Part A A thin, light string is wrapped around the rim of a 3.60-kg, solid, uniform disk (similar to a puck on ice without friction) that is 31.0 cn in diameter. A person pulls on the string with a constant force of 103.5 N tangent to the disk, as shown in the figure below (Figure 1). The disk is not attached to anything and is free to move and turn. Find the angular accoleration of the disk about its center of mass. Express your answer in radians per second squared. rad/s? Submit Request Answer Part B Find the linear acceleration of its center of mass. Figure 1 of 1 Express your answer in meters per second squared. Pull V AE ? m/s Submit Request Answer Part C

Part A A thin, light string is wrapped around the rim of a 3.60-kg, solid, uniform disk (similar to a puck on ice without friction) that is 31.0 cn in diameter. A person pulls on the string with a constant force of 103.5 N tangent to the disk, as shown in the figure below (Figure 1). The disk is not attached to anything and is free to move and turn. Find the angular accoleration of the disk about its center of mass. Express your answer in radians per second squared. rad/s? Submit Request Answer Part B Find the linear acceleration of its center of mass. Figure 1 of 1 Express your answer in meters per second squared. Pull V AE ? m/s Submit Request Answer Part C

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Question

Problem 10.13
Part A
A thin, light string is wrapped around the rim of a
3.60-kg, solid, uniform disk (similar to a puck on ice
without friction) that is 31.0 cm in diameter. A person
pulls on the string with a constant force of 103.5 N
tangent to the disk, as shown in the figure below
(Figure 1). The disk is not attached to anything and is
free to move and turn.
Find the angular acceleration of the disk about its center of mass.
Express your answer in radians per second squared.
rad/s
Submit
Request Answer
Part B
Find the linear acceleration of its center of mass.
Figure
< 1 of 1
Express your answer in meters per second squared.
Pull
m/s
Submit
Request Answer
Part C

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