An electric dipole consists of two opposite charges of magnitude `q = 1xx10^(-6)C` separated by 2.0cm. The dipole is placed in an external field of `1xx10^(5) NC^(-1)`. What maximum torque does the field exert on the dipole ? How much work must an external agent do to rurn the dipole end for end, starting from position of aligment `(theta = 0^(@))` ?

An electric dipole consists of two opposite charges of magnitude 1//3xx10^(-7)C , separated by 2 cm. The dipole is placed in an external field of 3xx10^(7) NC^(-1) . What maximum torque does the electrc field exert on the dipole ?

An electric dipole consists of two opposite charges of magnitude 1//3xx10^(-7)C , separated by 2 cm. The dipole is placed in an external field of 3xx10^(7) NC^(-1) . What maximum torque does the electrc field exert on the dipole ?

An electric dipole consists of two opposite charges each of magnitude 6xx 10^-8 coulomb separated by 6.0 cm. The dipole is placed in an external electric field of 5xx10^-5NC^-1 What maximum torque will the field exert on the dipole?

An electric dipole consists of two opposite charges of magnitude 1 muC (micro-coulomb) separated by a distance of 2 cm . The dipole is placed in an electric field of 10^(5) V m^(-1) . (a) What maximum torque does the field exert on the dipole ? (b) How much work must an external agent do to turn the dipole end for end , starting from a position of alignment theta = 0 ?

An electric dipole consists of two opposite charges of magnitude 1 mu C (micro-coulomb) separated by a distance of 2 cm . The dipole is placed in an electric field of 10^(5) V m^(-1) . What maximum torque does the field exert on the dipole ?

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

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