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Sound Waves

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 Sound is really tiny fluctuations of air pressure – units of pressure: N/m2 or psi (lbs/square-inch)  Carried through air at 343 m/s (770 m.p.h) as compressions and rarefactions in air pressure
 Wavelength () is measured from crest-to-crest – or trough-to-trough, or upswing to upswing, etc.  For traveling waves (sound, light, water), there is a speed (c)  Frequency (f) refers to how many cycles pass by per second – measured in Hertz, or Hz: cycles per second – associated with this is period: T = 1/f  These three are closely related: f = c  or T pressure
 We hear frequencies of sound as having different pitch.  A low frequency sound has a low pitch, like the rumble of a big truck.  A high-frequency sound has a high pitch, like a whistle or siren.  In speech, women have higher fundamental frequencies than men.
 When we hear complex sounds, the nerves in the ear respond separately to each different frequency. The brain interprets the signals from the ear and creates a “sonic image” from the frequencies. The meaning in different sounds is derived from the patterns in how the different frequencies get louder and softer.
 How we hear the loudness of sound is affected by the frequency of the sound as well as by the amplitude.  The human ear is most sensitive to sounds between 300 and 3,000 Hz.  The ear is less sensitive to sounds outside this range.  Most of the frequencies that make up speech are between 300 and 3,000 Hz.
1. A common way to record sound starts with a microphone. A microphone transforms a sound wave into an electrical signal with the same pattern of oscillation.
2. In modern digital recording, a sensitive circuit converts analog sounds to digital values between 0 and 65,536.
3. Numbers correspond to the amplitude of the signal and are recorded as data. One second of compact- disk-quality sound is a list of 44,100 numbers.
4. To play the sound back, the string of numbers is read by a laser and converted into electrical signals again by a second circuit which reverses the process of the previous circuit.
5. The electrical signal is amplified until it is powerful enough to move the coil in a speaker and reproduce the sound.
 A sound wave is a wave of alternating high-pressure and low-pressure regions of air.  Sound is a longitudinal wave, meaning that the motion of particles is along the direction of propagation
 Waves in air can’t really be transverse, because the atoms/molecules are not bound to each other – can’t pull a (momentarily) neighboring molecule sideways – only if a “rubber band” connected the molecules would this work – fancy way of saying this: gases can’t support shear loads  Air molecules can really only bump into one another
 The pitch of a sound depends on the frequency of the tone that the ear receives. High notes are produced by an object that is vibrating a greater number of times per second than for a low note  The intensity of a sound is the amount of energy crossing a unit area in unit time or the power flowing through the unit area. The SI unit is watts per square meter.  The loudness of the sound depends upon the subjective effect of intensity of sound waves on the human ear.
 The shift in frequency caused by motion is called the Doppler effect.  It occurs when a sound source is moving at speeds less than the speed of sound.
 Any waveform can be analyzed as the sum of a set of sine waves, each with a particular amplitude, frequency, and phase.
 The speed of sound in air is 343 meters per second (660 miles per hour) at one atmosphere of pressure and room temperature (21°C).  An object is subsonic when it is moving slower than sound.
 We use the term supersonic to describe motion at speeds faster than the speed of sound.  A shock wave forms where the wave fronts pile up.  The pressure change across the shock wave is what causes a very loud sound known as a sonic boom.
 A complex wave is really a sum of component frequencies.  A frequency spectrum is a graph that shows the amplitude of each component frequency in a complex wave.
 A single frequency by itself does not have much meaning.  The meaning comes from patterns in many frequencies together.  A sonogram is a special kind of graph that shows how loud sound is at different frequencies.  Every person’s sonogram is different, even when saying the same word.
 The eardrum vibrates in response to sound waves in the ear canal.  The three delicate bones of the inner ear transmit the vibration of the eardrum to the side of the cochlea.  The fluid in the spiral of the cochlea vibrates and creates waves that travel up the spiral.
 The nerves near the beginning see a relatively large channel and respond to longer wavelength, low frequency sound. The nerves at the small end of the channel respond to shorter wavelength, higher- frequency sound.
 The pitch of a sound is how high or low we hear its frequency. Though pitch and frequency usually mean the same thing, the way we hear a pitch can be affected by the sounds we heard before and after.  Rhythm is a regular time pattern in a sound.  Music is a combination of sound and rhythm that we find pleasant.  Most of the music you listen to is created from a pattern of frequencies called a musical scale.
 Harmony is the study of how sounds work together to create effects desired by the composer.  When we hear more than one frequency of sound and the combination sounds good, we call it consonance.  When the combination sounds bad or unsettling, we call it dissonance.
 Consonance and dissonance are related to beats.  When frequencies are far enough apart that there are no beats, we get consonance.  When frequencies are too close together, we hear beats that are the cause of dissonance.  Beats occur when two frequencies are close, but not exactly the same. Beats are created by the interference of two waves with different frequencies.
 A listener will hear the alternating loudness, known as beats.  The number of beats per second, called the beat frequency, equals the difference between the frequencies of the two individual waves.  To tune an instrument accurately, a musician listens carefully and adjusts her instrument to eliminate beats between the instrument and a given pitch.
 Echolocation is the method of detecting objects by emitting a sound, receiving the echo and correctly identifying the location, size and structure of the object.  These sound waves are very high-pitched, and most humans are unable to hear them.
 The same note sounds different when played on different instruments because the sound from an instrument is not a single pure frequency.  The variation comes from the harmonics, multiples of the fundamental note.
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Sound Waves

  • 2.  Sound is really tiny fluctuations of air pressure – units of pressure: N/m2 or psi (lbs/square-inch)  Carried through air at 343 m/s (770 m.p.h) as compressions and rarefactions in air pressure
  • 3.  Wavelength () is measured from crest-to-crest – or trough-to-trough, or upswing to upswing, etc.  For traveling waves (sound, light, water), there is a speed (c)  Frequency (f) refers to how many cycles pass by per second – measured in Hertz, or Hz: cycles per second – associated with this is period: T = 1/f  These three are closely related: f = c  or T pressure
  • 4.  We hear frequencies of sound as having different pitch.  A low frequency sound has a low pitch, like the rumble of a big truck.  A high-frequency sound has a high pitch, like a whistle or siren.  In speech, women have higher fundamental frequencies than men.
  • 5.  When we hear complex sounds, the nerves in the ear respond separately to each different frequency. The brain interprets the signals from the ear and creates a “sonic image” from the frequencies. The meaning in different sounds is derived from the patterns in how the different frequencies get louder and softer.
  • 6.  How we hear the loudness of sound is affected by the frequency of the sound as well as by the amplitude.  The human ear is most sensitive to sounds between 300 and 3,000 Hz.  The ear is less sensitive to sounds outside this range.  Most of the frequencies that make up speech are between 300 and 3,000 Hz.
  • 7. 1. A common way to record sound starts with a microphone. A microphone transforms a sound wave into an electrical signal with the same pattern of oscillation.
  • 8. 2. In modern digital recording, a sensitive circuit converts analog sounds to digital values between 0 and 65,536.
  • 9. 3. Numbers correspond to the amplitude of the signal and are recorded as data. One second of compact- disk-quality sound is a list of 44,100 numbers.
  • 10. 4. To play the sound back, the string of numbers is read by a laser and converted into electrical signals again by a second circuit which reverses the process of the previous circuit.
  • 11. 5. The electrical signal is amplified until it is powerful enough to move the coil in a speaker and reproduce the sound.
  • 12.  A sound wave is a wave of alternating high-pressure and low-pressure regions of air.  Sound is a longitudinal wave, meaning that the motion of particles is along the direction of propagation
  • 13.  Waves in air can’t really be transverse, because the atoms/molecules are not bound to each other – can’t pull a (momentarily) neighboring molecule sideways – only if a “rubber band” connected the molecules would this work – fancy way of saying this: gases can’t support shear loads  Air molecules can really only bump into one another
  • 14.  The pitch of a sound depends on the frequency of the tone that the ear receives. High notes are produced by an object that is vibrating a greater number of times per second than for a low note  The intensity of a sound is the amount of energy crossing a unit area in unit time or the power flowing through the unit area. The SI unit is watts per square meter.  The loudness of the sound depends upon the subjective effect of intensity of sound waves on the human ear.
  • 15.  The shift in frequency caused by motion is called the Doppler effect.  It occurs when a sound source is moving at speeds less than the speed of sound.
  • 16.  Any waveform can be analyzed as the sum of a set of sine waves, each with a particular amplitude, frequency, and phase.
  • 17.  The speed of sound in air is 343 meters per second (660 miles per hour) at one atmosphere of pressure and room temperature (21°C).  An object is subsonic when it is moving slower than sound.
  • 18.  We use the term supersonic to describe motion at speeds faster than the speed of sound.  A shock wave forms where the wave fronts pile up.  The pressure change across the shock wave is what causes a very loud sound known as a sonic boom.
  • 19.  A complex wave is really a sum of component frequencies.  A frequency spectrum is a graph that shows the amplitude of each component frequency in a complex wave.
  • 20.  A single frequency by itself does not have much meaning.  The meaning comes from patterns in many frequencies together.  A sonogram is a special kind of graph that shows how loud sound is at different frequencies.  Every person’s sonogram is different, even when saying the same word.
  • 21.  The eardrum vibrates in response to sound waves in the ear canal.  The three delicate bones of the inner ear transmit the vibration of the eardrum to the side of the cochlea.  The fluid in the spiral of the cochlea vibrates and creates waves that travel up the spiral.
  • 22.  The nerves near the beginning see a relatively large channel and respond to longer wavelength, low frequency sound. The nerves at the small end of the channel respond to shorter wavelength, higher- frequency sound.
  • 23.  The pitch of a sound is how high or low we hear its frequency. Though pitch and frequency usually mean the same thing, the way we hear a pitch can be affected by the sounds we heard before and after.  Rhythm is a regular time pattern in a sound.  Music is a combination of sound and rhythm that we find pleasant.  Most of the music you listen to is created from a pattern of frequencies called a musical scale.
  • 24.  Harmony is the study of how sounds work together to create effects desired by the composer.  When we hear more than one frequency of sound and the combination sounds good, we call it consonance.  When the combination sounds bad or unsettling, we call it dissonance.
  • 25.  Consonance and dissonance are related to beats.  When frequencies are far enough apart that there are no beats, we get consonance.  When frequencies are too close together, we hear beats that are the cause of dissonance.  Beats occur when two frequencies are close, but not exactly the same. Beats are created by the interference of two waves with different frequencies.
  • 26.  A listener will hear the alternating loudness, known as beats.  The number of beats per second, called the beat frequency, equals the difference between the frequencies of the two individual waves.  To tune an instrument accurately, a musician listens carefully and adjusts her instrument to eliminate beats between the instrument and a given pitch.
  • 27.
  • 28.  Echolocation is the method of detecting objects by emitting a sound, receiving the echo and correctly identifying the location, size and structure of the object.  These sound waves are very high-pitched, and most humans are unable to hear them.
  • 29.  The same note sounds different when played on different instruments because the sound from an instrument is not a single pure frequency.  The variation comes from the harmonics, multiples of the fundamental note.
  • 30. The End Call us for more information www.iTutor.com Visit 1-855-694-8886