Find Tension of Meter Stick Attached to Wall

AI Thread Summary
The discussion focuses on calculating the tension in a string holding a meter stick perpendicular to a wall. Participants clarify that the stick is in equilibrium, requiring the vertical component of tension to balance the weight of the stick. The angle of the string is crucial for determining the tension, with suggestions to use trigonometric relationships and torque calculations. A key point is that the tension will change if a shorter string is used, affecting the angle and thus the tension value. The final approach involves using torque equations to solve for the tension based on the forces acting on the meter stick.
jbgibson
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The problem states: a 0.13-kg meter stick is held perpendicular to a wall by a 2.5-m string going from the wall to the far end of the stick. (a) find the tension in the string; (b) if a shorter string is used, will its tension be greater than, less than, or the same as that found in part (a); (c) find the tension in a 2.0-m string.

I assume the meter stick is not moving or it's in equilibrium, so wouldn't the tension simply be T = mg? Any help is greatly appreciated. Thanks in advance.
 
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dont you have an angle in there some where?
 
The *vertical component* of the Tension must cancel mg.
The horizontal component of Tension pulls it in tight to the wall.
 
kp said:
dont you have an angle in there some where?

That's what I was wondering, but there is no angle!
 
lightgrav said:
The *vertical component* of the Tension must cancel mg.
The horizontal component of Tension pulls it in tight to the wall.

Shouldn't there be a horizontal distance or some angle to allow for calculating tension?
 
there is an angle in there...read carefully (hint: tang)
 
did you draw a diagram, and label its dimensions?
How long is the string? the stick? mass of the stick?

ALSO draw and label the Forces that act on the interesting object (stick)
 
kp said:
there is an angle in there...read carefully (hint: tang)

Okay, I think I found the angle. If it is perpendicular to the wall, this would be 90 degrees. So, theta would be 45 degrees right. If that's the case then the length of the meter stick and the vertical distance to the point at which the string connects at the wall would be the same.
 
You got the 90 degree angle correct, but the 45 degree angle is wrong.

Have you done what lightgrav suggested just above ? (post #7)

In particular, re-read the 2nd line.
 
  • #10
Fermat said:
You got the 90 degree angle correct, but the 45 degree angle is wrong.
Have you done what lightgrav suggested just above ? (post #7)
In particular, re-read the 2nd line.

I have the length of the string and the mass of the stick; that's it.
 
  • #11
You have a metre-stick. What is its length ?
 
  • #12
Fermat said:
You have a metre-stick. What is its length ?

Man, I feel dumb! Now that I know the length, would I use the formula:
T = mg(H/V)?
 
  • #13
now that you know theta, what is the y (vertical) component of the tension?

I knew once you reread the problem, you would say how stupid you felt. I once spent hours trying to figure out how long a yard stick was i a similar type of problem.
 
Last edited:
  • #14
kp said:
now that you know theta, what is the y (vertical) component of the tension?

I knew once you reread the problem, you would say how stupid you felt. I once spent hours trying to figure out how long a yard stick was i a similar type of problem.

Is the y component of tension = mg? I seem to still be lost on this one. Now that I have solved for theta, I get 70.53 degrees, where do I go from here? Thanks for the help!
 
  • #15
I think I got it! If I know the Tx = mg(H/V) and Ty = mg, I should be able to use pythagorean theorem right?
 
  • #16
jbgibson said:
The problem states: a 0.13-kg meter stick is held perpendicular to a wall by a 2.5-m string going from the wall to the far end of the stick. (a) find the tension in the string; (b) if a shorter string is used, will its tension be greater than, less than, or the same as that found in part (a); (c) find the tension in a 2.0-m string.
Realize that there are several forces acting on the the meter stick:
(a) its weight (where does that force act?)
(b) the tension in the string (the angle of the string, and thus the angle of the tension force, depends on the length of the string)
(c) the force the wall exerts on the stick

The thing to do is calculate torques about the point where the stick touches the wall. (Of the three forces mentioned above, only two of them contribute to the torque about that point.) Since the stick is in equilibrium, the net torque must be zero.
 
  • #17
Doc Al said:
Realize that there are several forces acting on the the meter stick:
(a) its weight (where does that force act?)
(b) the tension in the string (the angle of the string, and thus the angle of the tension force, depends on the length of the string)
(c) the force the wall exerts on the stick
The thing to do is calculate torques about the point where the stick touches the wall. (Of the three forces mentioned above, only two of them contribute to the torque about that point.) Since the stick is in equilibrium, the net torque must be zero.

Thanks for the quick response Doc! I think I got it. Here it is:
(T*sin theta)H - mg(H/2) and solve for T
 
  • #18
You got it.
 

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