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{{r|Oxidation state}}

{{r|Oxidation state}}

It is easily oxidized to the +1 oxidation state and forms many salts. Elevated sodium levels in humans may lead to high bl

{{r|Oxidation state}}

{{r|Oxidation state}}

{{r|Oxidation state}}

{{r|Oxidation state}}

{{r|Oxidation state}}

Common [[oxidation state]]s of sulphur include −2, +2, +4 and +6. Sulphur forms stable compoun

{{r|Oxidation state}}

...;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)₆³⁺, is trivalent and is denoted by the oxidation state Cr(III). (This is because water has formal oxidation number zero.) This ver

{{r|Oxidation state}}

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.

...oportionation]] with one reactant forming two distinct products varying in oxidation state.

...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 differen

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 ha

...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.

*"detects the total elemental content, regardless of oxidation state, chemical form or physical location." <ref>{{citation

<tr><th>Oxidation State</th><th>Formula</th><th>Name</th><th>Acidic Protons</th><th>Compounds</th>

<tr><th>Oxidation State</th><th>Formula</th><th>Name</th><th>Acidic Protons</th><th>Compounds</th>