Sound: Chapter 14 WOD are underlined.. What happens when you strike an object?
-
Upload
raina-rushworth -
Category
Documents
-
view
214 -
download
0
Transcript of Sound: Chapter 14 WOD are underlined.. What happens when you strike an object?
Sound:Chapter 14
WOD are underlined.
What happens when you strike an object?
Producing a Sound Wave What happens when you strike an object?
It vibrates at its 1st harmonic frequency.
Using a Tuning Fork to Produce a Sound Wave
As the tine swings outward, it forces the air molecules near it closer together
This produces a high density area in the air
This is an area of compression
Using a Tuning Fork, cont.
As the tine moves inward, the air molecules near spread out
This produces an area of low density
This area is called a rarefaction
Using a Tuning Fork
As the tuning fork vibrates, compressions and rarefactions spread out from the fork.
Note: The sine wave is not the actual wave; it is a representation.
The wave is NOT a transverse wave that goes up and down.A SOUND WAVE IS A LONGITUDINAL WAVE!(Let students feel vibrating tuning forks.)
Using a tuning fork
The tuning fork creates a longitudinal wave in the air
Note: The air molecules only vibrate, they do not move forward with the wave.
Audibility This is what sound is.
Can we detect all of them?
Categories of Sound Waves Audible waves
Frequencies within the normal range of hearing of the human ear
Normally between ~20 Hz to ~20,000 Hz Infrasonic waves
Frequencies too low to hear Earthquakes are an example
Ultrasonic waves Frequencies too high to hear Dog whistles are an example Compare to visible, Infrared, and Ultraviolet Light
Sounds have frequency Like all waves, sounds have a frequency. The human brain hears frequency as pitch. Pitch is the frequency of a sound wave. Pitch can also be thought of as the wavelength. High Frequency (or short wave length) is High Pitch.
Frequency is determined by the sound generator. Velocity (and wavelength) is determined by the medium. ν=ƒλ
Volume is the amplitude of a sound wave.Amplitude does not affect frequency!!!
Some PitchesC – 256 (some sites say 262)HzD – 294 HzE – 330 HzF – 349 HzG – 392 HzA – 440 Hz (Middle A on piano)B – 492 HzC – 512 (Or 524) Hz (Middle C on piano)
Octave A doubling or halving of a frequency moves to the next octave.
An “A” would be 110, 220, 440, 880, ect. Hz.
In music theory, an octave is 12 “Half steps.” So each half step changes the frequency by
Octaves Think about a standing wave.
If the frequency doubles, the wavelength halves.
Changing octaves is like changing harmonics of a standing wave.
Pure Tone A pure tone is a sound with only one frequency present.
Adding other octaves will create a richer tone.
Speed of sound The speed of sound is not constant.
Depends on density, pressure, and temperature. All these are properties of the medium.
Property Increases Speed Guess Inc or Dec
DensityPressure TemperatureHumidity (air only)
Different speeds Sound travels fastest in solid.
Slightly less in liquid.
Much less in gas. (air is about 1/5th the speed of water.)
Because of how far apart molecules are.
Problem The speed of sound in sea water is 1560 m/s. A dolphin “shouts” at the ocean floor 250 m beneath him. How much time passes before he hears the echo?
Speed of Sound in Air Guess: Does the speed of sound depend on air temperature?
Speed of Sound in Air Does the speed of sound depend on air temperature?
Yes
Guess: Is it faster or slower when it is hotter outside?
Speed of Sound in Air 331 m/s is the speed of sound at 0° C Speed of sound increases with temp
343 m/s is the speed of sound at room temperature
Speed of sound
(How do you convert from C to K?)
Problem During a thunderstorm, lightning strikes 300 m away. If the air temp is 25 Celsius, how much time passes between when you see the lightning and hear the thunder?
Speed of sound The speed of sound is not constant. Depends on density and temperature. These are properties of the medium.
Property Increases Speed Density Increases
Pressure (almost) No Affect Temperature Increases
Humidity(air only) Increases (because of air density increase)