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Create the page "Infobox magnesium" on this wiki! See also the search results found.

• Beryllium
  {{Infobox element |below=[[Magnesium|Mg]]
  9 KB (1,264 words) - 13:34, 17 March 2018
• Boron
  {{Infobox element ...remove the impurities. This part should be done slowly, as the residual [[magnesium diboride]] reacts with HCl to release [[borane]] and [[diborane]] that are
  10 KB (1,388 words) - 15:49, 25 February 2018
• Aluminium
  {{Infobox element |left= [[Magnesium]]
  14 KB (1,991 words) - 11:52, 25 June 2023
• Calcium
  {{Infobox element |above=[[Magnesium|Mg]]
  11 KB (1,502 words) - 15:50, 22 December 2022
• Magnesium
  {{Infobox element |image name comment=Magnesium ribbon stored in mineral oil to prevent oxidation
  14 KB (2,027 words) - 18:21, 27 February 2024
• Nitrogen
  {{Infobox element While nitrogen is relative inert, certain metals such as [[magnesium]] or [[lithium]] will burn in a nitrogen atmosphere.
  10 KB (1,435 words) - 18:47, 7 November 2019
• Potassium
  {{Infobox element ...thout very, very pure reagents, success is unlikely. Even mildly tarnished magnesium turnings/powder may not react well enough to produce potassium.
  13 KB (1,879 words) - 20:16, 17 September 2022
• Terbium
  {{Infobox element ...umber 65. It is a hard, dark, silvery metal that is about as reactive as [[magnesium]]. Although difficult to find and rather expensive, it and its salts have v
  12 KB (1,645 words) - 21:37, 30 November 2022
• Titanium
  {{Infobox element ...ert atmosphere. The flame is white, but slightly yellowish compared to a [[magnesium]] flame.
  11 KB (1,546 words) - 16:40, 28 April 2018
• Ytterbium
  {{Infobox element ...al, sometimes described as slightly brassy, that is about as reactive as [[magnesium]]. It is not a particularly interesting addition to the amateur chemist's l
  12 KB (1,663 words) - 15:52, 7 May 2021
• Yttrium
  {{Infobox element ...cessary addition to the amateur chemistry lab when cheaper agents, such as magnesium, are readily available.
  9 KB (1,246 words) - 20:59, 22 October 2017
• Hydrogen
  {{Infobox element ...ydrochloric acid]] or dilute [[sulfuric acid]]. Normally, [[aluminium]], [[magnesium]] or [[zinc]] are used for this process. [[Iron]] is sometimes used. The ad
  12 KB (1,718 words) - 19:25, 30 November 2022
• Iodine
  {{Infobox element *Activating magnesium for [[Grignard reagent]] prep
  12 KB (1,710 words) - 15:21, 23 December 2021
• Samarium
  {{Infobox element ...mic number 62. It is a grayish-silvery metal, with similar reactivity to [[magnesium]]. Its chemical behavior is similar to most other [[rare earth metal]]s, bu
  11 KB (1,587 words) - 20:36, 26 December 2022
• Sodium
  {{Infobox element |right=[[Magnesium]]
  16 KB (2,327 words) - 18:19, 29 August 2021
• Silicon
  {{Infobox element ...initiated with a high temperature ignition source, often in the form of [[magnesium]] ribbon.
  11 KB (1,526 words) - 20:35, 22 July 2023
• Praseodymium
  {{Infobox element Reducing praseodymium salts with a reactive metal such as [[calcium]] or [[magnesium]] yields metallic praseodymium.
  8 KB (1,046 words) - 20:30, 20 October 2020
• Manganese
  {{Infobox element ...e oxide can be reduced in a thermite reaction with [[aluminium]] or even [[magnesium]], although carbon can also be used.
  9 KB (1,257 words) - 13:15, 11 August 2020
• Zirconium
  {{Infobox element Zirconium metal can be extracted by reducing zirconium tetrachloride with [[magnesium]] metal, in an inert atmosphere or in vacuum.
  9 KB (1,214 words) - 00:11, 27 November 2018
• Vanadium
  {{Infobox element ...vanadium, so to isolate pure metal one must not use an excess of aluminum. Magnesium does not share this level of solubility in vanadium metal, but the reaction
  10 KB (1,383 words) - 22:11, 26 August 2023