A spherical cavity is hollowed out of the interior of a neutral conducting sphere. At the center of the cavity is a point charge,of positive charge q.
Ernstfalld
Answered question
2021-02-02
A spherical cavity is hollowed out of the interior of a neutral conducting sphere. At the center of the cavity is a point charge,of positive charge q.
A) What is the total surface charge q on the interior surface of the conductor (i.s., on the wall of the cavity)?
C) What is the magnitude of the electric field inside the cavity as a function of the distance from the point charge? Let k, as usual, denote .
D)Will the total charge on the surface of the cavity change?
Will the totaly charge on the exterior of the conductor change?
Will the charge on the electric field with in the cavity change?
Will the charge on the electric field outside the cavity change?
Answer & Explanation
Layton
Skilled2021-02-03Added 89 answers
.
Jeffrey Jordon
Expert2021-10-07Added 2605 answers
Explanation:
The spherical cavity has a neutral charge. This means that this spherical cavity won´t affect the field inside. Therefore the field generated by the charge q+ is the same with or without the spherical cavity.
The total charge of the system can be calculated considering charge conservation:
Qtot0=Qtotf
q(+)=q(+)+qin+qex
qin=-qex and qin+qex=0
Using a Gaussian sphear centered in the charge q(+), we can calculate the field knowing that its direction would be
If we apply the gaussian sphear between the interior and the exterior radius of the conducting hollow sphear, knowing that the field should be 0:
If we apply the gaussian sphear outside the exterior radius of the conducting hollow sphear, we obtain the field required in c).
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