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motors

A motor is a machine that converts energy into mechanical work, most commonly rotational motion. Motors are used to drive machines and devices across industries and consumer goods. The energy source may be electricity, compressed fluid, or chemical energy, depending on motor type. The opposite device is a generator, which converts mechanical energy into electrical energy.

Electric motors are the most common. They operate on electromagnetic principles, in which current in windings

Other motor types include hydraulic motors that convert pressurized fluid energy into rotation, and pneumatic motors

Performance is described by power, torque, speed (rpm), and efficiency. Motors may be controlled by voltage, current,

Motors underpin a wide array of devices, from small household appliances to large industrial machines and transportation

or
permanent
magnets
interacts
with
magnetic
fields
to
produce
torque
on
a
rotor.
The
stator
provides
a
stationary
magnetic
field
while
the
rotor
turns.
Variety
exists:
DC
motors
with
direct
current,
including
brushed
and
brushless
designs,
and
AC
motors
such
as
induction
(asynchronous)
and
synchronous
motors.
The
universal
motor
can
run
on
either
AC
or
DC
and
is
often
used
in
portable
appliances.
Synchronous
motors
can
provide
constant
speed
and
are
often
used
in
clock
synchronization
and
HV
equipment.
driven
by
compressed
air.
Internal
combustion
engines
and
turbine
engines
are
sometimes
described
as
motors,
but
in
many
engineering
contexts
they
are
labeled
engines
or
prime
movers;
they
convert
chemical
or
thermal
energy
into
mechanical
energy
rather
than
electricity.
frequency,
or
electronic
drives,
such
as
variable
frequency
drives
for
AC
motors
or
PWM
controllers
for
DC
motors.
Mechanical
systems,
such
as
gears
or
belts,
adjust
speed
and
torque
at
the
load.
Proper
design,
cooling,
and
protection
are
important
for
reliability
and
safety.
systems.
Advances
focus
on
efficiency,
control
accuracy,
reliability,
and
integration
with
digital
control
systems.