Thecombination of an applied force and a friction force produces aconstant total torque of 36.1 N· m on a wheel rotating about a fixed axis. The applied force actsfor 6.20 s. During this time,the angular speed of the wheel increases from 0 to 9.8 rad/s. The applied force is thenremoved, and the wheel comes to rest in 60.9 s.

(a) Find the moment of inertia of the wheel.
kg · m²

(b) Find the magnitude of the torque due to friction.
N · m

(c) Find the total number of revolutions of the wheel during theentire interval of 67.1s.
revolutions

The combination of an applied force and a friction force produces a constant total torque of 36.1 N · m on a wheel rotating about a fixed axis. The applied force acts for 6.20 s. During this time, the angular speed of the wheel increases from 0 to 10.5 rad/s. The applied force is then removed, and the wheel comes to rest in 59.9 s.

The combination of an applied force and a constant frictional forceproduces a constant total torque of 35.8 N·m on a wheel rotatingabout a fixed axis. The applied force acts for 6.06 s. During thistime the angular speed of the wheel increases from 0 to 10.2 rad/s.The applied force is then removed, and the wheel comes to rest in59.1 s.

(a) Find the moment of inertia of the wheel.
(b) Find the magnitude of the frictional torque.
(c) Find the total number of revolutions of the wheel.

A constant total torque of 36.0 N-m is applied on a wheel rotation about a fixed axis. The torque is applied for 6.00 s. During this time, the angular speed of the wheel increases from 0 to 10.0 rad/s. What is the moment of inertia of the wheel?