Caleulate the electric field due to an electric dipole of length 10 cm having charges of `1 mu C` at a point 12 cm from the centre of the dipole.

Electric field due to an electric dipole is

Calculate the electric field intensity due to an electric dipole of length 10 cm having charges of 100 muC at a point 20 cm from each charge on equatorial line.

Electric Field due to Dipole

The electric field due to an electric dipole is ……….. symmetric.

The electric intensity due to a dipole of length 10 cm and having a charge of 500 muC , at a point on the axis at a distance 20 cm from one of the charges in air is

Electric field intensity (E) due to an electric dipole varies with distance (r) of the point from the center of dipole as :

(a) Obtain the expression for the potential due to a point charge. (b) Use the above expression to show that the potential, due to an electric dipole (length 2a), varies as the inverse square' of the distance r of the 'field point' from the centre of the dipole for rgta .

Show on a plate the nature of variation of the (i) Electric field (ii) potenital (V), of a (small) electric dipole with the distance (r) of the filed point from the centre of the dipole.