Appendix.
The
Synthesizer
Sound
Seminar
8 Sound
Every
day,
we
hear
a greater variety
of
sounds. Tones, the
noise
of
car engines, doors opening and closing,
footsteps,
rain
..
.
and
music
.
In
other words,
we
live
our
lives
surrounded
by
sound.
We
can't
see
sound,
so
how
can
we
describe
it?
Physics
tells
us
that "Sound
is
vibration". Taking· the sound
of
a
bell
•
as
an
example,
we
will
try
to
pursue
the
basics
of sound
as
it
is
produced
and
as
it
is
heard.
When
kinetic (motive) energy
is
applied to a
bell
with
a
bell
hammer
as
shown
in
figure
1,
a "deformation"
of the
bell
occurs
causing
energy
to work trying to restore the
bell
to
its
original state. A periodic repetition
of deformation
and
restoration commences. This
is
called
vibration.
This
vibration causes pressure
changes
in
the air. These
are
called
compressional
waves.
They are similar
to the ripples that occurs
when
a stone
is
thrown into water.
These compressional
waves
are
transmitted to the
human
ear
where
they
cause
the eardrum to vibrate. These
vibrations are picked
up
by
nerves
so
we
hear
them
as
"sound".
If
the vibrating body differs,
so
will
the
vibrations, meaning that
we
also
hear a different
kind
of sound. Outer space, where there
is
no
air,
is
a world
altogether without sound.
I
:~ne
Remember
f-------------~
Sound
is
vibration of the air.
(fig.
1)
2
Wave
Forms
- Seeing
Sounds
With Our
Eyes
-
, I '
As
explained above, sounds cannot actually
be
seen
since
they
are
,vibrations of the air. However you
will
often hear expressions
such
as
,"the
w~ve
form
is
different" or "this
is
almost a pure sine wave" c~ncerning
sounds.
What
is
meant
by
"sound
waves"?
,,
' Condensed
)))))
) )
ilil'i)
'°
;"')'i')));"i')i'»J'it'"~~•E!),~
"T;m,
dense J dense J dense Rarefied l
non-dense non-dense (low atmospheric
..
8
-1
cycle ---l
pressure)
Let's consider t~e
mechani_sm
o_f a micro?hone
which
is
used
as
a means for picking up sound. A microphone
~onvert~
sound. into electrical
s'.gnals_
which
can
be
then transmitted to
an
amplifier
and'
speakers.
As
shown
~n
the
1llustr~t1on,
these
_electrical
~1gna~s
are
simple conversions of the vibrations of the air ( the
changes
m atmo~pheric pressure) into electrical
(±)
and 8 .
When
these changes are presented graphically they
d
ean_
be
interpreted
as
"wa~e
and
displays then
as
waveforms
on
a television screen. If
we
use
this kind of a
ev1ce,
we
can
see
sounds with our own eyes. ,
What
we
see
are
"waveforms" These waveforms diff
ti
d'
teristics. These points
will
be
e~plained later on
in
th;r;~~:n~i:~cor
mg
to the sound and have various charac·
-62-
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