Talk:Maxwell's equations

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Article milestones Date Process Result November 18, 2008 Peer review Reviewed This  level-4 vital article is rated B-class on Wikipedia's content assessment scale. It is of interest to the following WikiProjects: Mathematics High‑priority This article is within the scope of WikiProject Mathematics, a collaborative effort to improve the coverage of mathematics on Wikipedia. If you would like to participate, please visit the project page, where you can join the discussion and see a list of open tasks.MathematicsWikipedia:WikiProject MathematicsTemplate:WikiProject Mathematicsmathematics High This article has been rated as High-priority on the project's priority scale. Physics Top‑importance This article is within the scope of WikiProject Physics, a collaborative effort to improve the coverage of Physics on Wikipedia. If you would like to participate, please visit the project page, where you can join the discussion and see a list of open tasks.PhysicsWikipedia:WikiProject PhysicsTemplate:WikiProject Physicsphysics Top This article has been rated as Top-importance on the project's importance scale. Electrical engineering Top‑importance This article is within the scope of WikiProject Electrical engineering, a collaborative effort to improve the coverage of Electrical engineering on Wikipedia. If you would like to participate, please visit the project page, where you can join the discussion and see a list of open tasks.Electrical engineeringWikipedia:WikiProject Electrical engineeringTemplate:WikiProject Electrical engineeringelectrical engineering Top This article has been rated as Top-importance on the project's importance scale.

Why the discussion of Jefimenko in the Solutions section? Lienard-Wiechert were over 60 years earlier, and Jefimenko really does not add to their work as far as I can see. Having the LW work here would be appropriate, instead of the paragraph there now.

Regarding this, I have replaced the seldomly used "Ampere's modified law" that was recently put in place of the somewhat awkwardly sounding "modified Ampere's law" with the more commonly used "Ampere-Maxwell law":

Google Search	Scholar	Books	Web
"Ampere-Maxwell law"	1,480 (96.2%)	1,330 (81.8%)	12,700 (77.1%)
"modified Ampere's law"	56 (3.6%)	293 (18.0%)	3,670 (22.3%)
"Ampere's modified law"	3 (0.2%)	3 (0.2%)	102 (0.6%)

- DVdm (talk) 09:44, 24 August 2024 (UTC)[reply]

@User:Constant314 please could you explain in more detail why you reverted the edit? Because the user has queried it on my talk page, and I am directing him here to discuss — Martin (MSGJ · talk) 19:25, 22 September 2024 (UTC)[reply]

• Just plain wrong, which is sufficient reason to revert.
• No WP:RS cited.
• It was WP:OR or maybe WP:SYN.
• The diagram in question appears as is in many reliable sources.
• It was a comment in an article that should have been on the talk page. If that comment had been made on the talk page, I would not have reverted it. The editor is welcome to open a discussion and make a case here on the talk page or contact me on my talk page.

Constant314 (talk) 21:21, 22 September 2024 (UTC)[reply]

Here are a few relaible sources for the diagram as is:

• Griffiths, Introduction to Electrodynamics, third edition, 1999, fig 9.10 on page 379.
• Harrington, Introduction to Electromagnetic Engineering, Dover, 2003, fig. 10-4, page 262.
• Prucell, Electricity and Magnetism, 2011, fig 9.7, page 333.
• Halliday, Resnick & Walker, Fundamentals of Physics, 2003 fig. 34-5, page 805

Constant314 (talk) 21:55, 22 September 2024 (UTC)[reply]

Thank you for the detailed response — Martin (MSGJ · talk) 04:22, 23 September 2024 (UTC)[reply]

The Lorentz force is a prediction of Maxwell's equation. Faraday's equation is: ∇×E = - dB/dt = -∂B/dt - ∇(v·B). dB/dt = ∂B/∂t + ∇(v·B). It is for the two frames of reference. "∂B/dt" is when a magnetic field is changing around an electrical charge. "∇(v·B)" is the perspective of a moving electrical charge. "∇×E = - ∇(v·B)" is the Lorentz force part of Faraday's Equations. In Ampère's law the equivalent to "∇(v·E)" would be "J/ε_0". J = ε_0*∇(v·E). Sorry for the shitty format, I suck at this. 2A02:AA1:105B:B81C:9404:E90D:541C:3A46 (talk) 20:30, 24 March 2025 (UTC)[reply]

Curl and divergence operators work on vectors (nabla), i might be wrong but why aren't in maxwell equations E, B etc. written as vectors, cause on the other side there is even parcial derivation too 86.33.92.44 (talk) 11:42, 21 April 2025 (UTC)[reply]

E and B are vectors in the article; that is why they are bold. I do not understand what you are trying to say about partial derivatives. XabqEfdg (talk) 12:24, 21 April 2025 (UTC)[reply]

@86.., See Maxwell's equations#Key to the notation. --Ancheta Wis   (talk | contribs) 13:35, 21 April 2025 (UTC)[reply]