Verfügbarkeit: Lectures on Electromagnetism.

Lectures on Electromagnetism.:

These lecture notes on electromagnetism have evolved from graduate and undergraduate EM theory courses given by the author at the University of Rochester, with the basics presented with clarity and his characteristic attention to detail. The thirteen chapters cover, in logical sequence, topics rangi...

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1. Verfasser:	Das, Ashok
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore : World Scientific Publishing Company, 2013.
Schlagworte:	Electromagnetism. Électromagnétisme. electromagnetism. SCIENCE > Physics > Electricity. SCIENCE > Physics > Electromagnetism. Electromagnetism Electronic books.
Online-Zugang:	DE-862 DE-863
Zusammenfassung:	These lecture notes on electromagnetism have evolved from graduate and undergraduate EM theory courses given by the author at the University of Rochester, with the basics presented with clarity and his characteristic attention to detail. The thirteen chapters cover, in logical sequence, topics ranging from electrostatics, magnetostatics and Maxwell's equations to plasmas and radiation. Boundary value problems are treated extensively, as are wave guides, electromagnetic interactions and fields. This second edition comprises many of the topics expanded with more details on the derivation of vari.
Beschreibung:	10.4.3 Uniform circular motion.
Beschreibung:	1 online resource (468 pages)
ISBN:	9789814508278 9814508276 9789814508285 9814508284

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505	8		\|a 3 Boundary value problems3.1 Method of images; 3.2 Boundary conditions for differential equations; 3.2.1 Partial differential equations; 3.2.2 Uniqueness theorem; 3.3 Solutions of the Laplace equation; 3.3.1 General properties of harmonic functions; 3.3.2 Solution in Cartesian coordinates; 3.3.3 Solution in spherical coordinates; 3.3.4 Circular harmonics; 3.4 Solution of the Poisson equation; 3.4.1 Green's function; 3.4.2 Dirichlet boundary condition; 3.4.3 Neumann boundary condition; 3.5 Selected problems; 4 Dielectrics; 4.1 Electric displacement field; 4.2 Boundary conditions in dielectric.
505	8		\|a 4.3 Selected problems5 Magnetostatics; 5.1 Lorentz force; 5.2 Current; 5.3 Force on a current due to a magnetic field; 5.4 Nature of the magnetic field; 5.5 Vector potential; 5.6 Multipole expansion; 5.7 Magnetization; 5.8 Magnetic field intensity; 5.9 Boundary condition; 5.10 Faraday's Law; 5.11 Inductance; 5.12 Selected problems; 6 Maxwell's equations; 6.1 Generalization of Ampere's law; 6.2 Plane wave solution; 6.3 Boundary conditions; 6.4 Energy and the Poynting vector; 6.5 Gauge invariance of Maxwell's equations; 6.6 Lorentz transformation; 6.7 Covariance of Maxwell's equations.
505	8		\|a 6.8 Retarded Green's function6.9 Kirchhoff's representation; 6.10 Selected problems; 7 Wave guides; 7.1 Boundary conditions; 7.2 Rectangular wave guide; 7.2.1 TM waves; 7.2.2 TE waves; 7.3 Cylindrical wave guide; 7.3.1 TM waves; 7.3.2 TE waves; 7.4 TEM waves; 7.5 Wave impedance; 7.6 Attenuation factor in wave guides; 7.7 Cavity resonators; 7.8 Q factor of a cavity; 7.9 Dielectric wave guides (optical fibers); 7.10 Selected problems; 8 Propagation through a conducting medium; 8.1 Boundary conditions; 8.2 Reflection at normal incidence; 8.3 Reflection at oblique incidence.
505	8		\|a 8.4 Reflection from a good conducting surface8.5 Radiation pressure; 8.6 Selected problems; 9 Radiation; 9.1 Electric dipole radiation; 9.1.1 Power radiated by an electric dipole; 9.2 Magnetic dipole radiation; 9.3 Center-fed antennas; 9.3.1 Properties of antennas; 9.4 Multipole expansion; 9.5 Behavior of multipole fields; 9.6 Selected problems; 10 Electromagnetic fields of currents; 10.1 Lienard-Wiechert potential; 10.2 Uniform linear motion; 10.3 Method of virtual photons; 10.4 Asymptotic values of the fields; 10.4.1 Dipole approximation; 10.4.2 Linear acceleration.
500			\|a 10.4.3 Uniform circular motion.
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contents	6.2.1 Polarization; Preface; 1 Electrostatics; 1.1 Coulomb's law; 1.2 Electric field; 1.3 Gauss' law; 1.4 Potential; 1.5 Electrostatic energy; 1.6 Selected problems; 2 Potential for simple systems; 2.1 Potential for a thin spherical shell; 2.2 Potential for an infinitely long wire; 2.3 Potential for a circular charged disc; 2.4 Potential for a charge displaced along the z-axis; 2.5 Dipole; 2.6 Continuous distribution of dipoles; 2.7 Quadrupole; 2.8 Potential due to a double layer of charges; 2.9 Conductors and insulators; 2.10 Capacitor; 2.11 Selected problems. 3 Boundary value problems3.1 Method of images; 3.2 Boundary conditions for differential equations; 3.2.1 Partial differential equations; 3.2.2 Uniqueness theorem; 3.3 Solutions of the Laplace equation; 3.3.1 General properties of harmonic functions; 3.3.2 Solution in Cartesian coordinates; 3.3.3 Solution in spherical coordinates; 3.3.4 Circular harmonics; 3.4 Solution of the Poisson equation; 3.4.1 Green's function; 3.4.2 Dirichlet boundary condition; 3.4.3 Neumann boundary condition; 3.5 Selected problems; 4 Dielectrics; 4.1 Electric displacement field; 4.2 Boundary conditions in dielectric. 4.3 Selected problems5 Magnetostatics; 5.1 Lorentz force; 5.2 Current; 5.3 Force on a current due to a magnetic field; 5.4 Nature of the magnetic field; 5.5 Vector potential; 5.6 Multipole expansion; 5.7 Magnetization; 5.8 Magnetic field intensity; 5.9 Boundary condition; 5.10 Faraday's Law; 5.11 Inductance; 5.12 Selected problems; 6 Maxwell's equations; 6.1 Generalization of Ampere's law; 6.2 Plane wave solution; 6.3 Boundary conditions; 6.4 Energy and the Poynting vector; 6.5 Gauge invariance of Maxwell's equations; 6.6 Lorentz transformation; 6.7 Covariance of Maxwell's equations. 6.8 Retarded Green's function6.9 Kirchhoff's representation; 6.10 Selected problems; 7 Wave guides; 7.1 Boundary conditions; 7.2 Rectangular wave guide; 7.2.1 TM waves; 7.2.2 TE waves; 7.3 Cylindrical wave guide; 7.3.1 TM waves; 7.3.2 TE waves; 7.4 TEM waves; 7.5 Wave impedance; 7.6 Attenuation factor in wave guides; 7.7 Cavity resonators; 7.8 Q factor of a cavity; 7.9 Dielectric wave guides (optical fibers); 7.10 Selected problems; 8 Propagation through a conducting medium; 8.1 Boundary conditions; 8.2 Reflection at normal incidence; 8.3 Reflection at oblique incidence. 8.4 Reflection from a good conducting surface8.5 Radiation pressure; 8.6 Selected problems; 9 Radiation; 9.1 Electric dipole radiation; 9.1.1 Power radiated by an electric dipole; 9.2 Magnetic dipole radiation; 9.3 Center-fed antennas; 9.3.1 Properties of antennas; 9.4 Multipole expansion; 9.5 Behavior of multipole fields; 9.6 Selected problems; 10 Electromagnetic fields of currents; 10.1 Lienard-Wiechert potential; 10.2 Uniform linear motion; 10.3 Method of virtual photons; 10.4 Asymptotic values of the fields; 10.4.1 Dipole approximation; 10.4.2 Linear acceleration.
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publisher	World Scientific Publishing Company,
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spelling	Das, Ashok. Lectures on Electromagnetism. Singapore : World Scientific Publishing Company, 2013. 1 online resource (468 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier 6.2.1 Polarization; Preface; 1 Electrostatics; 1.1 Coulomb's law; 1.2 Electric field; 1.3 Gauss' law; 1.4 Potential; 1.5 Electrostatic energy; 1.6 Selected problems; 2 Potential for simple systems; 2.1 Potential for a thin spherical shell; 2.2 Potential for an infinitely long wire; 2.3 Potential for a circular charged disc; 2.4 Potential for a charge displaced along the z-axis; 2.5 Dipole; 2.6 Continuous distribution of dipoles; 2.7 Quadrupole; 2.8 Potential due to a double layer of charges; 2.9 Conductors and insulators; 2.10 Capacitor; 2.11 Selected problems. 3 Boundary value problems3.1 Method of images; 3.2 Boundary conditions for differential equations; 3.2.1 Partial differential equations; 3.2.2 Uniqueness theorem; 3.3 Solutions of the Laplace equation; 3.3.1 General properties of harmonic functions; 3.3.2 Solution in Cartesian coordinates; 3.3.3 Solution in spherical coordinates; 3.3.4 Circular harmonics; 3.4 Solution of the Poisson equation; 3.4.1 Green's function; 3.4.2 Dirichlet boundary condition; 3.4.3 Neumann boundary condition; 3.5 Selected problems; 4 Dielectrics; 4.1 Electric displacement field; 4.2 Boundary conditions in dielectric. 4.3 Selected problems5 Magnetostatics; 5.1 Lorentz force; 5.2 Current; 5.3 Force on a current due to a magnetic field; 5.4 Nature of the magnetic field; 5.5 Vector potential; 5.6 Multipole expansion; 5.7 Magnetization; 5.8 Magnetic field intensity; 5.9 Boundary condition; 5.10 Faraday's Law; 5.11 Inductance; 5.12 Selected problems; 6 Maxwell's equations; 6.1 Generalization of Ampere's law; 6.2 Plane wave solution; 6.3 Boundary conditions; 6.4 Energy and the Poynting vector; 6.5 Gauge invariance of Maxwell's equations; 6.6 Lorentz transformation; 6.7 Covariance of Maxwell's equations. 6.8 Retarded Green's function6.9 Kirchhoff's representation; 6.10 Selected problems; 7 Wave guides; 7.1 Boundary conditions; 7.2 Rectangular wave guide; 7.2.1 TM waves; 7.2.2 TE waves; 7.3 Cylindrical wave guide; 7.3.1 TM waves; 7.3.2 TE waves; 7.4 TEM waves; 7.5 Wave impedance; 7.6 Attenuation factor in wave guides; 7.7 Cavity resonators; 7.8 Q factor of a cavity; 7.9 Dielectric wave guides (optical fibers); 7.10 Selected problems; 8 Propagation through a conducting medium; 8.1 Boundary conditions; 8.2 Reflection at normal incidence; 8.3 Reflection at oblique incidence. 8.4 Reflection from a good conducting surface8.5 Radiation pressure; 8.6 Selected problems; 9 Radiation; 9.1 Electric dipole radiation; 9.1.1 Power radiated by an electric dipole; 9.2 Magnetic dipole radiation; 9.3 Center-fed antennas; 9.3.1 Properties of antennas; 9.4 Multipole expansion; 9.5 Behavior of multipole fields; 9.6 Selected problems; 10 Electromagnetic fields of currents; 10.1 Lienard-Wiechert potential; 10.2 Uniform linear motion; 10.3 Method of virtual photons; 10.4 Asymptotic values of the fields; 10.4.1 Dipole approximation; 10.4.2 Linear acceleration. 10.4.3 Uniform circular motion. These lecture notes on electromagnetism have evolved from graduate and undergraduate EM theory courses given by the author at the University of Rochester, with the basics presented with clarity and his characteristic attention to detail. The thirteen chapters cover, in logical sequence, topics ranging from electrostatics, magnetostatics and Maxwell's equations to plasmas and radiation. Boundary value problems are treated extensively, as are wave guides, electromagnetic interactions and fields. This second edition comprises many of the topics expanded with more details on the derivation of vari. Print version record. Electromagnetism. http://id.loc.gov/authorities/subjects/sh85042184 Électromagnétisme. electromagnetism. aat SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Electromagnetism fast Electronic books. has work: Lectures on electromagnetism (Text) https://id.oclc.org/worldcat/entity/E39PCGt96rbdPDgKtddtXg3Tpd https://id.oclc.org/worldcat/ontology/hasWork Print version: Das, Ashok. Lectures on Electromagnetism. Singapore : World Scientific Publishing Company, ©2013 9789814508261
spellingShingle	Das, Ashok Lectures on Electromagnetism. 6.2.1 Polarization; Preface; 1 Electrostatics; 1.1 Coulomb's law; 1.2 Electric field; 1.3 Gauss' law; 1.4 Potential; 1.5 Electrostatic energy; 1.6 Selected problems; 2 Potential for simple systems; 2.1 Potential for a thin spherical shell; 2.2 Potential for an infinitely long wire; 2.3 Potential for a circular charged disc; 2.4 Potential for a charge displaced along the z-axis; 2.5 Dipole; 2.6 Continuous distribution of dipoles; 2.7 Quadrupole; 2.8 Potential due to a double layer of charges; 2.9 Conductors and insulators; 2.10 Capacitor; 2.11 Selected problems. 3 Boundary value problems3.1 Method of images; 3.2 Boundary conditions for differential equations; 3.2.1 Partial differential equations; 3.2.2 Uniqueness theorem; 3.3 Solutions of the Laplace equation; 3.3.1 General properties of harmonic functions; 3.3.2 Solution in Cartesian coordinates; 3.3.3 Solution in spherical coordinates; 3.3.4 Circular harmonics; 3.4 Solution of the Poisson equation; 3.4.1 Green's function; 3.4.2 Dirichlet boundary condition; 3.4.3 Neumann boundary condition; 3.5 Selected problems; 4 Dielectrics; 4.1 Electric displacement field; 4.2 Boundary conditions in dielectric. 4.3 Selected problems5 Magnetostatics; 5.1 Lorentz force; 5.2 Current; 5.3 Force on a current due to a magnetic field; 5.4 Nature of the magnetic field; 5.5 Vector potential; 5.6 Multipole expansion; 5.7 Magnetization; 5.8 Magnetic field intensity; 5.9 Boundary condition; 5.10 Faraday's Law; 5.11 Inductance; 5.12 Selected problems; 6 Maxwell's equations; 6.1 Generalization of Ampere's law; 6.2 Plane wave solution; 6.3 Boundary conditions; 6.4 Energy and the Poynting vector; 6.5 Gauge invariance of Maxwell's equations; 6.6 Lorentz transformation; 6.7 Covariance of Maxwell's equations. 6.8 Retarded Green's function6.9 Kirchhoff's representation; 6.10 Selected problems; 7 Wave guides; 7.1 Boundary conditions; 7.2 Rectangular wave guide; 7.2.1 TM waves; 7.2.2 TE waves; 7.3 Cylindrical wave guide; 7.3.1 TM waves; 7.3.2 TE waves; 7.4 TEM waves; 7.5 Wave impedance; 7.6 Attenuation factor in wave guides; 7.7 Cavity resonators; 7.8 Q factor of a cavity; 7.9 Dielectric wave guides (optical fibers); 7.10 Selected problems; 8 Propagation through a conducting medium; 8.1 Boundary conditions; 8.2 Reflection at normal incidence; 8.3 Reflection at oblique incidence. 8.4 Reflection from a good conducting surface8.5 Radiation pressure; 8.6 Selected problems; 9 Radiation; 9.1 Electric dipole radiation; 9.1.1 Power radiated by an electric dipole; 9.2 Magnetic dipole radiation; 9.3 Center-fed antennas; 9.3.1 Properties of antennas; 9.4 Multipole expansion; 9.5 Behavior of multipole fields; 9.6 Selected problems; 10 Electromagnetic fields of currents; 10.1 Lienard-Wiechert potential; 10.2 Uniform linear motion; 10.3 Method of virtual photons; 10.4 Asymptotic values of the fields; 10.4.1 Dipole approximation; 10.4.2 Linear acceleration. Electromagnetism. http://id.loc.gov/authorities/subjects/sh85042184 Électromagnétisme. electromagnetism. aat SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Electromagnetism fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85042184
title	Lectures on Electromagnetism.
title_auth	Lectures on Electromagnetism.
title_exact_search	Lectures on Electromagnetism.
title_full	Lectures on Electromagnetism.
title_fullStr	Lectures on Electromagnetism.
title_full_unstemmed	Lectures on Electromagnetism.
title_short	Lectures on Electromagnetism.
title_sort	lectures on electromagnetism
topic	Electromagnetism. http://id.loc.gov/authorities/subjects/sh85042184 Électromagnétisme. electromagnetism. aat SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Electromagnetism fast
topic_facet	Electromagnetism. Électromagnétisme. electromagnetism. SCIENCE Physics Electricity. SCIENCE Physics Electromagnetism. Electromagnetism Electronic books.
work_keys_str_mv	AT dasashok lecturesonelectromagnetism

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