An electric dipole consisting of two opposite charges of `2 xx 10^-6` each separated by a distance of 3 cm is placed in all electric field of `2 xx 10^5` newton/coulomb. The maximum torque acting on the dipole in S.I. unit will be

An electric dipole cosisting of two opposite charges of 2xx10^-1C each separated by a distance of 3 cm is placed in an electeric field of 2xx10^5N/C . The maximum torque on the dipole will be

An electric dipole consist of two opposite charges each of magnitude 1 mu C separated by distance 2 cm. The dipole is placed in an external field of 10^5 N//C . The maximum torque acting on the dipole is

An electric dipole consists of two equal and opposite charges of magnitude 2 mu C placed 0.03 m apart. It is lying in an electric field of intensity 2 xx 10^5N//C . The maximum torque acting on the dipole will be

An electric dipole consists of two opposite charges each of magnitude 1 mu C separated by 2 cm. The dipole is placed in an external electric field of 10^5 N C^-2 .Find: The work the external agent will have to do in turning the dipole through 180^@ starting from the position theta = 0^@

An electric dipole consists of two opposite charges each of magnitude 1muC separated by 2 cm. The dipole is placed in an external electric field of 10^6 N//C . Find:- The work that the external agent will have to do in turning the dipole through 180^@ starting from position theta = 0^@ .

Calculate the electric field due to a charge of -8.0 xx 10^-8 C at a distance of 5.0 cm from it

Two charges +3.2xx10^-19C and -3.2xx10^-19C are placed 2.4 A apart from an electric dipole.it is placed in a uniform electric field of intensity 4xx10^5 V/m . The electric dipole moment is