47 Suppose the conducting spherical shell of Figure 15.29 carries a charge of 3.00 nC and that a charge of -2.00 nC is at the cen- ter of the sphere. If a = 2.00 m and b = 2.40 m, find the elec- tric field at (a) r= 1.50 m, (b) r= 2.20 m, and (c) r= 2.50 m. (d) What is the charge distribution on the sphere? Gaussian Gaussian surface surface En = 0 Figure 15.29 (Example 15.7) (a) The electric field inside a uniformly charged spherical shell is zero. It is also zero for the conducting material in the region a
47 Suppose the conducting spherical shell of Figure 15.29 carries a charge of 3.00 nC and that a charge of -2.00 nC is at the cen- ter of the sphere. If a = 2.00 m and b = 2.40 m, find the elec- tric field at (a) r= 1.50 m, (b) r= 2.20 m, and (c) r= 2.50 m. (d) What is the charge distribution on the sphere? Gaussian Gaussian surface surface En = 0 Figure 15.29 (Example 15.7) (a) The electric field inside a uniformly charged spherical shell is zero. It is also zero for the conducting material in the region a
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Transcribed Image Text:47
Suppose the conducting spherical shell of Figure 15.29 carries
a charge of 3.00 nC and that a charge of -2.00 nC is at the cen-
ter of the sphere. If a = 2.00 m and b = 2.40 m, find the elec-
tric field at (a) r= 1.50 m, (b) r= 2.20 m, and (c) r= 2.50 m.
(d) What is the charge distribution on the sphere?
Gaussian
Gaussian
surface
surface
En = 0
Figure 15.29 (Example 15.7) (a) The electric field inside a uniformly
charged spherical shell is zero. It is also zero for the conducting material
in the region a<r< b. The field outside is the same as that of a point
charge having a total charge Qlocated at the center of the shell. (b) The
construction of a Gaussian surface for calculating the electric field inside a
spherical shell. (c) The construction of a Gaussian surface for calculating
the electric field outside a spherical shell.
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