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A 10.0 m wire is hung from a high ceiling and held tightly below by a large mass. Standing waves are created in the wire by air currents that pass over the wire, setting it in motion. If the speed of the
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A 10.0 m wire is hung from a high ceiling and held tightly below

by a large mass. Standing waves are created in the wire by air currents
that pass over the wire, setting it in motion. If the speed of the
standing wave is 335 m/s and its frequency is 67 Hz, what is its
wavelength?

User Will Hawker
by
3.7k points

1 Answer

4 votes

Answer:

5 m

Step-by-step explanation:

Speed of waves is as the product of frequency and wavelength hence expressed as s=fw where f is the frequency of waves in Hz, s is the speed in m/s and w is wavelength in meters.

Making w the subject of the formula then


w=\frac {s}{f}

Substituting 335 m/s for s and 67 Hz for f then the wavelength is


w=\frac {335}{67}=5m

Wavelength is the distance between successive crests. Since the string is 10m, wavelengths of 5m each will be 2 and the crests will be 3.

Wavelenth=5 m

User Portekoi
by
3.8k points
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