Starting from rest, a person pedals a bicycle such that the angular acceleration of the wheels is a constant 1.20 rad/s². The bicycle wheels are 37.0 cm in radius. (a) What is the magnitude of the bicycle's linear acceleration (in m/s²)? m/s² (b) What is the angular speed of the wheels (in rad/s) when the linear speed of the bicyclist reaches 11.8 m/s? rad/s (c) How many radians have the wheels turned through in that time? rad (d) How far (in m) has the bicycle traveled in that time? m
Starting from rest, a person pedals a bicycle such that the angular acceleration of the wheels is a constant 1.20 rad/s². The bicycle wheels are 37.0 cm in radius. (a) What is the magnitude of the bicycle's linear acceleration (in m/s²)? m/s² (b) What is the angular speed of the wheels (in rad/s) when the linear speed of the bicyclist reaches 11.8 m/s? rad/s (c) How many radians have the wheels turned through in that time? rad (d) How far (in m) has the bicycle traveled in that time? m
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Transcribed Image Text:Starting from rest, a person pedals a bicycle such that the angular acceleration of the wheels is a constant 1.20 rad/s². The bicycle wheels are 37.0 cm in radius.
(a) What is the magnitude of the bicycle's linear acceleration (in m/s²)?
m/s²
(b) What is the angular speed of the wheels (in rad/s) when the linear speed of the bicyclist reaches 11.8 m/s?
rad/s
(c) How many radians have the wheels turned through in that time?
rad
(d) How far (in m) has the bicycle traveled in that time?
m
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