Electrical resistivity

Electrical resistivity

Electrical resistivity (also known as specific electrical resistance) is a measure indicating how strongly a material opposes the flow of electric current; if the resistivity of the material is small, that means that material is effective to carry electrons.

The resistivity of a material is usually denoted by the lower-case Greek letter rho (ρ) and is given by RS/l, where R is the resistance of a uniform specimen of the material, having a length l and a cross-section area S. The units of ρ are ohm meters. Its reciprocal quantity is electrical conductivity.

Also the resistivity is the magnitude of the electric field divided by the magnitude of the current density[?].

In general, electrical resistivity of metals increases with temperature, while the resistivity of semiconductors decreases with temperature.

Some materials lose all electrical resistivity under certain conditions; this effect is known as superconductivity.

The table of resistivity for various materials (at 20 degree):

Material Resistivity (Ohm-meters)

Silver 1.59 x 10^-8

Copper 1.7 x 10^-8

Gold 2.44 x 10^-8

Aluminum 2.82 x 10^-8

Tungsten 5.6 x 10^-8

Iron 10 x 10^-8

Platinum 11 x 10^-8

Lead 22 x 10^-8

Nichrome[?]
(A nickel-chromium alloy commonly used in heating elements) 1.50 x 10^-6

Carbon 3.5 x 10^-5

Germanium 0.46

Silicon 640

Glass 10¹⁰ to 10¹⁴

Hard rubber[?] approximately 10¹³

Sulfur 10¹⁵

Quartz (fused) 75 x ¹⁶

Material	Resistivity (Ohm-meters)
Silver	1.59 x 10^-8
Copper	1.7 x 10^-8
Gold	2.44 x 10^-8
Aluminum	2.82 x 10^-8
Tungsten	5.6 x 10^-8
Iron	10 x 10^-8
Platinum	11 x 10^-8
Lead	22 x 10^-8
Nichrome[?] (A nickel-chromium alloy commonly used in heating elements)	1.50 x 10^-6
Carbon	3.5 x 10^-5
Germanium	0.46
Silicon	640
Glass	10¹⁰ to 10¹⁴
Hard rubber[?]	approximately 10¹³
Sulfur	10¹⁵
Quartz (fused)	75 x ¹⁶