A string is wrapped around a thin-walled cylinder pulley of radius 11.9 cm and mass of 13 kg. If the string is pulled by a force that is tangent to a point on the rim of the pulley, how much force is exerted to cause it to rotate at a constant rate of 4.82 rad/s²? The moment of inertia for thin-walled cylinder is I = mr²2. O 7.46N 0.887 N 527 N 62.7 N
A string is wrapped around a thin-walled cylinder pulley of radius 11.9 cm and mass of 13 kg. If the string is pulled by a force that is tangent to a point on the rim of the pulley, how much force is exerted to cause it to rotate at a constant rate of 4.82 rad/s²? The moment of inertia for thin-walled cylinder is I = mr²2. O 7.46N 0.887 N 527 N 62.7 N
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![A string is wrapped around a thin-walled cylinder pulley of radius 11.9
cm and mass of 13 kg. If the string is pulled by a force that is tangent to
a point on the rim of the pulley, how much force is exerted to cause it
to rotate at a constant rate of 4.82 rad/s²? The moment of inertia for
thin-walled cylinder is I = mr².
O 7.46 N
Q 527N
Q 62.7N
0.887 N](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5c77f260-531f-4179-b287-0f28b1a23964%2Fc6b03dbd-5595-423c-a2c0-82b2de9d5ccc%2Ftu4brjl_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A string is wrapped around a thin-walled cylinder pulley of radius 11.9
cm and mass of 13 kg. If the string is pulled by a force that is tangent to
a point on the rim of the pulley, how much force is exerted to cause it
to rotate at a constant rate of 4.82 rad/s²? The moment of inertia for
thin-walled cylinder is I = mr².
O 7.46 N
Q 527N
Q 62.7N
0.887 N
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