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Hydraulische

Hydraulics is the branch of science and engineering that studies the mechanical behavior of liquids and the use of fluid pressure to perform work. It encompasses hydrostatics, the study of liquids at rest, and hydrodynamics, the behavior of liquids in motion. A central principle is Pascal's law: pressure applied to an enclosed fluid is transmitted undiminished, enabling force multiplication in hydraulic systems. In many practical analyses, liquids are treated as incompressible, which simplifies the modeling of pressure, flow, and energy transfer.

Historically, hydraulics emerged from early observations of fluid pressure and was advanced by scientists such as

A hydraulic system typically includes a fluid reservoir, pumps, actuators (pistons or hydraulic cylinders), valves, and

Applications span construction equipment (excavators, loaders), automotive braking and steering, aerospace flight controls, manufacturing automation, and

In German, hydraulische is the adjective form meaning hydraulic or relating to hydraulics; the field is called

Blaise
Pascal
and
researchers
in
the
17th
and
18th
centuries.
The
technology
matured
with
the
development
of
hydraulic
presses,
lifting
systems,
and
later
split
into
industrial
hydraulics
(energy
and
motion
transmission)
and
hydraulic
power
systems
(fluid
power).
flow
and
pressure
controls.
Fluid
transfers
energy
through
pressure
and
controlled
flow;
the
output
force
is
the
product
of
pressure
and
piston
area,
while
the
speed
depends
on
the
flow
and
cylinder
geometry.
Efficiency
is
affected
by
viscosity,
leaks,
and
pressure
losses
in
pipes
and
components.
water-management
infrastructure
such
as
gates
and
dam
systems.
Hydraulics
allows
large
forces
to
be
generated
with
compact
components
and
precise
control,
though
it
requires
careful
design
to
manage
leaks,
temperature,
and
fluid
cleanliness.
Hydraulik.
Hydraulic
technologies
use
incompressible
fluids,
mechanical
advantage,
and
energy
transmission
to
convert
fluid
pressure
into
motion
and
force.