The distance between `H^(+) and Cl^(-)` ions in HCl molecules is `1.38Å.` The potential due to this dipole at a sistance of `10Å` on the axis of dipole is

The distance between H^(+) and CI^(-) ions in HCI molecule is 1.28 Å . What will be the potential due to this dipole at a distance of 12 Å on the axis of dipole ?

The electric field due to a dipole at a distance on its axis is

The electrostatic potential due to an electric dipole at a distance 'r' varies as

The electric potential due to an extermely short dipole at a distance r form it is proporitonal to

If the distance between H and Cl ions in HCl molccule is x, then its moment of incrtia about an axis passing through the centre of mass and perpendicular to the bond length, is-

A short electric dipole has dipole moment of 16 x 10^-9 C m. The electric potential due to dipole at a point at a distance of 0.6m from centre of dipole situated on aline making an angle of 60 degrees with dipole axis:

Potential due to magnetic dipole at distance from centre of the dipole on axis of dipole is V.What will be potential at distance 2r from centre on the axis of dipole?

An ammonia molecule has permanent electric dipole moment = 1.47D, where 1D = 1 debye unit = 3.34xx10^(-30) Cm . Calculate electric potential due to this molecule at a point 52.0 nm away along with axis of the dipole. Assume V = 0 at infinity.

A short electric dipole has dipole moment of 4xx10^(-9)Cm . Determine the electric potential due to the dipole at a point distant 0.3 m from the centre of the dipole situated on (a) the axial line (b) on equatorial line and (c) on a line making an angle of 60^(@) wth the dipole axis.