If `E_(a)` be the electric field strength of a short dipole at a point on its axial line and `E_(e )` that on the equatorial line at the same distance, then

The electric field of an electric dipole at a point on its axis , at a distance d from the centre of the dipole, varies as

The electric field due to a short dipole at a distance r, on the axial line, from its mid point is the same as electric field at a distance r^(') on the equatorial line, from its mid point.Determine the ratio r//r' .

Two opposite charges each of magnitude 2 muC are 1 cm apart. Find electric field at a distance of 5 cm from the min-point on axid line of the dipole. Also, find the field on equatorial line at the same distance from mid-point

Assertion: The electric field due to dipole on its axis line at a distance r is E . Then electric field due to the same dipole on the equatorial line and at the same distance will be (E )/(2) Reason: Electric field due to dipole varies inversely as the square of distance.

In th electric potential on the axis of an electric dipole at a distance 'r' from it is V, then the potential at a point on its equatorial line at the same distance away frornt it will be

The electric field intensity vec(E) , , due to an electric dipole of dipole moment vec(p) , at a point on the equatorial line is :

(i) Derive the expression for the specific for the electric potential due to an electric dipole at a point on its axial line. (ii) Depiet the equivpotential surfaces due to an electric dipole.

What is the angle between the electric dipole moment and the electric field strength due to it on the equatorial line

The electric field at a point on equatorial of a dipole and direction of the dipole moment

Two charges, each of 5 mu C but opposite in sign, are placed 4 cm apart. Calculate the electric field intensity of a point that is a distance 4 cm from the mid point on the axial line of the dipole.