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- ...stationary but in magnetostatics the currents are steady. As it turns out magnetostatics is a good approximation even when the currents are not steady as long as th ...History page of the original is [http://en.wikipedia.org/w/index.php?title=Magnetostatics\&action=history here] ...3 KB (446 words) - 20:14, 7 May 2016
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- ...t density. More recently, by a simple analogy between [[../Magnetostatics/|magnetostatics]] and [[../LQG2/|fluid dynamics]], the same law has been used to calculate The Biot-Savart law is fundamental to magnetostatics just as [[../CoulombsLaw/|Coulomb's law]] is to electrostatics. The Biot-Sa ...2 KB (223 words) - 04:49, 12 September 2020
- ...stationary but in magnetostatics the currents are steady. As it turns out magnetostatics is a good approximation even when the currents are not steady as long as th ...History page of the original is [http://en.wikipedia.org/w/index.php?title=Magnetostatics\&action=history here] ...3 KB (446 words) - 20:14, 7 May 2016
- ===Gauss' Law of Magnetostatics=== ...3 KB (413 words) - 06:24, 11 October 2023
- ...], playing a similar role to [[Coulomb's law]] in [[electrostatics]]. When magnetostatics does not apply, the Biot–Savart law should be replaced by [[Jefimenko's equ ...7 KB (1,038 words) - 14:31, 6 February 2021
- {<!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec {<!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...44 KB (7,968 words) - 01:27, 12 June 2015
- ==Magnetostatics== ...17 KB (2,692 words) - 01:03, 14 August 2022
- [[Category:Magnetostatics]] ...11 KB (1,688 words) - 07:11, 5 September 2021
- * [[Charges/Interactions/Magnetostatics|Magnetostatics]] ...17 KB (2,630 words) - 02:31, 2 February 2020
- [[w:Magnetostatics]] and [[w:Magnetic_field]] ...8 KB (1,280 words) - 17:08, 5 November 2019
- * [[Charges/Interactions/Magnetostatics|Magnetostatics]] ...20 KB (2,923 words) - 21:14, 26 August 2022
- 5) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec 5) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...161 KB (26,240 words) - 08:46, 17 December 2022
- 99) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec 99) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...100 KB (15,923 words) - 16:54, 25 February 2018
- * [[PlanetPhysics/Magnetostatics]] ...20 KB (2,982 words) - 20:46, 24 October 2022
- 7) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec 5) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...789 KB (130,112 words) - 22:42, 4 August 2018
- In magnetostatics and magnetodynamics, Gauss's law for magnetism and Maxwell–Faraday equation ...69 KB (10,354 words) - 16:31, 29 November 2020
- 136) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec 136) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...254 KB (40,704 words) - 23:44, 12 December 2021
- 136) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec 216) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...1.42 MB (236,995 words) - 23:45, 12 December 2021
- 136) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec 139) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...1.42 MB (236,721 words) - 23:52, 12 December 2021
- ...s of the vortex. For example, the '''Maxwell–Ampère law''' in magnetostatics says that  {{math|curl '''H''' {{=}} '''J'''  ...339 KB (50,782 words) - 01:12, 20 March 2025
- 793) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec 793) <!--c22Magnetism_ampereLaw_1-->Amphere's law for [[w:magnetostatics|magnetostatic]] currents is that <math>\oint\vec H\cdot\vec{d\ell}=\int\vec ...713 KB (111,963 words) - 23:37, 12 December 2021