Difference between revisions of "International System of Electrical and Magnetic Units"

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| [[Ampere]]
 
| [[Ampere]]
| the unvarying [[electric current]] that will deposit {{nowrap|0.001 118 000 grams}} of [[silver]] per second from a solution of [[silver nitrate]] in water
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| the unvarying [[electric current]] that will deposit {{nowrap|0.001 118 00 grams}} of [[silver]] per second from a solution of [[silver nitrate]] in water
 
| the current produced in a conductor with a 1 ohm resistance when there is a potential difference of 1 volt between its ends
 
| the current produced in a conductor with a 1 ohm resistance when there is a potential difference of 1 volt between its ends
 
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Revision as of 05:12, 10 August 2010

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 1833 with his measurement of the Earth's magnetic field.[1] A complete system of metric electrical and magnetic units was proposed by Weber in 1851.

1893 system

The International System was introduced in 1893 because of the practical difficulties in measuring electrical units in the cgs system. The 1893 system had three base units: the international ampere, the international ohm and the international volt.

Unit 1893 ("international") definition cgs ("absolute") equivalent Notes
Ampere the unvarying electric current that will deposit 0.001 118 00 grams of silver per second from a solution of silver nitrate in water the current produced in a conductor with a 1 ohm resistance when there is a potential difference of 1 volt between its ends
Ohm the electric resistance of a column of mercury of constant cross-section at the temperature of melting ice, 106.3 centimetres long and with a mass of 14.4521 grams equal to 109 cgs units of electric resistance
Volt such that the electromotive force of a Clark cell at a temperature of 15 °C is exactly 1.434 international volts the electromotive force produced in an electric circuit which cuts 108 magnetic lines of force per second equal to 108 cgs units of electromotive force

Overdefinition and the 1908 modification

SI units

References

  1. Gauss, C. F. Intensitas vis magneticae terrestris ad mensuram absolutam revocata. Commentationes Societatis Regiae Scientiarum Gottingensis Recentiores 1832–37, 8, 1–44.

External links

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