Block of mass m, is placed on a frictionless inclined plane of angle 0. A force of magnitude F, is applied to the string as shown. The string is unstretchable, has negligible mass, and pulls without slipping. The pulley has radius R and moment of inertia I with respect to the axis of rotation. There is a friction force at the axle which exerts a torque of constant magnitude t, opposing the rotation. v Fo т, a) In the box below write the system of equations that could be solved to find the acceleration of the block. b) Find the acceleration of the block.

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Block of mass m, is placed on a frictionless inclined plane of angle 0. A force of magnitude F, is
applied to the string as shown. The string is unstretchable, has negligible mass, and pulls without
slipping. The pulley has radius R and moment of inertia I with respect to the axis of rotation. There is
a friction force at the axle which exerts a torque of constant magnitude t, opposing the rotation.
v Fo
т,
a) In the box below write the system of equations that could be solved to find the acceleration of the
block.
b) Find the acceleration of the block.
Transcribed Image Text:Block of mass m, is placed on a frictionless inclined plane of angle 0. A force of magnitude F, is applied to the string as shown. The string is unstretchable, has negligible mass, and pulls without slipping. The pulley has radius R and moment of inertia I with respect to the axis of rotation. There is a friction force at the axle which exerts a torque of constant magnitude t, opposing the rotation. v Fo т, a) In the box below write the system of equations that could be solved to find the acceleration of the block. b) Find the acceleration of the block.
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