Calculating Tension and Acceleration in a Two-Pulley System

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Homework Help Overview

The discussion revolves around a two-pulley system involving two blocks with masses m1 and m2. Participants are attempting to calculate the tensions (T1, T2) and accelerations (a1, a2) using gravitational acceleration (g) and the masses involved. The original poster expresses difficulty in deriving a suitable equation for the problem.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss using Newton's second law to analyze forces acting on each mass. There are attempts to relate the accelerations and tensions of the two masses, with some participants questioning how to combine these relationships into a cohesive solution.

Discussion Status

Some guidance has been offered regarding the application of Newton's second law and the need to set up equations of motion for each mass. There is an ongoing exploration of the relationships between the accelerations and tensions, with multiple interpretations being considered.

Contextual Notes

Participants are working under the assumption of a frictionless surface and are questioning how this affects the net forces and tensions in the system. There is also a mention of a specific angle (theta) in relation to the forces involved.

savelieffd
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Hope someone can help me with this one. I have two blocks with m1 and m2 connected to two pulleys. I need to figure out T1, T2, a1, and a2 using only the values of g, m1, and m2. But I've been unable to come up with an equation that will work with it. I have a picture attached.

I tried using the following expression: ((m2*g)-(m1)*g)/(m1+m2) to find a1, but that didnt work and I am stumped. does anyone have any ideas? any help would be great!


http://img292.imageshack.us/img292/374/p438ym8.gif
 
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Instead of trying to force fit some derived formula, use Newton's 2nd law. Analyze the forces acting on each mass and set up equations of motion for each. Hint: How does the acceleration of m1 compare to m2? How does the tension T1 compare to T2?
 
well i know that a1 = 2 *a2, and i know that T2 = 2 *T1. But i don't know how i can put these together to work with Newtons 2nd law.
 
savelieffd said:
well i know that a1 = 2 *a2, and i know that T2 = 2 *T1.
Good.
But i don't know how i can put these together to work with Newtons 2nd law.
What forces act on each mass? Set the net force equal to ma! (Careful with signs.)

You'll get a separate equation for each mass. Combine to solve for your unknowns.
 
Would m1 accelerate at 2*g? BEcause of the pulley?
 
Don't guess or try to do it in your head. Write the equations and then solve them.
 
Because of the frictionless surface, would the net force be just the tension? If so, would a1 = ((m1*m2*(Sin(theta)+1)*g)/(m1+m2))/m1) and Sin(theta) equals 1 because theta is equal to 90?
 
savelieffd said:
Because of the frictionless surface, would the net force be just the tension?
Net force on what? Which tension?

(Write the equations.)
 
Aha, revelation. Looks like i figured it out!

T1 = (m1*m2)/(2m1 + .5m2)*g

then

T2 = (m1*m2)/(m1 + .25m2)*g

yes?

and using the equations of tension,

a1 = t1/m1 = (m2*g)/(2m1 +.5m2)

and so a2 = half of a1 which is = (m2*g)/(4m1+m2)

and in the end we get a correct answer for all of them! Brilliant!

Thanks so much!
 

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