What is the Length of a Tensioned String?

AI Thread Summary
A pulse travels the length of a tensioned string in 0.1 seconds, with the tension created by a weight 100 times the mass of the string. The length of the string is calculated to be approximately 9.8 meters using the equation v=√(F/u). The discussion also explores the equation for the third normal mode, yielding y_3 = (A_3)sin(n.pi.x/L)cos((w_n)t). There is uncertainty regarding the amplitude of the wave and the simplicity of the final answer raises doubts about the calculations. Overall, the thread emphasizes the importance of methodical reasoning in solving physics problems.
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Homework Statement


A pulse takes 0.1s to travel the length of a string. The tension in the string is provided by passing the string over a pulley to a weight which has 100 times the mass of the string.
What is the length (L) of the string?
What is the equation of the third normal mode.

Homework Equations


v=√(F/u) u=m/L


The Attempt at a Solution


We have L/t = √(100.m.g/(m/L) where g = surface gravity

So 100L^2 = 100gL
so L= magnitude(g) = 9.8 m

This type of question was not covered directly in our notes and I am unsure if my working is correct.
Thanks for any help.
 
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Welcome to PF.
Reasoning seems fine to me - notice how the number end up all nice?
Did you do the next bit?
 
Last edited:
It was the simplicity in the final answer that made me doubt it.
Thank you, but what is LQ?

y_3 = (A_3)sin(n.pi.x/L)cos((w_n)t)

We have 1.5 waves in a time of 0.1s. So w = 30.pi radians
I don't see how I can get the amplitude.

So y = A sin(3.pi.x/9.8)cos(30.pi.t)
 
(where w is angular frequency)
 
but what is LQ?
A spelling mistake. Thanks.

angular frequency is radiens per second.
I don't see how I can get the amplitude.
me neither.
It was the simplicity in the final answer that made me doubt it.
I suppose with all the computer-randomized problems you get these days, nice numbers must be rare.

Note: cannot comment on answers as such - only methods and reasoning.
 

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