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UNIT 7 Waves, Vibrations, and Sound

UNIT 7 Waves, Vibrations, and Sound. Tuesday January 31 th. WAVES, VIBRATIONS, AND SOUND. TODAY’S AGENDA. Tuesday, January 31. Sound Intensity & Resonance Hw : Practice A (All) p415. UPCOMING…. Wed: Harmonics Thurs: More on Harmonics Problem Quiz #2 Fri: Inertial Balance Lab.

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UNIT 7 Waves, Vibrations, and Sound

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  1. UNIT 7Waves, Vibrations,and Sound

  2. Tuesday January 31th WAVES, VIBRATIONS, AND SOUND

  3. TODAY’S AGENDA Tuesday, January 31 • Sound Intensity & Resonance • Hw: Practice A (All) p415 UPCOMING… • Wed: Harmonics • Thurs: More on Harmonics • Problem Quiz #2 • Fri: Inertial Balance Lab

  4. ConcepTest 14.7aSound Bite I 1)the frequency f 2) the wavelength l 3) the speed of the wave 4) both f and l 5) both vwave and l When a sound wave passes from air into water, what properties of the wave will change?

  5. ConcepTest 14.7aSound Bite I 1)the frequency f 2) the wavelength l 3) the speed of the wave 4) both f and l 5) both vwave and l When a sound wave passes from air into water, what properties of the wave will change? Wave speed must change (different medium). Frequency does not change (determined by the source). Now, v = fl and since v has changed and f is constant then lmust also change. Follow-up: Does the wave speed increase or decrease in water?

  6. ConcepTest 14.7bSound Bite II We just determined that the wavelength of the sound wave will change when it passes from air into water. How will the wavelength change? 1) wavelength will increase 2) wavelength will not change 3) wavelength will decrease

  7. ConcepTest 14.7bSound Bite II We just determined that the wavelength of the sound wave will change when it passes from air into water. How will the wavelength change? 1) wavelength will increase 2) wavelength will not change 3) wavelength will decrease The speed of sound is greater in water, because the force holding the molecules together is greater. This is generally true for liquids, as compared to gases. If the speed is greater and the frequency has not changed (determined by the source), then the wavelength must also have increased (v = fl).

  8. Chapter 12 Sound

  9. Units of Chapter 12 • Characteristics of Sound • Intensity of Sound: Decibels • The Ear and Its Response; Loudness • Sources of Sound: Vibrating Strings and Air Columns • Quality of Sound, and Noise; Superposition • Interference of Sound Waves; Beats • Doppler Effect

  10. Units of Chapter 12 • Shock Waves and the Sonic Boom • Applications: Sonar, Ultrasound, and Medical Imaging

  11. Characteristics of Sound Sound can travel through any kind of matter, but not through a vacuum. The speed of sound is different in different materials; in general, it is slowest in gases, faster in liquids, and fastest in solids. The speed depends somewhat on temperature, especially for gases.

  12. Characteristics of Sound Loudness: related to intensity of the sound wave Pitch: related to frequency. Audible range: about 20 Hz to 20,000 Hz; upper limit decreases with age Ultrasound: above 20,000 Hz; see ultrasonic camera focusing below Infrasound: below 20 Hz

  13. Intensity of Sound: Decibels The intensity of a wave is the energy transported per unit time across a unit area. The human ear can detect sounds with an intensity as low as 10-12 W/m2 and as high as 1 W/m2. Perceived loudness, however, is not proportional to the intensity.

  14. Intensity of Sound: Decibels The loudness of a sound is much more closely related to the logarithm of the intensity. Sound level is measured in decibels (dB) and is defined: (12-1) I0 is taken to be the threshold of hearing:

  15. Intensity of Sound: Decibels An increase in sound level of 3 dB, which is a doubling in intensity, is a very small change in loudness. In open areas, the intensity of sound diminishes with distance: However, in enclosed spaces this is complicated by reflections, and if sound travels through air the higher frequencies get preferentially absorbed.

  16. The Ear and Its Response; Loudness

  17. The Ear and Its Response; Loudness Outer ear: sound waves travel down the ear canal to the eardrum, which vibrates in response Middle ear: hammer, anvil, and stirrup transfer vibrations to inner ear Inner ear: cochlea transforms vibrational energy to electrical energy and sends signals to the brain

  18. The Ear and its Response; Loudness The ear’s sensitivity varies with frequency. These curves translate the intensity into sound level at different frequencies.

  19. Sources of Sound: Vibrating Strings and Air Columns Musical instruments produce sounds in various ways – vibrating strings, vibrating membranes, vibrating metal or wood shapes, vibrating aircolumns. The vibration may be started by plucking, striking, bowing, or blowing. The vibrations are transmitted to the air and then to our ears.

  20. Sources of Sound: Vibrating Strings and Air Columns The strings on a guitar can be effectively shortened by fingering, raising the fundamental pitch. The pitch of a string of a given length can also be altered by using a string of different density.

  21. Sources of Sound: Vibrating Strings and Air Columns A piano uses both methods to cover its more than seven-octave range – the lower strings (at bottom) are both much longer and much thicker than the higher ones.

  22. Sources of Sound: Vibrating Strings and Air Columns Wind instruments create sound through standing waves in a column of air.

  23. END

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