A wheel with mass 0.6 kg and a radius 0.05 m rolls down an incline without slipping. The wheel has a moment of inertia of 1.2 x 10³ kg m'about its center of mass. Initially the wheel is at rest and the center of mass of the wheel is at a height of 0.35 m above the height of the center of mass when the wheel is at the bottom of the incline. Using concepts of energy in rolling motion, calculate the angular speed of the wheel when it reaches the bottom of the incline.
A wheel with mass 0.6 kg and a radius 0.05 m rolls down an incline without slipping. The wheel has a moment of inertia of 1.2 x 10³ kg m'about its center of mass. Initially the wheel is at rest and the center of mass of the wheel is at a height of 0.35 m above the height of the center of mass when the wheel is at the bottom of the incline. Using concepts of energy in rolling motion, calculate the angular speed of the wheel when it reaches the bottom of the incline.
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Transcribed Image Text:A wheel with mass 0.6 kg and a radius 0.05 m rolls down an incline without slipping. The wheel has a
moment of inertia of 1.2 x 10° kg mabout its center of mass. Initially the wheel is at rest and the center
of mass of the wheel is at a height of 0.35 m above the height of the center of mass when the wheel is at
the bottom of the incline. Using concepts of energy in rolling motion, calculate the angular speed of the
wheel when it reaches the bottom of the incline.
II
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