2 pulleys 3 masses problems

  • Thread starter Thread starter phy_magic
  • Start date Start date
Click For Summary
The discussion revolves around understanding the dynamics of a system with two pulleys and three masses, specifically focusing on tension in the rope and the behavior of the middle mass. It is clarified that tension is not constant and varies due to different angles and forces acting on the masses. The equilibrium position is crucial, as the middle mass will descend until it reaches this point, after which it will experience upward acceleration due to the resultant forces. Conservation laws, such as momentum and energy, can simplify the analysis of the system's behavior. The explanation emphasizes that as the system moves past equilibrium, the dynamics change, affecting the velocities and directions of the masses involved.
phy_magic
Messages
3
Reaction score
0
Homework Statement
3 equal weights are attached to the ends and in the middle of the rope. We raise the middle weight so that the rope is horizontal and in the middle between the pulleys, and let it go, after which the middle weight is lowered and the weights at the ends are raised.
How far will the middle weight travel before it starts to rise?
Relevant Equations
3 weights -m
2 pulleys
I don't understand if we let go of the middle mass it will move down the y-axis and the two edge masses up. So the tensions will have to be greater than mg for the edge masses to start moving but then when (if) the system stops then the tension will have to be equal to mg. Is that possible? Will the middle weight move up after some time? So, i came to this thoughts.
Is tension force in rope same all the time , does acceleration of middle weight change during time and why would middle weight go up (rise)?
I saw questions like this , but I am little confused about this questions?
 

Attachments

  • Snimka zaslona 2025-11-14 231711.webp
    Snimka zaslona 2025-11-14 231711.webp
    21.6 KB · Views: 1
Last edited:
Physics news on Phys.org
Please provide a drawing and a concise statement of the problem. Also according to our rules, to receive help, you need to show some credible effort towards answering the question. How about telling us what you do know and how you would approach this problem? You need to be more specific about what the question is and what confuses you.

Also, please read, understand and follow our homework guidelines,
micromass

Thread 'Homework Help Guidelines for Students and Helpers'

The guidelines below will help you avoid some common obstacles to getting help.

Executive Summary
1. Choose an appropriate thread title
2. Use the homework template
3. Reproduce the problem statement accurately
4. Show us that you've thought about the problem
5. Do not simply post images of the problem statement or your work
6. Don't post poor images
7. Make your post easy to read and follow (format, language, grammar, etc.)
8. Helpers: don't provide the entire solution

  1. Choose an appropriate thread title.
    Thread titles are the first thing that potential helpers will...
  • Like
 
First, think about the equilibrium position. Can you draw that?
Clearly the centre mass will keep descending as long as it is above that position, but when it reaches it the system components have momentum, so will continue on some way. What do you think will happen thereafter?
 
haruspex said:
First, think about the equilibrium position. Can you draw that?
Clearly the centre mass will keep descending as long as it is above that position, but when it reaches it the system components have momentum, so will continue on some way. What do you think will happen thereafter?


In equillibrium x components shoud cancel and y component of resultant tension should be equal to mg.
If i understand good, two end masse will keep going up and then on middle mass will start acting resultant force up. But is tension force constant at the magnitude ?
 
Last edited:
phy_magic said:
In equillibrium x components shoud cancel and y component of resultant tension should be equal to mg.
The tension is at different angles in different places. Where will its y component be mg?
phy_magic said:
If i understand good, two end masse will keep going up and then on middle mass will start acting resultant force up. But is tension force constant at the magnitude ?
No, the tension will keep changing.

Often one can sidestep a lot of details by applying a conservation law. Can you think of one you can use here?
 
haruspex said:
The tension is at different angles in different places. Where will its y component be mg?

No, the tension will keep changing.

Often one can sidestep a lot of details by applying a conservation law. Can you think of one you can use here?
Momentum conservation
2mv-mV=0 if up is positive direction.
And conservation energy ( x and y are displacenemts of end masses and middle mass)
2gx+gy=v^2+ 0.5V^2
In equilibrium position tension will be equal to mg and from that i found angle, but them tension will contiunue to decrease but the sume of 2 tension forces will be greater than mg(middle mass) and it will decrease velocitiy and end masses will decrease velocities ( it is belov equilibrium point) and then when they reach zero velociti they will star to accelerate in oposite direction (middle mass up ).
Is this way good way of understanding problem ?
 
phy_magic said:
Momentum conservation
Is momentum conserved here? We have the external forces from the two pulleys and the external force from gravity. Do those always sum to zero?

Or, think about the position of the center of mass. Does it change between the initial setup and the equilibrium configuration? Is that possible if momentum is conserved?
 
phy_magic said:
In equilibrium x components should cancel and y component of resultant tension should be equal to mg.
Welcome!
Consider that the y component acting on the middle mass is formed by the addition of two forces.
Each end mass should produce one of those vertical forces.
The angle that the rope takes at the equilibrium position must satisfy those values.

Rope tension versus angle 2.webp
 
phy_magic said:
And conservation energy ( x and y are displacenemts of end masses and middle mass)
2gx+gy=v^2+ 0.5V^2

phy_magic said:
when they reach zero velociti they will star to accelerate in oposite direction

phy_magic said:
How far will the middle weight travel before it starts to rise?
Think about the connection between those observations.
 

Similar threads

Olympiad dynamics problem with 3 masses and a pulley
  • · Replies 17 ·
Replies
17
Views
2K
Pulley with friction, how to get the friction in the pulley?
  • · Replies 23 ·
Replies
23
Views
3K
System of two pulleys and three masses
  • · Replies 22 ·
Replies
22
Views
6K
Problem with pulleys - two fixed and one movable
  • · Replies 22 ·
Replies
22
Views
675
Leg suspended in a traction system
  • · Replies 18 ·
Replies
18
Views
5K
Falling mass, additionally accelerated by a rope
  • · Replies 18 ·
Replies
18
Views
1K
Newton's Second Law (Pulley Sustem)
  • · Replies 3 ·
Replies
3
Views
2K
Tension in a rope hanging between 2 trees
  • · Replies 24 ·
Replies
24
Views
1K
2 pullies and 3 masses -Tension
  • · Replies 18 ·
Replies
18
Views
4K
How does this system work? (Four pulleys and a rope lifting a mass)
  • · Replies 5 ·
Replies
5
Views
1K