droblem (@A sphere of radius R carries charge distributed throughout it and with density: p= 3p cos 6 TR. This charge density is given in spherical coordinates and p is a constant. The monopole moment of this distribution is zero. Determine the dipole moment of this distribution and use it to determine an approximate potential at any point beyond the sphere.
droblem (@A sphere of radius R carries charge distributed throughout it and with density: p= 3p cos 6 TR. This charge density is given in spherical coordinates and p is a constant. The monopole moment of this distribution is zero. Determine the dipole moment of this distribution and use it to determine an approximate potential at any point beyond the sphere.
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H4.
electricity and magnetism please include direction of vectors
Transcribed Image Text:Problem (0) A sphere of radius R carries charge distributed throughout it and with
density:
p=
3p cos
RA
This charge density is given in spherical coordinates and p is a constant. The monopole moment of
this distribution is zero. Determine the dipole moment of this distribution and use it to determine
an approximate potential at any point beyond the sphere.
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