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Sound is a mechanical wave produced by vibrating objects and propagating through a medium as pressure variations. In gases, liquids, and solids the disturbance travels as longitudinal waves, with regions of compression and rarefaction carried by the particles of the medium. Sound requires a medium to propagate; it does not travel in a vacuum.

The primary physical properties of sound are frequency, amplitude, and timbre. Frequency, measured in hertz, determines

Perception of sound involves the auditory system. Humans typically hear from about 20 Hz to 20 kHz,

Sound interacts with environments through reflection, absorption, diffraction, and interference, producing phenomena such as echoes and

pitch;
higher
frequencies
produce
higher
pitches.
Amplitude
relates
to
loudness
and
is
commonly
expressed
as
sound
pressure
level
in
decibels.
Timbre,
or
tone
color,
distinguishes
different
sound
sources
even
when
they
share
the
same
pitch
and
loudness.
The
speed
of
sound
depends
on
the
medium
and
its
conditions:
for
air
at
room
temperature
it
is
about
343
meters
per
second,
faster
in
liquids
and
even
faster
in
solids.
Wavelength
is
the
distance
over
which
the
wave’s
shape
repeats
and
is
the
product
of
speed
and
period.
with
sensitivity
varying
across
frequencies
and
decreasing
with
age.
The
ear
converts
mechanical
energy
into
neural
signals
via
the
outer
ear,
middle
ear
(ossicles),
and
inner
ear
(cochlea).
The
decibel
scale
measures
sound
intensity,
with
weighting
curves
like
A-weighting
reflecting
human
sensitivity.
Excessive
exposure
can
cause
hearing
damage.
reverberation.
It
can
be
natural
or
human-made,
including
speech,
music,
noise,
and
ultrasonic
or
infrasonic
signals.
Applications
span
acoustics,
audio
engineering,
ultrasound
imaging,
sonar,
and
architectural
design,
while
health
and
safety
considerations
focus
on
noise
control
and
hearing
protection.