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- {{Infobox element :2 [[Iron(III) oxide|Fe<sub>2</sub>O<sub>3</sub>]] + 3 C → 4 [[Iron|Fe]] + 3 CO<sub>2</sub>14 KB (1,993 words) - 22:25, 26 August 2023
- {{Infobox element ...l structure effectively trapping the arsenic atoms in a lattice of cobalt, iron and sometimes nickel. Other ores such as arsenopyrite, realgar and orpiment11 KB (1,599 words) - 15:37, 20 September 2018
- {{Infobox element ...ium chloride|aluminum(III) chloride]], [[iron(II) chloride|iron(II)]] or [[iron(III) chloride]], and many others, which cannot be made in solution, due to13 KB (1,873 words) - 17:48, 8 November 2023
- {{Infobox element ...rious methods: dissolving the copper circuit with a PCB etchant, such as [[Iron(III) chloride|ferric chloride]] and collecting the gold foil by filtering t12 KB (1,713 words) - 20:30, 20 March 2023
- {{Infobox element ...such as [[gold]], [[aluminium]] or alkali metals, but will not dissolve [[iron]], [[platinum]], [[tantalum]] and [[tungsten]]. Lead-mercury amalgam has th12 KB (1,745 words) - 00:11, 11 December 2019
- {{Infobox element ...if stored improperly. Its most common use is in high-strength [[Neodymium iron boron magnet|neodymium magnets]]. As a tripositive ion, neodymium has unusu11 KB (1,483 words) - 21:03, 12 August 2020
- {{Infobox element ...ts that is [[Ferromagnetism|ferromagnetic]] at or near room temperature ([[iron]], [[cobalt]], and [[gadolinium]] being the others). Its [[Curie point|Curi11 KB (1,500 words) - 12:03, 25 June 2023
- {{Infobox element ...rm oxides. These reactions can be slow and gradual (as is the rusting of [[iron]]) or extremely fast, as in the combustion of [[caesium|cesium]].10 KB (1,425 words) - 19:23, 13 August 2022
- {{Infobox element ...nd [[potassium hydroxide]] solutions but not in water. It corrodes copper, iron, and stainless steel in its molten state. It reacts with oxygen in air, hyd10 KB (1,403 words) - 19:15, 30 August 2020
- {{Infobox element ...strongly. It is paramagnetic, enough to be visibly lifted by a [[Neodymium iron boron magnet|neodymium magnet]]. Its trivalent salts show dramatic color ch10 KB (1,332 words) - 21:44, 27 March 2019
- {{Infobox element ...lly, [[aluminium]], [[magnesium]] or [[zinc]] are used for this process. [[Iron]] is sometimes used. The addition of excess metal to acid or vice-versa wil12 KB (1,718 words) - 19:25, 30 November 2022
- {{Infobox element Iridium will form alloys with metals, such as [[osmium]] (osmiridium) and [[iron]].10 KB (1,358 words) - 16:56, 2 November 2022
- {{Infobox element |image name comment=Two easily available iron sources, with very different surface areas: Steel wool and railroad spikes.14 KB (2,062 words) - 22:51, 26 August 2023
- {{Infobox element ...ng a piece on a styrofoam block on water and pulling it with a [[Neodymium iron boron magnet|neodymium magnet]].11 KB (1,587 words) - 20:36, 26 December 2022
- {{Infobox element ...t tends to be alloyed with different metals. Chromoly, which consists of [[iron]], chromium and [[molybdenum]], tends to have a relatively high concentrati10 KB (1,312 words) - 18:17, 30 August 2020
- {{Infobox element ...ade by reducing a copper salt, such as copper sulfate with iron. If impure iron, such as steel is used, the carbon from the steel will contaminate the solu16 KB (2,353 words) - 12:11, 25 June 2023
- {{Infobox element ...e, stibnite (Sb<sub>2</sub>S<sub>3</sub>) with a reducing agent, such as [[iron]]. Carbon can also be used.11 KB (1,484 words) - 12:19, 18 October 2019
- {{Infobox element Alternatively, iron or aluminium can be used to displace cadmium metal from its salts.10 KB (1,433 words) - 20:07, 6 September 2022
- {{Infobox element |right= [[Iron]]9 KB (1,257 words) - 13:15, 11 August 2020
- {{Infobox element ...), and its boiling point is 4371 °C (7900 °F). Zirconium is lighter than iron, with a density of 6.52 g/cm<sup>3</sup>.9 KB (1,214 words) - 00:11, 27 November 2018
