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Sounds get higher in pitch as they get closer, due to the sounds waves getting packed closer together. (Which IS higher-pitched)

Sounds get lower in pitch as they go away, due to the sound waves being pulled farther apart than normal. (Which IS lower-pitched). This is called the Doppler effect, and works with light, also.

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13y ago
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7mo ago

A train whistle typically gets louder but not necessarily higher in pitch as it gets closer due to the increase in sound intensity.

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Q: Does a train whistle get higher or lower when it gets closer?
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What causes the change in pitch of an approaching train whistle?

The change in pitch of an approaching train whistle is due to the Doppler effect. As the train moves towards the observer, the sound waves are compressed, leading to a higher frequency and thus a higher pitch. Similarly, as the train moves away, the sound waves are stretched, resulting in a lower frequency and a lower pitch.


Why is the pitch of a train's whistle higher as the train approaches and loweras it moves away?

This is known as the Doppler effect. As the train approaches you, the wavelength of the sound waves it emits are compressed, and therefore the whistle sounds higher. When the train is moving away, the wavelengths are extended, causing the whistle to sound lower. If the train were not moving at all, the pitch you would hear from the whistle would be somewhere between the high and low pitches you hear when the train is moving.


Does the Doppler Effect explain why you hear a train whistle differently after it passes you than you do as it approaches you?

Yes, the Doppler Effect explains this phenomenon. As the train approaches, sound waves are compressed, leading to a higher frequency and a higher pitch. As the train passes, sound waves are stretched, resulting in a lower frequency and a lower pitch, which is why the whistle sounds different before and after the train passes.


What happens to the sound of a train whistle as the train approaches and then passes?

This is known as the Doppler effect. As the train approaches you, the wavelength of the sound waves it emits are compressed, and therefore the whistle sounds higher. When the train is moving away, the wavelengths are extended, causing the whistle to sound lower. If the train were not moving at all, the pitch you would hear from the whistle would be somewhere between the high and low pitches you hear when the train is moving.Read more: http://wiki.answers.com/Why_is_the_pitch_of_a_train's_whistle_higher_as_the_train_approaches_and_loweras_it_moves_away#ixzz1DToTuS3j


Why would you hear a change in pitch if you are on a moving train and the train whistle blows?

You would hear a change in pitch because of the Doppler effect. As the train moves towards you, the sound waves are compressed, resulting in a higher pitch. As the train moves away, the sound waves are stretched, resulting in a lower pitch.

Related questions

What causes the change in pitch of an approaching train whistle?

The change in pitch of an approaching train whistle is due to the Doppler effect. As the train moves towards the observer, the sound waves are compressed, leading to a higher frequency and thus a higher pitch. Similarly, as the train moves away, the sound waves are stretched, resulting in a lower frequency and a lower pitch.


Why is the pitch of a train's whistle higher as the train approaches and loweras it moves away?

This is known as the Doppler effect. As the train approaches you, the wavelength of the sound waves it emits are compressed, and therefore the whistle sounds higher. When the train is moving away, the wavelengths are extended, causing the whistle to sound lower. If the train were not moving at all, the pitch you would hear from the whistle would be somewhere between the high and low pitches you hear when the train is moving.


Does the Doppler Effect explain why you hear a train whistle differently after it passes you than you do as it approaches you?

Yes, the Doppler Effect explains this phenomenon. As the train approaches, sound waves are compressed, leading to a higher frequency and a higher pitch. As the train passes, sound waves are stretched, resulting in a lower frequency and a lower pitch, which is why the whistle sounds different before and after the train passes.


What happens to sound of a train whistle as a train approaches and passes you?

This is known as the Doppler effect. As the train approaches you, the wavelength of the sound waves it emits are compressed, and therefore the whistle sounds higher. When the train is moving away, the wavelengths are extended, causing the whistle to sound lower. If the train were not moving at all, the pitch you would hear from the whistle would be somewhere between the high and low pitches you hear when the train is moving.


What happens to the sound of a train whistle as a train approaches and passes you?

This is known as the Doppler effect. As the train approaches you, the wavelength of the sound waves it emits are compressed, and therefore the whistle sounds higher. When the train is moving away, the wavelengths are extended, causing the whistle to sound lower. If the train were not moving at all, the pitch you would hear from the whistle would be somewhere between the high and low pitches you hear when the train is moving.


What happens to the sound of a train whistle as the train approaches and then passes?

This is known as the Doppler effect. As the train approaches you, the wavelength of the sound waves it emits are compressed, and therefore the whistle sounds higher. When the train is moving away, the wavelengths are extended, causing the whistle to sound lower. If the train were not moving at all, the pitch you would hear from the whistle would be somewhere between the high and low pitches you hear when the train is moving.Read more: http://wiki.answers.com/Why_is_the_pitch_of_a_train's_whistle_higher_as_the_train_approaches_and_loweras_it_moves_away#ixzz1DToTuS3j


Would you hear a change in pitch if you are on a moving train and the train whistle blows?

Yes, you would hear a change in pitch. As the train approaches you, the pitch of the whistle would sound higher because the sound waves are compressed. As the train moves away from you, the pitch would sound lower as the sound waves are stretched out. This is known as the Doppler effect.


Why would you hear a change in pitch if you are on a moving train and the train whistle blows?

You would hear a change in pitch because of the Doppler effect. As the train moves towards you, the sound waves are compressed, resulting in a higher pitch. As the train moves away, the sound waves are stretched, resulting in a lower pitch.


A train passes by blowing its whistle As it passes the sound of the whistle is lower than it was on its way towards you This is due to?

a change in the sound's frequency caused by the motion of the sound's source


When does an observer at a railroad crossing hear the lowest frequency of a trains whistle?

An observer at a railroad crossing hears the lowest frequency of a train's whistle when the train is approaching. As the train moves towards the observer, the sound waves are compressed, resulting in a higher perceived frequency.


What do you call an effect where in the pitch of the whistle rises as the train approaches the station and falls off as it moves away?

This effect is called the Doppler effect. It occurs when there is relative motion between the source of a sound (like a train whistle) and an observer. As the train approaches, the sound waves are compressed, resulting in a higher pitch, and as it moves away, the sound waves are stretched, causing a lower pitch.


When was The Wichita Train Whistle Sings created?

The Wichita Train Whistle Sings was created in 1968.