A metallic rod length I is rotated at a constant angular speed, normal to a uniform magnetic field B. derive an expression for the current induced in the rod, if the resistance of the rod is R

A metallic rod of length l is rotated at a constant angular speed omega , normal to a uniform magnetic field B. Derive an expression for the current induced in the rod, if the resistance of the rod is R.

A metallic rod of length l is rotated at a constant angular speed omega , normal to a uniform magnetic field B. Derive an expression for the current induced in the rod, if the resistance of the rod is R.

A metallic rod of length l is rotated at a constant angular speed omega , normal to a uniform magnetic field B. Derive an expressions for the current induced in the rod, if the resistance of the rod is R.

A metallic rod of length L rotates at an angular speed omega, normal to a uniform magnetic field. If the resitance of rod is R the heat dissipated is:

A conducting rod of length L with one end pivoted is rotated with a uniform angular speed omega in a vertical plane, normal to a uniform magnetic field B. Deduce an expression for the emf induced in this rod.

A conducting rod OA of length l is rotated about its end O with an angular velocity omega in a uniform magnetic field directed perpendicualr to the rotation. Find the emf induced in the rod, between it's ends.

A glass rod of length l moves with velocity in a uniform magnetic field B. What is the e.m.f. induced in the rod ?

A copper rod of length L rotates with an angular with an angular speed 'omega' in a uniform magnetic field B. find the emf developed between the two ends of the rod. The field in perpendicular to the motion of the rod.