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.

The ammonia molecule NH_3 has a permanent electric dipole moment equal to 1.47 D, where 1 D = 1 debye unit = 3.34 xx 10^(-30) C. m. Calculate the electric potential due to an ammonia molecule at a point 103 nm away along the axis of the dipole. (Set V = 0 at infinity.)

The ammonia molecule has a permanent electric dipole moment of 1.47 D where D is the debye unit and 1D=3.34 xx 10^(-30)Cm . Calculate the electric potential due to the ammonia molecule at a point distant 30 nm away along the dipole axis.

A short electric dipole has dipole moment of 1 xx 10^-9 Cm .Determine the electric potential due to the dipole at a point distance 0.3m from the centre of the dipole situated on the axial line

A short electric dipole h as dipole moment of 1xxl0^-9 Cm. Determine the electric potential due to the dipole at a point distance 0.3 m from the centre of the dipole situated:- on the axial line (b) on the equatorial line

A short electric dipole h as dipole moment of 1xxl0^-9 Cm. Determine the electric potential due to the dipole at a point distance 0.3 m from the centre of the dipole situated:- on a line making an angle of 60^@ with the dipole axis.

The potential due to a short electric field dipole moment 2xx10^-6 C-m along its axis point 4 m from dipole is

The potential due to a short electric field dipole moment 2xx10^-6 C-m along its axis point 4 m from dipole is