One end of a light inelastic rope is fixed to a pin on a shaft and the rope is wound around a model flywheel with a diameter = 50 mm. The free end of the rope is tied to a mass mass of 4 kg that hangs freely. The fly wheel rotates through 10 revs during 16 s after the tied mass is released from rest. Analyze the motion of the hanging mass and the flywheel and calculate: The distant the mass will descend Ah = m The total angular displacement during the 16s descent of the mass=
One end of a light inelastic rope is fixed to a pin on a shaft and the rope is wound around a model flywheel with a diameter = 50 mm. The free end of the rope is tied to a mass mass of 4 kg that hangs freely. The fly wheel rotates through 10 revs during 16 s after the tied mass is released from rest. Analyze the motion of the hanging mass and the flywheel and calculate: The distant the mass will descend Ah = m The total angular displacement during the 16s descent of the mass=
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