00:00:01
[Music]
00:00:14
[Music]
00:00:30
there are lots of different ways to make
00:00:32
a
00:00:34
[Music]
00:00:55
sound but what is sound for example how
00:00:58
do you hear the sound of a
00:01:01
[Music]
00:01:09
drum a sound wave is like the wave you
00:01:12
can make on a slinky
00:01:18
spring you put energy into it by pushing
00:01:21
one
00:01:23
end this compresses the
00:01:26
spring the compression travels along
00:01:29
carrying the energy with
00:01:32
it each coil is pushed forward and then
00:01:35
Springs back to its starting
00:01:43
point what carries the wave when you
00:01:45
hear a
00:01:48
sound the air in the room is made up of
00:01:50
tiny particles although in real life the
00:01:53
far too small to
00:01:56
see when a drum skin is struck it bends
00:01:59
outwards and compresses the air in front
00:02:02
of
00:02:03
it it's the compression that moves
00:02:05
through the air leaving the air
00:02:07
particles back where they
00:02:15
started in real life the drum vibrates
00:02:18
dozens of times every second so a
00:02:20
soundwave is made up of lots of
00:02:23
compressions but how do you hear
00:02:28
them you might think ears are just the
00:02:30
fleshy things on the side of your head
00:02:33
but there's more to them than
00:02:35
that the fleshy part is called the
00:02:38
Pinner its job is to F the sound waves
00:02:41
into the
00:02:43
ear the next thing the sound waves hit
00:02:46
is the ear drum which vibrates just like
00:02:48
an ordinary
00:02:50
drum then the vibration continues
00:02:53
through three tiny Bones called the
00:02:57
oses the ccka is in the inner ear it's
00:03:00
coiled up like a snail
00:03:02
shell the oses pass on the wave to a
00:03:06
liquid inside the
00:03:08
cockier the movement of the liquid is
00:03:10
picked up by cells shaped like tiny
00:03:15
hairs they send the signal to the brain
00:03:17
along a
00:03:20
nerve the ear converts sound waves into
00:03:24
electrical signals which the brain can
00:03:28
recognize
00:03:32
if you don't believe that air vibrates
00:03:35
take a look at
00:03:45
[Music]
00:03:48
this soundwaves can travel through solid
00:03:50
things like wood as
00:03:55
well the particles in a solid are packed
00:03:58
together far more tightly than air
00:04:02
particles what difference do you think
00:04:04
this makes to the sounds you
00:04:11
hear listening with a stethoscope can
00:04:16
hurt does sound travel faster in the
00:04:18
ground or through the
00:04:21
air and is the speed of sound ever as
00:04:24
fast as the speed of
00:04:25
[Music]
00:04:28
light to find out you need to make a
00:04:31
sound that can travel a long distance
00:04:33
five tons of plastic explosives should
00:04:35
do the
00:04:46
[Music]
00:04:48
trick how would he detect sound waves in
00:04:51
the
00:04:56
[Music]
00:04:58
ground
00:05:01
[Music]
00:05:15
Samantha's going to watch for the
00:05:17
explosion but she's wearing headphones
00:05:19
so she can't hear
00:05:27
it Fong is going to listen for it so
00:05:31
he's wearing a
00:05:32
blindfold and Elizabeth's going to
00:05:35
detect sound waves in the
00:05:37
[Music]
00:05:45
ground ready
00:05:48
[Music]
00:05:52
ready so who's going to be the first
00:05:55
second and third to detect the
00:05:58
explosion
00:06:00
[Music]
00:06:42
they were waiting to see the
00:06:45
light hear the
00:06:49
sound or feel the
00:06:51
[Music]
00:06:54
sound Samantha was first because the
00:06:56
light got to them before the sound
00:07:03
Elizabeth was next when she felt the
00:07:05
sound coming through the
00:07:09
ground and Fung was
00:07:12
last when he heard the sound of the
00:07:15
explosion coming through the
00:07:18
air the speed of sound in the air is 350
00:07:22
m/
00:07:24
second at 5,000 m/s sound travels much
00:07:28
faster through the ground
00:07:33
but light is much faster than any sound
00:07:35
at 300 million m/
00:07:42
[Applause]
00:07:50
second sounds can be low pitched or high
00:07:58
pitched
00:08:03
[Music]
00:08:10
a high pitch sound is a high frequency
00:08:12
sound that means there are more
00:08:14
compressions every
00:08:18
second but how do you hear the
00:08:20
difference between sounds of different
00:08:24
pitch a microphone is like an
00:08:28
ear
00:08:29
inside there's a diaphragm connected to
00:08:32
Electric
00:08:33
wires like the eardrum it vibrates when
00:08:36
sound waves strike it one two this
00:08:40
creates an electric current in the wires
00:08:43
which you can look at on a computer
00:08:44
screen 7
00:08:47
8 1 2 3 4 5 6 7
00:08:58
8
00:09:00
a trumpet has a higher pitch so it makes
00:09:03
a different picture on the computer
00:09:06
[Music]
00:09:11
screen ears work in a similar
00:09:16
way when a low frequency sound enters
00:09:19
the ear it's detected at the very center
00:09:22
of the
00:09:23
ccka and the brain recognizes a low
00:09:26
frequency
00:09:28
sound
00:09:30
[Music]
00:09:33
when a high frequency sound comes in it
00:09:35
gets detected in a different place
00:09:37
nearer the entrance of the
00:09:42
cocka this makes a different electrical
00:09:45
signal and the brain recognizes a high
00:09:48
frequency
00:09:56
sound you can make a musical instrument
00:09:58
out of of just about
00:10:00
anything we need
00:10:03
it if you can make something vibrate at
00:10:06
the right frequency you can get a
00:10:08
musical
00:10:13
note the bhone works by changing the
00:10:16
length of the tubes a shorter tube gives
00:10:18
a higher
00:10:22
[Music]
00:10:28
pitch
00:10:29
[Music]
00:10:37
go how are they changing the pitch of
00:10:39
the other
00:10:41
instruments
00:10:51
[Music]
00:10:58
it's
00:11:03
the frequency can depend on the size or
00:11:05
length of whatever's
00:11:11
[Music]
00:11:16
vibrating what else can the frequency
00:11:18
depend
00:11:22
on a piece of wire can make a musical
00:11:25
note but how are they making it loud
00:11:27
enough to hear
00:11:29
[Music]
00:11:57
think
00:11:59
uh well yeah
00:12:01
[Music]
00:12:27
nearly
00:12:32
[Music]
00:12:57
the
00:13:00
[Music]
00:13:19
how good is human hearing at different
00:13:27
frequencies this is a signal generator
00:13:29
it can make a whole range of
00:13:32
frequencies and they can change the
00:13:34
volume as
00:13:41
well the speaker is vibrating 50 times
00:13:45
every second so the frequency of this
00:13:47
sound is 50
00:13:49
[Music]
00:13:54
htz Angela and Sam put their hands up as
00:13:57
soon as they can hear the sound and
00:13:59
Kieran takes a not of the volume for
00:14:01
each of
00:14:04
them Caroline increases the frequency
00:14:06
and they start
00:14:27
again
00:14:43
here are the results the frequency goes
00:14:45
along the bottom the volume required to
00:14:48
hear the sound goes up the
00:14:51
side Angela's hearing is about the same
00:14:54
at most frequencies the volume had to go
00:14:57
up to about two before she could hear
00:15:00
it like most people her hearing isn't
00:15:03
quite so good at high frequencies so the
00:15:05
volume had to go up a little bit
00:15:11
higher human hearing is limited above
00:15:14
about 16,000 Herz and below 20 htz
00:15:17
Angela can't hear anything no matter how
00:15:19
loud the
00:15:22
sound Sam's results were about the same
00:15:24
as
00:15:27
Angela's Angela has a job where there's
00:15:29
a lot of loud noise so how will it
00:15:31
affect her
00:15:33
hearing Sam's putting on headphones he's
00:15:36
the control in this
00:15:40
experiment Angela is otherwise known as
00:15:42
DJ
00:15:44
[Music]
00:15:49
angel I don't usually wear a protection
00:15:51
when I'm DJing because um I like to hear
00:15:54
the music um fully I like to hear what
00:15:57
the crowd hears
00:16:00
um usually when I finished the gig my
00:16:02
hearring is a little bit muffled and it
00:16:03
takes a while for it to just back to
00:16:05
normal
00:16:07
again I suppose I really should wear ear
00:16:09
protection when I'm working to protect
00:16:12
my ears but it would make life that
00:16:13
little bit more
00:16:15
[Music]
00:16:19
[Applause]
00:16:21
[Music]
00:16:27
difficult
00:16:32
after the gig they do the same
00:16:34
experiment
00:16:37
again what do you think's going to
00:16:57
happen
00:17:01
[Music]
00:17:04
Sam's hearing is about the same as
00:17:05
before but the volume has to be turned
00:17:08
up before Angela can hear
00:17:10
[Music]
00:17:27
it
00:17:31
at high frequencies she has real
00:17:33
difficulty hearing the
00:17:45
sound here are Angela's results from
00:17:51
before afterwards the volume had to be
00:17:53
turned up much higher especially at high
00:17:57
frequencies
00:17:59
what do you think's happened inside her
00:18:04
ears remember high frequency sounds are
00:18:07
detected near the entrance of the
00:18:10
cockier so those cells are more likely
00:18:12
to be damaged by loud sounds and to stop
00:18:15
[Music]
00:18:19
working a very loud high frequency sound
00:18:22
can damage the cells for
00:18:27
good
00:18:29
loud music shouldn't damage your hearing
00:18:32
permanently but listening to it every
00:18:34
day could cause Angela
00:18:38
problems what precautions should she
00:18:40
take while she's
00:18:42
[Music]
00:18:57
working
![[YTP] Ludwig Eats His Betamax Collection (18+)](https://ruhnrawpgxrzdrgaohnf.supabase.co/storage/v1/object/public/images/video/Jn4iK_7g56s/thumbnail.jpg)