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impedanties

Impedanties is the Dutch plural form of impedance, an electrical property describing opposition to alternating current in circuits. Impedance generalizes the concept of resistance to AC signals and can be represented as a complex number Z = R + jX, where R is the real part (resistance) and X is the reactive part (reactance).

The reactive part comes from energy-storing components: inductors and capacitors. For a given angular frequency ω, X_L

Impedances combine differently depending on configuration: in series, Z_total = Z1 + Z2; in parallel, 1/Z_total = 1/Z1 + 1/Z2.

At resonance, X_L + X_C = 0, leaving a purely resistive impedance. Impedanties play key roles in impedance

Practical measurement of impedance is performed with LCR meters or impedance analyzers, often across a range

=
ωL
and
X_C
=
-1/(ωC).
Resistance
R
is
typically
treated
as
frequency
independent
in
ideal
components,
so
Z_R
=
R,
Z_L
=
jωL,
Z_C
=
-j/(ωC).
In
AC
analysis,
voltages
and
currents
are
treated
as
phasors,
with
V
=
IZ
and
the
phase
of
Z
indicating
whether
the
circuit
current
lags
or
leads
the
voltage.
The
magnitude
|Z|
=
sqrt(R^2
+
X^2)
and
the
phase
angle
φ
=
arctan(X/R).
matching,
filter
design,
and
transmission-line
systems,
where
the
goal
is
to
maximize
power
transfer
or
control
signal
behavior
over
frequency.
of
frequencies
in
impedance
spectroscopy.
The
concept
also
extends
to
complex
impedance
in
materials,
electrochemistry,
and
RF
engineering.
See
also
impedance,
phasor,
complex
impedance,
and
impedance
spectroscopy.