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• Caesium
  {{Infobox element ...cult. One way is to reduce caesium halides with a reactive metal such as [[calcium]], [[barium]], or [[lithium]] at 700-800 °C, followed by distillation of t
  11 KB (1,496 words) - 16:25, 2 January 2022
• Calcium
  {{Infobox element |image name=Calcium under argon atmosphere.jpg
  11 KB (1,502 words) - 15:50, 22 December 2022
• Cerium
  {{Infobox element ...ss is complex and required reduction with a more reactive metal, such as [[calcium]].
  9 KB (1,304 words) - 15:06, 7 December 2019
• Dysprosium
  {{Infobox element Metallic dysprosium can be prepared by reducing dysprosium halides with [[calcium]] or [[lithium]]. However, it is far more economical to just buy the metal.
  9 KB (1,207 words) - 17:52, 23 June 2019
• Erbium
  {{Infobox element Erbium can be prepared by reducing its oxide or salts with [[calcium]] at 1450 °C under argon atmosphere.
  8 KB (1,025 words) - 21:15, 17 August 2020
• Chlorine
  {{Infobox element ...d will produce chlorine; either a solution of [[sodium hypochlorite]] or [[calcium hypochlorite]]. A violent reaction with a lot of foam may take place in the
  13 KB (1,873 words) - 17:48, 8 November 2023
• Fluorine
  {{Infobox element |naming=After the mineral [[calcium fluoride|fluorite]], itself named after Latin ''fluo'' (''to flow'', in sme
  10 KB (1,452 words) - 21:09, 23 March 2022
• Europium
  {{Infobox element ...u''' and atomic number 63. It is a steel-gray metal about as reactive as [[calcium]]. Although difficult to find and rather expensive, this metal and its salt
  11 KB (1,520 words) - 21:15, 11 July 2021
• Magnesium
  {{Infobox element |below=[[Calcium|Ca]]
  14 KB (2,027 words) - 18:21, 27 February 2024
• Neodymium
  {{Infobox element ...to produce pure neodymium metal from [[neodymium fluoride]] with either [[calcium]] or [[lithium]] as the reducer is still in development.
  11 KB (1,483 words) - 21:03, 12 August 2020
• Phosphorus
  {{Infobox element ...phosphate]], [[silicon dioxide]] and [[carbon]] reacts at 1500 °C to form calcium silicate, carbon monoxide and white phosphorus:
  17 KB (2,529 words) - 20:50, 16 October 2022
• Potassium
  {{Infobox element |right=[[Calcium]]
  13 KB (1,879 words) - 20:16, 17 September 2022
• Strontium
  {{Infobox element |above=[[Calcium|Ca]]
  9 KB (1,233 words) - 17:51, 14 December 2017
• Thorium
  {{Infobox element Metallic thorium can be extracted by reducing [[thorium dioxide]] with [[calcium]] in an inert atmosphere:
  10 KB (1,395 words) - 20:50, 23 October 2022
• Terbium
  {{Infobox element ...o moderate danger. Terbium plays no biological role, but acts similarly to calcium within the body, and lanthanide salts tend to promote plant growth. Some te
  12 KB (1,645 words) - 21:37, 30 November 2022
• Titanium
  {{Infobox element ...other booster. If large nodules of the metal are desired, about one part [[calcium fluoride]] per every two parts titanium dioxide can be used to help the mix
  11 KB (1,546 words) - 16:40, 28 April 2018
• Holmium
  {{Infobox element ...be obtained by reducing holmium salts, like holmium(III) chloride, with [[calcium]] metal in a thermite-like reaction.
  10 KB (1,332 words) - 21:44, 27 March 2019
• Uranium
  {{Infobox element ...e prepared by reducing its compounds with a more reactive metal, such as [[calcium]]. The reduction should be performed under inert conditions, as uranium is
  11 KB (1,567 words) - 19:17, 11 March 2024
• Yttrium
  {{Infobox element ...o moderate danger. Yttrium plays no biological role, but acts similarly to calcium within the body. Some yttrium compounds, notably the halides, will hydrolyz
  9 KB (1,246 words) - 20:59, 22 October 2017
• Lanthanum
  {{Infobox element ...arth metals, involving reducing the [[lanthanum fluoride|fluoride]] with [[calcium]] metal, is being developed by the Sciencemadness community.
  8 KB (1,125 words) - 21:03, 16 October 2022