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1 Vacuum permeability From Wikipedia, the free encyclopedia (Redirected from Permeability of free space) Vacuum permeability, permeability of free space, or magnetic constant is an ideal, (baseline) physical constant, which is the value of magnetic permeability in a classical vacuum, and this type of vacuum is merely an abstraction from nature Vacuum permability is derived from production of a magnetic field by an electric current or by a moving electric charge and in all other formulas for magnetic-field production,in a vacuum When the permeability is that of the vacuum, denoted µ 0 has an exact defined value: [1][2] µ 0 = 4π 10 7 N A H m 1 or N A 2 ; in the SI system of units, or using tesla meter per ampere (T m/a) As a constant, it can also be defined as a fundamental invariant quantity, and is also one of three components that defines free space through Maxwell's equations In classical physics, free space is a concept of electromagnetic theory, corresponding to a theoretically perfect vacuum and sometimes referred to as the vacuum of free space, or as classical vacuum, and is appropriately viewed as a reference medium [3][4] Contents 1 The ampere defines vacuum permeability 2 Terminology 3 Systems of units and historical origin of value of μ 0 4 Significance in electromagnetism 5 References and Notes 6 See also The ampere defines vacuum permeability The ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross section, and placed 1 meter apart in vacuum, would produce between these conductors a force equal to newton per meter of length Adopted in 1948, the effect of this definition is to fix the magnetic constant (permeability of vacuum) at exactly 4π 10 7 H m 1 [5] To further illustrate: Two thin, straight, stationary, parallel wires, a distance r apart in free space, each carrying a current I, will exert a force on each other Ampère's force law states that the force per unit length is given by 1 of 5
2 The ampere is defined such that if the wires are 1 m apart and the current in each wire is 1 A, the force between the two wires is N m 1 Hence the value of μ 0 is defined to be exactly μ 0 = 4π 10 7 N A N A 2 [6][7] Terminology Historically, the constant μ 0 has had different names In the 1987 IUPAP Red book, for example, this constant was still called permeability of vacuum [8] Another, now rather rare and obsolete, term is "magnetic permittivity of vacuum" See, for example, Servant et al [9] The term "vacuum permeability" (and variations thereof, such as "permeability of free space") remains very widespread However, Standards Organizations have recently moved to magnetic constant as the preferred name for μ 0, although the older name continues to be listed as a synonym [7] The name "magnetic constant" is used by standards organizations in order to avoid use of the terms "permeability" and "vacuum", which have physical meanings This change of preferred name has been made because μ 0 is a defined value, and is not the result of experimental measurement (see below) Systems of units and historical origin of value of μ 0 In principle, there are several equation systems that could be used to set up a system of electrical quantities and units [10] Since the late 1800's, the fundamental definitions of current units have been related to the definitions of mass, length and time units, using Ampère's force law However, the precise way in which this has "officially" been done has changed many times, as measurement techniques and thinking on the topic developed The overall history of the unit of electric current, and of the related question of how to define a set of equations for describing electromagnetic phenomena, is very complicated Briefly, the basic reason why μ 0 has the value it does is as follows Ampère's force law describes the experimentally-derived fact that, for two thin, straight, stationary, parallel wires, a distance r apart, in each of which a current I flows, the force per unit length, F m, that one wire exerts upon the other in the vacuum of free space would be given by Writing the constant of proportionality as k m gives The form of k m needs to be chosen in order to set up a system of equations, and a value then needs to 2 of 5
3 be allocated in order to define the unit of current In the old "electromagnetic (emu)" system of equations defined in the late 1800s, k m was chosen to be a pure number, 2, distance was measured in centimetres, force was measured in the cgs unit dyne, and the currents defined by this equation were measured in the "electromagnetic unit (emu) of current" (also called the "abampere") A practical unit to be used by electricians and engineers, the ampere, was then defined as equal to one tenth of the electromagnetic unit of current In another system, the "rationalized-metre-kilogram-second (rmks) system" (or alternatively the "metre-kilogram-second-ampere (mksa) system"), k m is written as μ 0 /2π, where μ 0 is a measurementsystem constant called the "magnetic constant" [11] The value of μ 0 was chosen such that the rmks unit of current is equal in size to the ampere in the emu system: μ 0 is defined to be 4π 10 7 N A 2 [5] Historically, several different systems (including the two described above) were in use simultaneously In particular, physicists and engineers used different systems, and physicists used three different systems for different parts of physics theory and a fourth different system (the engineers' system) for laboratory experiments In the 1948, international decisions were made by standards organizations to adopt the rmks system, and its related set of electrical quantities and units, as the single main international system for describing electromagnetic phenomena in the International System of Units Obviously, Ampère's law as stated above describes a physical property of the world However, the choices about the form of k m and the value of μ 0 are totally human decisions, taken by international bodies composed of representatives of the national standards organizations of all participating countries The parameter μ 0 is a measurement-system constant, not a physical constant that can be measured It does not, in any meaningful sense, describe a physical property of the vacuum [12] This is why the relevant Standards Organizations prefer the name "magnetic constant", rather than any name that carries the hidden and misleading implication that μ 0 describes some physical property of the vacuum Significance in electromagnetism The magnetic constant μ 0 appears in Maxwell's equations, which describe the properties of electric and magnetic fields and electromagnetic radiation, and relate them to their sources In particular, it appears in relationship to quantities such as permeability and magnetization density, such as the relationship that defines the magnetic H-field in terms of the magnetic B-field In real media, this relationship has the form:, where M is the magnetization density In free space, M = 0 Maxwell's laws show that speed of light in a vacuum, c 0 is related to the magnetic constant and the electric constant (vacuum permittivity), ε 0, by the formula 3 of 5
4 References and Notes 1 ^ CODATA "Magnetic constants" ( (2006 CODATA reccomended values: Source of the CODATA internationally recommended values ( ) Fundamental Physical Constants NIST Retrieved ^ Rosen, Joe "Permeability (Physics)" Encyclopedia of Physics New York: Facts On File, Inc, 2004 Science Online Facts On File, Inc (accessed ) 3 ^ CODATA "Introduction to the constants for nonexperts" ( /introductionhtml) (2006 CODATA reccomended values: Source of the CODATA internationally recommended values ( ) Fundamental Physical Constants NIST Retrieved ^ Werner S Weiglhofer and Akhlesh Lakhtakia (2003) " 41 The classical vacuum as reference medium" ( Introduction to complex mediums for optics and electromagnetics SPIE Press p 34 ff ISBN ^ a b This choice defines the SI unit of current, the ampere: "Unit of electric current (ampere)" ( Historical context of the SI NIST Retrieved ^ "Magnetic constant" ( CODATA recommended values NIST Retrieved ^ a b "CODATA Recommended Values of the Fundamental Physical Constants: 2006" ( Committee on Data for Science and Technology (CODATA): See Table 1 NIST 8 ^ SUNAMCO Commission (1987), "Recommended values of the fundamental physical constants" ( /IUPAP_Red_book_1987/SUNAMCO%20Red%20book% /6_Recommended_fundamental_constants_iupap_sunamco_red_book_1987pdf), Symbols, Units, Nomenclature and Fundamental Constants in Physics ( /IUPAP_SUNAMCO/IUPAP%20SUNAMCO%20Commission_files/IUPAP_Red_book_1987 /SUNAMCO%20Red%20book%201987/index_red_book_iupap_sunamco_1987htm), pp 54, /IUPAP_Red_book_1987/SUNAMCO%20Red%20book% /6_Recommended_fundamental_constants_iupap_sunamco_red_book_1987pdf; (the IUPAP "Red book") 9 ^ J R Lalanne, F Carmona & L Servant (1999) Optical spectroscopies of electronic absorption ( dq=+%22magnetic+permittivity%22&source=web&ots=w62tnr56yg& sig=yecrywxfjwzs29tdz_7gr92lz7m) (World Scientific series in contemporary chemical physics, vol 17 ed) Singapore;London: World Scientific p 10 ISBN /books?id=7rwd-tdxkkmc&pg=pa10&lpg=pa10&dq=+%22magnetic+permittivity%22& source=web&ots=w62tnr56yg&sig=yecrywxfjwzs29tdz_7gr92lz7m 10 ^ For an introduction to the subject of choices for independent units, see John David Jackson (1998) Classical electrodynamics ( (Third ed) New York: Wiley p 154 ISBN X 11 ^ The decision to explicitly include the factor of 2π in k m stems from the "rationalization" of the equations used to describe physical electromagnetic phenomena 12 ^ The intrinsic properties of realizable vacuum, such as quantum vacuum, QCD vacuum, outer space or ultra-high vacuum are entirely separate from the definition of μ 0 See also 4 of 5
5 Characteristic impedance of vacuum Electromagnetic wave equation Sinusoidal plane-wave solutions of the electromagnetic wave equation Mathematical descriptions of the electromagnetic field Retrieved from " Categories: Fundamental constants This page was last modified on 11 March 2010 at 21:26 Text is available under the Creative Commons Attribution-ShareAlike License; additional terms may apply See Terms of Use for details Wikipedia is a registered trademark of the Wikimedia Foundation, Inc, a non-profit organization 5 of 5
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