A cylinder shown has a weight of 180 lb. Assuming the cylinder to be solid in determining the moment of inertia. a. Determine the velocity of the cylinder after it has rolled 10 ft. from rest if the horizontal force P applied at A is 18 1b. P b. Determine the velocity of the cylinder after it has rolled 10 ft. from rest if the horizontal force P= 18 lb is applied A at B. c. Determine the velocity of the cylinder after it has rolled 10 ft. from rest if the horizontal force P= 18 lb is applied at C. Note: Draw the diagram/s before formulating any equation. mt B
A cylinder shown has a weight of 180 lb. Assuming the cylinder to be solid in determining the moment of inertia. a. Determine the velocity of the cylinder after it has rolled 10 ft. from rest if the horizontal force P applied at A is 18 1b. P b. Determine the velocity of the cylinder after it has rolled 10 ft. from rest if the horizontal force P= 18 lb is applied A at B. c. Determine the velocity of the cylinder after it has rolled 10 ft. from rest if the horizontal force P= 18 lb is applied at C. Note: Draw the diagram/s before formulating any equation. mt B
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Transcribed Image Text:A cylinder shown has a weight of 180 lb.
Assuming the cylinder to be solid in determining
the moment of inertia.
a. Determine the velocity of the cylinder
after it has rolled 10 ft. from rest if
the horizontal force P applied at A is 18
1b.
A
b. Determine the velocity of the cylinder
after it has rolled 10 ft. from rest if
the horizontal force P= 18 lb is applied
at B.
c. Determine the velocity of the cylinder after it has rolled 10 ft. from rest if
the horizontal force P= 18 lb is applied at C.
Note: Draw the diagram/s before formulating any equation.
B
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