A bar magnet with poles `25cm` apart and pole strength `14.4 Am` rests with its center on a frictionless pivot. If it is held in equilibrium at `60^(0)` to a uniform magnetic field on induction `0.25 T` by applying a force `F` at right angles to its axis `10cm` from the pivolt, the value of `F` in newton is (nearly)

A bar magnetic with poles 25cm apart and pole strength 14*4A.m rests with its centre on a frictionless pivot. It is held in equilibrium at 60^@ to a uniform magnetic field of induction 0*25T by applying a force F at right angles to its axis, 10cm from the pivot. Calculate the value of F. What will happen if the force is removed?

A bar magnet with poles 25.0 cm apart and of pole strength 14.4 Am rests with its centre on a friction less point. It is held in equilibrium at 60^(@) to a uniform magnetic field of induction 0.25 T by applying a formce F at right angle to the axis, 12 cm from its pivot. The magnitude of the force is

A bar magnet with poles sqrt3cm apart and pole strength 14*4Am rests with its centre on a frictionless pivot. The magnet is held in equilibrium at an angle of 60^@ to a uniform magnetic field of intensity 0*20T by applying a force F at right angles to its axis, 0*1m from its pivot. What is the value of force F?

A bar magnet with poles 25 cm apart and of strength 14.4 amp - m rests with centre on a frictionless pivot. It is held in equilibrium aat an angle of 60@ with respect to a uniform magnetic field of induction 0.25 Wb//m^(2) , by applying a force F at right angles to its axis at a point 12 cm from pivot. Calculate F . What will happen if the force F is removed?

A bar magnet with poles 25 cm apart and of strength 14.4 amp - m rests with centre on a frictionless pivot. It is held in equilibrium aat an angle of 60^@ with respect to a uniform magnetic field of induction 0.25 Wb//m^(2) , by applying a force F at right angles to its axis at a point 10 cm from pivot. Calculate F.

A bar magnet with its poles 25 cm apart and of pole strength 24.0 A-m rests with its centre on a frictionless pivot. A force F is applied on the magnet at a distance of 12 cm from the pivot, so that it is held in equilibrium at an angle of 30^(@) with respect to a magnetic field of induction 0.25 T. The value of force F is