What is the value of `theta` if the dipole is anti-parallel to the electric field ?

What is the angle between the electric dipole moment and the electric field strength due to it on the equatorial line

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

A molecule with a dipole moment p is placed in an electric field of strength E . Initially the dipole is aligned parallel to the field. If the dipole is to be rotated to be anti-parallel to the field, the work required to be done by an external agency is

A molecule with a dipole moment p is placed in an electric field of strength E . Initially the dipole is aligned parallel to the field. If the dipole is to be rotated to be anti-parallel to the field, the work required to be done by an external agency is

Point P lies on the axis of a dipole . If the dipole is rotated by 90^@ anti-clock wise , the electric field vector vec E at P will rotate by .

An electric dipole is placed in a uniform electric field vec(E ) of magnitude 40N//C . Graph shows the magnitude of the square on the dipole versus the angle theta between the field vec(E ) and the dipole moment vec(p) . The magnitude of dipole moment vec(p) is equal to:

What is the angle between the directions of electric field due to an electric dipole and its dipole moment at any : (i) Axial p oint . (ii) Equatorial point .

An electric dipole is placed in an uniform electric field with the dipole axis making an angle theta with the direction of the electric field. The orientation of the dipole for stable equilibrium 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

A dipole is placed in constant electric field E as shown . If it is released from rest this position find the kinetic energy gained when it is parallel to electric field vector . ( Assume dipole is small and placed in a gravity free space ) .