Masses hanging on massless meter stick problem

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The discussion revolves around a physics problem involving a massless meter stick with two attached masses. Participants clarify the need for additional information regarding the pivot point to solve the problem accurately. For part a, the correct torque calculation is emphasized, with a focus on balancing torques to maintain equilibrium. In part b, the calculation of angular acceleration is discussed, with participants sharing their attempts and corrections to ensure accurate results. The conversation highlights the importance of understanding torque and inertia in solving rotational dynamics problems.
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Two masses (mA = 3 kg, mB = 6 kg) are attached to a (massless) meter stick, at the 0 and 75 cm marks, respectively.

a. Now, if mass B was removed, how much force would need to be exerted at the 100 cm mark in order to keep the meter stick level?

b. Now, if mass B was removed, and no additional force was supplied, calculate the size of the angular acceleration of the meter stick at that instant.

For a I was clueless on how to approach the problem, but for b, I used angular acceleration = torque/inertia, and got 0.8889, but got it wrong. I tried it again, plugging in different values for r and F, and got 13.066, and still got the problem wrong. I thnk my problem is that I am not using the correct values to solve this problem. Anybody know exactly which values I should use? Thanks!
 
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FlipStyle1308 said:
Two masses (mA = 3 kg, mB = 6 kg) are attached to a (massless) meter stick, at the 0 and 75 cm marks, respectively.

a. Now, if mass B was removed, how much force would need to be exerted at the 100 cm mark in order to keep the meter stick level?

b. Now, if mass B was removed, and no additional force was supplied, calculate the size of the angular acceleration of the meter stick at that instant.

For a I was clueless on how to approach the problem, but for b, I used angular acceleration = torque/inertia, and got 0.8889, but got it wrong. I tried it again, plugging in different values for r and F, and got 13.066, and still got the problem wrong. I thnk my problem is that I am not using the correct values to solve this problem. Anybody know exactly which values I should use? Thanks!

as it stands, the question does not make any sense. there is information missing. The ruler is resting on a pivot somehwere? Is it supported at the center??
 
Sorry...I took out the parts I solved already...maybe this will help...

The system is then hung from a string, so that it stays horizontal. The string is placed 50 cm, from mass A.
 
FlipStyle1308 said:
Sorry...I took out the parts I solved already...maybe this will help...

The system is then hung from a string, so that it stays horizontal. The string is placed 50 cm, from mass A.

Ok. Without that information it was impossible to answer.

You must impose that the net torque is zero. What is the torque exerted by mass A? The other torque must be minus that. Knowing the force, it is easy to find how far it must be from where the string is attached
 
Wait, you confused me...which part are you on, a or b?
 
FlipStyle1308 said:
Wait, you confused me...which part are you on, a or b?

well, I was doing part a first :approve:
 
Okay, so part a haha. Torque exerted by mass A is 22.05, right?
 
FlipStyle1308 said:
Okay, so part a haha. Torque exerted by mass A is 22.05, right?

?? How did you get this? torque = force * distance from the fulcrum and force = mg
 
distance = 0.75
mass = 3
gravity = 9.8

I probably have the distance wrong, should it be 0.5?
 
  • #10
FlipStyle1308 said:
distance = 0.75
mass = 3
gravity = 9.8

I probably have the distance wrong, should it be 0.5?
Yes. torque = F d (in magnitude..the sign tells you the direction) The distance there is always the distance between where the force si applied and the axis of rotation (if the force is perpendicular to the line connecting the fulcrum and the point where the force is applied)
 
  • #11
Okay, so 14.7 N for torque.
 
  • #12
FlipStyle1308 said:
Okay, so 14.7 N for torque.

ok. The sign depends on whether th emass is to the left or right of the suspension point. Let's say it is to the left and creates a counterclockwise torque, then it is positive.

The other force will create a torque of - F * 0.50 m (since it is also 50 cm from the axis of rotation) Imposing that the sum of the two gives a net torque euqal to zero gives you the value of F (in that case, it is trivial because the two forces act at the same distance from the axis of rotation! so of course you will find a value equal to mg !)
 
  • #13
So I'm correct?
 
  • #14
FlipStyle1308 said:
So I'm correct?
yes, your torque is correct
 
  • #15
Thank you! So what do I do from there lol?
 
Last edited:
  • #16
FlipStyle1308 said:
Thank you! So what do I do from there lol?

My post #12 gives the way to answer part a.

I have to log off soon. Good luck
 
  • #17
Oh okay, I got part a, let me know when you can work on part b!
 
  • #18
Hmm...okay, for this one I tried...

I = mr^2 = (3)(0.75)^2 = 1.6875
angular acceleration = torque/I = 1.47/1.6875 = 8.711 rad/s^2.

Is this correct?
 

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