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fluides

Fluides (French for fluids) are substances that can flow and assume the shape of their container. They include liquids and gases. Fluids respond to forces with deformation and do not resist shear as rigid bodies do. The study of fluids covers statics, dynamics, and transport phenomena in engineering, physics, and biology.

Key properties are density, ρ; viscosity, μ; compressibility; and surface tension. Liquids are relatively incompressible and have definite

In static fluids, pressure increases with depth according to P = ρ g h, and buoyancy arises from

In motion, fluids are described by conservation laws. The Navier–Stokes equations express conservation of mass and

Examples and applications include water in pipes, air over an aircraft wing, blood flow, oil extraction, meteorology,

volume,
while
gases
are
compressible
and
fill
available
space.
Viscosity
measures
internal
friction;
Newtonian
fluids
have
constant
viscosity,
while
non-Newtonian
fluids
change
viscosity
with
shear.
displaced
fluid
(Archimedes'
principle).
Boundaries
transmit
pressure
according
to
Pascal's
law.
Surface
tension
causes
capillary
rise
and
droplets
formation.
momentum
for
viscous
fluids.
For
ideal
fluids,
Euler
equations
apply.
Flow
regimes
are
characterized
by
Reynolds
number;
low
Re
favors
laminar
flow,
high
Re
tends
to
turbulence.
Bernoulli's
principle
relates
pressure,
speed,
and
height
for
steady,
incompressible,
inviscid
flow
along
a
streamline.
oceanography,
and
microfluidics.
Non-Newtonian
fluids
such
as
ketchup
or
cornstarch
suspensions
exhibit
rate-dependent
viscosity.
Flow
in
porous
media
is
often
described
by
Darcy's
law.