Problem 1: Two boxes are connected by a cord running over a pulley as shown. Box I of mass 10.0 kg rest on the top of the table. Find the minimum coefficient of static friction between Box I and the table in order for the system to remain in equilibrium, static. Box II has a mass of 5.0 kg. Show All Your Work. You Won't Receive Credit If Your Answer Is Not Clearly Justified. a) Draw the free-body diagrams for the two boxes. 1 b) Calculate the minimum coefficient of static friction for the system to be static. 11

Problem 1: Two boxes are connected by a cord running over a pulley as shown. Box I of mass 10.0 kg rest on the top of the table. Find the minimum coefficient of static friction between Box I and the table in order for the system to remain in equilibrium, static. Box II has a mass of 5.0 kg. Show All Your Work. You Won't Receive Credit If Your Answer Is Not Clearly Justified. a) Draw the free-body diagrams for the two boxes. 1 b) Calculate the minimum coefficient of static friction for the system to be static. 11

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Question

For question A and B

Problem 1: Two boxes are connected by a cord running over a pulley as shown. Box I of
mass 10.0 kg rest on the top of the table. Find the minimum coefficient of static friction
between Box I and the table in order for the system to remain in equilibrium, static. Box
II has a mass of 5.0 kg. Show All Your Work. You Won't Receive Credit If Your
Answer Is Not Clearly Justified.
a) Draw the free-body diagrams for the two boxes.
1
b) Calculate the minimum coefficient of static friction for the system to be static.
||

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