An infinitely long, solid insulating cylinder with radius Ra is placed concentric within aconducting cylindrical shell of inner radius R, and outer radius Re. The inner cylinder has a uniformvolume charge density +lpl, and the outer cylinder has a net linear charge density of -3121.Assume Ip Rå| > |32| for all parts. For all following sections, assume |2| = 1 pl = 5₁, R₁ = 5 mm, Rp =15 mm, and R₂ = 2 cm.An electron is placed halfway between the two cylinders (i.e. r = +).ii.the charge is released from rest, which surface is it accelerated towards?) What is the electric potential at r, relative to the surface that the electroneventually strikes? Hint: Consider the result from part c., with the appropriatesubstitution.I claim the answer is IV 2,100 kV. Am I correct? Write your answer out to 4 sigfigs.

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An infinitely long, solid insulating cylinder with radius Ra is placed concentric within a conducting cylindrical shell of inner radius R, and outer radius Re. The inner cylinder has a uniform volume charge density +[pl, and the outer cylinder has a net linear charge density of -3121. Assume [prRål> 132] for all parts.

An infinitely long, solid insulating cylinder with radius Ra is placed concentric within a conducting cylindrical shell of inner radius R, and outer radius Re. The inner cylinder has a uniform volume charge density +[pl, and the outer cylinder has a net linear charge density of -3121. Assume [prRål> 132] for all parts.

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Question

An infinitely long, solid insulating cylinder with radius Ra is placed concentric within a
conducting cylindrical shell of inner radius R, and outer radius Re. The inner cylinder has a uniform
volume charge density +lpl, and the outer cylinder has a net linear charge density of -3121.
Assume Ip Rå| > |32| for all parts.

For all following sections, assume |2| = 1 pl = 5₁, R₁ = 5 mm, Rp =
15 mm, and R₂ = 2 cm.
An electron is placed halfway between the two cylinders (i.e. r = +).
ii.
the charge is released from rest, which surface is it accelerated towards?
) What is the electric potential at r, relative to the surface that the electron
eventually strikes? Hint: Consider the result from part c., with the appropriate
substitution.
I claim the answer is IV 2,100 kV. Am I correct? Write your answer out to 4 sigfigs.

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