Skip to main content
[ "article:topic", "license:ccbysa", "authorname:swellingson", "showtoc:no" ]
Engineering LibreTexts

A.3: Conductivity of Some Common Materials

  • Page ID
  • [m0137_Table_of_Conductivities]

    The values below are conductivity \(\sigma\) for a few materials that are commonly encountered in electrical engineering applications, and for which conductivity emerges as a consideration.

    Note that materials in some applications are described instead in terms of resistivity, which is simply the reciprocal of conductivity.

    Conductivity may vary significantly as a function of frequency. The values below are representative of frequencies from a few kHz to a few GHz. Conductivity also varies as a function of temperature. In applications where precise values are required, primary references accounting for frequency and temperature should be consulted. The values presented here are gathered from a variety of references, including those indicated in “Additional References” at the end of this section.

    Free Space (vacuum): \(\sigma\triangleq 0\).

    Commonly encountered elements:

    Material \(\sigma\) (S/m)
    Copper \(5.8\times 10^7\)
    Gold \(4.4\times 10^7\)
    Aluminum \(3.7\times 10^7\)
    Iron \(1.0\times 10^7\)
    Platinum \(0.9\times 10^7\)
    Carbon \(1.3\times 10^5\)
    Silicon \(4.4\times 10^{-4}\)

    Water exhibits \(\sigma\) ranging from about \(6~\mu\)S/m for highly distilled water (thus, a very poor conductor) to about \(5\) S/m for seawater (thus, a relatively good conductor), varying also with temperature and pressure. Tap water is typically in the range 5–50 mS/m, depending on the level of impurities present.

    Soil typically exhibits \(\sigma\) in the range \(10^{-4}\) S/m for dry soil to about \(10^{-1}\) S/m for wet soil, varying also due to chemical composition.

    Non-conductors. Most other materials that are not well-described as conductors or semiconductors and are dry exhibit \(\sigma < 10^{-12}\) S/m. Most materials that are considered to be insulators, including air and common dielectrics, exhibit \(\sigma < 10^{-15}\) S/m, often by several orders of magnitude.

    Additional Reading: