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Resistivity and temperature coefficient

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The electrical resistivity ρ (Rho (letter)) of a material is given by

${\rho={R \left. \frac{A}{\ell} \right.}}$

where

ρ is the static resistivity (measured in ohm metres, Ω-m);

R is the electrical resistance of a uniform specimen of the material (measured in ohms, Ω);

$\ell$ is the length of the piece of material (measured in meters, m);

A is the cross-sectional area of the specimen (measured in square meters, m²).

The standard is to measure in m², but be warned that often you might need cm² or sq mils.

Material	Resistivity (Ω-m) at 20 °C	Coefficient*
Silver	1.59×10^-8	.0038
Copper	1.72×10^-8	.0039
Gold	2.44×10^-8	.0034
Aluminium	2.82×10^-8	.0039
Calcium	3.3x10^-8
Tungsten	5.60×10^-8	.0045
Nickel	6.99×10^-8	?
Iron	1.0×10^-7	.005
Tin	1.09×10^-7	.0045
Platinum	1.1×10^-7	.00392
Lead	2.2×10^-7	.0039
Manganin	4.82×10^-7	.000002
Constantan	4.9×10^-7	.00001
Lead	2.2×10^-7
Mercury	9.8×10^-7	.0009
Nichrome	1.10×10^-6	.0004
Carbon	3.5×10^-5	-.0005
Germanium	4.6×10^-1	-.048
Silicon	6.40×10²	-.075
Glass	10¹⁰ to 10¹⁴	?
Hard rubber	approx. 10¹³	?
Sulfur	10¹⁵	?
Paraffin	10¹⁷	?
Quartz (fused)	7.5×10¹⁷	?
PET	10²⁰	?
Teflon	10²² to 10²⁴	?

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Resistivity and temperature coefficient

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