2. -- -) An infinite, insulating cylinder of radius r, is surrounded by an air gap and a thin, cylindrical conducting shell of radius ry. The insulating cylinder carries constant volume charge density p and the conducting shell carries a constant area charge density o. (a) ) Use Gauss's law to calculate the quantity f EedA for the Gaussian shape most appropriate for this problem. (b) | Find the electric field in the regionr < rı (inside the volume charge distribution). (c) ) Find the electric field in the region r

2. -- -) An infinite, insulating cylinder of radius r, is surrounded by an air gap and a thin, cylindrical conducting shell of radius ry. The insulating cylinder carries constant volume charge density p and the conducting shell carries a constant area charge density o. (a) ) Use Gauss's law to calculate the quantity f EedA for the Gaussian shape most appropriate for this problem. (b) | Find the electric field in the regionr < rı (inside the volume charge distribution). (c) ) Find the electric field in the region r

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Question

2. -- -) An infinite, insulating cylinder of radius r, is surrounded by an air gap and a
thin, cylindrical conducting shell of radius ry. The insulating cylinder carries constant
volume charge density p and the conducting shell carries a constant area charge density
o.
(a)
) Use Gauss's law to calculate the quantity f EedA for the Gaussian shape
most appropriate for this problem.
(b)
| Find the electric field in the regionr < rı (inside the volume charge
distribution).
(c)
) Find the electric field in the region r <r<ra (air gap region)

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