Hello, my name is matt and i have a problem.

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Homework Help Overview

The original poster describes a physics lab problem involving an apparatus in equilibrium with weights and a yardstick. The setup includes two masses, M1 and M2, attached to strings and pulleys, with specific distances noted from the left end of the stick.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the concept of torque and its role in determining the unknown weights. There is an emphasis on balancing forces and torques to establish equations for M1 and M2. Some participants question the clarity of the original poster's diagram and setup.

Discussion Status

Some guidance has been offered regarding the use of torque and forces to create equations for the unknown weights. The discussion reflects an exploration of the problem without a clear consensus on the interpretation of the diagram or the best approach to take.

Contextual Notes

The original poster expresses uncertainty about their physics skills and the complexity of the problem, indicating a need for support. There is also a mention of a deadline for the lab assignment, which may influence the urgency of the discussion.

flutieflakes
howdy. I'm not too good at physics, and i have a lab due tomorrow. it isn't too complex of a problem, so help would be appreciated. if you are willing to help, say "asyemptote" and i will type the problem. thanks a bundle
 
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If you have a question, post it. If not get to work on your lab.
 
ok here it is (i just wanted to see if anyone was still in the forum

M1 M2
| |
22cm| 78cm|
----------------------------------
6.7cm| 68cm|
| |
70g 260g

The horizontal line is a 100cm yard stick weighing 120g
The verticle lines are strings attached to weights (the ones going up are attached to pulleys)
The Lengths next to the strings are the distance from the left end of the stick to the strings.
What would I do to determine the weight of M1 and M2?
The apparatus is hanging in equilibrium.
Thanks
 
that didnt work too well, but imagine the weights correspond to the lenghs above or below them. (if you still don't get it, that's ok. it's a pretty confusing diagram of it.)
 
The "torque" of a force around a point measures how much "twist" it causes about that point and is the product of the force times the distance from the point.

What you need to do here is multiply each weight time the distance of that weight from the left end (just since that is the info you are given- since this object ISN'T "twisting", it is "balanced" about any point). Be sure to take those weights hanging down to be negative and those weight over the pulleys to be positive (their pull is upward). Use "M1" and "M2" for the unknown weights. Add all of those to get the total "torque". Since the object is in equilibrium, it is not twisting and that torque must be equal to 0. That gives you one equation. Because the object is also not moving directly up or down, the net force must also be 0: ignoring the distances, add all of the weights (again, positive for those going over the pulley, negative for those hanging down) and set that equal to 0.

You now have two equations to solve for M1 and M2.
 

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