Gauss (unit): Difference between revisions

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(New page: {{subpages}} In physics, '''gauss''' (symbol G) is the unit of strength of magnetic flux density '''B''' (also known as magnetic induction). The unit is named in honor of the Germa...)
 
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In [[physics]], '''gauss''' (symbol G) is the unit of strength of [[magnetic flux density]] '''B''' (also known as magnetic induction). The unit is named in honor of the German mathematician and physicist [[Carl Friedrich Gauss]].
In [[physics]], '''gauss''' (symbol G) is the unit of strength of [[magnetic flux density]] '''B''' (also known as magnetic induction). The gauss belongs to the [[Gaussian system]] of electromagnetic units, which is a cgs (centimeter-gram-second) system. The unit is named in honor of the German mathematician and physicist [[Carl Friedrich Gauss]].


One  gauss is one maxwell/cm<sup>2</sup>, where [[maxwell]] (symbol Mx) is the Gaussian unit for the [[magnetic flux]] &Phi;. The gauss belongs to the [[gaussian system]] of electromagnetic units, which is a cgs (centimeter-gram-second) system; this is why the unit of surface is cm<sup>2</sup>.
The gauss is defined through an electromotive force <math>\scriptstyle \mathcal{E}</math> induced by a change in magnetic field '''B'''.  For constant surface ''S'' and uniform rate of decrease of |'''B'''|, [[Faraday's law (electromagnetism)|Faraday's law]] takes the simple form  
 
The gauss is defined through an electromotive force <math>\scriptstyle \mathcal{E}</math>.  For constant surface ''S'' and uniform rate of decrease of |'''B'''|, [[Faraday's law]] takes the simple form  
:<math>
:<math>
S |\mathbf{B}| = \Phi = - t\, \mathcal{E}  .   
|\mathbf{B}| = \frac{\Phi}{S} = - \frac{t\,\mathcal{E}}{S}  .   
</math>
</math>
If ''S'' is in cm<sup>2</sup>, ''t'' in  [[second|s]], and <math>\scriptstyle \mathcal{E}</math> in [[abvolt|abV]] ( = 10<sup>&minus;8</sup> [[volt]]) then |'''B'''| is in G and &Phi; is in Mx.
 
Hence, gauss is maxwell per unit surface, where [[maxwell]] (symbol Mx) is the Gaussian unit for the [[magnetic flux]] &Phi;, and |'''B'''| is clearly  a flux density. 
 
In Gaussian units  ''S'' is in cm<sup>2</sup>, time ''t'' in  [[second|s]], <math>\scriptstyle \mathcal{E}</math> in [[abvolt|abV]] ( = 10<sup>&minus;8</sup> [[volt]])|'''B'''| in G, and &Phi; in Mx:
: 1 G = 1 Mx/cm<sup>2</sup> = 1 abV&sdot;s/cm<sup>2</sup>


==Related units==
==Related units==
* The [[tesla]] (T) is the corresponding [[SI]] unit for '''B'''. 1 T corresponds to 10&thinsp;000 G.
* The [[tesla]] (T) is the corresponding [[SI]] unit for '''B'''. 1 T corresponds to 10&thinsp;000 G.
* The [[oersted]] is the Gaussian unit of strength of a [[magnetic field]] '''H'''. Note that the oersted is defined by  means of an electric current that gives '''H'''.
* The [[oersted]] is the Gaussian unit of strength of a [[magnetic field]] '''H'''. Note that the oersted is defined by  means of an electric current that gives '''H'''.

Revision as of 09:49, 8 July 2008

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In physics, gauss (symbol G) is the unit of strength of magnetic flux density B (also known as magnetic induction). The gauss belongs to the Gaussian system of electromagnetic units, which is a cgs (centimeter-gram-second) system. The unit is named in honor of the German mathematician and physicist Carl Friedrich Gauss.

The gauss is defined through an electromotive force induced by a change in magnetic field B. For constant surface S and uniform rate of decrease of |B|, Faraday's law takes the simple form

Hence, gauss is maxwell per unit surface, where maxwell (symbol Mx) is the Gaussian unit for the magnetic flux Φ, and |B| is clearly a flux density.

In Gaussian units S is in cm2, time t in s, in abV ( = 10−8 volt), |B| in G, and Φ in Mx:

1 G = 1 Mx/cm2 = 1 abV⋅s/cm2

Related units

  • The tesla (T) is the corresponding SI unit for B. 1 T corresponds to 10 000 G.
  • The oersted is the Gaussian unit of strength of a magnetic field H. Note that the oersted is defined by means of an electric current that gives H.