What is the electric field inside the hollow charged spherical shell?
So, the electric field inside a hollow sphere is zero.
How does electric field intensity vary inside a hollow charged conductor?
Electric field intensity is expressed as the strength of an electric field at any point. Thus, the potential will also be a constant inside this hollow sphere as the electric field becomes zero. Therefore, the electric field intensity due to hollow charge at any point is zero at any point inside the sphere.
Why electric field at a point is continuous if there is no charge at that point?
The electric field at a point is continuous only when there is no negative or positive charge in its vicinity that affects its pathway. Electric field lines would start to converge or diverge if a charged particle is placed in its pathway, thereby losing its continuity.
What is the electric field at that point?
The strength of an electric field E at any point may be defined as the electric, or Coulomb, force F exerted per unit positive electric charge q at that point, or simply E = F/q.
Why is electric field inside a charged conductor zero?
Electric field is zero inside a charged conductor. For a charged conductor, the charges will lie on the surface of the conductor.So, there will not be any charges inside the conductor. When there is no charge there will not be electric field.
What remains constant inside a conducting sphere?
Electric potential inside a conductor is constant and it is equal to that on the surface of conductor.
How does the electric field vary inside a hollow charged conductor?
It is well known that no electric fields exist inside a hollow conductor, even if there are charges present outside. A charge inside a hollow conductor produces a charge distribution on the outer surface of the conductor, and this induced charge distribution creates an electric field outside the closed conductor.