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snelheidconstante

The snelheidconstante, also known as the speed of light in vacuum, is a fundamental physical constant that represents the maximum speed at which all energy, matter, and information can travel. It is denoted by the symbol 'c' and has a value of exactly 299,792,458 meters per second. This constant is a defining feature of the theory of special relativity, proposed by Albert Einstein in 1905.

The snelheidconstante plays a crucial role in various fields of physics, including electromagnetism, optics, and quantum

In practical terms, the snelheidconstante is used in numerous applications, from GPS systems to medical imaging

The exact value of the snelheidconstante was first measured by the Danish astronomer Ole Rømer in 1676,

mechanics.
It
is
the
speed
at
which
electromagnetic
radiation,
such
as
light,
travels
in
a
vacuum.
This
speed
is
also
the
upper
limit
for
the
velocity
of
any
massive
object,
as
it
would
require
an
infinite
amount
of
energy
to
accelerate
an
object
to
the
speed
of
light.
technologies
like
MRI.
It
is
also
a
key
component
in
the
equations
of
modern
physics,
such
as
E=mc^2,
which
relates
mass
and
energy.
and
it
has
since
been
precisely
determined
through
various
experiments
and
observations.
The
definition
of
the
meter
in
the
International
System
of
Units
(SI)
is
based
on
the
snelheidconstante,
making
it
a
cornerstone
of
modern
metrology.