What is non conducting spherical shell?
The electric field will be zero inside a spherical shell no matter if it is conducting or nonconducting, because according to Gauss’s law Φ=Qencϵ, where Φ is the electric flux thru the Gaussian surface, and Qenc is the charge inside the Gaussian surface.
What is a spherical conducting shell?
Explanation: Conducting Sphere : A conducting sphere will have the complete charge on its outside surface and the electric field intensity inside the conducting sphere will be zero. For a spherical charged Shell the entire charge will reside on outer surface and again there will be no field anywhere inside it.
What is the surface charge density on the inner and outer surface of the sphere?
Since the total flux through the surface is zero, the total enclosed charge is zero and therefore the charge on the inner surface must be q (to cancel the charge −q in the center). Thus the total charge on the outer surface is Q−q. The outer charge density is therefore (Q−q)/4πR2 .
What is the electric potential at the center of the shell?
Since there is no field inside the shell, the potential at any point inside the shell is equal to the potential on the surface of the shell, V=Q4πϵ0.
What is the electric field of a non-conducting sphere?
Therefore electric field inside a uniformly charged non- conducting spherical shell is zero.
What is non conducting sheet?
hence the charge distribution in this case is such that the electric field just outside it is sigma/epsilon,where sigma is the surface charge density. While in case of a non conducting sheet this is not true,the electric field at a point just inside it is almost same as a point just outside it..
What is the charge on the outer surface of the conducting shell?
* The electric field inside the conducting shell is zero. (B) There can be no net charge inside the conductor, therefore the inner surface of the shell must carry a net charge of -Q1, and the outer surface must carry the charge +Q1 + Q2, so that the net charge on the shell equals Q2.
What is the area charge density for the inner surface of the conducting shell?
(a) Since the electric field inside a conductor must be zero, the charge must all reside on the outer surface. The linear charge density on the inner surface is zero and on the outer surface it is +1.
What is the electric potential inside a conducting sphere?
Inside a hollow conducting sphere of charge Q, the electric intensity (E) is zero. But, the potential (V) is not zero.
How do you find the electric potential in a conducting sphere?
V(→r)={14πϵ0QR,if r≤R. 14πϵ0Qr,if r>R. Where Q is the total charge and R is the radius of the sphere (the sphere is located at the origin).