Arrive at the expression for electric current established due to the motion of electron in its orbit.

Give an expression for the electric potential at a point due to a point charge.

Arrive at the expression for the wavelength of electron in terms of electric potential.

Arrive at the expression for electric potential at a point due to a dipole and hence apply the expression for electric potential at a point on the dipole axis and on the equatorial lines.

Give the expression for electric potential at a point, due to a system of discrete point charges.

Arrive at the expression for the magnetic field at the centre of the circular path due to an orbiting electron.

Arrive at an expression for pressure at point due to a liquid.

Obtain the expression for electric current in a conductor in terms of drift velocity of the electron. Defien resistivity of the material of the conductor.

Give the expression for electric field intensity at a point due to a discrete and continuous distribution of charges.

Give the expression for electric field intensity due to an infinite thin plane sheet. Give the meaning of the symbols used.

Given the expression for electric field intensity at a point due to a thin infinitely long straight wire. Give the meaning the of symbols used.