What Happens to the Bananas as the Monkey Climbs Up the Rope?

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SUMMARY

The discussion centers on a physics problem involving a monkey and a bunch of bananas hanging from a rope over a frictionless pulley. The monkey, with mass equal to the bananas, climbs the rope with speed v. The correct conclusion is that the bananas move upward at speed v, as the monkey's climbing action increases the tension in the rope, causing the bananas to ascend. The initial assumption that the bananas remain stationary is incorrect; the dynamics of the system dictate that both the monkey and the bananas move together due to the equal mass and the tension created by the monkey's climbing.

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Homework Statement


A bunch of bananas hangs from the end of a rope that passes over a light, frictionless pulley. A monkey of mass equal to the mass of bananas hangs from the other end of the rope. The monkey and the bananas are initially balanced and at rest. Now the monkey starts to climb up the rope, moving away from the ground with speed v. What happens to the bananas?
A) They move up at speed 2v
B) They move downward at speed v
C) They move up at speed 1/2 v.
D) They remain stationary
E) They move up at speed v.

The Attempt at a Solution


I chose D. Since the monkey moves up the rope, his mass is still equal to that on the other side. The rope I took to be negligible in mass, as every rope we've used in physics so far has been. The mass of the bananas = the mass of the monkey.
a = \frac{g(m2 - m1)}{(m1 + m2)}
Since the masses do not change, the acceleration is zero, and the ropes themselves do not move.

Is this right? My professor said E is the right answer, but I was wondering if there is an explanation for this.
 
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Your professor is correct. In order for the monkey to accelerate (which he must do if he starts from rest) he must give an additional pull on the rope. In turn, the increased tension in the rope exerts a similar force on the bananas.
 
The way the monkey climbs and increases his velocity to v is by increasing the tension T in the rope so T>mg for long enough to reach velocity v. The equal massed bunch of bananas will experience the same increased tension for the same time. So it is also moving up at velocity v.
 

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