Figure (a) shows a narrow charged solid cylinder that is coaxial with a larger charged cylindrical shell. Both are nonconducting and thin and have uniform surface charge densities on their outer surfaces. Figure (b) gives the radial component E of the electric field versus radial distance r from the common axis. The vertical axis scale is set by Es= 3.0 × 10³ N/C. What is the linear charge density of the shell? (a) Es r (cm) (b) 14.4

Figure (a) shows a narrow charged solid cylinder that is coaxial with a larger charged cylindrical shell. Both are nonconducting and thin and have uniform surface charge densities on their outer surfaces. Figure (b) gives the radial component E of the electric field versus radial distance r from the common axis. The vertical axis scale is set by Es= 3.0 × 10³ N/C. What is the linear charge density of the shell? (a) Es r (cm) (b) 14.4

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Question

Figure (a) shows a narrow charged solid cylinder that is coaxial with a
larger charged cylindrical shell. Both are nonconducting and thin and
have uniform surface charge densities on their outer surfaces. Figure
(b) gives the radial component E of the electric field versus radial
distance r from the common axis. The vertical axis scale is set by Es=
3.0 × 10³ N/C. What is the linear charge density of the shell?
(a)
Es
0
-Es
Number i -12.68
r (cm)
(b)
Units
nC/m
14.4

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Step 1: Electric field due to line charge

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Step 2: Linear density of the shell

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Step 3: Shell's radial position

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Step 4: Data from graph

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Step 5: Calculations

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