International System of Electrical and Magnetic Units

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The International System of Electrical and Magnetic Units is an obsolete system of units used solely for measuring electrical and magnetic quantities. It was introduced by the Fourth International Conference of Electricians (Chicago, 1893) and modified in 1908. It was rendered obsolete by the inclusion of electromagnetic units in the International System of Units (SI) in 1948.

Earlier systems

The link between electromagnetic units and the more familiar units of length, mass and time was first demonstrated by Gauss in 1832 with his measurement of the Earth's magnetic field,[1] and the principle was extended to electrical measurements by Neumann in 1845.[2] A complete system of metric electrical and magnetic units was proposed by Weber in 1851.[3][Note 1]

The development of the electric telegraph (an invention of Gauss and Weber) demonstrated the need for accurate electrical measurements. At the behest of Thomson, the British Association for the Advancement of Science (B.A.) set up a committee in 1862 to examine the options for standardizing electrical and magnetic units. After much discussion, the committee decided to adapt Weber's proposals to the cgs system of units:Cite error: Closing </ref> missing for <ref> tag ! cgs ("absolute") equivalent ! Notes |- | Ampere | the unvarying current which, when passed through a solution of silver nitrate in water, deposits silver at the rate of 0.001 118 00 grams per second | the current produced in a conductor with a 1 ohm resistance when there is a potential difference of 1 volt between its ends | 0.1 cgs units of electric current |- | Ohm | the resistance offered to an unvarying electric current by a column of mercury at the temperature of melting ice 14.4521 grams in mass, of a constant cross-sectional area and of the length of 106.3 centimetres | | 109 cgs units of electric resistance |- | Volt | 10001434 of the electromotive force of a Clark cell at a temperature of 15 °C | the electromotive force produced in an electric circuit which cuts 108 magnetic lines of force per second | 108 cgs units of electromotive force |- |}

Overdefinition and the 1908 modification

The 1893 system of units was overdefined, as can be seen from an examination of Ohm's law:

V = IR

By Ohm's law, knowing any two of the physical quantities V, I or R (potential difference, current or resistance) will define the third, and yet the 1893 system defines the units for all three quantities. With improvements in measurement techniques, it was soon realized that 1 Vint ≠ 1 Aint × 1 Ωint.

The solution came at an international conference in London in 1908. The essential point was to reduce the number of base units from three to two by redefining the international volt as a derived unit. There were several other modifications of less practical importance:[4]

  • the international ampere and the international ohm were formally defined in terms of the corresponding cgs electromagnetic units, with the 1893 definitions retained as preferred realizations;
  • the preferred realization of the international volt was in terms of the electromotive force of a Weston cell at 20 °C (1.0184 Vint), as this type of cell has a lower temperature coefficient than the Clark cell.
  • several other derived units for use in electrical and magnetic measurements were formally defined:[Note 2]
International Coulomb
the electric charge transferred by a current of one international ampere in one second;
International Farad
the capacitance of a capacitor charged to a potential of one international volt by one international coulomb of electricity;
Joule
107 units of work in the C.G.S. system, represented sufficiently well for practical use by the energy expended in one second by an international ampere in an international ohm;
Watt
107 units of power in the C.G.S. system, represented sufficiently well for practical use by the work done at the rate of one joule per second;
Henry
the inductance in a circuit when an electromotive force induced in this circuit is one international volt, while the inducing current varies at the rate of one ampere per second.

SI units

Notes and references

Notes

  1. Weber's original proposal was based on a millimetre–milligram–second system of units.
  2. Cite error: Invalid <ref> tag; no text was provided for refs named update

References

  1. Gauss, C. F. Intensitas vis magneticae terrestris ad mensuram absolutam revocata. Commentationes Societatis Regiae Scientiarum Gottingensis Recentiores 1832–37, 8, 3–44.
  2. Neumann, F. E. Die mathematischen Gesetze der induciten elektrischen Ströme. Abhandlungen der Königlichen Preußischen Akademie der Wissenschaften zu Berlin 1845, 1–87, <http://bibliothek.bbaw.de/bbaw/bibliothek-digital/digitalequellen/schriften/anzeige/index_html?band=07-abh/1845&seite:int=24>; Franz Neumanns gesammelte Werke; B. G. Teubner: Leipzig, 1912; Vol. 3, pp 257–344, <http://quod.lib.umich.edu/cgi/t/text/text-idx?c=umhistmath;idno=AAN8146.0003.001;cc=umhistmath>. Neumann, F. Über ein allgemeines Princip der mathematischen Theorie inducirter elektrischer Ströme. Abhandlungen der Königlichen Preußischen Akademie der Wissenschaften zu Berlin 1847, 1–71, <http://bibliothek.bbaw.de/bbaw/bibliothek-digital/digitalequellen/schriften/anzeige/index_html?band=07-abh/1847&seite:int=27>; Franz Neumanns gesammelte Werke; B. G. Teubner: Leipzig, 1912; Vol. 3, pp 345–424, <http://quod.lib.umich.edu/cgi/t/text/text-idx?c=umhistmath;idno=AAN8146.0003.001;cc=umhistmath>.
  3. Weber, Wilhelm Eduard. In Encyclopædia Britannica, 11th ed., 1911; Vol. 28, p 458.
  4. Units, Physical. In Encyclopædia Britannica, 11th ed., 1911; Vol. 27, pp 738–45.

External links

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