Blocks A and B have a masses of 200 kg and 230 kg , respectively.(Figure 2) The coefficient of static friction between A and B and between B and C is 0.220. The coefficient of static friction between the rope and peg E is 0.520. Pulley D rotates freely, and P = 29.0 N . If 0 = 60.0 degrees , what is the smallest magnitude, T, of tension, T, that causes block B to move? Express your answer numerically in kilonewtons to three significant figures.

Blocks A and B have a masses of 200 kg and 230 kg , respectively.(Figure 2) The coefficient of static friction between A and B and between B and C is 0.220. The coefficient of static friction between the rope and peg E is 0.520. Pulley D rotates freely, and P = 29.0 N . If 0 = 60.0 degrees , what is the smallest magnitude, T, of tension, T, that causes block B to move? Express your answer numerically in kilonewtons to three significant figures.

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Question

Blocks A and B have a masses of 200 kg and 230 kg , respectively.(Figure 2) The coefficient of static friction between A and B and between B and Cis 0.220. The coefficient of static
friction between the rope and peg E is 0.520. Pulley D rotates freely, and P = 29.0 N . If 0 = 60.0 degrees , what is the smallest magnitude, T, of tension, T, that causes block B to
move?
Express your answer numerically in kilonewtons to three significant figures.

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