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Lowresistance

Low resistance refers to an electrical path or component that offers a small opposition to the flow of electric current. The resistance R of a conductor is defined by Ohm's law as R = ρL/A, where ρ is the material resistivity, L is length, and A is cross-sectional area. A low resistance path allows higher current for a given voltage, and is common in power wiring and connectors. However, very low resistance can pose safety risks if it creates a short circuit, causing excessive current and overheating.

Contributors and variation: Materials with low resistivity (such as copper and aluminum) and thick cross-sections reduce

Applications and implications: In power systems, low resistance minimizes I^2R losses and improves efficiency; low-resistance interconnections,

Related concepts include Ohm's law, resistivity, impedance, and contact resistance.

R.
Temperature
increases
resistivity
in
most
conductors;
contact
resistance
at
joints
and
interfaces
adds
to
the
total
path
resistance.
Measurement
is
done
with
an
ohmmeter
on
de-energized
circuits;
for
more
precise
values,
four-wire
(Kelvin)
methods
minimize
lead
resistance.
Aging,
corrosion,
and
mechanical
damage
can
raise
effective
resistance.
bus
bars,
and
low-resistance
shunts
support
high
current.
In
electronics,
designers
balance
low
resistance
against
reliability,
heat,
and
noise;
extremely
low
resistance
paths
can
also
obscure
fault
conditions
if
not
properly
managed.