Two masses B and C are connected with a string passing over a friction less pully, assuming the coefficient of friction between the table and block is µ=0.4 , and the acceleration of gravity g=9.81 m/s2. Solve the following questions (show all the steps of your calculations): A. Draw the free body diagram of the two masses. B. Find an expression of the acceleration of the two masses in terms of C. Determine the tension in the rope in terms of må and mc. MB and mc- D. If mc= & kg, mg = (A-5) kg, determine the acceleration of two blocks and the tension in the rope. (k= the final two numbers of your ID +10, and, gravitational acceleration, g= 9.81 m/s2).

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Two masses B and C are connected with a string passing over a friction less pully, assuming the coefficient of friction between the table and block is μ=0.4 , and the acceleration of gravity g=9.81 m/s2. Solve the following questions (show all the steps of your calculations):


A. Draw the free body diagram of the two masses.
B. Find an expression of the acceleration of the two masses in terms of ?? and ??.
C. Determine the tension in the rope in terms of ?? and ??.
D. If ??= ʎ kg, ?? = (ʎ-5) kg, determine the acceleration of two blocks and the tension in the rope.
(ʎ= the final two numbers of your ID +10, and, gravitational acceleration, g = 9.81 m/s2).

В
Figure 3:A pulley with two masses
Transcribed Image Text:В Figure 3:A pulley with two masses
Task III
Two masses B and C are connected with a string passing over a friction less pully, assuming the coefficient of
friction between the table and block is u=0.4 , and the acceleration of gravity g=9.81 m/s2. Solve the following
questions (show all the steps of your calculations):
A. Draw the free body diagram of the two masses.
B. Find an expression of the acceleration of the two masses in terms of mg and mc.
C. Determine the tension in the rope in terms of må and mc.
D. If mc= A kg, mg = (&-5) kg, determine the acceleration of two blocks and the tension in the rope.
(K= the final two numbers of your ID +10, and, gravitational acceleration, g = 9.81 m/s2).
Transcribed Image Text:Task III Two masses B and C are connected with a string passing over a friction less pully, assuming the coefficient of friction between the table and block is u=0.4 , and the acceleration of gravity g=9.81 m/s2. Solve the following questions (show all the steps of your calculations): A. Draw the free body diagram of the two masses. B. Find an expression of the acceleration of the two masses in terms of mg and mc. C. Determine the tension in the rope in terms of må and mc. D. If mc= A kg, mg = (&-5) kg, determine the acceleration of two blocks and the tension in the rope. (K= the final two numbers of your ID +10, and, gravitational acceleration, g = 9.81 m/s2).
Expert Solution
Step 1

Given:Mass-pulley system as shown in the image in question.The surface on which mass Cis placed has a coefficient of static friction of, μ = 0.4Acceleration due to gravity, g = 9.81 m/s2Let mass of block B be mBmass of block C be mCLet tension on the string be Tfc be the frictional force on the block C and let a be the acceleration of the blocks as shown in figure below.(both blocks will have same acceleration because string can be assumed as inextensible and does not break during the motion)

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