Problem 3: Two blocks are connected by a massless rope as shown below. The mass of the block on the table is mj = 6.8 kg and the hanging mass is mɔ = 1.1 kg. The table and the pulley are frictionless. m2 Part (a) Write an equation for the acceleration of the two connected blocks in terms of m1, m2, and the acceleration due to gravity g

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Chapter1: Units, Trigonometry. And Vectors
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Please answer all the parts
Problem 3: Two blocks are connected by a massless rope as shown below. The mass of the block
on the table is mj = 6.8 kg and the hanging mass is m2 = 1.1 kg. The table and the pulley are frictionless.
m2
Part (a) Write an equation for the acceleration of the two connected blocks in terms of m1, m2, and the acceleration due to gravity g.
Y
7
8
9.
НОМЕ
Transcribed Image Text:Problem 3: Two blocks are connected by a massless rope as shown below. The mass of the block on the table is mj = 6.8 kg and the hanging mass is m2 = 1.1 kg. The table and the pulley are frictionless. m2 Part (a) Write an equation for the acceleration of the two connected blocks in terms of m1, m2, and the acceleration due to gravity g. Y 7 8 9. НОМЕ
Part (b) Find the acceleration of the two connected blocks in meters per second squared.
Part (c) Write an equation for the tension in the rope in terms of m1, m2, the acceleration due to gravity g, and the acceleration you calculated
previously a.
Part (d) Calculate the tension in the rope in newtons.
Part (e) Write an equation for the speed at which the hanging mass hits the floor if it starts falling from rest. Give your answer in terms of the
acceleration a and the distance it has to fall to reach the floor d.
Part (f) Find the speed with which the hanging mass hits the floor if it starts from rest and is initially located 1.1 meters above the floor. Give your
answer in meters per second.
sin()
cos()
tan()
8
9
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Transcribed Image Text:Part (b) Find the acceleration of the two connected blocks in meters per second squared. Part (c) Write an equation for the tension in the rope in terms of m1, m2, the acceleration due to gravity g, and the acceleration you calculated previously a. Part (d) Calculate the tension in the rope in newtons. Part (e) Write an equation for the speed at which the hanging mass hits the floor if it starts falling from rest. Give your answer in terms of the acceleration a and the distance it has to fall to reach the floor d. Part (f) Find the speed with which the hanging mass hits the floor if it starts from rest and is initially located 1.1 meters above the floor. Give your answer in meters per second. sin() cos() tan() 8 9 HOME
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