When an uncharged conducting sphere of radius a is placed at the origin of an xyz coordinate system that lies in an initially uniform electric field  = E0 , the resulting electric potential is V (x,y,z) = V0 for the points inside the sphere and V (x,y,z) = V0 − E0z +  E0a3z (x2 + y2 + z2)3/2  for points outside the sphere, where V0 is the (constant) electric potential on the conductor. Use this equation to determine the x, y, and z components of the resulting electric field in the following regions. (Use the following as necessary: x, y, z, a, and E0.) (a) inside the sphere   (b) outside the sphere   Note: I already solved part a. I need help with part b. Look at the image for the full problem

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When an uncharged conducting sphere of radius a is placed at the origin of an xyz coordinate system that lies in an initially uniform electric field  = E0 , the resulting electric potential is V (x,y,z) = V0 for the points inside the sphere and

V (x,y,z) = V0 − E0z + 
E0a3z
(x2 + y2 + z2)3/2
 

for points outside the sphere, where V0 is the (constant) electric potential on the conductor.

Use this equation to determine the xy, and z components of the resulting electric field in the following regions. (Use the following as necessary: xyza, and E0.)

(a) inside the sphere
 
(b) outside the sphere

 
Note: I already solved part a. I need help with part b. Look at the image for the full problem.
When an uncharged conducting sphere of radius a is placed at the origin of an xyz coordinate system that lies in an initially uniform electric field E = E, k, the resulting electric potential is
0.
(x,y,z) = V. for the points inside the sphere and
V (x,y,z) = Vo
Eoz +
Ega z
(x2 + y? + z?)3/2
for points outside the sphere, where V, is the (constant) electric potential on the conductor.
Use this equation to determine the x, y, and z components of the resulting electric field in the following regions. (Use the following as necessary: x, y, z, a, and E.)
(a) inside the sphere
E = 0
Ey
E, = 0
(b) outside the sphere
Ex =0
Ey =
E =
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Transcribed Image Text:When an uncharged conducting sphere of radius a is placed at the origin of an xyz coordinate system that lies in an initially uniform electric field E = E, k, the resulting electric potential is 0. (x,y,z) = V. for the points inside the sphere and V (x,y,z) = Vo Eoz + Ega z (x2 + y? + z?)3/2 for points outside the sphere, where V, is the (constant) electric potential on the conductor. Use this equation to determine the x, y, and z components of the resulting electric field in the following regions. (Use the following as necessary: x, y, z, a, and E.) (a) inside the sphere E = 0 Ey E, = 0 (b) outside the sphere Ex =0 Ey = E = Need Help? Read It Submit Answer
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