a) A very long non-conducting cylinder has an inner cylinder with radius R1 and uniform charge density p1, and a cylindrical shell with inner radius R1, outer radius R2, and uniform charge density p2. Draw and label a Gaussian surface and use Gauss's Law to find the radial electric field in the region r < R1. You may take the positive direction as outward.

a) A very long non-conducting cylinder has an inner cylinder with radius R1 and uniform charge density p1, and a cylindrical shell with inner radius R1, outer radius R2, and uniform charge density p2. Draw and label a Gaussian surface and use Gauss's Law to find the radial electric field in the region r < R1. You may take the positive direction as outward.

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Question

b) For the same cylindrical shell as in the previous problem, draw and label a Gaussian surface and use Gauss's Law to
find the radial electric field in the region R, <r< R2. You may take the positive direction as outward.
0
E(R <r < R2) =

a) A very long non-conducting cylinder has an inner cylinder with radius R1 and uniform charge density p1, and a
cylindrical shell with inner radius R1, outer radius R2, and uniform charge density p2. Draw and label a Gaussian
surface and use Gauss's Law to find the radial electric field in the region r < R1. You may take the positive direction
as outward.
0
E (r < R1) =

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