A car starts from rest, and after 10.0 s, the tires of the car are rotating at a rate of 500.0 rev/min. The driver applies the brakes. The car decelerates at a rate of 4.0 m/s² . The radius of each tire is 0.2 m. a) What is the angular acceleration of each tire assuming they do not slip on the road? b) How many revolutions do the tires make before coming to rest, given their initial angular velocity is 65.0 rad/s? c) A point on the rim of a wheel moves in what complex path relative to the ground? d) Do all of the points on the rim of the wheel experience the same tangential acceleration? Explain.

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A car starts from rest, and after 10.0 s, the tires of the car are rotating at a rate of 500.0 rev/min. The
driver applies the brakes. The car decelerates at a rate of 4.0 m/s² . The radius of each tire is 0.2 m.
a) What is the angular acceleration of each tire assuming they do not slip on the road?
b) How many revolutions do the tires make before coming to rest, given their initial angular velocity is
65.0 rad/s?
c) A point on the rim of a wheel moves in what complex path relative to the ground?
d) Do all of the points on the rim of the wheel experience the same tangential acceleration? Explain.
Transcribed Image Text:A car starts from rest, and after 10.0 s, the tires of the car are rotating at a rate of 500.0 rev/min. The driver applies the brakes. The car decelerates at a rate of 4.0 m/s² . The radius of each tire is 0.2 m. a) What is the angular acceleration of each tire assuming they do not slip on the road? b) How many revolutions do the tires make before coming to rest, given their initial angular velocity is 65.0 rad/s? c) A point on the rim of a wheel moves in what complex path relative to the ground? d) Do all of the points on the rim of the wheel experience the same tangential acceleration? Explain.
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