A circular wire of radius r and with a constant current I is placed in a magnetic field `vecB` such that the direction of B is perpendicular to the plane of the wire. The value of the magnetic force on the circular wire—

A conducting circular loop of radius r carries a constant current I. It is placed in a uniform magnetic field vec(B) such that vec(B) is perpendicular to the plane of the loop. The magnetic force acting on the loop is

A conducting circular loop of radius r carries a constant current l. It is placed in a ukniform magnetic field vecB such that vecB is perpendicular to the place of the loop. The magnetic force acting on the loop is

A rectangular coil carrying current I is placed in a uniform magnetic field B such that the direction of B is perpendicular to the plane of the coil. Calculate the torque experienced by the coil.

A wire loop of area A is placed in a uniform magnetic field B so that the directio of B is parallel to the plane of the coil. If B changes with time the emf induced in the loop will be

Calculate the torque acting on a rectangular coil carrying current I placed in a uniform magnetic field when the plane of the coil is perpendicular to the magnetic lines of force.

Consider a wire carrying a steady current I placed in a uniform magnetic field vecB . Consider the charges inside the wire. It is known that magnetic forces do no work. This implies that

A V-shaped conducting wire is moved with a speed of v in a magnetic field as shown in the fig. Magnetic field is perpendicular to the paper, directed inwards, then

As shown in the figure. a wire is bent to form a 1 - shaped closed loop. carrying current I . where the curved part is a semi - circle of radius R . The loop is placed in a uniform magnetic field vec(B) . which is directed into the plane of the paper . The magnetic force felt by the closed loop is