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resistanssi

Resistanssi, in physics and electronics, refers to electrical resistance—the property of a material or component that opposes the flow of electric current. It is defined as the ratio of the voltage across the component to the current through it (R = V/I) for a material that behaves approximately linearly (ohmic). The SI unit is the ohm (Ω), and the symbol commonly used is R.

The resistance of a conductor depends on the material, temperature, length, and cross-sectional area. It can

Temperature and frequency influence resistanssi. For many metals, resistance increases with temperature due to enhanced lattice

In circuits, resistors can be arranged in series or parallel. In series, resistances add (R_total = R1 +

Resistanssi is measured with instruments such as multimeters, and for very low or very high values specialized

be
expressed
as
R
=
ρL/A,
where
ρ
is
the
resistivity
of
the
material,
L
is
the
length,
and
A
is
the
cross-sectional
area.
Longer
conductors
and
thinner
cross-sections
increase
resistance,
while
materials
with
lower
resistivity
have
smaller
resistance.
scattering
of
electrons.
In
semiconductors
and
some
other
materials,
the
dependence
can
be
more
complex
and
non-linear,
and
at
high
frequencies
the
effective
resistance
can
differ
because
of
reactance.
R2
+
…).
In
parallel,
the
reciprocal
of
the
total
resistance
is
the
sum
of
the
reciprocals
(1/R_total
=
1/R1
+
1/R2
+
…).
The
inverse
quantity,
conductance
G
=
1/R,
is
sometimes
used.
methods
(e.g.,
four-terminal
sensing)
are
used
to
reduce
measurement
errors.
Applications
include
voltage
dividers,
current
limiting,
heating
elements,
and
temperature
sensing
(thermistors).
In
Finnish,
resistanssi
denotes
the
electrical
resistance,
the
same
concept
as
in
other
languages.