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enheter

Enheter (units) are standard quantities used to express and compare physical properties such as length, time, and mass. They provide a reference for communicating measurements, ensuring reproducibility, and enabling calculations across contexts.

The International System of Units (SI) is the dominant framework for scientific measurement. It defines seven

Many non-SI units remain in common use. Examples include the litre, hour, and tonne, and some fields

Metrology is the science of measurement. National and international bodies, led by the International Bureau of

In 2019, the SI base units were redefined in terms of fundamental constants rather than artifact standards.

base
units:
metre
for
length,
kilogram
for
mass,
second
for
time,
ampere
for
electric
current,
kelvin
for
thermodynamic
temperature,
mole
for
amount
of
substance,
and
candela
for
luminous
intensity.
Derived
units
are
formed
from
these
base
units,
such
as
the
newton
(kilogram
metre
per
second
squared)
and
the
joule
(kilogram
metre
squared
per
second
squared).
SI
prefixes,
such
as
kilo-,
milli-,
micro-,
and
nano-,
express
multiples
and
submultiples
of
units,
allowing
convenient
scaling
without
altering
relationships
between
quantities.
use
specialized
systems
like
CGS
or
Imperial
units.
In
scientific
work,
units
are
typically
converted
to
a
consistent
system
to
avoid
arithmetic
errors
and
to
enable
comparison.
Weights
and
Measures
(BIPM)
and
its
committees,
maintain
definitions,
standards,
and
the
framework
for
traceability.
Measurements
are
reported
with
uncertainty
estimates
and
calibrated
against
SI
standards.
The
metre
is
defined
by
the
speed
of
light,
the
kilogram
by
the
Planck
constant,
the
ampere
by
the
elementary
charge,
the
kelvin
by
the
Boltzmann
constant,
the
mole
by
Avogadro’s
number,
and
the
candela
by
a
fixed
luminous
efficacy.
Time
remains
defined
by
the
cesium
frequency.
These
changes
ensure
long-term
stability
and
universality
of
enheter.