Transcript Sound

Sound
Aim: To learn about the
physics of sound
In this topic we will learn that:
Sound is form of energy
Sound is produced by vibrations
Sound needs a medium
Echoes are reflected sound
How the ear detects sound
Loud sounds can damage hearing
Speed of sound is less than that of light
Explain the lag between hearing and seeing an event
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The Facts
Sound …
1. Is a form of energy produced &
transmitted by vibrating matter
2. Travels in waves
3. Travels more quickly through solids than
liquids or gases
4. Sound needs a medium to travel.
Activities
To try
1) Tie a metal object, e.g. a spatula, to a piece of string and
hold the other end of the string against your ear or a
microphone connected to speakers.
Now tip the metal object with another metal; the
transmission of sound along the string is impressive.
1) Put the earphone of your music player to a sound level
meter at the volume you normally listen to music at and
see if you are listening to music too loud that could
damage your hearing.
Showing Sound is a form of Energy
A signal generator is
connected to a
loudspeaker.
A balloon is held near
the speaker.
When the signal
generator is switched ón
the balloon vibrates
with the sound.
This shows sound is a
form of energy.
How Sound Travels
Sound is caused by making
objects vibrate e.g
Plucking a guitar string.
Your vocal chords vibrating.
Tin whistle making air
vibrate
Drum beating the drum skin
vibrates.
What is a vacuum?
Can sound travel in vacuum?
Why/Why not?
Vibration
- Back and forth movement of molecules of
matter
- For example,
Sound – The basics
We hear things when they vibrate.
If something vibrates with a high frequency (vibrates very
______) we say it has a _____ pitch.
If something vibrates with a low frequency (vibrates
______) we say it has a ____ pitch.
The lowest frequency I could hear was…
Words – slowly, low, high, quickly
Showing Sound cannot travel in a Vacuum
A bell is set ringing as setup in
the bell jar ón the right.
The air is removed from the
bell jar using a pump.
Eventually the bell cannot be
heard but you can see the bell is
still working.
Sound cannot travel in a
vacuum and needs a medium
to travel in.
Why can sound travel faster in
liquids and solids than gases?
Drawing sounds…
This sound wave has a
_____ frequency:
This sound wave has a
___ _frequency:
Drawing sounds…
This sound wave has a
_____ amplitude
(loud):
This sound wave has a
_____ amplitude
(quiet):
Sound Waves
- Alternating areas of high & low pressure
in the air
- ALL sound is carried through matter as
sound waves
- Sound waves move out in ALL directions
from a vibrating object
Wavelength & Frequency
- Wavelength is the distance between one
part of a wave and the same part of the
next wave
- Frequency is the number of waves moving
past a point in one second
Pitch
• A measure of how high or low a sound is
• Pitch depends on the frequency of a sound wave
• For example,
- Low pitch
- High pitch
- Low frequency
- High frequency
- Longer wavelength
- Shorter wavelength
Sound and Instruments
- Instruments can be played at different
pitches by changing lengths of different
parts.
- For example,
- Another way to make different pitches is
to change the thickness of the material that
vibrates.
- For example,
A trombone’s mute absorbs
some of the sound waves
produced, thus producing a
softer note when played.
Speed of Sound
The speed of sound in air is 340 m/s, fast for short
distances. Over longer distances a time lag results.
We often see the fireworks before hearing the explosion.
The speed of sound depends on
a) The density of the material, the greater the density the
greater the speed.
b) The atmospheric pressure of the air.
c) The temperature.
The speed of light is much greater nearly a million times
faster.
Speed of Sound
Evidence that light travels faster than sound is seen with
thunder and lightning.
Often we see the lightning before we hear the thunder.
The distance the storm is away can be calculated my
measuring the time lag between the flash of lightling
and the thunder.
Problem
A flash of lightning is seen and 6 seconds later the clap of
thunder heard. How far away is the lightning if the
speed of sound is 340 m/s?
Speed of Sound
Answer
distance = speed x time
= 340
x 6
= 2040 m
Reflection and Refraction of Sound
Like light, sound can be…
Reflected – sound reflections are called
Echoes.
Refracted – bend around corners and obstacles.
This is why you might sound strange if you
try talking underwater
Sonar
- An instrument that uses reflected sound
waves to find underwater objects
- For example,
Humans use sonar
to locate or map
objects
Animals use sonar or echo location to find their
prey; these sounds have such a high pitch or
frequency that the human ear cannot hear
Echos (good and bad)
Echos can be a nuisance in halls, cinemas
and theatres as they can cause silent spots,
muffled noise etc.
This can be stopped by having soft
padded walls and thick carpets.
Ships can use echos to find the depth of
the sea.
Some animals use echos to locate their
prey. e.g bats.
Calculating the seabed depth
If a sound is sent down to the seabed by a ship and the
echo picked up 1.2 seconds later, what is the depth of the
water if the speed of sound in water is 1500 m/s.
Speed =distance
(distance travelled by the echo)
time
Distance = speed x time
= 1500 x 1.2
Distance = 1800 m
The distance travelled by the echo
Is twice the distance to the seabed so
Depth of the water is 1800 ÷ 2
Depth of the water = 900 m
The Ear
The Ear
Sound is carried to our ears through vibrating air
molecules.
The outer ear collects the sound and directs to the
eardrum.
The eardrum vibrates and transmits the sound to the
middle ear and in turn to the inner ear.
Nerves in the inner bring the sound as electrical signals
to the brain.
Middle Ear
Hearing problems
Our hearing range can be damaged by several
things:
Too much ear wax!
(1)Damage to the auditory nerve
(2)Illness or infections
(3)Old age
(4)Listening to music too loud
Noise levels
Our ears are sensitive, they can hear soft or quiet sounds
as well as loud sounds.
Loud sounds carry alot of energy and if loud enough can
break the eardrum (painful).
It the nerves in our ears are damaged by loud sounds we
cannot recover from them.
We must therefore be careful not to expose ourselves to
sounds that are too loud protect our ears.
sound levels are measured using the decibel scale.
Sound level comparisons
Hearing Precautions
Our ears need to be protected to prevent hearing loss. The
following are some ways we can do this.
Heed warning signs
Wear ear muffs where necessary
Move away from high-level sound sources
Double-glazed windows reduce noise from outside
High walls/trees reduce noise from busy roads.
Remember if you are in a place where you have to shout
to be heard by a person arm's length away from you it
is too noisy.
Review
1) What causes sound?
2) Why does sound need a medium?
3) Which is faster light or sound?
4) What causes echoes?
5) How can echoes be usful?
6) How do our ears detect sound?
7) When must ear protection be worn?
8) How can we prove sound is a form of energy?
9) Why does sound travel faster in solids than liquids or
gases?
10)Why do auditoriums, theatres and cinemas have soft
walls?