A potential field in free space is given in spherical coordinates as [ [ro/(6en)] [3a² – r²] (r a) where po and a are constants. (a) Use Poisson's equation to find the volume charge density everywhere. (b) Find the total charge present.
A potential field in free space is given in spherical coordinates as [ [ro/(6en)] [3a² – r²] (r a) where po and a are constants. (a) Use Poisson's equation to find the volume charge density everywhere. (b) Find the total charge present.
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![A potential field in free space is given in spherical coordinates as
S LPo/(6e0)] [3a² – r²] (r< a)
(a*po)/(3eor) (r z a)
V(r) =
where po and a are constants. (a) Use Poisson's equation to find the volume charge density
everywhere. (b) Find the total charge present.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F226517fe-a8b0-4e83-b6d3-5bebbb0cf249%2F951e9a04-3b6b-4be9-9b5a-86f6d6a21a61%2F6msyo5a_processed.png&w=3840&q=75)
Transcribed Image Text:A potential field in free space is given in spherical coordinates as
S LPo/(6e0)] [3a² – r²] (r< a)
(a*po)/(3eor) (r z a)
V(r) =
where po and a are constants. (a) Use Poisson's equation to find the volume charge density
everywhere. (b) Find the total charge present.
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