A wire carrying a current I is placed in a uniform magnetic field in the form of the curve `y=asin((pix)/(L))0lexle2L` The force acting on the wire is:

A wire carrying a current i is placed in a uniform magnetic field in the form of the curve y=asin((pix)/L)0 lexle2L . The force acting on the wire is

A wire ABCDEF ( with each side of length L ) bent as shown in figure and carrying a current I is placed in a uniform magnetic induction B parallel to the positive y- direction . The force experienced by the wire is ……….. In the ………. direction .

A wire ABCDEF ( with each side of length L ) bent as shown in figure and carrying a current I is placed in a uniform magnetic induction B parallel to the positive y- direction . The force experienced by the wire is ……….. In the ………. direction .

A wire frame of given shape, carrying current of 10 A is placed in uniform magnetic field 100 T directed into the plane of paper as shown in figure. The net force acting on frame is

the force on current carrying wire placed in uniform magnetic field B as shown in figure is

A semicircular wire PQS of radius R is connected to a wire bent in the form of a sine curve to form a closed loop as shown in the figure. If the loop carries a current I and is placed in a uniform magnetic field B, then the totla force acting on the sine curve is

Consider a wire carrying a steady current, I placed in a uniform magnetic field vecB perpendicular to its length. Consider the charges inside the wire. It is known that magnetic forces do not work. This implies that

The free electrons in conducting wire are in constant thermal motion. If such a wire, carrying no current, is placed in a magnetic field, is there a magnetic force on each free electron? Is there a magnetic force on the wire?

A wire loop carrying current I is placed in the x-y plane as shown. Magnetic induction at P is

A 0.5m long straight wire in which a current of 1.2A is flowing is kept a right angles to a uniform magnetic field of 2.0 tesla. The force acting on the wire will be-