For the conditions described in Example 37.4 compute the moment of inertia of the flywheel, its angular
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For the conditions described in Example 37.4 compute the moment of inertia of the flywheel, its angular momentum, and kinetic energy of rotation. Assuming that the car loses kinetic energy only to wind resistance(with a drag coefficient of cd = 1/3) and that the flywheel’s energy can be converted to kinetic energy of forward motion at 90% efficiency, find how long the flywheel could keep the car moving at 100 km/h. Finally, show that left/right imbalance of approximately±6% in the weight on the tires is sufficient to supply the torque needed when the car tilts forward 10◦in 0.36 s.
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For a solid disk the moment of inertia At an angular velocity of 5800 s 1 the angular momentum is L ...View the full answer
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