Part A An experimental bicycle wheel is placed on a test stand so that it is free to turn on its axle. It a constant net torque of 5.00 N m is applied to the tire for 2.00 s, the angular speed of the tire increases from zero to 100 rev/min. The external torque is then removed, and the wheel is brought to rest in 150 s by friction in its bearings Compute the moment of inertia of the wheel about the axis of rotation. Express your answer in kilogram-meters squared. kg m Submit Request Answer Part B Compute the triction torque Express your answer in newton-meters. N.m Submit Request Answer
Part A An experimental bicycle wheel is placed on a test stand so that it is free to turn on its axle. It a constant net torque of 5.00 N m is applied to the tire for 2.00 s, the angular speed of the tire increases from zero to 100 rev/min. The external torque is then removed, and the wheel is brought to rest in 150 s by friction in its bearings Compute the moment of inertia of the wheel about the axis of rotation. Express your answer in kilogram-meters squared. kg m Submit Request Answer Part B Compute the triction torque Express your answer in newton-meters. N.m Submit Request Answer
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