3.11: H⁺ and OH⁻ Ions - An Introduction to Acids and Bases
- Page ID
- 86605
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You may have some idea, from your day-to-day experiences, of some chemical substances that are considered acids or bases. Generally, a compound that is sour is recognized as being an acid. Some familiar acids may include citric acid, which is a molecule found in citrus fruits such as lemons and limes, and acetic acid, the molecule that makes up vinegar. Bases, on the other hand, include chemicals such as sodium bicarbonate (baking soda), which is bitter-tasting, and sodium hydroxide, which is found in cleaning substances and is not recommended for ingestion.
More details about acids, bases, and the reactions they undergo will be discussed later in this text. However, because you have just learned about ions and ionic compounds, it is worth pointing out two important ions that are used to identify and distinguish if a substance is acidic or basic; hydrogen ions, \(\ce{H^{+}}\), and hydroxide ions, \(\ce{OH^{−}}\). In fact, one definition of acids and bases states that an acid will produce \(\ce{H^{+}}\) when dissolved in water and a base will produce a \(\ce{OH^{−}}\) when dissolved in water.
Ionic compounds that are basic are easily recognized because the hydroxide ion is part of the formula and name. Some common examples are sodium hydroxide, \(\ce{NaOH}\), and calcium hydroxide, \(\ce{Ca(OH)2}\). When dissolved in water, sodium hydroxide will split into its constituent ions, sodium ions (\(\ce{Na+}\)) and hydroxide ions (\(\ce{OH^{−}}\)) in a 1:1 ratio. However, according to it's chemical formula, calcium hydroxide will produce two hydroxide ions for every one calcium ion, a 1:2 ratio.
Compounds that produce hydrogen ions in water contain one or more hydrogen ions in the chemical formula and usually have special names to help recognize them as acids. Hydrochloric acid (\(\ce{HCl}\)), nitric acid (\(\ce{HNO3}\)), and carbonic acid (\(\ce{H2CO3}\)) are all acids. \(\ce{HCl}\) and \(\ce{HNO3}\) each dissolve in water producing a \(\ce{H^{+}}\) and an anion (chloride and nitrate respectively). As indicated by the formula for carbonic acid there are two \(\ce{H^{+}}\) for every one carbonate ion. The below table lists some common acids. See if you can determine the ratio of \(\ce{H^{+}}\) to anions produced when these compounds are dissolved in water.
Acid Name | Acid Formula | Anion Name | Anion Formula |
---|---|---|---|
acetic acid | \(\ce{CH3COOH}\) | acetate ion | \(\ce{CH3COO^{-}}\) |
carbonic acid | \(\ce{H2CO3}\) | bicarbonate ion | \(\ce{HCO3^{-}}\) |
carbonate ion | \(\ce{CO3^{2-}}\) | ||
hydrobromic acid | \(\ce{HBr}\) | bromide ion | \(\ce{Br^{-}}\) |
nitric acid | \(\ce{HNO3}\) | nitrate ion | \(\ce{NO3^{-}}\) |
nitrous acid | \(\ce{HNO2}\) | nitrous ion | \(\ce{NO2^{-}}\) |
phosphoric acid | \(\ce{H3PO4}\) | dihydrogen phosphate ion | \(\ce{H2PO4^{-}}\) |
hydrogen phosphate ion | \(\ce{HPO4^{2-}}\) | ||
phosphate ion | \(\ce{PO4^{3-}}\) | ||
sulfuric acid | \(\ce{H2SO4}\) | hydrogen sulfate ion | \(\ce{HSO4^{-}}\) |
sulfate ion | \(\ce{SO4^{2-}}\) | ||
sulfurous acid | \(\ce{H2SO3}\) | hydrogen sulfite ion | \(\ce{HSO3^{-}}\) |
sulfite ion | \(\ce{SO3^{2-}}\) |