Use the D’Alembert’s principle to determine (Showing the free body diagrams and all steps of your solution): A. The expression of the acceleration of the two masses in terms of M1 and M2. B. The tension in the rope in terms of M1 and M2. C. If M¡ = 30 kg, M2 = 10 kg, determine the acceleration of two blocks and the tension in the rope. (Taking in consideration that the gravitational acceleration, g = 9.81 m/s²?). D. If M2 is reduced to 5 kg and M1 remains the same (30 kg) what will be the new acceleration. How does the amount of mass M2 affect the acceleration? Repeat the problem if Mı= 15 kg and M2=10 kg. What do you conclude. Non-frictional surface M2

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Use the D'Alembert's principle to determine (Showing the free body diagrams and all steps of your solution):
A. The expression of the acceleration of the two masses in terms of M1 and M2.
B. The tension in the rope in terms of M¡ and M2.
C. If M1 = 30 kg, M2 = 10 kg, determine the acceleration of two blocks and the tension in the rope.
(Taking in consideration that the gravitational acceleration, g = 9.81 m/s²).
D. If M2 is reduced to 5 kg and Mı remains the same (30 kg) what will be the new acceleration. How does
the amount of mass M2 affect the acceleration? Repeat the problem if Mı= 15 kg and M2=10 kg. What
do you conclude.
Non-frictional surface
M2
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Transcribed Image Text:Use the D'Alembert's principle to determine (Showing the free body diagrams and all steps of your solution): A. The expression of the acceleration of the two masses in terms of M1 and M2. B. The tension in the rope in terms of M¡ and M2. C. If M1 = 30 kg, M2 = 10 kg, determine the acceleration of two blocks and the tension in the rope. (Taking in consideration that the gravitational acceleration, g = 9.81 m/s²). D. If M2 is reduced to 5 kg and Mı remains the same (30 kg) what will be the new acceleration. How does the amount of mass M2 affect the acceleration? Repeat the problem if Mı= 15 kg and M2=10 kg. What do you conclude. Non-frictional surface M2 Activate
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