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- #Redirect [[Oxidation state]]29 bytes (3 words) - 15:20, 12 April 2008
- '''Oxidation state''' is a measure of the degree of [[oxidation]] of an [[atom]] in a [[substa #The oxidation state of a free [[element]] (uncombined element) is zero;1 KB (248 words) - 12:24, 3 April 2012
- 12 bytes (1 word) - 15:03, 12 April 2008
- 99 bytes (16 words) - 19:57, 11 June 2008
- Auto-populated based on [[Special:WhatLinksHere/Oxidation state]]. Needs checking by a human.1 KB (165 words) - 09:18, 6 March 2024
Page text matches
- '''Oxidation state''' is a measure of the degree of [[oxidation]] of an [[atom]] in a [[substa #The oxidation state of a free [[element]] (uncombined element) is zero;1 KB (248 words) - 12:24, 3 April 2012
- #Redirect [[Oxidation state]]29 bytes (3 words) - 15:20, 12 April 2008
- {{r|Oxidation state}}921 bytes (113 words) - 15:53, 1 April 2012
- {{r|Oxidation state}}408 bytes (53 words) - 01:33, 19 April 2011
- {{r|Oxidation state}}2 KB (250 words) - 09:18, 6 March 2024
- Auto-populated based on [[Special:WhatLinksHere/Oxidation state]]. Needs checking by a human.1 KB (165 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}1 KB (160 words) - 11:58, 31 December 2022
- {{r|Oxidation state}}1 KB (189 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}1 KB (194 words) - 12:49, 15 March 2024
- {{r|Oxidation state}}1 KB (193 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}1 KB (199 words) - 12:57, 15 March 2024
- {{r|Oxidation state}}1 KB (198 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (210 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (208 words) - 12:49, 15 March 2024
- {{r|Oxidation state}}1 KB (209 words) - 12:57, 15 March 2024
- {{r|Oxidation state}}2 KB (213 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (215 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (225 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (224 words) - 12:49, 15 March 2024
- {{r|Oxidation state}}2 KB (218 words) - 12:57, 15 March 2024
- {{r|Oxidation state}}2 KB (226 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (231 words) - 09:18, 6 March 2024
- It is easily oxidized to the +1 oxidation state and forms many salts. Elevated sodium levels in humans may lead to high bl1 KB (183 words) - 21:03, 12 January 2021
- {{r|Oxidation state}}2 KB (247 words) - 12:57, 15 March 2024
- {{r|Oxidation state}}2 KB (245 words) - 17:08, 22 March 2024
- {{r|Oxidation state}}2 KB (256 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (263 words) - 09:18, 6 March 2024
- {{r|Oxidation state}}2 KB (280 words) - 09:18, 6 March 2024
- Common [[oxidation state]]s of sulphur include −2, +2, +4 and +6. Sulphur forms stable compoun3 KB (449 words) - 09:21, 6 March 2024
- {{r|Oxidation state}}2 KB (323 words) - 12:57, 15 March 2024
- ...;392 (1979)</ref> Note in this table that the elements exhibit variable [[oxidation state]]s. The chemistry of the transition series is mainly that of the ions in ...sub>2</sub>O)<sub>6</sub><sup>3+</sup>, is trivalent and is denoted by the oxidation state Cr(III). (This is because water has formal oxidation number zero.) This ver22 KB (3,166 words) - 06:33, 6 March 2024
- {{r|Oxidation state}}3 KB (457 words) - 12:49, 15 March 2024
- There is a wide variety of cobalt compounds. The +2 and +3 [[oxidation state]]s are most prevalent, however cobalt(I) complexes are also fairly common.9 KB (1,307 words) - 09:37, 29 March 2024
- ...oportionation]] with one reactant forming two distinct products varying in oxidation state.11 KB (1,592 words) - 09:15, 28 September 2013
- ...can coexist at once. Some work has been done on the identification of the oxidation state and coordination number of plutonium and the other actinides under differen13 KB (2,007 words) - 09:16, 6 March 2024
- Plutonium dissolves in acids and can exist in four [[oxidation state]]s, Pu(III), Pu(IV), Pu(V), and Pu(VI). Very many compounds of plutonium ha10 KB (1,406 words) - 17:02, 22 March 2024
- ...is enzyme is a mutase and not an isomerase. While an isomerase changes the oxidation state of the carbons being reacted, a mutase does not.21 KB (3,063 words) - 02:03, 2 June 2009
- *"detects the total elemental content, regardless of oxidation state, chemical form or physical location." <ref>{{citation8 KB (1,189 words) - 06:39, 12 September 2013
- <tr><th>Oxidation State</th><th>Formula</th><th>Name</th><th>Acidic Protons</th><th>Compounds</th>19 KB (2,983 words) - 05:36, 6 March 2024
- <tr><th>Oxidation State</th><th>Formula</th><th>Name</th><th>Acidic Protons</th><th>Compounds</th>19 KB (2,982 words) - 05:36, 6 March 2024
- ...pects to zinc but reacts to form more complex compounds. The most common [[oxidation state]] of cadmium is +2, though rare examples of +1 can be found.9 KB (1,370 words) - 09:16, 6 March 2024
- ...reen) is shown. This may be a schematic drawing of, say, the copper(II) ([[oxidation state]] +2) complex [Cu(H<sub>2</sub>O)<sub>6</sub>]<sup>2+</sup>. [[Crystal fie21 KB (3,426 words) - 23:58, 27 October 2013
- Common [[oxidation state]]s of gold include +1 (gold(I) or aurous compounds) and +3 (gold(III) or au27 KB (4,240 words) - 07:31, 20 April 2024
- ..., then a [[dichromate]] salt was added to maintain the plutonium in the +6 oxidation state. The bismuth phosphate was then re-precipitated leaving the plutonium in so31 KB (4,881 words) - 12:55, 15 March 2024
- ...he atmosphere change through time, including the step-wise increase in the oxidation state of the biosphere, and how did these changes impact Earth's biota? How did l42 KB (6,267 words) - 20:40, 8 June 2010
- .... The aluminium atom at the center of each alumina tetrahedra is at a +3 [[oxidation state ]] surrounded by four oxygen atoms at the corners which are shared by the n31 KB (4,755 words) - 09:16, 6 March 2024