Search results
Jump to navigation
Jump to search
Page title matches
- ...face ''S''. This explains the alternative name ''magnetic flux density'' (magnetic flux per unit of surface) for the magnetic induction '''B'''. Magnetic flux obeys [[Gauss' law (magnetism)|Gauss' law]].1 KB (217 words) - 05:55, 11 July 2008
- #Redirect [[Magnetic flux]]27 bytes (3 words) - 11:17, 22 May 2008
- 108 bytes (14 words) - 08:22, 22 May 2008
- 32 bytes (3 words) - 03:17, 28 May 2008
- 32 bytes (3 words) - 13:39, 29 May 2008
- 32 bytes (3 words) - 13:39, 29 May 2008
- Auto-populated based on [[Special:WhatLinksHere/Magnetic flux]]. Needs checking by a human.808 bytes (104 words) - 18:16, 11 January 2010
Page text matches
- ...escribing [[Magnetization|magnetizability]] as a proportionality between [[magnetic flux density]] and [[magnetic field]] in a magnetic material or medium.200 bytes (24 words) - 11:54, 19 April 2011
- States that the total magnetic flux through a closed surface is zero; this means that magnetic monopoles do not154 bytes (23 words) - 08:03, 21 June 2008
- {{r|Magnetic flux}}297 bytes (37 words) - 00:13, 1 December 2010
- {{rpl|Magnetic induction|Magnetic flux density}}536 bytes (65 words) - 18:50, 19 December 2020
- ...face ''S''. This explains the alternative name ''magnetic flux density'' (magnetic flux per unit of surface) for the magnetic induction '''B'''. Magnetic flux obeys [[Gauss' law (magnetism)|Gauss' law]].1 KB (217 words) - 05:55, 11 July 2008
- #Redirect [[Magnetic flux]]27 bytes (3 words) - 11:17, 22 May 2008
- States that a change in magnetic flux generates an electromotive force (EMF).113 bytes (15 words) - 08:32, 20 June 2008
- ...I]] unit for the strength of [[magnetic induction]] '''B''' (also known as magnetic flux density): where Wb ([[weber (unit)|weber]]) is the SI unit for [[magnetic flux]]. One tesla is 10 000 gauss (the [[Gaussian unit]] for |'''B'''|).484 bytes (76 words) - 04:32, 21 July 2008
- {{r|Magnetic flux}}708 bytes (98 words) - 15:33, 13 December 2010
- States that a change in magnetic flux gives an induced current that opposes this change.126 bytes (18 words) - 08:04, 21 June 2008
- A vector property of an object that determines the torque it experiences in a magnetic flux density.100 bytes (17 words) - 13:53, 20 December 2010
- SI unit of magnetic flux; symbol Wb; 1 Wb = 1 V⋅s.91 bytes (14 words) - 06:18, 9 July 2008
- [[SI unit]] for [[magnetic flux density]] '''B'''; symbol T; 1 T = 1 Wb/m<sup>2</sup>.123 bytes (17 words) - 05:47, 9 April 2010
- Gaussian unit of magnetic flux; symbol Mx; 1 Mx = 1 abV⋅s = 10<sup>−8</sup> Wb.126 bytes (18 words) - 09:33, 9 July 2008
- Gaussian unit of magnetic flux density '''B'''; symbol G; 1 G = 1 Mx/cm<sup>2</sup> = 10 000 T.139 bytes (19 words) - 09:30, 9 July 2008
- The '''weber''' (symbol Wb) is the [[SI]] unit of [[magnetic flux]]. It is named for the German physicist [[Wilhelm Eduard Weber]]. ...top;"><math> \mathcal{E}</math></font> (in volt) to the rate of change of magnetic flux <math>\Phi\,</math> (in Wb/s) through one loop of conducting wire (a "turn"2 KB (261 words) - 09:08, 14 September 2013
- In [[physics]], '''gauss''' (symbol '''G''') is the unit of strength of [[magnetic flux density]] |'''B'''| (also known as magnetic induction). The gauss belongs t where Mx (maxwell) is the Gaussian unit for magnetic flux.2 KB (269 words) - 15:51, 31 October 2021
- {{r|Magnetic flux}}898 bytes (114 words) - 13:58, 13 December 2010
- In [[physics]], the '''maxwell''' (symbol '''Mx''') is the unit of [[magnetic flux]] in the [[Gaussian units|Gaussian]] and emu (electromagnetic) systems of u ...cal{E}</math>, (in abV = 10<sup>−8</sup> V), to a rate of change of magnetic flux Φ (in Mx/s).2 KB (330 words) - 01:26, 15 February 2010
- A surface integral of '''B''' is often called [[magnetic flux]] denoted by Φ,3 KB (415 words) - 13:04, 29 March 2009
- <noinclude>{{Subpages}}</noinclude>Formula providing the [[magnetic flux density]] generated by a wire carrying a [[electric current|direct current]190 bytes (27 words) - 09:55, 7 May 2011
- ...terference Device (SQUID)''' is a very sensitive device for detection of [[magnetic flux]]. At low temperatures (about 4K) the output of the DC SQUID circuit can be642 bytes (91 words) - 04:42, 24 February 2009
- {{r|Magnetic flux}}700 bytes (90 words) - 21:38, 11 January 2010
- ...ct solutions of the [[Maxwell equations]] for the [[electric field]] and [[magnetic flux density]] generated at an arbitrary location by an ideal point charge movin341 bytes (48 words) - 10:04, 25 April 2011
- Auto-populated based on [[Special:WhatLinksHere/Magnetic flux]]. Needs checking by a human.808 bytes (104 words) - 18:16, 11 January 2010
- {{r|Magnetic flux}}733 bytes (94 words) - 16:47, 11 January 2010
- * [[Weber (unit)]] SI unit of magnetic flux called after W. E. Weber.332 bytes (43 words) - 23:00, 23 September 2008
- In [[electromagnetism]], Lenz' law states that a change in magnetic flux Φ (magnetic induction '''B''' integrated over a surface ''S'', see [[Fa2 KB (388 words) - 12:33, 11 June 2009
- {{r|Magnetic flux}}577 bytes (75 words) - 20:53, 11 January 2010
- {{r|Magnetic flux}}1 KB (148 words) - 16:47, 11 January 2010
- {{r|Magnetic flux}}630 bytes (80 words) - 18:23, 11 January 2010
- {{r|Magnetic flux}}672 bytes (84 words) - 16:47, 11 January 2010
- {{r|Magnetic induction|Magnetic flux density}}1 KB (160 words) - 13:38, 25 April 2011
- ...ation of an [[electromotive force]] in a conducting loop by varying the [[magnetic flux]] passing through the surface encircled by the loop. See [[Faraday's law (e336 bytes (44 words) - 18:50, 30 October 2021
- {{r|Magnetic flux}}516 bytes (64 words) - 20:42, 11 January 2010
- ...c field strength. The gauss is defined through a time-dependent change in magnetic flux density and the oersted is defined through the field created by an electric4 KB (584 words) - 11:53, 21 September 2009
- {{r|Magnetic flux}}583 bytes (76 words) - 21:40, 11 January 2010
- ...romagnetism]], '''Faraday's law''' of induction states that a change in [[magnetic flux]] generates an [[electromotive force]] (EMF, voltage difference). The law i ...he EMF induced in a circuit is proportional to the rate of decrease of the magnetic flux that cuts across the circuit. By [[Ohm's law]] an EMF induces an electric c9 KB (1,549 words) - 12:18, 11 June 2009
- ...|right|250px|Electric motor using a current loop in a [[magnetic induction|magnetic flux]], labeled '''''B'''''}}3 KB (402 words) - 12:34, 12 March 2011
- {{r|Magnetic flux}}588 bytes (72 words) - 16:14, 11 January 2010
- {{r|Magnetic flux}}538 bytes (70 words) - 17:09, 11 January 2010
- ...op is 1 henry if a current of 1 [[ampere (unit)|ampere]] gives rise to a [[magnetic flux]] of 1 [[weber (unit)|weber]].573 bytes (94 words) - 12:17, 11 July 2008
- ...theory of [[electromagnetism]], '''magnetic induction''' (also known as '''magnetic flux density''') describes a magnetic field (a vector) at every point in space. The term ''magnetic flux density'' refers to the fact that '''B''' is [[magnetic flux]]9 KB (1,330 words) - 16:37, 31 March 2011
- ...uction]], and electromagnetic units. The unit [[Weber (unit)|Weber]] for [[magnetic flux]] is named for him.993 bytes (144 words) - 05:21, 29 May 2008
- ...tC]]) from the esu system (electrostatic system of units), and the unit of magnetic flux (the [[maxwell (unit)|maxwell]]) from the emu system (electromagnetic syste <tr><td> Φ <td> [[magnetic flux]] <td> 1 [[Mx]] → 10<sup>−8</sup> Wb = 10<sup>−811 KB (1,527 words) - 17:15, 2 November 2021
- ...as an auxiliary field useful when a magnetizable medium is present. The [[magnetic flux density]] '''B''' is usually seen as the fundamental magnetic field, see th The magnetic flux density '''B''' is a solenoidal (divergence-free, transverse) [[vector fiel9 KB (1,428 words) - 08:19, 1 April 2011
- ...μ<sub>r</sub> is related to the proportionality constant between the [[magnetic flux density]] '''''B''''' and the [[magnetic field]] '''''H''''', namely '''''B The magnetic flux density '''''B''''' is related to the [[magnetization]] of a magnetic mediu11 KB (1,675 words) - 17:41, 23 April 2011
- where '''B''' is the [[magnetic flux density]] (also known as magnetic induction), and the symbol '''∇'''6 KB (914 words) - 18:48, 30 October 2021
- ...per [[kilogram]]''' (C·kg<sup>−1</sup>). When the object is placed in a [[magnetic flux density]] '''''B''''', because of its magnetic moment it experiences a [[to ...er=World Scientific}} An introduction to the behavior of the electron in a magnetic flux is found in {{cite book |title=Light and matter: electromagnetism, optics,12 KB (1,762 words) - 09:02, 25 October 2013
- ...ct solutions of the [[Maxwell equations]] for the [[electric field]] and [[magnetic flux density]] generated at an arbitrary location by an ideal point charge movin ...ant]] of the [[SI units]].With these potentials the electric field and the magnetic flux density are found to be (dots over symbols are time derivatives):<ref name=5 KB (805 words) - 10:34, 28 April 2011
- The proportionality of the precession frequency and magnetic flux density is perfectly linear, independent of temperature and only slightly a9 KB (1,370 words) - 08:18, 12 September 2013
- ...unt their influence upon each other and also the influence of the external magnetic flux. ...t an angle to the field. The difference in energies is proportional to the magnetic flux density and to the component of magnetic moment along the field.23 KB (3,481 words) - 14:29, 25 December 2010
- ...determines the [[torque]], denoted here by '''τ''', it experiences in a [[magnetic flux density]] '''B''', namely '''τ''' = '''m × B''' (wher ...|right|200px|Electric motor using a current loop in a [[magnetic induction|magnetic flux density]], labeled '''''B'''''}}20 KB (3,045 words) - 11:21, 29 June 2011
- The [[magnetic flux density]] '''B<sub>2</sub>''' due to the wire with current ''i<sub>2</sub> ...b>2</sub> dℓ'' = ''q v''. The [[Lorentz force]] upon the charge subject to magnetic flux density ''B'' perpendicular to the flow of charge is then radially directed14 KB (2,145 words) - 11:48, 21 April 2011
- |[[a.u. magnetic flux density]] |[[magnetic flux density]]13 KB (1,945 words) - 19:19, 1 June 2022
- ...netic field". Therefore '''B''' is often called [[magnetic induction]] or magnetic flux density.</ref> The Dutch physicist [[Hendrik Antoon Lorentz|Lorentz]] showe18 KB (2,680 words) - 18:46, 16 December 2010
- | [[Magnetic flux]] | [[Magnetic flux density]], [[magnetic induction]]23 KB (3,590 words) - 20:32, 4 February 2024
- ...itle = The effect of increasing solar activity on the Sun's total and open magnetic flux during multiple cycles: Implications for solar forcing of climate| last = L11 KB (1,443 words) - 19:34, 27 November 2012
- ...s the [[electric field]] and '''B''' is [[magnetic induction]] (also known magnetic flux density). The quantity ''c'' is the [[speed of light]] in vacuum.17 KB (2,899 words) - 02:27, 24 March 2010
- ==[[Magnetic induction|Magnetic field (a.k.a. magnetic flux density)]]==45 KB (6,572 words) - 12:36, 9 March 2024
- ...p://www.q-tuner.com/ Q-Tuner]</ref> has been developed that measures the [[magnetic flux density]] of multiple magnets located in the pickup. These pickups produce38 KB (6,099 words) - 07:12, 18 October 2013
- :* magnetic properties (e.g., magnetic flux and anomalies);40 KB (5,946 words) - 12:21, 22 March 2024
- ...xwell equations]], the [[Maxwell-Boltzmann distribution]], and the unit of magnetic flux, the [[Maxwell (unit)|maxwell]], were named after him, as was a [[crater]]35 KB (5,595 words) - 12:26, 6 September 2013
- ...xwell equations]], the [[Maxwell-Boltzmann distribution]], and the unit of magnetic flux, the [[Maxwell (unit)|maxwell]], were named after him, as was a [[crater]]35 KB (5,571 words) - 12:27, 6 September 2013