Consider a toy vehicle with a body of mass M = 2Kg on two wheels, each of mass m = 1Kg and radius r = 0.1 m as shown in the figure. It starts from rest on top of a small hill of height H = 10 m and rolls without slipping. %3D %3D What is the linear velocity of the center of mass at the bottom of the hill?

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Consider a toy vehicle with a body of mass M = 2Kg on two wheels, each of mass m = 1Kg
and radius r = 0.1 m as shown in the figure. It starts from rest on top of a small hill of height
H = 10 m and rolls without slipping.
What is the linear velocity of the center of mass at the bottom of the hill?
HINT: There is rotational and translational kinetic energy in this problem.
Vo = 0
M-
Vf
M-2K
m=lKg molky
Transcribed Image Text:Consider a toy vehicle with a body of mass M = 2Kg on two wheels, each of mass m = 1Kg and radius r = 0.1 m as shown in the figure. It starts from rest on top of a small hill of height H = 10 m and rolls without slipping. What is the linear velocity of the center of mass at the bottom of the hill? HINT: There is rotational and translational kinetic energy in this problem. Vo = 0 M- Vf M-2K m=lKg molky
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