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Page viii
... involved . The elementary theory of multipole radiation from a localized source and diffraction occupy Chapter 9. Since the simple scalar theory of diffraction is covered in many optics textbooks , as well as undergraduate books on ...
... involved . The elementary theory of multipole radiation from a localized source and diffraction occupy Chapter 9. Since the simple scalar theory of diffraction is covered in many optics textbooks , as well as undergraduate books on ...
Page 69
... involved , rather than a single term . 3.6 Laplace's Equation in Cylindrical Coordinates ; Bessel Functions In cylindrical coordinates ( p , p , z ) , as shown in Fig . 3.6 , Laplace's equation takes the form : 228 1 дФ + + 1 220 Φ + ...
... involved , rather than a single term . 3.6 Laplace's Equation in Cylindrical Coordinates ; Bessel Functions In cylindrical coordinates ( p , p , z ) , as shown in Fig . 3.6 , Laplace's equation takes the form : 228 1 дФ + + 1 220 Φ + ...
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... involved produces quantum - mechanical modifications very similar to those appearing in our earlier energy - loss considerations . These can be taken into account in a relatively simple way . But there is a more serious deficiency which ...
... involved produces quantum - mechanical modifications very similar to those appearing in our earlier energy - loss considerations . These can be taken into account in a relatively simple way . But there is a more serious deficiency which ...
Contents
1 | 1 |
Greens theorem | 14 |
BoundaryValue Problems in Electrostatics I | 26 |
Copyright | |
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4-vector acceleration Ampère's law angular distribution antenna approximation atomic axis B₁ Babinet's principle behavior boundary conditions calculate Chapter charge q charged particle classical coefficients collisions component conducting conductor constant coordinate cross section cylinder d³x dielectric diffraction dimensions dipole direction discussed E₁ effects electric field electromagnetic fields electrons electrostatic energy loss energy transfer factor force equation formula frequency given Green's function impact parameter incident particle integral Kirchhoff Lorentz invariant Lorentz transformation magnetic field magnetic induction magnitude Maxwell's equations meson modes momentum motion multipole nonrelativistic obtain oscillations P₁ parallel perpendicular plane wave plasma plasma oscillations polarization power radiated Poynting's vector problem propagation quantum quantum-mechanical radius region relativistic result scalar scattering screen shown in Fig shows sin² solid angle solution sphere spherical surface transverse unit V₁ vanishes vector potential velocity wave number wavelength ΦΩ