Problem 1: A bicycle can be modeled as three parts: the back wheel, the frame, and the front wheel. A. Write the equation for the kinetic energy of the whole bicycle (i.e. the energy of the wheels plus the energy of the frame) in terms of the linear velocity v, the mass of the wheels my and the mass of the frame mɛ. Consider the mass in the wheels to be all concentrated on I the outer edge. B. If the wheels each have a mass of 1.5 kg, and the frame has a mass of 8 kg, How much work would be required to be done on the bicycle in order to get it to a final velocity of 15 m's if it started from rest? C. Compare the amount of work done on the bike from part B with a similar bicycle that has wheels that are 1 kg each and a frame which is 9 kg. How much work would be required to bring this bike to 15 m's? Which bike is easier to ride?
Problem 1: A bicycle can be modeled as three parts: the back wheel, the frame, and the front wheel. A. Write the equation for the kinetic energy of the whole bicycle (i.e. the energy of the wheels plus the energy of the frame) in terms of the linear velocity v, the mass of the wheels my and the mass of the frame mɛ. Consider the mass in the wheels to be all concentrated on I the outer edge. B. If the wheels each have a mass of 1.5 kg, and the frame has a mass of 8 kg, How much work would be required to be done on the bicycle in order to get it to a final velocity of 15 m's if it started from rest? C. Compare the amount of work done on the bike from part B with a similar bicycle that has wheels that are 1 kg each and a frame which is 9 kg. How much work would be required to bring this bike to 15 m's? Which bike is easier to ride?
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Problem 1: A bicycle can be modeled as three parts: the back wheel, the frame, and the front
wheel.
A. Write the equation for the kinetic energy of the whole bicycle (i.e. the energy of the
wheels plus the energy of the frame) in terms of the linear velocity v, the mass of the wheels
my and the mass of the frame mɛ. Consider the mass in the wheels to be all concentrated on
I the outer edge.
B. If the wheels each have a mass of 1.5 kg, and the frame has a mass of 8 kg, How much
work would be required to be done on the bicycle in order to get it to a final velocity of 15
m's if it started from rest?
C. Compare the amount of work done on the bike from part B with a similar bicycle that has
wheels that are 1 kg each and a frame which is 9 kg. How much work would be required to
bring this bike to 15 m's? Which bike is easier to ride?
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