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Irreversibelt

Irreversibelt is a term used in Norwegian to describe systems, processes, or events that cannot be returned to their original state by any natural or internal means alone. In everyday language and in scientific contexts, it is opposed to reversible phenomena, where the progression of steps can be undone to restore the starting conditions without lasting changes to the surroundings.

In thermodynamics and physics, irreversibility is closely linked to the second law of thermodynamics. Real processes

In information theory and computation, irreversibility has a related but distinct meaning. A process is logically

Beyond physics and computation, irreversibelt appears in discussions of time, philosophy, and economics. It describes events

See also: entropy, arrow of time, Landauer’s principle, irreversible investment.

tend
to
increase
the
overall
entropy
of
a
system
and
its
environment,
making
spontaneous
return
to
the
initial
state
highly
improbable.
Common
examples
include
mixing
two
fluids,
diffusion
of
substances,
frictional
heating,
and
chemical
reactions.
Although
energy
may
be
conserved,
the
exact
microscopic
arrangement
of
particles
cannot
be
reinstated
without
external
intervention,
such
as
cooling
or
external
work.
irreversible
if
it
loses
information
about
its
prior
state,
so
the
original
input
cannot
be
uniquely
reconstructed
from
the
output.
Erasing
data
is
a
canonical
example
and,
according
to
Landauer’s
principle,
has
a
fundamental
energy
cost.
or
decisions
that
cannot
be
undone
or
reversed
in
practice,
such
as
taxonomic
changes,
historical
accidents,
or
irreversible
investments
where
hindsight
cannot
recreate
the
original
conditions.