A thin metallic spherical shell of radius R carries a charge Q on its surface. A point charge `Q/2` is placed at its centre C and another charge +2Q outside the shell at a distance r from the centre as shown in figure. Find
the electric flux through the shell.

A thin metallic spherical shell of radius R carries a charge Q on its surface. A point charge Q/2 is placed at its centre C and another charge +2Q outside the shell at a distance r from the centre as shown in figure. Find the force on the charge at the centre of shell and at point A.

A spherical shell of radius R has a charge +Q units. The electric field due to the shell at a point

A point charge q is placed at the origin. How does the electric field due to the charge vary with distance r from the origin?

A charged particle q is placed at the centre O of the cube (ABCDEFGH) of length L. Another same charge q is placed at a distance L from O. Then, the electric flux through ABCD is

A spherical conduting shell of inner radius r_1 and outer radius r_2 has a charge Q. A charge q is placed at the centre of the shell. Write the expression for the electric field at a point x > r_2 from the centre of the spherical shell.

An ellipsoidal cavity is carved within a perfect conductor. A positive charge q is placed at the centre of the cavity. The points A and B are on the cavity surface as shown in the figure. Then

A spherical conducting shell of inner radius r_1 and outer radius r_2 has a charge Q. A charge q is placed at the centre of the shell. What is the surface charge density on the inner and outer surfaces of the shell?

A spherical conducting shell of inner radius r_1 and outer radius r_2 has a charge Q as shown in the figure. A charge q is placed at the centre of the shell. What is the surface charge density of the inner and outer sufaces of the shell?

A point charge of 10^-7 colulomb is situated at the centre of a cube of 1 m side. Calculate the electric flux through its surface.

A point charge +q is placed at the mid point of a cube of side b. The electric flux emerging from the cube is: