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Oxidation state
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=== Simple approach without bonding considerations === Introductory chemistry uses postulates: the oxidation state for an element in a chemical formula is calculated from the overall charge and postulated oxidation states for all the other atoms. A simple example is based on two postulates, # OS = +1 for [[hydrogen]] # OS = β2 for [[oxygen]] where OS stands for oxidation state. This approach yields correct oxidation states in oxides and hydroxides of any single element, and in acids such as [[sulfuric acid]] ({{chem2|H2SO4}}) or [[dichromic acid]] ({{chem2|H2Cr2O7}}). Its coverage can be extended either by a list of exceptions or by assigning priority to the postulates. The latter works for [[hydrogen peroxide]] ({{chem2|H2O2}}) where the priority of rule 1 leaves both oxygens with oxidation state β1. Additional postulates and their ranking may expand the range of compounds to fit a textbook's scope. As an example, one postulatory algorithm from many possible; in a sequence of decreasing priority: # An element in a free form has OS = 0. # In a compound or ion, the sum of the oxidation states equals the total charge of the compound or ion. # [[Fluorine]] in compounds has OS = β1; this extends to [[chlorine]] and [[bromine]] only when not bonded to a lighter halogen, oxygen or nitrogen. # [[Group 1 element|Group 1]] and [[Group 2 element|group 2]] metals in compounds have OS = +1 and +2, respectively. # Hydrogen has OS = +1 but adopts β1 when bonded as a [[hydride]] to metals or metalloids. # Oxygen in compounds has OS = β2 but only when not bonded to oxygen (e.g. in peroxides) or fluorine. This set of postulates covers oxidation states of fluorides, chlorides, bromides, oxides, hydroxides, and hydrides of any single element. It covers all [[oxoacids]] of any central atom (and all their fluoro-, chloro-, and bromo-relatives), as well as [[salt (chemistry)|salts]] of such acids with group 1 and 2 metals. It also covers [[iodide]]s, [[sulfide]]s, and similar simple salts of these metals.
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