A non-uniform, but spherically symmetric charge distribution has a volume charge density, p(r) given by p(r) - P. [2- OST≤R and p(r)=0 r2R where p.-HC/m² and R-1.0m A) Calculate the total charge, Q, of the entire charge distribution. B) Calculate the charge contained within a shell from 0.1 m≤r≤0.3 m. (2 X
A non-uniform, but spherically symmetric charge distribution has a volume charge density, p(r) given by p(r) - P. [2- OST≤R and p(r)=0 r2R where p.-HC/m² and R-1.0m A) Calculate the total charge, Q, of the entire charge distribution. B) Calculate the charge contained within a shell from 0.1 m≤r≤0.3 m. (2 X
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![A non-uniform, but spherically symmetric charge distribution has a volume charge density, p(r) given by
p(r) - P. [2-
0≤r≤R and p(r)=0 r2R where p.-pC/m' and R - 1.0 m
A) Calculate the total charge, Q, of the entire charge distribution.
B) Calculate the charge contained within a shell from 0.1 m≤r≤0.3 m
C) Calculate the electric field inside the distribution as a function of r
D) Calculate the electric field outside the distribution as a function of r.
(2
X](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3738e16a-10fd-4378-b4a3-b8733d2d5bb5%2Ffee7d987-4354-4256-a1ad-5e4cd7508bae%2F22v52bp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A non-uniform, but spherically symmetric charge distribution has a volume charge density, p(r) given by
p(r) - P. [2-
0≤r≤R and p(r)=0 r2R where p.-pC/m' and R - 1.0 m
A) Calculate the total charge, Q, of the entire charge distribution.
B) Calculate the charge contained within a shell from 0.1 m≤r≤0.3 m
C) Calculate the electric field inside the distribution as a function of r
D) Calculate the electric field outside the distribution as a function of r.
(2
X
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