Problem 2. Concentric Insulating Spheres. An insulating solid sphere, of radius a, with a uniform volume charge density p> 0, is placed concentric with an insulating spherical shell, of inner radius a and outer radius b, with a uniform volume charge density -p. Calculate the electric field at a distancer from the common center of the two spheres for (a) 0 b. b

Problem 2. Concentric Insulating Spheres. An insulating solid sphere, of radius a, with a uniform volume charge density p> 0, is placed concentric with an insulating spherical shell, of inner radius a and outer radius b, with a uniform volume charge density -p. Calculate the electric field at a distancer from the common center of the two spheres for (a) 0 b. b

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Problem 2. Concentric Insulating Spheres. An insulating solid
sphere, of radius a, with a uniform volume charge density p> 0,
is placed concentric with an insulating spherical shell, of inner
radius a and outer radius b, with a uniform volume charge
density -p. Calculate the electric field at a distance r from the
common center of the two spheres for (a) 0 <r <a, (b) a<r <b,
and (c) r> b.
b

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