Work Done by Tension of Mass on a string

AI Thread Summary
The discussion centers on calculating the work done by tension on a mass spinning in a horizontal circle. Initial calculations for centripetal force and work were incorrect due to a calculator error and misunderstanding of the displacement path. The tension force acts perpendicular to the direction of displacement, leading to the conclusion that no work is done by the tension in this scenario. The final consensus is that the work done by tension is zero, as the force and displacement vectors are perpendicular. Accurate calculations and understanding of vector directions are emphasized as crucial in solving such problems.
rent981
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1.A 2.0 kg mass is spun in a horizontal circle at the end of a 0.66 m long string at a speed of 12 m/s. What is the work done by tension when the mass has gone halfway around the circle?

A) 576 J B) 1810 J C) 904 J D) 0


Homework Equations


Fc=mv^2/r and w=f*d



The Attempt at a Solution


Well I first calculated the centripital force using the first equation. (2kg)(12m/s^2)/.66 and got 4.36N. The I used work=f*d and got 8.17. This is not even an answer. Any sugestions?
 
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The first of your results computes a force but doesn't include include a path length. Also the math is way off 288/0.66= 4.36?
 
Oh hahaha calculator error. I did calculate the path to be about 4.15 m so the answer would be B 1810 J. W=436 * 4.15=1810. Does this sound about right?
 
The question states the displacement is 1/2 a rev.
 
Remember, there is a dot product in the work equation.
W=F dot D

If you haven't had dot products yet, you've had...

W=FD Cos(theta)

Where theta is the angle between the force and displacement vector.

With circular motion, what is the direction of the force vector?
what is the direction of the displacement vector?
 
I knew there was something that bothered me about this problem.
 
Well the cos 180 is equal to -1. There are no negative choices.
 
To the op, what flatmaster is saying in order for work to be done, the force has to be at least somewhat in the direction of displacement. This problem is like moving a mass horizontally in a gravitational field. We were going to get there, but now that the cat has been sprung loose...
 
So are we saying that the work would be zero since the force is in the opposite direction of displacement?
 
  • #10
Not opposite but perpendicular. Think about it: if work were done by tension the speed of a ball on a string would dramatically slow with every revolution. The reason I dragged you thru the calculations is that unless you can punch numbers correctly, this is an exercise in futility--you may have the right approach but screw up simple calcs, causing you to doubt your reasoning. I can't tell you how often I see this as a teacher. Many of my courses are calculator taboo for this very reason. Ball park estimates to test your results are important. You mucked up both the force and the displacement computations. Its like the old carpenters saw, measure twice, cut once.
 
  • #11
Thank you for your help!
 

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