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 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 diople consisting of an electron and a proton separated by a distance of 4xx10^(-10) m is situated in an electric field of intensity 3xx10^(5) NC^(-1) at an angle of 30^(@) with the field. Calculate the diople moment and the torque acting on it. Charge e on an electron = 1*6xx10^(-19) C.

An electric dipole consists of two opposite charges each of magnitude 2 muC separated by a distance 1 cm. The dipole is placed in an external field of 10^(3) N/C. The maximum torque on the dipole is

Two charges of +- 1000 muC are separated by 2mm . This dipole so formed is held at an angle of 30^(@) with a uniform electric field of 15xx10^(4) N//C . Calculate the torque acting on the dipole.

An electric dipole cosnists of two opposite charges of magnitude 1muC separated by a distance of 2cm .The dipole is placed in an electric filled 10^(-5)Vm^(-1) .The maximum torque that the field exert on the dipole is

An electric dipole consisting of two opposite charges of 2xx10^(-6)C each separated by a distance of 3 cm is placed in an electirc field of 2xx10^(5)N//C . The maximum torque on the dipole is will be

An electric dipole consists of two opposite charges each 0.05 mu C separated by 30 mm. The dipole is placed in an uniform external electric field of 10^(6)NC^(-1) . The maximum torque exerted by the field on the dipole is