The rotor in a certain electric motor is a flat, rectangular coil with 82 turns of wire and dimensions 2.25 cm by 3.88 cm. The rotor rotates in a uniform magnetic field of 0.800 T. When the plane of the rotor is perpendicular to the direction of the magnetic field, the rotor carries a current of 10.9 mA. In this orientation, the magnetic moment of the rotor is directed opposite the magnetic field. The rotor then turns through one-half revolution. This process is repeated to cause the rotor to turn steadily at an angular speed of 3.90 multiply.gif 103 rev/min.
(a) Find the maximum torque acting on the rotor.
N · m
(b) Find the peak power output of the motor.
W
(c) Determine the amount of work performed by the magnetic field on the rotor in every full revolution.
J
(d) What is the average power of the motor?
W