Shock Wave Frequency: Observer, Emission & Calculation

In summary, the frequency of shock waves detected by an observer is infinitely small due to the shock wave hitting only once. However, the detected frequency from the source is finite and Doppler shifted to a lower value. The only wave with a single frequency is a sine wave, and the spectrum of a wave can be defined by its Fourier transform. The magnitude of the Fourier transform at a specific frequency band represents the energy of the wave within that band. The Fourier transform of a shock wave is the Heavside step function, with a magnitude of 1/w at frequencies other than 0. Real shock waves do not have infinitely fast rise-times.
  • #1
brasilr9
27
0
Is the frequency of the shock waves detected by the observer infinte?
And, as I know, a shock wave can be produced even if the source didn't emit sound waves. When a object moving in a medium at a speed faster than the speed of medium's elastic wave's speed. In this case how we calculate the wave's frequency?

Thanks for answering my question!
 
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  • #2
well, the shock wave hits only once so yes, the frequency is infinitely small. On the other hand, the detected frequency from the source is finite, but Doppler shifted to a lower value.
For example, if source is just "beeping", you will still hear the beeps after it will pass you, but the interval between beeps will be bigger.
 
  • #3
brasilr9 said:
Is the frequency of the shock waves detected by the observer infinte?
And, as I know, a shock wave can be produced even if the source didn't emit sound waves. When a object moving in a medium at a speed faster than the speed of medium's elastic wave's speed. In this case how we calculate the wave's frequency?

Thanks for answering my question!

The only wave that has a single frequency is a sine wave.

Mathematically, the spectrum of a wave is usually defined by its Fourier transform. The Fourier transform takes a functio from the "time domain" to the "frequency domain". The magnitude of the Fourier transform at a specific frequency band can be interpreted as how much of the energy of the wave lies within that band. For a detailed defintion, see the wikipedea article

http://en.wikipedia.org/wiki/Continuous_Fourier_transform

The Fourier transform you are probably interested into represent a shock wave is the last entry in the Wikipedia table, the "Heavside step function".

At any frequncy other than 0, the magnitude of the Fourier transform is 1/w - the magnitude decreases with frequency but never drops to zero,.

This is an idealization, real shock waves do not actually have infinitely fast rise-times.
 
  • #4
thanks for answering my question. :smile:
 

FAQ: Shock Wave Frequency: Observer, Emission & Calculation

What is a shock wave frequency?

A shock wave frequency is the rate at which a shock wave oscillates or vibrates. It is measured in hertz (Hz) and is dependent on factors such as the velocity and strength of the shock wave.

How is shock wave frequency observed?

Shock wave frequency can be observed using specialized instruments such as high-speed cameras or pressure sensors. These instruments record the physical changes associated with the shock wave and can be used to calculate the frequency.

What affects the emission of shock wave frequency?

The emission of shock wave frequency is affected by various factors such as the source of the shock wave (e.g. explosion, supersonic aircraft), the medium through which it travels (e.g. air, water), and the distance from the source.

How is shock wave frequency calculated?

Shock wave frequency can be calculated using the formula f = v/λ, where f is the frequency in Hz, v is the velocity of the shock wave, and λ is the wavelength. Other formulas may also be used depending on the specific characteristics of the shock wave.

Why is understanding shock wave frequency important?

Understanding shock wave frequency is important in various fields such as aerospace engineering, explosion dynamics, and seismology. It can help predict the effects of shock waves on structures and the human body, as well as aid in the development of technologies to mitigate their impact.

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