Anything that vibrates generates a sound! (unless it’s in a vacuum)
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Transcript of Anything that vibrates generates a sound! (unless it’s in a vacuum)
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Anything that vibrates generates a sound! (unless it’s in a vacuum)
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The Way Sound Travels
What type of wave is sound?
longitudinal
How does sound get from one place to another?
By pushing (compressions) and pulling (rarefactions) air molecules.
What determines the speed of sound?
The medium its traveling in & temperature.
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Speed of SoundWhere will sound travel fastest?
Metal
Water Air
Solids & Liquids are generally good conductors of sound. Much better than air!
Besides the medium, what other factor determines how fast sound will travel?
Air Temperature!!!
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Temperature & Speed
Temp = speed of soundAt O°C = 331 m/s
At room temp = 340 m/s
temp = Faster molecules = collisions
Will it travel in a vacuum?Absolutely not!
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Speed of Sound Equation
vsound = 331 + .6(T)
m/s = 331 + .6(°C)
In air, at normal pressure…
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Example Problem #1• An air tube is 125.0ºC. How fast will
a sound travel in the tube?
vsound = 331 + .6(T)
• v = 331 + .6(125.0ºC)
• v = 406 m/s
– Note: Use 3 SF because 331 is rounded off.
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Example Problem #2• An air tube at 25.0ºC is 100. m long.
How long will it take for a sound wave to travel from one end to the other?
– First, find the velocity of the sound at 25.0ºC:• v = 331 + .6(25.0ºC) • v = 346 m/s
– Second, use the v = d/t equation:• 346 = 100./t• t = .289 s
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Compressions vs. Rarefactions• Compressions: PUSHING air molecules.
– Above normal air pressure.
• Rarefactions: PULLING air molecules. – Below normal air pressure.
Compression
Rarefaction
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Intensity vs. Loudness• Intensity: The POWER of the waves.
– Objective-doesn’t change for different people– Measured in W/m2
– Equation- I = P/A
intensity = power/area
W/m2 = Watt/square meter
• Loudness: Sensed by the brain. Result of intensity & distance.
– Subjective- can change for different people– Measured in dB (decibels)…after Alexander Graham Bell
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Typical Sound IntensitiesSource Intensity (W/m2)
Pin Dropping 1.0 x 10-12
Rustling Leaves 1.0 x 10-11
Whisper 1.0 x 10-10
Conversation 1.0 x 10-6
Loud Music 1.0 x 10-4
Loud Car Horn 3.0 x 10-3
Shout 1.0 x 10-2
Rock Concert 1.0
Yell in the Ear 1.0
Jet Engine 1.0 x 102
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This is the lowest frequency produced by the instrument which can produce resonance.
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• When the frequency
of a forced vibration
matches the object’s natural frequency.
Because the 40 mph winds happened to resonate with the nat. freq. of the bridge, the amplitude increased so much it collapsed!
It was only 4 months old!!!
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Interference
Dark lines show sound cancellation.
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Constructive Interference
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Destructive Interference
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Creating Beats• Two slightly mismatched tuning forks are
sounded together.
• They have different frequencies.
• Sometimes they will be in step, other times, they won’t be.
• In step=louder Out of step=softer
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Why We Hear Different Sounds
Different sounds are produced using
different frequencies &different wavelengths!
What wave characteristics do high pitched sounds have? They have a high frequency and a short wavelength!
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VOLUME
What part of a wave corresponds to loudness?
Amplitude!
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Any Questions?