Electrical conductivity

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Electrical conductivity

Electrical conductivity or specific conductivity is a measure of a material's ability to conduct an electric current. When an electrical potential difference is placed across a conductor, its movable charges flow, giving rise to an electric current. The conductivity σ is defined as the ratio of the current density $mathbf\left\{J\right\}$ to the electric field strength $mathbf\left\{E\right\}$:

:$mathbf\left\{J\right\} = sigma mathbf\left\{E\right\}$

It is also possible to have materials in which the conductivity is anisotropic, in which case σ is a 3&times;3 matrix (or more technically a rank-2 tensor) which is generally symmetric.

Conductivity is the reciprocal (inverse) of electrical resistivity and has the SI units of siemens per metre (S·m-1) i.e. if the electrical conductance between opposite faces of a 1-metre cube of material is 1 Siemens then the material's electrical conductivity is 1 Siemens per metre. Electrical conductivity is commonly represented by the Greek letter σ, but κ or γ are also occasionally used.

An EC meter is normally used to measure conductivity in a solution.

Classification of materials by conductivity

* A conductor such as a metal has high conductivity and a low resistance.
* An insulator like glass or a vacuum has low conductivity.
* The conductivity of a semiconductor is generally intermediate, but varies widely under different conditions, such as exposure of the material to electric fields or specific frequencies of light, and, most important, with temperature and composition of the semiconductor material.

The degree of doping in solid state semiconductors makes a large difference in conductivity. More doping leads to higher conductivity. The conductivity of a solution of water is highly dependent on its concentration of dissolved salts and sometimes other chemical species which tend to ionize in the solution. Electrical conductivity of water samples is used as an indicator of how salt-free or impurity-free the sample is; the purer the water, the lower the conductivity or higher.

ome electrical conductivities

Complex conductivity

To analyse the conductivity of materials exposed to alternating electric fields, it is necessary to treat conductivity as a complex number (or as a matrix of complex numbers, in the case of anisotropic materials mentioned above) called the "admittivity". This method is used in applications such as electrical impedance tomography, a type of industrial and medical imaging. Admittivity is the sum of a real component called the conductivity and an imaginary component called the susceptivity. [http://www.otto-schmitt.org/OttoPagesFinalForm/Sounds/Speeches/MutualImpedivity.htm]

An alternative description of the response to alternating currents uses a real (but frequency-dependent) conductivity, along with a real permittivity. The larger the conductivity is, the more quickly the alternating-current signal is absorbed by the material (i.e., the more opaque the material is). For details, see Mathematical descriptions of opacity.

Temperature dependence

Electrical conductivity is strongly dependent on temperature. In metals, electrical conductivity decreases with increasing temperature, whereas in semiconductors, electrical conductivity increases with increasing temperature. Over a limited temperature range, the electrical conductivity can be approximated as being directly proportional to temperature. In order to compare electrical conductivity measurements at different temperatures, they need to be standardized to a common temperature. This dependence is often expressed as a slope in the conductivity-vs-temperature graph, and can be used:

:$sigma_\left\{T\text{'}\right\} = \left\{sigma_T over 1 + alpha \left(T - T\text{'}\right)\right\}$

where

:"σT&prime;" is the electrical conductivity at a common temperature, "T&prime;":"σT" is the electrical conductivity at a measured temperature, "T":"α" is the temperature compensation slope of the material,:"T" is the measured absolute temperature, :"T&prime;" is the common temperature.

The temperature compensation slope for most naturally occurring waters is about 2 %/°C, however it can range between (1 to 3) %/°C. This slope is influenced by the geochemistry, and can be easily determined in a laboratory.

At extremely low temperatures (not far from absolute 0 K), a few materials have been found to exhibit very high electrical conductivity in a phenomenon called superconductivity.

References

ee also

*Classical and quantum conductivity
*Electrical conduction for a discussion of the physical origin of electrical conductivity.
*Electrical resistance
*Electrical resistivity is the inverse of electric conductivity
*Molar conductivity for a discussion of electrolytic conductivity i.e. conductivity due to ions in solution
*SI electromagnetism units
*Transport phenomena
* Thermal conductivity

* [http://glassproperties.com/resistivity/ElectrResistMeasurement.htm Measurement of the Electrical Conductivity of Glass Melts] Measurement Techniques, Definitions, Electrical conductivity Calculation from the Glass Composition
* [http://environmentalchemistry.com/yogi/periodic/electrical.html Periodic Table of Elements Sorted by Electrical Conductivity]

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Look at other dictionaries:

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