R r M 1 I 4] Exo A sphere with Center O and radius Rus uniformly Charged in volumed with the volume density "I we locate the position of a point M. in space of charge: foro, by its distance r from the center o We 0 the sphere. of the a) Analyze the symmetries and Invariances of the cha Charge distribution and deduce the direction of The fould B (1) created at a pount M located s. the sphere. at the distance r from the center 6) Specify the variables on which the field depends. 0 f Gauss' theorem determine the modulus 6) Usung (CM) at of any pount M. in space. Hence as deduce the potential X(M) at any point M. We will take 2 at infonoty.

icon
Related questions
Question
R
r M
Transcribed Image Text:R r M
1
I
4]
Exo
A sphere with Center O and radius Rus uniformly
Charged in volumed with the volume density
"I we locate the position of a point M. in space
of charge: foro,
by its distance r from the center o
We
0
the sphere.
of the
a) Analyze the symmetries and Invariances of the cha
Charge distribution and deduce the direction of
The fould B (1) created at a pount M located s.
the sphere.
at the distance r from the center
6) Specify the variables on which the field
depends.
0
f
Gauss' theorem determine the modulus
6) Usung (CM) at
of
any pount M. in space. Hence
as
deduce the potential X(M) at any point M.
We will take
2
at
infonoty.
Transcribed Image Text:1 I 4] Exo A sphere with Center O and radius Rus uniformly Charged in volumed with the volume density "I we locate the position of a point M. in space of charge: foro, by its distance r from the center o We 0 the sphere. of the a) Analyze the symmetries and Invariances of the cha Charge distribution and deduce the direction of The fould B (1) created at a pount M located s. the sphere. at the distance r from the center 6) Specify the variables on which the field depends. 0 f Gauss' theorem determine the modulus 6) Usung (CM) at of any pount M. in space. Hence as deduce the potential X(M) at any point M. We will take 2 at infonoty.
Expert Solution
steps

Step by step

Solved in 2 steps with 4 images

Blurred answer