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A wave travels at a constant speed. How does the wavelength change if the frequency is increased by a factor of 2? Assume the speed of the wave remains unchanged.
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2 votes
A wave travels at a constant speed. How does the wavelength

change if the frequency is increased by a factor of 2? Assume
the speed of the wave remains unchanged.

User Shimrit
by
5.7k points

2 Answers

3 votes

Answer:

The frequency decreases by a factor of 2

User Domenico
by
6.3k points
1 vote

Answer: The wavelength changes by a factor of
(1)/(2)

Step-by-step explanation:

The equation of the speed
v of a wave is:


v=\lambda f

Where:


v is the speed, that remains unchanged


\lambda is the wavelength


f is the frequency

Isolating
\lambda we have:


\lamba=(v)/(f)

Now, if we increase the frequency by a factor of 2:


\lambda=(v)/(2f)


\lambda=(1)/(2) (v)/(f) This means the wavelength changes by a factor of
(1)/(2)

User Farid Ahmed
by
5.9k points
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