A wheel with a moment of inertia of 0.03 kg.m2 is accelerated from rest to 20 rad/s in 5 seconds due to application of a moment of force (torque). When the moment of force is released, the wheel stops in 1 min. a) Calculate the moment of friction (torque due to friction). b) Calculate the original moment of force. Hints: The angular acceleration, or deceleration, is determined by the net moment (sum of the moments) acting on the wheel. To start with you don’t know either moment, but the friction moment is the same during both deceleration and acceleration, so you can work that one out first (part a) in the simpler situation (is it during acceleration or deceleration?), then carry it across to the other phase of the movement to work out the accelerating moment (part b). You’ll need to work out the angular acceleration and deceleration in both of the phases.

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A wheel with a moment of inertia of 0.03 kg.m2 is accelerated from rest to 20 rad/s in 5 seconds due to application of a moment of force (torque). When the moment of force is released, the wheel stops in
1 min.
a) Calculate the moment of friction (torque due to friction).
b) Calculate the original moment of force.
Hints: The angular acceleration, or deceleration, is determined by the net moment (sum of the moments) acting on the wheel. To start with you don’t know either moment, but the friction moment is the same during both deceleration and acceleration, so you can work that one out first (part a) in the simpler situation (is it during acceleration or deceleration?), then carry it across to the other phase of the movement to work out the accelerating moment (part b). You’ll need to work out the angular acceleration and deceleration in both of the phases.

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