Magnetic constant: Difference between revisions

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:<math>\mathbf{B} = \mu_0 \ \mathbf{H}.</math>
:<math>\mathbf{B} = \mu_0 \ \mathbf{H}.</math>


In SI units the magnetic constant ''μ''<sub>0</sub> is related to the [[electric constant]] ''ε''<sub>0</sub> and to the [[speed of light in vacuum]] by ''c'' ² ε<sub>0</sub> μ<sub>0</sub> = 1.
In SI units the magnetic constant ''μ''<sub>0</sub> is related to the [[electric constant]] ''ε''<sub>0</sub> and to the [[speed of light]] in vacuum by ''c'' ² ε<sub>0</sub> μ<sub>0</sub> = 1.
 
In [[Gaussian units]] ''μ''<sub>0</sub> and ''ε''<sub>0</sub> do not enter the theory, only ''c'' appears in the equations.


==Terminology==
==Terminology==

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The magnetic constant μ0 (equal to the vacuum permeability, also known as the permeability of free space) is a universal physical constant, relating mechanical and electromagnetic units of measurement. In the International System of Units (SI), its value is exactly expressed by:

μ0 = 4π × 10−7 N/A2 = 4π×10−7 henry/metre (H/m) , or approximately 1.2566×10−6 H/m.[1]

This value is a consequence of the definition of the ampere in terms of forces between wires, see Ampère's equation.[2] In vacuum, the magnetic constant is the ratio of the magnetic B-field (entering the expression for the Lorentz force) to the magnetic H-field (the field inside a solenoid):

In SI units the magnetic constant μ0 is related to the electric constant ε0 and to the speed of light in vacuum by c ² ε0 μ0 = 1.

In Gaussian units μ0 and ε0 do not enter the theory, only c appears in the equations.

Terminology

Historically, the constant μ0 has had different names. A now rather obsolete term is "magnetic permittivity of vacuum". In the 1987 IUPAP Red book this constant was called permeability of vacuum.[3] Currently the nomenclature in physics is magnetic constant.[1][4] The vacuum permeability μ = μrμ0 is equal to μ0, i.e., for the vacuum μr = 1.

Footnotes

  1. 1.0 1.1 Magnetic constant. 2006 CODATA recommended values. NIST. Retrieved on 2007-08-08.
  2. Unit of electric current (ampere). Historical context of the SI. NIST. Retrieved on 2007-08-11.
  3. SUNAMCO Commission (1987), Recommended values of the fundamental physical constants, Symbols, Units, Nomenclature and Fundamental Constants in Physics, at p.54; (the IUPAP "Red book").
  4. National Physical Laboratory, UK (1998). Fundamental Physical Constants p. 2.
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