Find the resultant magnetic force and torque on the loop.

In Fig., a semicircular wire is placed in a uniform field vec B directed towards right. Find the resultant magnetic force and torque on it.

In Fig., find the resultant magnetic force and torque about C, and P.

In the figure shown find the resultant magnetic force and torque about ‘C’, and ‘P’.

In the figure shown find the resultant magnetic force and torque about 'C' and 'P'.

Assertion: A closed current carrying loop behaves like a magnetic dipole. Reason: Force and torque on the loop is zero as shown in figure.

Find the magnetic force on loop PQRS due to the wire.

If several forces act on a particle, the total torque on the particle mauy be obtained by first finding the resultant force and then taking torque of this resultant. Prove this. Is this result valid for the forces actin on difeent partivles of a body in such a way that their lines of acting intersect at a common point?

A current loop of arbitrary shape lien in a uniform magnetic field B. show that the net magnetic force acting on the loop is zero.

Two similar current loops are placed with their planes mutually perpendicular and centres of both loop lie on the origin. Find the ratio of resultant magnetic field at common centre to the individual magnetic field at common centre.

A loop PQR carries a current i = 2A as shown in the figure. A uniform magnetic field B = 2T exists in space parallel to the plane of the loop . The magnetic torque on the loop is