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Waves and Sound. Chapter 16. Wave. A wave is a traveling disturbance. A wave carries energy from place to place. wave direction. particle motion. Longitudinal wave. Particles move back and forth parallel to the direction the wave is moving. wave direction. Transverse wave.
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Waves and Sound Chapter 16
Wave • A wave is a traveling disturbance. • A wave carries energy from place to place.
wave direction particle motion Longitudinal wave Particles move back and forth parallel to the direction the wave is moving.
wave direction Transverse wave particle motion Particles move back and forth perpendicular to the direction the wave is moving.
Periodic waves Aperiodic wave consist of cycles or patterns that are produced over and over again by the source. When the end of the slinky is moved in simple harmonic motion, every segment of the slinky will vibrate in simple harmonic motion. Transverse wave Longitudinal wave
Wave motionv T Displacement of particles all along the wave One particle's motion vs. time Periodic wave vocabulary In the drawings, onecycleis shaded in color. Amplitude A is the maximum motion of a particle of the wave from the particle's equilibrium position. Wavelength is the length of one cycle of the wave. PeriodTis the time required for one complete cycle. Frequency fis the number of cycles each second. Wave speed vis the speed that the wave travels.
tension linear density Transverse wave motion along a string Particles that interact with more force move faster. Particles with more inertia move slower. wave speed
Example 2 - Waves on a guitar string A 0.628 m long, 0.208 g, guitar string is pulled tight with a tension force of 226 N. Find the wave speed. That is about 1850 miles/hour. Fast!!
Wavelength of a sound wave Wavelength is the distance between adjacent high density (compression) regions. Compression regions
Sound waves are longitudinal waves wave direction source of the sound Individual air molecules are not carried along with the wave.Particles vibrate back and forth parallel to the wave direction.
Frequency of a sound wave Frequencyis the number of cycles in one second. Your brain interprets the frequency in terms of the subjective quality called pitch. A pure toneis a sound with a single frequency.
Wave speed • Sound waves travel in • Solids • Liquids • Gases • at different speeds.
Example 5 - "Rule of Thumb" Thunder & Lightning A rule of thumb is a useful idea that is approximately true. Count the seconds between when you see the lightning and when you hear the thunder. The lightning was about a mile away for every 5 seconds you counted.
Speed of sound GASES LIQUIDS SOLIDS
Sound waves carry energy Power of the wave is the amount of energy transported by the wave in one second. Intensity is the power through one square meter.
Example 6 - Sound intensity 120 μW of sound pass through surfaces 1 and 2 that have areas of 4 m2 and 12 m2. Find the sound intensity at each surface.
Intensity for uniformly distributed sound waves For sound waves that are uniformly distributed in all directions, energy is spread uniformly over a spherical area.
Example 7 - Fireworks A person 640 m away from a fireworks rocket explosion measured a sound intensity of 0.1 W/m2. Find the power released by the rocket explosion.
Sound intensity level Sound intensity level βcompares the intensities of two sounds, one sound intensity usually is the threshold of hearing. Threshold of hearing sound intensity level The smallest change in sound intensity level that people can usually detect is 1 dB.
Ear responds differently to different frequencies Our hearing is most sensitive to frequencies around 3500 Hz.
Sound intensity level Every 10 dB increase in sound intensity level doubles the loudness of the sound. A sound with 10 times more power is 10 dB higher in sound intensity level, but would only sound twice as loud.
Example - Sound intensity level One person talking at a normal conversation volume has an intensity level of 65 dB. What would be the intensity level at your next party when there are 30 people each talking in a similar manner? Call the sound intensity of the one person talking I1. With 30 people talking in a similar manner, the sound intensity would be 30 times greater so I30 = 30 I1. increase About 2½ times louder than with just one person talking.
Sound intensity level comparing intensities Io and I comparing intensities I1 and I2 damage to your hearing
Sound intensity level Loud sounds can quickly damage your hearing. Will a 2 hour 120 dB rock concert damage your hearing?
Doppler effect source at rest source moving Doppler effectis the change in frequency and wavelength due to the relative motion of the source and the observer with respect to the sound wave in the air
distance the source moves new shortened wavelength Doppler effect - moving source The source partially catches up with the previous wave and shortens the length of the wave by Δλ, the distance that the source moves during one wave period T. 1 2 original wavelength 2 3 Similarly, when the source is moving away from the observer, the wave is stretched out by the distance Δλ that the source moves during one wave period T.
Doppler effect - moving observer Δx=vot When the observer was at rest, he experienced fwave cycles each second. When the observer is moving toward the wave, he moves a distance Δx=(vobserver )(1s) each second. For each wavelength distance moved, he picks up one additional cycle. So the number of extra cycles detected is equal to Δx/λ and the number of extra cycles detected per second is equal to vobserver / . moving away from the wave moving toward the wave