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By using the elimination method
If we check option B and option A, electric field inside and outside the sphere is not zero, by using the relation
E=Kq/r²
K=dielectric constant
r=distance from the charge
Hence for a distance inside and outside the sphere there is some electric field,hence the A&B is omitted.
Checking option D,electric potential is related by
V=Kq/r
Hence there exist some potential within the sphere and is not zero.
The net charge induced is zero for an isolated spherical shell since the spherical shell can't acquire or give up charge.
Hence option C is correct.
Hope it helps:-)
Thanks
By using the elimination method
If we check option B and option A, electric field inside and outside the sphere is not zero, by using the relation
E=Kq/r²
K=dielectric constant
r=distance from the charge
Hence for a distance inside and outside the sphere there is some electric field,hence the A&B is omitted.
Checking option D,electric potential is related by
V=Kq/r
Hence there exist some potential within the sphere and is not zero.
The net charge induced is zero for an isolated spherical shell since the spherical shell can't acquire or give up charge.
Hence option C is correct.
Hope it helps:-)