A lower pitch sound results in slower vibrations of sound waves, which leads to a lower frequency. This slower frequency causes the eardrum to move less rapidly compared to higher pitch sounds. Consequently, the eardrum's movement is dampened, leading to a different sensation in hearing and potentially affecting the perception of loudness and clarity of the sound.
The tension of the string. Less tension = lower pitch. This can be achieved by loosening the string or lengthening the string.
the bigger an instrument is, the lower the sound that it makes
the bigger an instrument is, the lower the sound that it makes
id imagine one thats already been trough puberty.
The small size gives it the high pitch that it has, if it was bigger, the sound would be dropping lower and lower. Also the small size made it easy to carry around and transport.
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.
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.
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.
As the fire truck moves away from you, the pitch of the siren would sound lower. This is because the sound waves are stretched out or lengthened due to the Doppler effect, resulting in a lower frequency of sound reaching your ears.
The boy standing on the ground would hear the sound as the train’s horn is being blown, but the pitch would gradually decrease as the train moves away from him. This is due to the Doppler effect, where the frequency of the sound waves decreases as the source of the sound moves away from the observer.
frequency and pitch would change as the source moves. As the source moves away, the frequency and pitch decrease, and as the source moves closer, they increase. This is due to the Doppler effect, where the relative motion between the source and observer causes a shift in frequency.
the pitch of n would be lower than j.
The apparent change in the frequency of a sound emitted by a moving object as it passes a stationary observer is called the Doppler effect. As the object moves towards the observer, the observer perceives a higher frequency (higher pitch) than what is actually emitted. Conversely, as the object moves away from the observer, the perceived frequency is lower than the actual frequency emitted.
The tension of the string. Less tension = lower pitch. This can be achieved by loosening the string or lengthening the string.
Yes, the listener will notice the Doppler effect in this scenario. As the listener and the source of the sound are approaching each other, the frequency of the sound waves will appear higher to the listener, resulting in a higher pitch. This effect is commonly experienced with sirens from emergency vehicles.
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
He would increase its surface area.