An electric dipole of moment `5xx10^(-8) C-m` is aligned in a uniform electric field of `1*44xx10^(4) N//C`. Calculate potenitial energy of the diople at `60^(@)` with the direction of electric field.

A dipole consists of an electron and a proton separated by a distance of 5xx 10^(-9)m . The dipole is aligned in a uniform electric field of 1.44xx10^(4) N//C . Calculate potential energy of dipole to hold it at 60^(@) with the direction of electric field.

An electron and a proton separated by a distance of 4 xx 10^-9 m , forms an electric dipole. This dipole is aligned in a uniform electric field of 1.5 xx 10^4 N//C . Calculate potential energy of dipole to hold it at 60^@ with the direction of electric field.

An electric dipole of dipole moment p = 5 xx 10^(-18)C - m lying along unifrom electric field E = 4 xx 10^(4) NC^(-1) . Calculate the work done is rotating the dipole by 60^(@) .

An electric dipole of dipole moment p = 5 xx 10^(-18)C - m lying along unifrom electric field E = 4 xx 10^(4) NC^(-1) . Calculate the work done is rotating the dipole by 60^(@) .

An electric dipole of dipole moment 4xx10^(-5) Cm is placed in a uniform electric field of 10^(-3) N//C making an angle of 30^(@) with the direction of the field. Determine the torque exerted by the electric field on the dipole.

An electric dipole with diple moment 4xx10^-9 C m is aligned at 30^@ with the direction of unifrom electric field of 5xx10^-3NC^-1 . Calculate magnitude of the torque acting on the dipole.

An electrtic dipole with dipole moment 4xx10^(-9) C m is aligned at 30^(@) with the direction of a uniform electric field of magnitude 5xx10^(4) NC^(-1) . Calculate the magnitude of the torque acting on the dipole .

An electrtic dipole with dipole moment 4xx10^(-9) C m is aligned at 30^(@) with the direction of a uniform electric field of magnitude 5xx10^(4) NC^(-1) . Calculate the magnitude of the torque acting on the dipole .