The figure shown represents the electric field between two large metal plates. Which of the graphs given in figure represents the force on a positve charge as it moves from point P towards plate B?

Figure shows the electric field lines around an electric dipole. Which of the arrows best represents the electric field at point P ?

If we introduce a large thin metal plate between two point charges, what will happen to the force between the charges?

Force between two conducting large plates , with charges Q and Q/2 as shown in the figure, is (Area of each face of plate =A)

If metal section of shape H is inserted in between two parallel plates as shown in figure and A is the area of each plate then the equivalent capacitance is. .

At which point (or points) in the given figure is the electric field zero N/C for the two point charges shown on the x axis ?

Two large plates are given the charges as shown in figure. Now, the left plane is earthed. Find the amount of charge that will flow from the earth to the plate.

The electric field on two sides of a large charged plate is shown in figure. The charge density on the plate in SI units is given by (epsilon_0 is the permittivity of free space in SI units).

A uniform electric field of magnitude E exists in between two parallel metal plates , as shown in the figure given below. One particle of mass m and charge q is projected along the central line between the plates. Particle just missed to strike upper plate , while coming out of plates. Find : (a)Time taken by the particle to come out of plates. (b)Speed of the particle as it comes out of plates. (c) Angle of deviation suffered by particle. The length of the plates is L and the distance between the plates is d. Ignore gravity .