In the figure, the load at B is connected to a cable on the larger pulley. That pulley is controlled by the rotation of the smaller pulley, which is pulled by the cable at C. If the cable at C has a constant acceleration of 9 in./s2, and starts moving to the right at 12 in./s, determine: a. how many revolutions the larger pulley will complete in 2 seconds b. The velocity and rise (∆y) in the load after 2 seconds c. The angular acceleration of the pulley at D
In the figure, the load at B is connected to a cable on the larger pulley. That pulley is controlled by the rotation of the smaller pulley, which is pulled by the cable at C. If the cable at C has a constant acceleration of 9 in./s2, and starts moving to the right at 12 in./s, determine: a. how many revolutions the larger pulley will complete in 2 seconds b. The velocity and rise (∆y) in the load after 2 seconds c. The angular acceleration of the pulley at D
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In the figure, the load at B is connected to a cable on the larger pulley. That pulley is controlled by the rotation of the smaller pulley, which is pulled by the cable at C. If the cable at C has a constant acceleration of 9 in./s2, and starts moving to the right at 12 in./s, determine:
a. how many revolutions the larger pulley will complete in 2 seconds
b. The velocity and rise (∆y) in the load after 2 seconds
c. The angular acceleration of the pulley at D
![B
A
D
3 in.
5 in.
C](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F07a9cc2f-a791-4352-8325-07801fa15b52%2F0174e455-62f2-4a3d-9888-89e7a6f49df9%2Fyqscqx2_processed.jpeg&w=3840&q=75)
Transcribed Image Text:B
A
D
3 in.
5 in.
C
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