(al A spherical insulator of radius a has a total charge +Q uniformly distributed throughout its the . It is surrounded by a spherical conducting shell with inner radius b and outer radius c as shown in die figure, his shell has a net charge of +3Q. Using the Gauss law determine the electric field E, for distance from the center a) 0
(al A spherical insulator of radius a has a total charge +Q uniformly distributed throughout its the . It is surrounded by a spherical conducting shell with inner radius b and outer radius c as shown in die figure, his shell has a net charge of +3Q. Using the Gauss law determine the electric field E, for distance from the center a) 0
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A spherical insulator of radius a has a total charge +Q uniformly distributed throughout its
volume. It is surrounded by a spherical conducting shell with inner radius b and outer radius c as shown in
the figure. This shell has a net charge of +3Q. Using the Gauss law determine the electric field E, for
distance from the center
a) 0<r<a
b) a<r<b
c) b<r<c
d) What are the induced charges on the inner and outer surfaces of the shell, respectively?
Give also the direction of the electric field. Give your answers in terms of , Eo and given parameters.
Insulator
Conductor
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