Cylinder A weighs 150 lb and has a diameter of 3 ft and a radius of gyration of 1 ft. Block B weighs 100 lb. If the system is released from rest and the cylinder does not slip, determine the velocity of B after it has fallen 1 ft.Useeither the inertial or impulse method.Neglect the masses of the cable and pulleys. (g = 32.2 fl/s?, Ic = k'm.) %3D %! 3
Cylinder A weighs 150 lb and has a diameter of 3 ft and a radius of gyration of 1 ft. Block B weighs 100 lb. If the system is released from rest and the cylinder does not slip, determine the velocity of B after it has fallen 1 ft.Useeither the inertial or impulse method.Neglect the masses of the cable and pulleys. (g = 32.2 fl/s?, Ic = k'm.) %3D %! 3
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![Cylinder A weighs 150 lb and has a diameter of 3 ft and a radius of gyration of 1 ft. Block B weighs
100 lb. If the system is released from rest and the cylinder does not slip, determine the velocity of B
after it has fallen 1 ft.Useeither the inertial or impulse method.Neglect the masses of the cable
and pulleys. (g = 32.2 f/s?, Ic = k'm.)
%3D
3
B.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F88869995-c8e4-4899-bf3f-fb4e3f70cf36%2F28662296-4ddb-45ab-a1db-ad540962e97e%2Fcc6vnur_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Cylinder A weighs 150 lb and has a diameter of 3 ft and a radius of gyration of 1 ft. Block B weighs
100 lb. If the system is released from rest and the cylinder does not slip, determine the velocity of B
after it has fallen 1 ft.Useeither the inertial or impulse method.Neglect the masses of the cable
and pulleys. (g = 32.2 f/s?, Ic = k'm.)
%3D
3
B.
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