Length a Block on Pulley Moves - (Basic Energy Question)

In summary: Energy considerations should be sufficient. There is no reason to start considering the internal forces and drawing FBDs.
  • #1
Alyssa Eiger
7
2

Homework Statement



Two masses are connected by a string that is passed over a massless pulley. At t=0, the 6-kg mass is moving upwards at 2m/s, while the 4-kg mass is descending at the same speed.

How far will the 6-kg mass rise before it stops?

Homework Equations



KE= 1/2*m*v^2
PEg: m*g*h

The Attempt at a Solution


- I considered the entire system (both blocks) as the system, with no external forces acting - only gravity is at play.
- Same speed is mentioned, so there is no acceleration.
- The tension between the two blocks is the same, as the string is massless.
- I determined that initially: there is KE and PEg - and final state only has PEg. I set both equal to each other, (as indicated on the attached photo tweet), but am having a difficult time determining next-steps.

Any input is appreciated.
1001147259503890432
 
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  • #3
Alyssa Eiger said:
Same speed is mentioned, so there is no acceleration.
This is not correct. The blocks having the same speed does not mean that they cannot change speed.
Alyssa Eiger said:
I determined that initially: there is KE and PEg - and final state only has PEg. I set both equal to each other, (as indicated on the attached photo tweet), but am having a difficult time determining next-steps.
Please post your work in text.
 
  • #4
They will be traveling at the same rate, for any given time, but there will be acceleration. I would draw a Free Body Diagram for each block, then do as you said by setting the magnitude of the tensions equal (and the magnitudes of the velocities equal).
 
  • #5
You could call the location of the 6 kg block (at time 0) to be location zero, so the potential energy of that block is zero there. You could also set the smaller block up to have zero PE at a certain point to maybe help your calculations.
 
  • #6
@scottdave @Orodruin - thank you for your invaluable input.

Initial States:
6KG Block: If I set the 6-kg block at t=0 to be location zero, with a potential energy of zero - then all my energy at that point in time for the block is KE (1/2*6kg*4m/s) = 12 Joules.

4KG Block: At the initial point t=0, there is both KE and PEg. KE is: (1/2)(4kg)(4m/s) = 8 Joules. There is also PEg: (4kg)(10m/s)(h) which is equal to 4 Joules (the difference between 12J-8J). If PEg = 4Joules, then: 4J = (4kg)(10m/s)(h). Height = .1m

Final States:
6KG Block: When the block comes to rest - the only energy acting is PEg - also at 12 J.
4KG Block: When the block comes to rest - the only energy acting is PEg - also at 12 J.Photo of my FBD: https://twitter.com/wrongedauthor/status/1001152490635644929

I also don't quite understand how the FBD is possible, if the 6KG block is moving UP - the force of the tension on the strong has to be greater than 60N - but that is the same value of tension on the 4KG block, which is larger than the Weight of the Earth on the block (40N) - which indicates there's no way the 4kg block could move down.

The back of the book reports the answers is 1M, but all my calculations have either reflected .2M or .1M. This is my first physics course.
 
  • #7
Alyssa Eiger said:
6KG Block: When the block comes to rest - the only energy acting is PEg - also at 12 J.
4KG Block: When the block comes to rest - the only energy acting is PEg - also at 12 J.
There is no reason to assume that each block has the same total energy as it had before. The blocks by themselves do not form a closed systen.

Alyssa Eiger said:
I also don't quite understand how the FBD is possible, if the 6KG block is moving UP - the force of the tension on the strong has to be greater than 60N
This is not correct. The tension can be lower than 60 N while it moves up. All this tells you is that the acceleration is in the opposite direction compared to the velocity - which it must be to eventually stop!

Anyway, energy considerations should be sufficient. There is no reason to start considering the internal forces and drawing FBDs.
 
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  • #8
Orodruin said:
...Anyway, energy considerations should be sufficient. There is no reason to start considering the internal forces and drawing FBDs.
Yes I agree, after rereading the problem.
 

Related to Length a Block on Pulley Moves - (Basic Energy Question)

1. How does the length of a block on a pulley affect its movement?

The length of a block on a pulley affects its movement by changing the distance that the block travels when pulled. As the length increases, the block travels a longer distance and vice versa. This is due to the conservation of energy, where the work done on the block is equal to the change in its kinetic energy. Therefore, a longer length requires more work to be done, resulting in a longer distance traveled.

2. What is the relationship between the length of a block on a pulley and its potential energy?

The length of a block on a pulley has an inverse relationship with its potential energy. As the length increases, the potential energy decreases and vice versa. This is because potential energy is directly proportional to the height of the block, which decreases as the length increases. This can also be explained by the conservation of energy, where the potential energy is converted into kinetic energy as the block moves.

3. How does friction affect the movement of a block on a pulley?

Friction can have a significant impact on the movement of a block on a pulley. Depending on the direction and magnitude of the frictional force, it can either help or hinder the movement of the block. Friction can also cause the block to lose energy, resulting in a shorter distance traveled. Therefore, it is important to consider the effects of friction when studying the movement of a block on a pulley.

4. What is the role of gravity in the movement of a block on a pulley?

Gravity plays a crucial role in the movement of a block on a pulley. It provides the force necessary to overcome the weight of the block and move it. The direction of the gravitational force also determines the direction of the block's movement. Without the force of gravity, the block would not be able to move on the pulley.

5. How does the mass of the block affect its movement on a pulley?

The mass of the block has a direct relationship with its movement on a pulley. As the mass increases, the block becomes more difficult to move, requiring more force to overcome its weight. This results in a slower movement and shorter distance traveled. On the other hand, a lighter block will move faster and cover a longer distance. However, the mass of the block does not affect its potential energy, as it is dependent on the height and not the mass of the block.

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