Gaussian units: Difference between revisions

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imported>Paul Wormer
(New page: {{subpages}} Gaussian units are the same as cgs emu for magnetostatics. Mx = maxwell, G = gauss, Oe = oersted ; Wb = [[weber (unit)|...)
 
imported>Paul Wormer
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Mx = [[maxwell (unit)|maxwell]], G = [[gauss (unit)|gauss]], Oe = [[oersted (unit)|oersted ]]; Wb = [[weber (unit)|weber]], V = [[volt]], s = [[second]], T = [[tesla (unit)|tesla]], m = [[meter]], A = [[ampere (unit)|ampere]], J = [[joule (unit)|joule]], kg = [[kilogram]], H = [[henry (unit)|henry]]
Mx = [[maxwell (unit)|maxwell]], G = [[gauss (unit)|gauss]], Oe = [[oersted (unit)|oersted ]]; Wb = [[weber (unit)|weber]], V = [[volt]], s = [[second]], T = [[tesla (unit)|tesla]], m = [[meter]], A = [[ampere (unit)|ampere]], J = [[joule (unit)|joule]], kg = [[kilogram]], H = [[henry (unit)|henry]]
==Conversion of magnetic units==
==Conversion of magnetic units==
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<tr><td> <i>N, D</i>          <td> [[demagnetizing factor]]    <td> 1 &rarr; 1/(4&pi;)                                                                                </tr>
<tr><td> <i>N, D</i>          <td> [[demagnetizing factor]]    <td> 1 &rarr; 1/(4&pi;)                                                                                </tr>
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Revision as of 03:30, 11 July 2008

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Gaussian units are the same as cgs emu for magnetostatics.

Mx = maxwell, G = gauss, Oe = oersted ; Wb = weber, V = volt, s = second, T = tesla, m = meter, A = ampere, J = joule, kg = kilogram, H = henry

Conversion of magnetic units


SymbolProperty Gaussian → SI

Φ magnetic flux 1 Mx → 10−8 Wb = 10−8 V⋅s
B magnetic flux density 1 G → 10−4 T = 10−4 Wb/m2
magnetic induction
H magnetic field 1 Oe → 103/(4π) A/m
m magnetic moment 1 erg/G = 1 emu → 10−3 A⋅m2 = 10−3 J/T
M magnetization 1 erg/(G⋅cm3) = 1 emu/cm3 → 103 A/m
M magnetization 1 G → 103/(4π) A/m
σ mass magnetization 1 erg/(G⋅g) = 1 emu/g → 1 A⋅m2/kg
specific magnetization
j magnetic dipole moment 1 erg/G = 1 emu → 4π ⋅ 10−10 Wb⋅m
J magnetic polarization 1 erg/(G⋅cm3) = 1 emu/cm3 → 4π ⋅ 10−4 T
χ, κ susceptibility 1 → 4π
χρ mass susceptibility 1 cm3/g → 4π ⋅ 10−3 m3/kg
μ permeability 1 → 4π ⋅ 10−7 H/m = 4π ⋅ 10−7 Wb/(A⋅m)
μr relative permeability μ → μr
w, W energy density 1 erg/cm3 → 10−1 J/m3
N, D demagnetizing factor 1 → 1/(4π)