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impulsing

Impulsing refers to the act of delivering short-duration, high-amplitude signals or forces—impulses—to a system or signal path. The term is used across disciplines to describe both the generation of impulses and the response of systems to impulsive inputs.

In physics and engineering, an impulse is a force or voltage applied for a brief interval; the

In electronics and signal processing, impulses are used to characterize and test circuits. An ideal impulse

In medicine and neuroscience, impulses are employed for stimulation. Electrical or magnetic pulses—delivered by stimulators, pacemakers,

In mathematics and control theory, impulsive differential equations model systems that experience instantaneous state changes at

Because impulsing spans disciplines, its precise meaning depends on context but generally denotes the application or

impulse
is
the
time
integral
of
the
applied
quantity
and
corresponds
to
a
discrete
change
in
momentum
or
charge
transfer.
Impulsive
inputs
are
often
modeled
as
delta
functions;
real
impulses
have
finite
duration
but
are
short
enough
to
approximate
instantaneous
change.
The
response
of
a
linear
time-invariant
system
to
an
impulse
is
its
impulse
response,
and
many
systems
are
analyzed
by
convolving
this
response
with
input
signals.
Impulse
testing,
using
devices
such
as
an
impulse
hammer
or
a
shock
generator,
is
common
for
modal
analysis
and
structural
characterization.
has
infinite
amplitude
and
zero
duration,
but
practical
implementations
use
very
short
pulses
with
broad
spectral
content.
Impulses
underpin
the
concept
of
the
unit
impulse
in
the
Laplace
or
Fourier
domain
and
are
related
to
impulse
responses
and
system
identification.
or
transcranial
magnetic
stimulation
devices—are
applied
in
trains
or
sequences,
with
properties
such
as
pulse
width,
amplitude,
and
repetition
rate
determining
effects.
discrete
times,
leading
to
jump
conditions
that
supplement
continuous
dynamics.
study
of
brief,
high-energy
signals
or
events.