Solving for Tension in an Inclined Plane System with Two Connected Blocks

  • Thread starter Thread starter danielab87
  • Start date Start date
  • Tags Tags
    Tension
AI Thread Summary
The discussion revolves around solving for the tension in a system involving two connected blocks, one on an inclined plane and the other hanging vertically. A 30 kg block (M1) on a frictionless incline at a 30° angle is connected to a 20 kg block (M2) via a rope over a pulley. Participants emphasize the importance of understanding forces acting on both blocks, noting that if the system is not moving, the net force is zero. However, confusion arises regarding whether the blocks are in motion, leading to suggestions to assume acceleration and adjust equations accordingly. Ultimately, the tension can be expressed in terms of the gravitational forces acting on both blocks, highlighting the need for clarity in the problem's conditions.
danielab87
Messages
10
Reaction score
0
hi i cannot seem to figure this problem out at all. any help is appreciated.

A 30 kg block (M1) is placed on a frictionless plane that inclines at a 30° angle with respect to the surface of Earth. This block is connected to another 20 kg block (M2) via a weightless rope over a frictionless, ideal pulley. The second block is hanging vertically, as shown in the figure. What is the tension of the rope?


thanks
 

Attachments

  • image.gif
    image.gif
    2.2 KB · Views: 444
Physics news on Phys.org
What are your thoughts on the question? If a mass isn't moving, what can you say about the resultant force on it?
 
i believe that if the mass isn't moving, its net force is 0 because there is no acceleration. I'm just not sure what to use as my equations. this type of problem has always confused me for whatever reason.
 
draw a force diagram for each blocks to see what forces are acting on them. As you said, the sum of these forces must be 0 because the blocks aren't moving.
 
ok well on mass 1 i got the normal force going up, mgcos30 going down, tension going to the right and mgsin30 going left. on mass 2 i got tension up and mg down. so this would mean that T=mgsin30 or T=mg, but those are not right. there's something else that i am not seeing
 
yeah actually i don't see how the blocks aren't moving because they should with those given quantities. problem was a little ambiguous on whether or not the blocks were moving. instead of making the sum of the forces equal to 0, make it equal to what it should be when the blocks are moving, which is mass times the block's acceleration.
 
My advice is to assume acceleration. Let us say that M1 is sliding down the incline plane, so write your equation based off of that. If it turns out that M1 is going up, it shouldn't really matter.
 
ok would the equation be ma+mgsin30=T? I'm not entirely sure. and then how do i know what the acceleration is? thanks
 
yes , I think your equation is right.
but
i want ask futher question , is "a" and "g" in the same direction?
I think M2g+M1gsin30=T would be better.

or I think in a wrong way?
 

Similar threads

Newton's Second Law (Pulley Sustem)
Replies
3
Views
2K
Spring and block on an inclined plane
Replies
27
Views
9K
Calculating acceleration of a prism and block connected to a wall through a rope and pulley
Replies
4
Views
325
Acceleration and Tension in a Two-Block System on an Inclined Plane
Replies
8
Views
2K
Acceleration on an inclined plane
Replies
3
Views
2K
Calculating Acceleration and Tension in a Pulley System with Inclined Planes
Replies
14
Views
2K
Calculate acceleration & tension
Replies
7
Views
4K
Tension in the wire connecting two blocks
Replies
5
Views
2K
I'm I on the right track? Tension question
Replies
21
Views
2K
Incline with friction and two blocks
Replies
5
Views
3K

Hot Threads

Recent Insights

Back
Top