2. In the diagram the pulley has radius 0.300 m and mass 5.00 kg. The mass on the left is 16.0 kg and the mass on the right is 12.0 kg. The rope is massless. The system is released from rest and the mass on the left falls to the floor 4.80 m below its initial position. MO R a. Calculate the net torque on the pulley during the motion. b. Calculate the acceleration of the mass on the left side of the system. m1 m2
2. In the diagram the pulley has radius 0.300 m and mass 5.00 kg. The mass on the left is 16.0 kg and the mass on the right is 12.0 kg. The rope is massless. The system is released from rest and the mass on the left falls to the floor 4.80 m below its initial position. MO R a. Calculate the net torque on the pulley during the motion. b. Calculate the acceleration of the mass on the left side of the system. m1 m2
College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:2. In the diagram the pulley has radius 0.300 m and mass
5.00 kg. The mass on the left is 16.0 kg and the mass on
the right is 12.0 kg. The rope is massless. The system is
released from rest and the mass on the left falls to the
floor 4.80 m below its initial position.
a. Calculate the net torque on the pulley during the
motion.
b. Calculate the acceleration of the mass on the left
side of the system.
m1
m2
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