Classical Electrodynamics |
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Page 94
( a ) Set up a series representation for the potential inside the sphere for the
general case of 2n segments , and carry the calculation of the coefficients in the
series far enough to determine exactly which coefficients are different from zero .
( a ) Set up a series representation for the potential inside the sphere for the
general case of 2n segments , and carry the calculation of the coefficients in the
series far enough to determine exactly which coefficients are different from zero .
Page 129
5 x 10 - 24 cmo and a mean radius R = ( a + b ) / 2 = 7 x 10 - 13 cm , determine
the fractional difference in radius ( a - b ) / R . 4 . 3 A localized distribution of
charge has a charge density p ( r ) = retsin ? ( a ) Make a multipole expansion of
the ...
5 x 10 - 24 cmo and a mean radius R = ( a + b ) / 2 = 7 x 10 - 13 cm , determine
the fractional difference in radius ( a - b ) / R . 4 . 3 A localized distribution of
charge has a charge density p ( r ) = retsin ? ( a ) Make a multipole expansion of
the ...
Page 267
( a ) Assuming infinite conductivity for the walls , determine the possible modes of
propagation and their cutoff frequencies . ( 6 ) For the lowest modes of each type
calculate the attenuation constant , assuming that the walls have large , but finite
...
( a ) Assuming infinite conductivity for the walls , determine the possible modes of
propagation and their cutoff frequencies . ( 6 ) For the lowest modes of each type
calculate the attenuation constant , assuming that the walls have large , but finite
...
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Contents
Introduction to Electrostatics | 1 |
BoundaryValue Problems in Electrostatics I | 26 |
RelativisticParticle Kinematics and Dynamics | 391 |
Copyright | |
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