A wire of mass 100kg is carrying a current of 2A towards increasing x in the form of `y=x^(2)(-2mlexle+2m)`. This wire is placed in a magnetic field `vecB=-0.02hatkT`. The acceleration of the wire:

A wire of mass 100 g is carrying a current of 2A towards increasing x in the form of y=x^2(-2mlexle+2m) . This wire is placed in a magnetic field B=-0.02hatk tesla. The acceleration of the wire ("in"m/s^2) is

A wire carrying a current of 3A is bent in the form of a parabola y^(2)=4-x as shown in figure-4.226, where x and y are in metre. The wire is placed in a uniform magnetic field vecB=5hatkT . The force acting on the wire is:

A conducting wire bent in the form of a parabola y^(2)=2x carries a current i=2A as shown in figure. This wire is placed in a uniform magnetic field vecB=4hatk Tesla. The magnetic force on the wire in region 0ltxlt2m is (in Newton)

A conducting wire bent in the from of a parabola y^(2)=2x carries a current i=2A as shown in figure This wire is placed in a unifrom magnetic field oversetrarrB = - 4hatk Tesla The magnetic force on the wire is (newton) .

A conducting wire bent in the from of a parabola y^(2)=2x carries a current i=2A as shown in figure This wire is placed in a unifrom magnetic field oversetrarrB = - 4hatk Tesla The magnetic force on the wire is (newton) .

A wire carrying a current of 3A is bent in the form of a parabola y^2=4-x as shown in figure, where x and y are in metre. The wire is placed in a uniform magnetic field B=5hatk tesla. The force acting on the wire is

A wire carrying a current of 3A is bent in the form of a parabola y^2=4-x as shown in figure, where x and y are in metre. The wire is placed in a uniform magnetic field B=5hatk tesla. The force acting on the wire is

A uniform conducting wire ABC has a mass of 10 g. A current of 2A flows through it. The wire is kept in a uniform magnetic field B= 2T. The acceleration of the wire will be