An electric dipole of dipole moment p is placed in the position of stable equilibrium in uniform electric field of intensity E. this is rotated through an angle `theta` from the initial position . The potential energy of the electric dipole in the final position is

An electric dipole of moment p is palced in the positive of stable equilibrium in uniform electric field of intensity E . It is rotated through an angle theta from the initial position. The potential energy of electric dipole in the final position is

An electric dipole of dipole moment p is placed in a uniform external electric field E. Then, the

what is the net force on a dipole in a uniform electric field ?

A dipole of electric dipole moment p is placed in a uniform electric field of strength E. If theta is the angle between positive direction of p and E, then the potential energy of the electric dipole is largest when theta is

At what angle between dipole moment and electric field, electric dipole remains in stable equilibrium in uniform electric field ?

An electric dipole in a uniform electric field experiences (When it is placed at an angle theta with the field)

An electric dipole of moment vecp is placed normal to the lines of force of electric intensity vecE , then the work done in deflecting it through an angle of 180^(@) is

An electric dipole moment p is placed in an electric field of intensity 'E' . The dipole acquires a position such that the axis of the dipole makes an angle theta with the direction of the field. Assuming that the potential energy of the dipole to be zero when theta= 90^(@) , the torque and the potential energy of the dipole will respectively be

An electric dipole of dipole moment vecP is placed in a uniform electric field vecE such that vecP is perpendicular to vecE . The work done to turn the dipole through an angle of 180^(@) is -

A dipole of dipole moment vec(P) is placed in uniform electric field vec(E) , then torque acting on it is given by