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drukveld

Drukveld, meaning pressure field in Dutch, is the spatial distribution of pressure within a medium. It is represented mathematically as a scalar field p(x, y, z, t) that assigns a pressure value to each point in space (and time). The pressure at a given location can vary with position and time depending on forces acting on the medium, gravity, and boundary conditions. In a static, incompressible fluid subject to gravity, the pressure increases with depth according to p(z) = p0 + ρ g z, where z is depth and ρ is density. In dynamic flows, the pressure field is coupled to the velocity field through the Navier–Stokes equations; pressure acts as a Lagrange multiplier enforcing mass conservation.

Small-amplitude pressure variations around a static state are studied in acoustics; these variations p' satisfy wave

Applications of the drukveld concept span multiple disciplines. In civil engineering, pore pressure in soils affects

equations.
Pressure
fields
are
measured
with
sensors
such
as
manometers,
piezoelectric
transducers,
or
pitot
tubes,
and
are
expressed
in
pascals
(Pa).
The
pressure
distribution
is
essential
for
calculating
hydrostatic
forces
on
submerged
structures,
or
the
loads
in
pipes
and
vessels.
stability
and
deformation.
In
meteorology
and
oceanography,
atmospheric
and
hydrostatic
pressure
fields
influence
weather
patterns
and
sea
dynamics.
In
geophysics
and
reservoir
engineering,
pressure
fields
describe
subsurface
stress,
fluid
flow,
and
resource
recovery.
Overall,
the
drukveld
provides
a
fundamental
description
of
how
pressure
is
arranged
and
evolves
within
a
medium.