The figure shows a pulley with two masses attached with a rope between them. There is no slipping between the rope and the pulley. Find the linear acceleration of blocks A and B, the angular acceleration of the pulley and the tension in each side of the cord. Mass of block A is 4.00 kg, mass of block B is 2.0 kg, moment of Inertia of the pulley wheel is 0.300 kg m², and the radius of the wheel is 0.120 m. Be sure to create freebody diagrams of both blocks and the pulley. You must treat the pulley as a rotating rigid body.
The figure shows a pulley with two masses attached with a rope between them. There is no slipping between the rope and the pulley. Find the linear acceleration of blocks A and B, the angular acceleration of the pulley and the tension in each side of the cord. Mass of block A is 4.00 kg, mass of block B is 2.0 kg, moment of Inertia of the pulley wheel is 0.300 kg m², and the radius of the wheel is 0.120 m. Be sure to create freebody diagrams of both blocks and the pulley. You must treat the pulley as a rotating rigid body.
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Transcribed Image Text:The figure shows a pulley with two masses attached with a rope between them. There
is no slipping between the rope and the pulley. Find the linear acceleration of blocks
A and B, the angular acceleration of the pulley and the tension in each side of the
cord. Mass of block A is 4.00 kg, mass of block B is 2.0 kg, moment of Inertia of the
pulley wheel is 0.300 kg m?, and the radius of the wheel is 0.120 m. Be sure to create
freebody diagrams of both blocks and the pulley. You must treat the pulley as a
rotating rigid body.
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