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Konzentrationsabhängigkeit

Konzentrationen (German for concentrations) denote the amount of a substance within a defined space or system. In science, it commonly refers to how much solute is present in a given amount of solvent or solution, and it is a central concept in chemistry, physics, biology, and environmental science.

In chemistry, concentration is commonly expressed in several units: molarity (moles of solute per liter of solution,

Concentration is determined by various methods and instruments: gravimetric methods, acid-base titration, UV–visible or infrared spectroscopy,

Applications span many fields. In chemistry, concentrations influence reaction rates, equilibria, and phase behavior. In biology

Evolution of the concept and notation has been influenced by the development of the SI system, with

M),
molality
(moles
per
kilogram
of
solvent,
m),
mass
concentration
(grams
per
liter,
g/L),
and
less
commonly,
volume
fraction
and
mole
fraction.
Normality
is
an
older
convention
that
relates
to
equivalent
concepts
depending
on
the
reaction.
chromatography,
and
sensor-based
techniques.
Accurate
concentration
measurements
require
calibration
with
standard
solutions
and
careful
consideration
of
temperature
and
pressure
when
applicable.
and
medicine,
the
concentrations
of
ions,
metabolites,
and
drugs
govern
physiology
and
treatment.
In
environmental
science,
monitoring
contaminant
concentrations
in
air,
water,
and
soil
is
routine
for
risk
assessment
and
regulation.
mol
per
liter
serving
as
the
standard
unit
for
solution
concentration,
while
dimensionless
mole
fractions
are
commonly
used
for
gas
mixtures
and
mixtures
in
thermodynamics.