Classical ElectrodynamicsProblems after each chapter |
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Page 481
... emitted in orbital - electron capture by nuclei in Chapter 15 . 14.6 Frequency Spectrum of Radiation Emitted by a Relativistic Charged Particle in Instantaneously Circular Motion In Section 14.4 we saw that the radiation emitted by an ...
... emitted in orbital - electron capture by nuclei in Chapter 15 . 14.6 Frequency Spectrum of Radiation Emitted by a Relativistic Charged Particle in Instantaneously Circular Motion In Section 14.4 we saw that the radiation emitted by an ...
Page 506
... Emitted during Collisions If a charged particle makes a collision , it undergoes acceleration and emits radiation . If its collision partner is also a charged particle , they both emit radiation and a coherent superposition of the ...
... Emitted during Collisions If a charged particle makes a collision , it undergoes acceleration and emits radiation . If its collision partner is also a charged particle , they both emit radiation and a coherent superposition of the ...
Page 537
... emitted per unit energy interval because of the sudden creation of the moving mu meson . Assuming that the photons are emitted perpendicular to the direction of motion of the mu meson ( actually it is a sin2 0 distribu- tion ) , show ...
... emitted per unit energy interval because of the sudden creation of the moving mu meson . Assuming that the photons are emitted perpendicular to the direction of motion of the mu meson ( actually it is a sin2 0 distribu- tion ) , show ...
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4-vector Ampère's law angle angular distribution approximation atomic axis boundary conditions calculate Chapter charge density charge q charged particle coefficients collisions component conductor consider coordinates cross section current density cylinder d³x delta function dielectric constant diffraction dimensions dipole direction discussed E₁ electric field electromagnetic fields electron electrostatic energy loss expansion expression factor frequency given Green's function impact parameter incident particle inside integral inversion Laplace's equation linear Lorentz transformation macroscopic magnetic field magnetic induction magnetic moment magnitude Maxwell's equations meson modes molecules momentum motion multipole nonrelativistic normal obtain oscillations P₁ parallel plasma point charge Poisson's equation polarization problem radiation radius region relativistic result scalar scalar potential scattering shown in Fig shows solution spherical surface surface-charge density theorem transverse unit V₁ vanishes vector potential velocity volume wave equation wave number wavelength written zero ΦΩ