Solving for Tension & Motion of 2 Masses Connected by String

AI Thread Summary
To solve for the tension in the string connecting two masses of 3.40 kg and 5.50 kg over a frictionless pulley, it's essential to establish a consistent direction for motion, with one mass moving down and the other moving up. The equations of motion can be set up as m1g - T = m1a for the downward-moving mass and T - m2g = m2a for the upward-moving mass. Both masses will experience the same acceleration, allowing for the equations to be equated to solve for tension. The correct setup involves recognizing that the heavier mass will move downward while the lighter mass moves upward. This approach leads to determining both the acceleration and the distance each mass travels in the first 1.52 seconds.
Chuck 86
Messages
27
Reaction score
0

Homework Statement



Two masses of 3.40 kg and 5.50 kg are connected by a light string that passes over a frictionless pulley. Determine the tension in the string.

Calculate the acceleration of m.

Calculate the distance each mass will move in the first 1.52 seconds of motion if they start from rest

EFy=T1-m1g=may
EFy=T2-m2g=may

i have up to those equations but i don't know if I am doing this right
 
Physics news on Phys.org
Your close. You need to chose an arbitrary direction in which you think the system will move. This direction for both masses will be positive. For example if you say that one mass falling will be the positive direction, the other mass rising will also be the positive direction. Therefore, one of you equations needs to be written the other way around. Instead of T2-m2g=may, what should it be using this information?
 
So the rate of gravity for the smaller one has to be positive because it would most likley go up?
 
Chuck 86 said:

Homework Statement



Two masses of 3.40 kg and 5.50 kg are connected by a light string that passes over a frictionless pulley. Determine the tension in the string.

Calculate the acceleration of m.

Calculate the distance each mass will move in the first 1.52 seconds of motion if they start from rest
/QUOTE]
You have given two masses. Which is m? Actually both will have the same acceleration.
Find the acceleration of each mass and equate them. Then solve for T. From that find the acceleration.
 
So how do u find Y or do u just find ay together then divide by Y?
 
When the two masses start moving from rest, heavier mass will move in the downward direction and lighter one will up.
Write down m1g - T = m1a for downward moving mass.
Similarly write down another equation for upward moving mass.
From these two equations find a and equate them, and solve for T.
 
so then the second equation would be m2g-T=-m2a?
 
Chuck 86 said:
so then the second equation would be m2g-T=-m2a?

Yes.
 

Similar threads

2 pullies and 3 masses -Tension
Replies
18
Views
4K
Why are the forces on torque tension and not the weight of the mass?
Replies
7
Views
1K
Rocket + Connected Body Dynamics problem
Replies
47
Views
3K
Tension in a string which connects 3 pulleys
Replies
12
Views
1K
Calculating tensions and acceleration
Replies
10
Views
2K
Pulleys with Torque: Free Body Diagram Analysis
Replies
34
Views
3K
Finding the frequency of a string based on Mass and Tension
Replies
1
Views
3K
Newton's Second Law (Pulley Sustem)
Replies
3
Views
2K
Vertical spring connected between two bodies with a rope above them
Replies
16
Views
2K
Block-pulley system and rotational dynamics
Replies
5
Views
5K

Hot Threads

Recent Insights

Back
Top