Suppose the resistance of the coil in the previous problem is `25Omega`. Assume that the coil moves with uniform velocity during its removal and restoration. Find the thermal energy developed in the coil during (a) its removal, (b) its restoration and (c) its motion.

A square- shaped copper coil has edges of length 50cm and contains 50 turns. It is placed perpendicular to 1.0 T magnetic field. It is removed form the magnetic field in 0.25 s and restored in its joriginal place in the next 0.25 s. Find the magnitude of the average emf induced in the loop during (a) its removal, (b) its restoration and (c) its motion.

A square- shaped copper coil has edges of length 50cm and contains 50 turns. It is placed perpendicular to 1.0 T magnetic field. It is removed form the magnetic field in 0.25 s and restored in its joriginal place in the next 0.25 s. Find the magnitude of the average emf induced in the loop during (a) its removal, (b) its restoration and (c) its motion.

A square- shaped copper coil has edges of length 50cm and contains 50 turns. It is placed perpendicular to 1.0 T magnetic field. It is removed form the magnetic field in 0.25 s and restored in its joriginal place in the next 0.25 s. Find the magnitude of the average emf induced in the loop during (a) its removal, (b) its restoration and (c) its motion.

A particle moves with constant angular velocity in a circle. During the motion its

A particle moves with constant angular velocity in a circle. During the motion its

A particle moves with constant angular velocity in a circle. During the motion its

suppose the ends of the coil in the previous problem are connected to a resistane of 100 Omega . Neglecting the resistance of the coil, find the heat produced in the circuit in one minute.

suppose the ends of the coil in the previous problem are connected to a resistane of 100 Omega . Neglecting the resistance of the coil, find the heat produced in the circuit in one minute.