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Byju's Answer
Standard XIII
Physics
Electric Field
In the previo...
Question
In the previous problem find the maximum intensity
E
m
a
x
and the corresponding distance
r
m
A
ρ
R
ε
0
,
R
2
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B
ρ
R
3
ε
0
,
R
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C
ρ
R
6
ε
0
,
R
3
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D
ρ
R
9
ε
0
,
2
R
3
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Solution
The correct option is
D
ρ
R
9
ε
0
,
2
R
3
Suggest Corrections
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Similar questions
Q.
In the previous problem find the maximum intensity
E
m
a
x
and the corresponding distance
r
m
Q.
Find the maximum intensity E
m
a
x
and the corresponding distance r
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Q.
A ball of radius
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carries a positive charge whose volume density depends only on a separation
r
from the ball's centre as
ρ
=
ρ
0
(
1
−
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)
, where
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is a constant. Assuming the permittivities of the ball and the environment to be equal to unity, find:
(A) the magnitude of the electric field strength as a function of the distance
r
both inside and outside the ball;
(b) the maximum intensity
E
m
a
x
and the corresponding distance
r
m
.
Q.
The value of distance
r
m
at which electric field intensity is maximum, is given by :
Q.
The value of distance
r
m
, inside the ball at which electric field intensity maximum is given by-
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