in Uniform Motion
235(2)
Transformation Matrix and Infinitesimal Generators
237(3)
Relativistic Lagrangian and Hamiltonian
240(6)
Problems
242(4)
Relativistic Dynamics
246(27)
Motion of Charged Particle in Uniform Magnetic Field
246(1)
Motion in Uniform Electric and Magnetic Fields
247(2)
Particle Drifts in Nonuniform Magnetic Fields
249(5)
Adiabatic Invariance of Magnetic Flux through Particle Orbits
254(5)
Motions of Particles with Spin
259(6)
Magnetic Resonance for Spin in External Fields
265(3)
Relativistic Motion of Spin in External Fields
268(5)
Problems
270(3)
Radiation by Moving Charges
273(27)
Lienard-Wiechert Potentials
273(4)
Radiation from an Accelerated Charge
277(5)
Frequency Spectrum of Synchrotron Radiation
282(5)
Cerenkov Radiation
287(4)
Energy Loss in Collisions
291(2)
Fourier Transform and Modified Bessel Functions
293(2)
Radiative Reaction and Radiation Damping
295(5)
Problems
296(4)
Spherical Waves
300(16)
Wave Equation in Spherical Coordinates
300(2)
Expansion of Plane Waves into Spherical Waves
302(1)
Scattering of Plane Waves
302(3)
Scattering of Electromagnetic Waves
305(4)
Angular Momentum Operators and Spherical Harmonics
309(7)
Problems
314(2)
Plasma Physics
316(37)
Debye Shielding in Plasmas
316(1)
Applications of Plasma Physics
317(1)
Magnetohydrodynamic Equations
318(3)
Conducting Fluid in Magnetic Field
321(4)
Pinch Effect
325(3)
Flow of Conducting Fluids in Electromagnetic Fields
328(6)
Magnetohydrodynamic Waves
334(7)
Oscillations in Plasmas
341(4)
Electromagnetic Waves in Plasmas
345(8)
Problems
350(3)
Laser and Holography
353(23)
Principles of Lasers
353(19)
Principles of Holography
372(4)
Problems
375(1)
Superconductivity
376(16)
Penetration Depth and Coherence Length in Superconductors
376(5)
Magnetic Flux Quantization in a Superconducting Ring
381(1)
Type II Superconductors
382(5)
Superconductor Tunneling and Josephson Effects
387(5)
Problems
390(2)
Appendix A. Systems of Units 392(3)
Appendix B. Frequently Used Symbols 395(4)
References 399(2)
Index 401