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trykforskellen

The term trykforskellen (literally "pressure difference" or "pressure differential") refers to the difference between two pressure values in a system. It determines the driving force for fluid motion and is a central concept in physics, engineering, and physiology.

Symbolically, ΔP = P1 − P2. The magnitude is measured in pascals (Pa) in the SI system, with

In fluids, ΔP drives flow. For viscous laminar flow through a cylindrical pipe, Hagen-Poiseuille's law states

Applications span engineering and physiology. In engineering, ΔP moves liquids and gases through pipelines, HVAC systems,

Overall, the concept of trykforskellen is widely used wherever fluids or gases flow, because a difference in

common
subunits
such
as
kilopascals
(kPa).
In
medical
contexts,
pressure
differences
are
often
expressed
in
millimeters
of
mercury
(mmHg).
Pressure
readings
can
be
absolute,
gauge,
or
differential;
the
pressure
difference
itself
is
the
driving
force
for
flow
regardless
of
the
reference.
that
Q
=
(π
ΔP
r^4)
/
(8
μ
L).
In
general,
flow
rate
is
roughly
proportional
to
ΔP
and
inversely
related
to
resistance;
this
is
analogous
to
Ohm's
law
in
electrical
circuits.
Bernoulli's
principle
also
relates
ΔP
to
changes
in
fluid
velocity
and
elevation,
linking
pressure
differences
to
kinetic
and
potential
energy
in
the
fluid.
irrigation
networks,
and
hydraulic
machines.
In
biology
and
medicine,
the
heart
maintains
a
pressure
difference
to
drive
blood
through
the
circulatory
system,
and
pressure
gradients
govern
filtration
and
exchange
across
membranes.
Measurement
typically
uses
manometers
or
pressure
transducers
to
determine
ΔP
between
two
points
in
a
system.
pressure
is
the
fundamental
driver
of
motion.