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The '''ohm''', abbreviated '''Ω''', is the [[SI]] unit of [[electrical resistance]]. It is the resistance which will allow a current of one [[ampere]] across a potential drop of one [[volt]].
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The ohm is named for [[Georg Ohm]] (1789 - 1854), an early investigator of electricity, who determined the relation between current, potential, and resistance, now called [[Ohm's law]].
The '''ohm''', abbreviated '''Ω'''([[Omega]]), is the [[SI]] unit of [[electrical resistance]]. It is the resistance which will allow a current of one [[ampere]] across a potential drop of one [[volt]].  


The ohm is a derived unit in the SI, equal to 1 [[volt|V]]/[[ampere|A]]; or in terms of SI basic units: Ω = m<sup>2</sup>·kg·s<sup>-3</sup>·A<sup>-2</sup> .
The ohm is named for [[Georg Ohm]] (1789 - 1854), an early investigator of electricity, who determined the relation between current, potential, and resistance, now called [[Ohm's Law]].
 
The ohm is a derived unit in the SI, equal to 1 [[volt|V]]/[[ampere|A]]; or in terms of SI basic units:  
 
<math>\Omega = m^2 \cdot kg \cdot s^{-3} \cdot A^{-2} = \frac{m^2 \cdot kg}{s^{3} \cdot A^{2}} </math>.


==Other definitions==
==Other definitions==
The "international ohm" was defined in 1893 (at the International Electrical Conference) as the resistance of a column of mercury of constant cross section at the temperature of melting ice, 106.3 centimeters long and with a mass of 14.4521 grams (which gave a cross-section of 1 square millimeter).
The "international ohm" was defined in 1893 (at the International Electrical Conference) as the resistance of a column of mercury of constant cross section at the temperature of melting ice, 106.3 centimeters long and with a mass of 14.4521 grams (which gave a cross-section of 1 square millimeter).


In 1990, the [[CIPM]] recommended that a conventional value of 25812.807 Ω be used for the [[von Klitzing constant]] <math>\scriptstyle \frac {h} {e^2}</math> (where h is the planck constant, and e is the elementary charge), which makes calibration easy  using the [[quantum hall effect]]. This is technically not a redefinition, but allows for increased precision in measurement.
In 1990, the [[CIPM]] recommended that a conventional value of 25812.807 Ω be used for the [[von Klitzing constant]] <math>\scriptstyle h/e^2</math> (where ''h'' is [[Planck's constant]] and ''e'' is the elementary charge), which makes calibration easy  using the [[quantum Hall effect]]. This is technically not a redefinition, but allows for increased precision in measurement.


==Sources==
==Sources==
*{{cite web|url=http://www.sizes.com/units/ohm.htm|title=Ohm|publisher=Sizes.com|date=2005-02-14|accessdate=2007-06-23}}
*{{cite web|url=http://www.sizes.com/units/ohm.htm|title=Ohm|publisher=Sizes.com|date=2005-02-14|accessdate=2007-06-23}}
*{{cite web|url=http://www.sizes.com/units/ohm_international.htm|title=International ohm|publisher=Sizes.com|date=2007-06-03|accessdate=2007-06-23}}
*{{cite web|url=http://www.sizes.com/units/ohm_international.htm|title=International ohm|publisher=Sizes.com|date=2007-06-03|accessdate=2007-06-23}}[[Category:Suggestion Bot Tag]]
 
[[Category:CZ Live]]
[[Category:Physics Workgroup]]

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The ohm, abbreviated Ω(Omega), is the SI unit of electrical resistance. It is the resistance which will allow a current of one ampere across a potential drop of one volt.

The ohm is named for Georg Ohm (1789 - 1854), an early investigator of electricity, who determined the relation between current, potential, and resistance, now called Ohm's Law.

The ohm is a derived unit in the SI, equal to 1 V/A; or in terms of SI basic units:

.

Other definitions

The "international ohm" was defined in 1893 (at the International Electrical Conference) as the resistance of a column of mercury of constant cross section at the temperature of melting ice, 106.3 centimeters long and with a mass of 14.4521 grams (which gave a cross-section of 1 square millimeter).

In 1990, the CIPM recommended that a conventional value of 25812.807 Ω be used for the von Klitzing constant (where h is Planck's constant and e is the elementary charge), which makes calibration easy using the quantum Hall effect. This is technically not a redefinition, but allows for increased precision in measurement.

Sources

  • Ohm. Sizes.com (2005-02-14). Retrieved on 2007-06-23.
  • International ohm. Sizes.com (2007-06-03). Retrieved on 2007-06-23.