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Derive a formula for linear mass density μ in terms of the wave speed v and string tension T, and enter it below. Assume you have the following experimental results: L = 0.864m f1 = 24.03Hz T = 5.24 N
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Derive a formula for linear mass density μ in terms of the wave speed v and string tension T, and enter it below. Assume you have the following experimental results: L = 0.864m f1 = 24.03Hz T = 5.24 N

What is the linear mass density of the string (without uncertainty, units requred)?

User Sanjeet
by
4.1k points

1 Answer

6 votes

Answer:

Step-by-step explanation:

Given

Length
L=0.864\ m

frequency
f=24.03\ Hz

Tension in the string
T=5.24\ N

Wave speed in a string is given by


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

where
v=wave\ speed


T=tension


\mu =linear\ mass\ density


\mu =(T)/(v^2)

wavelength for this wave
\lambda=2L=2* 0.864=1.728\ m

and
v=f* \lambda


v=24.03* 1.728


v=41.52\ m/s


\mu =(T)/(v^2)


\mu =(5.24)/(41.52^2)


\mu =3.04* 10^(-3)\ kg/m

User Vivek Joshy
by
3.9k points
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