This is a Dynamics of Rigid Bodies subject. Thank you:) In the system of weights shown, the 400-N block has a tendency to move up the 36 ° incline due to the pull of the 600-N block. The coefficient of kinetic friction between A and the incline is 0.25. Assume the pulleys are weightless and frictionless. ( Note : The acceleration of Block A is twice the acceleration of Block B ) a. What is the acceleration of Block B? b. What is the tension in the cable? c. What is the velocity of Block A after 4 seconds?
This is a Dynamics of Rigid Bodies subject. Thank you:) In the system of weights shown, the 400-N block has a tendency to move up the 36 ° incline due to the pull of the 600-N block. The coefficient of kinetic friction between A and the incline is 0.25. Assume the pulleys are weightless and frictionless. ( Note : The acceleration of Block A is twice the acceleration of Block B ) a. What is the acceleration of Block B? b. What is the tension in the cable? c. What is the velocity of Block A after 4 seconds?
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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This is a Dynamics of Rigid Bodies subject. Thank you:)
In the system of weights shown, the 400-N block has a tendency to move up the 36 ° incline
due to the pull of the 600-N block. The coefficient of kinetic friction between A and the incline is
0.25. Assume the pulleys are weightless and frictionless. ( Note : The acceleration of Block A is twice
the acceleration of Block B )
a. What is the acceleration of Block B?
b. What is the tension in the cable?
c. What is the velocity of Block A after 4 seconds?
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