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Increasing the speed of the plunger will increase the frequency of the waves.

Q: What affect if any does increasing the speed of the plunger have on the frequency of the waves?

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Assuming a constant wavelength, then increasing the wave speed will increase the frequency.

The Doppler Effect describes a frequency shift in reflected waves in proportion to the relative speed between the receiver and the reflected object. For instance, in a radar speed trap, the frequency shift in reflected radio waves allows the unit to calculate the speed toward (higher frequency) or away from (lower frequency) the transmitter/receiver unit. When you drive past a steady noise source, such a bell or a horn, the sound has a higher frequency as you approach and a lower frequency as you depart.

Wavelength = (speed) divided by (frequency) Frequency = (speed) divided by (wavelength) Speed = (frequency) times (wavelength)

Speed = (frequency) times (wavelength) Frequency = (speed) divided by (wavelength) Wavelength = (speed) divided by (frequency)

When working with waves ... or even just talking about them ... (frequency) = (speed) divided by (wavelength) (wavelength) = (speed) divided by (frequency) (frequency) times (wavelength) = (speed)

Related questions

Increasing the speed of the plunger will not affect the wavelength of the waves. The wavelength of the waves is determined by the frequency of the source that is creating the waves, not by the speed of the medium through which the waves are traveling.

It will shorten the wavelength.

Assuming a constant wavelength, then increasing the wave speed will increase the frequency.

Increasing the wave speed will not affect the frequency of the wave. The frequency of a wave is determined by the source of the wave and will remain constant regardless of the wave speed.

Increasing the speed of the plunger will result in shorter wavelength waves being produced. This is because the wavelength of a wave is inversely proportional to the speed of the wave: as the speed increases, the wavelength decreases.

Increasing the speed of the plunger would decrease the wavelength of the wave. This is because the wavelength and speed of a wave are inversely related according to the wave equation λ = v/f, where λ is the wavelength, v is the speed, and f is the frequency of the wave.

Increasing energy of a wave will increase its frequency and decrease its wavelength. This is because energy is directly proportional to frequency (E = hf) and inversely proportional to wavelength (E = hc/λ), where h is Planck's constant and c is the speed of light.

The speed of a wave doesn't depend on its frequency.

I would think the wavelength would be shorter as you would stroke the plunger more often in any given period of time. That would make the peaks closer together.Unless you are refering to only one stroke and then I would say no effect on wavelength.

No, the speed of sound is not independent of frequency. In general, the speed of sound increases with increasing frequency. This relationship is due to the way sound waves travel through a medium, such as air or water.

It doesn't. Increasing speed affects the KINETIC energy.

Increasing the speed of an object does not affect that object's mass. Mass is an intrinsic property of an object and remains constant regardless of its speed.