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A 1.7-m-long string is under 22 N of tension. A pulse travels the length of the string in 54 ms. what is the mass of the string? Express your answer in grams.
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A 1.7-m-long string is under 22 N of tension. A pulse travels the length of the string in 54 ms. what is the mass of the string?

Express your answer in grams.

User Itismoej
by
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1 Answer

7 votes

Answer:

Mass of the string, m = 37.7 grams

Step-by-step explanation:

It is given that,

Length of the string, l = 1.7 m

Tension in the string, T = 22 N

Time taken by the string,
t=54\ ms=54* 10^(-3)\ s

The speed in the wave in the string is given by the following formula as :


v=\sqrt{(T)/(\mu)}


\mu is the mass per unit length,
\mu=(m)/(l)


v=\sqrt{(Tl)/(m)}

Also,
v=(d)/(t)


(l)/(t)=\sqrt{(Tl)/(m)}


m=(Tt^2)/(l)


m=(22* (54* 10^(-3))^2)/(1.7)

m = 0.0377 kg

or

m = 37.7 grams

So, the mass of the strings is 37.7 grams. Hence, this is the required solution.

User Astockwell
by
5.8k points
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