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A bicycle has wheels of radius 0.330 m. Each wheel has a rotational inertia of 0.0800 kg?m 2 about its axle. The total mass of
A bicycle has wheels of radius 0.330 m. Each wheel has a rotational inertia of 0.0800 kg?m2 about its axle. The total mass of the bicycle including the wheels and the rider is 57.0 kg. When coasting at constant speed, what fraction of the total kinetic energy of the bicycle (including rider) is the rotational kinetic energy of the wheels?
A bicycle has wheels of radius 0.330 m. Each wheel has a rotational inertia of 0.0800 kg . m about its axle. The total mass of the bicycle including the wheels and the rider is 57.0 kg. When coasting at constant speed, what fraction of the total kinetic energy of the bicycle (including rider) is the rotational kinetic energy of the wheels? 0.0128I checked calculation, I found same Ratio of total Kinetic Energy of bicycle (including rider to rotational k.E = 39 .79562500 03 Pant- 2 9ts inverse Rotation k E Total K. E . = 0'025 12839036 Note : you may enter all values without rounding the figure Lif above is not work , then try do pant-2, It might be inverse by defaultStep by Step Solution
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