Classical ElectrodynamicsEin Klassiker im neuen Gewand! Diese Neuauflage behandelt in bekannter verständlicher und umfassender Weise alle Grundlagen und fortgeschrittenen Aspekte der klassischen und semiklassischen Elektrodynamik und wurde darüber hinaus um die Neuheiten der vergangenen zwanzig Jahre - Synchrotronstrahlung, Undulatoren, Wiggler,... - ergänzt. Ebenfalls besprochen werden die Grundgedanken numerischer Methoden der Elektrostatik und Magnetostatik, so daß der Leser die theoretische Basis einschlägiger Computerprogramme verstehen lernt. (01/99) |
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Page xv
... Sphere 2.3 Point Charge in the Presence of a Charged , Insulated , Conducting Sphere 60 2.4 Point Charge Near a Conducting Sphere at Fixed Potential 61 2.5 Conducting Sphere in a Uniform Electric Field by Method of Images 62 2.6 Green ...
... Sphere 2.3 Point Charge in the Presence of a Charged , Insulated , Conducting Sphere 60 2.4 Point Charge Near a Conducting Sphere at Fixed Potential 61 2.5 Conducting Sphere in a Uniform Electric Field by Method of Images 62 2.6 Green ...
Page xvi
... Spherical Harmonics Yime , o ) 107 3.6 Addition Theorem for Spherical Harmonics 110 3.7 Laplace Equation in Cylindrical Coordinates ; Bessel Functions 111 3.8 Boundary - Value Problems in Cylindrical Coordinates 117 3.9 Expansion of ...
... Spherical Harmonics Yime , o ) 107 3.6 Addition Theorem for Spherical Harmonics 110 3.7 Laplace Equation in Cylindrical Coordinates ; Bessel Functions 111 3.8 Boundary - Value Problems in Cylindrical Coordinates 117 3.9 Expansion of ...
Page xvii
... Sphere 198 5.11 Magnetized Sphere in an External Field ; Permanent Magnets 199 5.12 Magnetic Shielding , Spherical Shell of Permeable Material in a Uniform Field 201 5.13 Effect of a Circular Hole in a Perfectly Conducting Plane with an ...
... Sphere 198 5.11 Magnetized Sphere in an External Field ; Permanent Magnets 199 5.12 Magnetic Shielding , Spherical Shell of Permeable Material in a Uniform Field 201 5.13 Effect of a Circular Hole in a Perfectly Conducting Plane with an ...
Page xxix
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Contents
II | 95 |
Yime o | 107 |
Multipoles Electrostatics of Macroscopic Media | 145 |
Magnetostatics Faradays Law QuasiStatic Fields | 174 |
with an Asymptotically Uniform Tangential Magnetic Field | 203 |
Maxwell Equations Macroscopic Electromagnetism | 237 |
6 | 286 |
Plane Electromagnetic Waves and Wave Propagation | 295 |
External Fields | 561 |
Dynamics of Relativistic Particles | 579 |
Collisions Energy Loss and Scattering of Charged Particles | 624 |
Radiation by Moving Charges | 661 |
Bremsstrahlung Method of Virtual Quanta | 708 |
Radiation Damping Classical Models | 745 |
Appendix on Units and Dimensions | 775 |
785 | |
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angle angular approximation assumed atomic average axis becomes boundary conditions calculation Chapter charge classical collision compared components conducting conductor consider constant contribution coordinates cross section defined density dependence derivative determined dielectric dimensions dipole direction discussed distance distribution effects electric field electromagnetic electron energy equal equation example expansion expression factor Figure force frame frequency function given gives incident induction inside integral light limit linear Lorentz magnetic field mass means medium modes momentum motion moving multipole normal observation obtain origin parallel particle photon physical plane polarization position potential Problem properties quantum mechanics radiation radius region relation relative result scalar scattering Show shown side solution space special relativity sphere spherical surface transformation unit vanishes vector velocity volume wave written zero