e: Spherical surfaces at r = 2, 4, and 6-m carry uniform surface charge densities of 20 nC/m?-4 nC/m, and pso respectively. (a) Find D at r = 1,3, and 5 m. (b) Determine p50 Such that%3DD = 0 at r= 7 m.

Using Gauss law, EdS=Qε0ε0EdS=QDdS=Q ∵D=ε0ED4πr2=Q ..........1 Here, Q is the…

Spherical surfaces at r= 2, 4, and 6-m carry uniform surface charge densities of 20 nC/m² -4 nC/m², and pso respectively. (a) Find D at r = 1,3, and 5 m. (b) Determine p50 Such that D = 0 at r= 7 m.

Spherical surfaces at r= 2, 4, and 6-m carry uniform surface charge densities of 20 nC/m² -4 nC/m², and pso respectively. (a) Find D at r = 1,3, and 5 m. (b) Determine p50 Such that D = 0 at r= 7 m.

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Question

e: Spherical surfaces at r = 2, 4, and 6-m carry uniform surface charge densities of 20 nC/m?
-4 nC/m, and pso respectively. (a) Find D at r = 1,3, and 5 m. (b) Determine p50 Such that
%3D
D = 0 at r= 7 m.

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