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ohms

Ohms is the SI unit of electrical resistance, symbolized by the Greek letter omega (Ω). The unit is named after the German physicist Georg Simon Ohm, who established Ohm’s law. In practical use, the plural is “ohms,” and the unit describes how strongly a component resists the flow of electric current.

The resistance R between two points is defined by Ohm’s law as R = V / I, where V

Uniform conductors have resistance that depends on material properties, length, and cross-sectional area: R = ρL/A, where

Standards and definitions have evolved with the SI system. Since 2019, the ohm is realized through fixed

Ohms are used to characterize electrical components such as resistors, sensors, and circuitry. Common examples range

is
the
potential
difference
and
I
is
the
current.
A
one-ohm
resistor
passes
one
ampere
of
current
when
a
one-volt
potential
difference
is
applied
(assuming
constant
temperature
and
no
electromotive
forces).
The
ohm
is
also
expressed
as
one
volt
per
ampere.
Its
dimensional
formula
is
voltage
divided
by
current,
or
equivalently
electrical
conductance
is
the
reciprocal
in
siemens
(S).
ρ
is
resistivity,
L
is
length,
and
A
is
cross-sectional
area.
This
relation
explains
why
longer
or
thinner
wires
exhibit
higher
resistance
and
why
different
materials
have
different
resistivities.
fundamental
constants,
notably
the
relationship
between
voltage
and
frequency
via
the
Josephson
effect
and
the
quantum
Hall
effect
that
defines
the
von
Klitzing
constant
R_K
=
h/e^2
as
an
exact
value.
In
practice,
the
ohm
is
realized
with
quantum
electrical
standards
to
maintain
precise,
reproducible
resistance
measurements.
from
fractions
of
an
ohm
in
low-value
shunts
to
kiloohms
or
megohms
in
signaling
and
insulation
applications.
See
also
resistivity,
conductance,
and
Ohm’s
law.