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idraulica

Idraulica, or hydraulics, is the branch of science and engineering dealing with the mechanical properties of liquids, the forces they exert, and their use in transmitting power and controlling machinery. The field covers fluid statics and dynamics, the behavior of liquids under pressure, and the design of systems that convert fluid energy into motion or force.

The discipline rests on several core principles. Pascal's law states that pressure applied to a confined incompressible

A typical hydraulic system includes a fluid (often oil-based) contained in a reservoir, a pump to pressurize

Applications are wide-ranging. Hydraulics powers industrial machinery, presses, machine tools, and automation systems; it drives construction

Historically, hydraulic concepts trace to ancient engineers and were formalized by figures such as Pascal and

fluid
is
transmitted
undiminished
in
all
directions.
Hydrostatics
deals
with
fluids
at
rest,
while
fluid
dynamics
describes
moving
liquids
using
concepts
such
as
the
continuity
equation
and
Bernoulli’s
principle
for
ideal
flows.
These
principles
underpin
the
operation
of
hydraulic
systems
and
devices.
the
fluid,
actuators
such
as
cylinders
and
hydraulic
motors,
control
valves,
and
a
network
of
pipes
or
hoses.
The
pressurized
fluid
transmits
energy
through
the
system
to
perform
work,
with
energy
losses
due
to
friction,
heat,
and
leakage
considered
in
design
and
operation.
Fluids
are
chosen
for
properties
like
viscosity,
lubricity,
and
temperature
stability,
and
system
components
are
selected
to
meet
safety
and
reliability
requirements.
equipment
such
as
excavators
and
loaders;
it
plays
a
key
role
in
braking,
steering,
and
flight-control
systems
in
vehicles
and
aircraft;
and
it
supports
water
supply,
irrigation,
and
other
fluid-management
networks.
Bernoulli.
In
modern
engineering,
hydraulics
remains
central
to
fluid
power,
often
integrated
with
electronics
and
pneumatics
to
deliver
precise,
powerful
control.