2. Consider the system as shown in Fig. 2. The pulley is massless and the whole system is frictionless. Also consider the ropes to be ideal. Here, mı = 2 kg, m2 = 4 kg, and M = 8 kg. The tension in the rope with which the pulley is attached to the ceiling is T, the tension in the rope connecting M and mi is T1 and the tension in the rope connecting mi and m2 is T2. Consider g = 9.81 m/s². m1 (a) Draw the free body diagrams of all the blocks and the pulley. M (b) `Find the acceleration of each of the three blocks. m2 (c) Calculate the magnitude of T, T1 and T2. Fig. 2 Page 1 of 1 10
2. Consider the system as shown in Fig. 2. The pulley is massless and the whole system is frictionless. Also consider the ropes to be ideal. Here, mı = 2 kg, m2 = 4 kg, and M = 8 kg. The tension in the rope with which the pulley is attached to the ceiling is T, the tension in the rope connecting M and mi is T1 and the tension in the rope connecting mi and m2 is T2. Consider g = 9.81 m/s². m1 (a) Draw the free body diagrams of all the blocks and the pulley. M (b) `Find the acceleration of each of the three blocks. m2 (c) Calculate the magnitude of T, T1 and T2. Fig. 2 Page 1 of 1 10
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Transcribed Image Text:2. Consider the system as shown in Fig. 2. The pulley is massless and the
whole system is frictionless. Also consider the ropes to be ideal. Here, mi
= 2 kg, m2 = 4 kg, and M = 8 kg. The tension in the rope with which the
pulley is attached to the ceiling is T, the tension in the rope connecting M
and mi is T1 and the tension in the rope connecting mi and m2 is T2.
Consider g = 9.81 m/s².
m1
(a)
Draw the free body diagrams of all the blocks and the pulley.
(b)
'Find the acceleration of each of the three blocks.
m2
(c)
Calculate the magnitude of T, Tı and T2.
Fig. 2
Page 1 of 1
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