D1 4:36Consider an insulating cylinder of radius 2a, carrying a polarization P(r,0,z) = P(0)î + P(z)ð +P(r)k. Then the volume bound charge density throughout its volume is:(a) p = -P(z)/r(b)p = –P(0)/r(c) ρ 0(d)p = P(0)/2a(e)p = P(z)/2a(f) None of the listed answers(a)(b)

Given, Polarization density and volume bound charge

Consider an insulating cylinder of radius 2a, carrying a polarization P(r,0,z) = P(0)f + P(z)ð + P(r)k. Then the volume bound charge density throughout its volume is: (a)p = -P(z)/r (b)p = -P(0)/r (c) p = 0 (d)p = P(0)/2a (e)p = P(z)/2a (1) None of the listed answers %3D (a) (b) O (c)

Consider an insulating cylinder of radius 2a, carrying a polarization P(r,0,z) = P(0)f + P(z)ð + P(r)k. Then the volume bound charge density throughout its volume is: (a)p = -P(z)/r (b)p = -P(0)/r (c) p = 0 (d)p = P(0)/2a (e)p = P(z)/2a (1) None of the listed answers %3D (a) (b) O (c)

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Question

D1 4:36
Consider an insulating cylinder of radius 2a, carrying a polarization P(r,0,z) = P(0)î + P(z)ð +
P(r)k. Then the volume bound charge density throughout its volume is:
(a) p = -P(z)/r
(b)p = –P(0)/r
(c) ρ 0
(d)p = P(0)/2a
(e)p = P(z)/2a
(f) None of the listed answers
(a)
(b)

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