Sounds are produced due to interactions between molecules of a medium caused by a vibrating source.
Sound produces vibration / vice
versa
Singing bowl
Anotações:
When the bowl starts to "sing", droplets of water jump up and down. This is due to vibration.
Sound and Salt
Anotações:
The salt particles begin to vibrate after the sound is played. The higher the pitch, the more complicated the pattern.
Sound and Glass
Anotações:
The glass vibrates and shatters when a high-pitch sound is applied to it.
String instruments
Anotações:
When the guitar string is plucked, it vibrates and produces sound.
Tuning fork
Anotações:
When you hit the tuning fork, you can see a vibration on the tuning fork. A sound is produced and is heard when placed near the ear.
Travelling of sound
Energy passed to
surrounding molecules
Pushing and pulling
layers of molecules
surrounding it
Layers of air form
compression and rarefaction.
Compression
Anotações:
Air molecules are closer together
Rarefaction
Anotações:
Air molecules are further from each other
Vacuum
NO matter
Sound cannot be heard
No particles for the sound to be carried
Requires matter to surround
the sound
Solid
Speed of sound: 6000 m/s
Highest because
molecules are closer
Transmission of
sound is faster
Liquid
1500 m/s
Gas
330 m/s
How we hear sound
Anotações:
Ear is a sensitive device which functions with hearing
Ear allows to convert audible frequencies into electrical signals
3 parts: Outer
Middle
Inner Ear
Outer Ear / Pinna collects sound from the surroundings and passes through auditory canal to the ear drum
Eardrum: Thin membrane that vibrates when catches compression and rarefaction of sound.
Middle Ear : 3 bones
Hammer
Anvil
and Stirrup
Vibrations of eardrum are amplified many times by ear bones and turned into electric signals by cochlea which are passed thru auditory nerve to brain. The brain interprets them as sound.
Uses
Healing wounds
Levitation
Echolocation / Flash sonar
Curing cancer
Cymatic Patterns
Pitch
Frequency
Hertz (Hz)
Human Hearing
range : 20 Hz-
20000 Hz
Number of cycles
(rarefactions) in a
second
Anotações:
First find the number of cycles in the sound wave
eg From A to B is 5 cycles
Then find out how many seconds it took for the sound to come from the start to the end.
eg It took 2 seconds from A to B
Divide no. of cycles by seconds
eg 5cycles/2s = 2.5Hz
Higher/Lower sounds
Loudness
larger vibration,
louder sounds
Sound and Society
For Entertainment
Warning of danger
Police car
Ambulance
Snakes
Sonar
Anotações:
Sonar is an acronym for SOund Navigation And Ranging
It is a technique that uses sound to gather information about the environment
( use sound wave to collect data / measure distance )