Understanding the Effects of Doppler Shift on Sound Perception

In summary, as a train approaches you at a constant velocity and the engineer applies the brakes, the sound of the train's whistle will increase in loudness but decrease in pitch. This is due to the waves "stretching" as the train slows down. However, the apparent frequency of the sound will still decrease as the train continues to approach, despite any changes in acceleration.
  • #1
jan2905
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You are standing on railroad tracks as a train approaches at a constant velocity. Suddenly the engineer sees you, applies the brakes, and sounds the whistle. What do you hear starting at that moment?

Because the waves are "stretching" as it approaches you slower and slower, I said that the "loudness increases, and pitch decreases." Is this correct?
 
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  • #2
Sounds good to me. As the train approaches you at slower and slower speeds, the apparent frequency of the sound would decrease.
 
  • #3
But doesn't the fact that it's still approaching you make the pitch seem like its increasing regardless of acceleration?
 
  • #4
The fact that there is velocity increases the frequency over what it is on the engine, ... but the gradient of velocity is decreasing the amount at which the frequency has been increased - i.e decreasing.
 

1. What is the Doppler Effect?

The Doppler Effect is a phenomenon in which the perceived frequency of a sound wave changes when the source of the sound is moving relative to the listener. This results in a change in pitch as the sound waves compress or stretch depending on the direction of motion.

2. How does the Doppler Effect work?

The Doppler Effect works by changing the frequency of the sound wave as it travels to the listener. When the source of the sound is moving towards the listener, the sound waves are compressed, resulting in a higher frequency and a higher pitch. When the source is moving away, the sound waves are stretched, resulting in a lower frequency and a lower pitch.

3. What are the real-world applications of the Doppler Effect?

The Doppler Effect has many practical applications, including its use in radar and sonar technology to measure the speed and direction of moving objects. It is also used in medical imaging techniques such as ultrasound to create images of internal structures in the body.

4. Does the Doppler Effect only apply to sound?

No, the Doppler Effect can also be observed in other wave phenomena, such as light waves. This is known as the Doppler shift and is used in astronomy to measure the velocity of stars and galaxies.

5. How is the Doppler Effect related to the speed of sound?

The speed of sound is an important factor in the Doppler Effect. As the speed of the source of the sound increases, the change in frequency becomes more noticeable. The speed of sound also varies depending on the medium it is traveling through, such as air or water, which can impact the perceived frequency of the sound.

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