Two blocks are connected by an ideal string that passes over a pulley. Both lie on a smooth, frictionless inclined surface. The lean angle for the M1 is 30 degrees and the lean angle for the M2 is 60 degrees. Draw the free body diagram of the system. a. Determine what is the acceleration of the system and the tension in the string if M1 = 5 kg and M2 = 3 kg. b. What if there was a coefficient of friction that was 0.47 for both masses? How does acceleration and tension change?
Two blocks are connected by an ideal string that passes over a pulley. Both lie on a smooth, frictionless inclined surface. The lean angle for the M1 is 30 degrees and the lean angle for the M2 is 60 degrees. Draw the free body diagram of the system. a. Determine what is the acceleration of the system and the tension in the string if M1 = 5 kg and M2 = 3 kg. b. What if there was a coefficient of friction that was 0.47 for both masses? How does acceleration and tension change?
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1. Two blocks are connected by an ideal string that passes over a pulley. Both lie on a smooth, frictionless inclined surface. The lean angle for the M1 is 30 degrees and the lean angle for the M2 is 60 degrees. Draw the free body diagram of the system.
a. Determine what is the acceleration of the system and the tension in the string if M1 = 5 kg and M2 = 3 kg.
b. What if there was a coefficient of friction that was 0.47 for both masses? How does acceleration and tension change?
Transcribed Image Text:1. Two blocks are connected by an ideal string that passes over a pulley. Both lie on a smooth,
frictionless inclined surface. The lean angle for the M1 is 30 degrees and the lean angle for
the M2 is 60 degrees. Draw the free body diagram of the system.
a. Determine what is the acceleration of the system and the tension in the string if M1 = 5
kg and M2 = 3 kg.
b. What if there was a coefficient of friction that was 0.47 for both masses? How does
acceleration and tension change?
m₁
m₂
a
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