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Chapter 13 Sound

Chapter 13 Sound. Sound is a compressional wave created by a disturbance or vibration that compresses molecules. When the tuning fork pushes toward the direction of wave motion, the air molecules are compressed, when it pushes away, the air molecules are spread out.

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Chapter 13 Sound

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  1. Chapter 13 Sound

  2. Sound is a compressional wave created by a disturbance or vibration that compresses molecules.

  3. When the tuning fork pushes toward the direction of wave motion, the air molecules are compressed, when it pushes away, the air molecules are spread out.

  4. Frequency is how many compressions are created in a second (Hertz), and is also called pitch.

  5. The speed of sound depends on the density of the medium. Molecules are closer together in denser materials, so there is less distance the disturbance needs to move through to reach the next molecule.

  6. Sound waves propagate in 3d spherically

  7. If a sound source is moving waves get pushed together and spread apart parallel to the motion. This causes a change in frequency

  8. Sound Intensity Sound intensity is the rate at which sound energy flows through a unit of area. DE/Dt P P Intensity = = = area area 4pr2 Units = W/m2

  9. Loudness is a function of the log of the intensity. For something to sound twice as loud, it would have to be 10x as intense. Loudness is measured in decibels (dB), with sound being twice as loud every 10 dB. vacuum 70 dB alarm clock 80 dB

  10. All things have natural vibrating frequencies If one tuning fork is struck and the other tuning fork is the same frequency, it will start to vibrate. This is called resonance.

  11. Harmonics Standing waves can be created in a vibrating string. fn = frequency of harmonic number n = harmonic number v = wave speed L = length of vibrating string

  12. Standing waves in an air column Open at both ends Closed at one end

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