Home

kokpunkten

Kokpunkten is the term used in Swedish to denote the boiling point, the temperature at which a liquid turns into vapor under a given pressure. In physics and chemistry, it applies to both pure substances and solutions. At standard atmospheric pressure (1 atm, 101.3 kPa), water boils at 100 °C, but different liquids have different boiling points. Boiling point depends on pressure: lowering the pressure decreases the boiling temperature, while increasing the pressure raises it. This relationship is central to distillation, heat transfer, and many industrial processes.

Impurities and solutes affect kokpunkten through boiling point elevation, a colligative property. Adding dissolved substances raises

Kokpunkten can be estimated or measured using established methods and formulas. The Antoine equation and Clausius–Clapeyron

Applications and relevance include cooking, chemical engineering, and energy production, where precise knowledge of kokpunkten influences

the
boiling
point
of
a
solution
relative
to
the
pure
solvent,
with
the
effect
depending
on
concentration
and
solute
properties.
In
mixtures,
a
liquid
may
exhibit
a
boiling
range
rather
than
a
single
fixed
point.
relation
describe
how
temperature
and
vapor
pressure
relate
for
many
substances.
In
laboratory
practice,
ebullioscopy,
distillation,
or
calibrated
thermometers
in
controlled
pressure
environments
are
used
to
determine
the
boiling
point.
separation
processes,
design
of
condensers
and
boilers,
and
safety
considerations.
Metaphorically,
the
term
can
also
refer
to
reaching
a
peak
or
critical
point
in
non-scientific
contexts.