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erstenorder

Erstenorder is not a single, universally standardized term in German. In technical writing, the concept is usually expressed as "erste Ordnung" or, when used as a compound noun, "Ersterordnung." The English equivalent is "first order." The exact meaning depends on the discipline, but it generally denotes a primary level, a regime described by first-order relations, or a first-order differential or logical framework.

In mathematics, first order often refers to first-order differential equations, which involve the first derivative of

In logic and computer science, first-order logic (FOL) uses quantification over individual variables but not over

In physics and thermodynamics, a first-order phase transition is characterized by a discontinuous change in a

In control theory and systems science, a first-order system is described by a single dominant time constant

a
function.
A
common
example
is
linear
first-order
equations
of
the
form
y'
+
p(x)y
=
q(x).
Solutions
rely
on
methods
such
as
integrating
factors,
and
initial
value
problems
specify
the
solution
at
a
starting
point.
The
term
also
appears
in
the
context
of
first-order
Taylor
approximations,
where
functions
are
approximated
by
linear
terms
around
a
point.
predicates
or
functions.
It
includes
symbols
for
relations
and
functions,
logical
connectives,
and
quantifiers
(for
all,
exists).
FOL
serves
as
a
foundational
formalism
for
mathematics
and
theoretical
computer
science,
distinguishing
itself
from
higher-order
logics
that
quantify
over
predicates
or
sets.
system’s
first
derivatives
of
the
free
energy,
such
as
entropy
or
volume,
and
is
typically
accompanied
by
latent
heat.
In
chemistry
and
kinetics,
first-order
processes
have
rate
laws
directly
proportional
to
a
single
reactant’s
concentration,
yielding
exponential
decay
with
half-life
t1/2
=
ln
2
/
k.
τ,
with
a
standard
transfer
function
of
the
form
K/(τs
+
1).
Its
response
to
inputs
approaches
steady
state
exponentially.