8 O 5 Exob Let a hollow ball with Center O, characterized by an external. radous R2 and an Internal radius R1 (R2>Rq) be trely Charged with a constant volume density fro. @ Calculate the total charge Q. at any distance r ⑤⑥ B. applying Gauss' theorem, determine the electrostatic. field created by this distribution at from o. Fence Plat. E = f(r) Ⓒ seduce the electrostatic potential V NB: Note that, at Infinity, the potential is zero. RI Ra where R₁ = Internal radius R₂ external radius.
8 O 5 Exob Let a hollow ball with Center O, characterized by an external. radous R2 and an Internal radius R1 (R2>Rq) be trely Charged with a constant volume density fro. @ Calculate the total charge Q. at any distance r ⑤⑥ B. applying Gauss' theorem, determine the electrostatic. field created by this distribution at from o. Fence Plat. E = f(r) Ⓒ seduce the electrostatic potential V NB: Note that, at Infinity, the potential is zero. RI Ra where R₁ = Internal radius R₂ external radius.
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Transcribed Image Text:8
O
5
Exob
Let a hollow ball with Center O, characterized by
an external.
radous R2 and an Internal radius R1 (R2>Rq) be trely
Charged with a constant volume density fro.
@ Calculate the total charge Q.
at any
distance r
⑤⑥ B. applying Gauss' theorem, determine the electrostatic.
field created by this distribution at
from o.
Fence Plat. E = f(r)
Ⓒ seduce the electrostatic potential V
NB: Note that, at Infinity, the potential is zero.
RI
Ra
where R₁ = Internal radius
R₂ external radius.
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