Problem: There are two blocks, one on top of the other, that are connected by an ideal massless rope and pulley. The lower block in the figure is pulled on by another rope with a tension force of 26 N. The top block has a mass of 1.4 kg and the bottom block has a mass of 3.0 kg. The coefficient of kinetic friction between all surfaces is 0.22 and the coefficient of static friction between all surfaces is 0.34. a) What is the acceleration of the lower block? b) If a third mass was stacked on top, what minimum mass would be required so that the system does not move?
Problem: There are two blocks, one on top of the other, that are connected by an ideal massless rope and pulley. The lower block in the figure is pulled on by another rope with a tension force of 26 N. The top block has a mass of 1.4 kg and the bottom block has a mass of 3.0 kg. The coefficient of kinetic friction between all surfaces is 0.22 and the coefficient of static friction between all surfaces is 0.34. a) What is the acceleration of the lower block? b) If a third mass was stacked on top, what minimum mass would be required so that the system does not move?
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Transcribed Image Text:Problem:
There are two blocks, one on top of the other, that are connected by an ideal massless rope and pulley.
The lower block in the figure is pulled on by another rope with a tension force of 26 N. The top block has
a mass of 1.4 kg and the bottom block has a mass of 3.0 kg. The coefficient of kinetic friction between
all surfaces is 0.22 and the coefficient of static friction between all surfaces is 0.34.
a) What is the acceleration of the lower block?
b) If a third mass was stacked on top, what minimum mass would be required so that the system does
not move?
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