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2.13: Chemical Nomenclature

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    232990
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    Learning Objectives

    By the end of this section, you will be able to:

    • Derive names for common types of inorganic compounds using a systematic approach

    Nomenclature, a collection of rules for naming things, is important in science and in many other situations. This module describes an approach that is used to name simple ionic and molecular compounds, such as NaCl, CaCO3, and N2O4. The simplest of these are binary compounds, those containing only two elements, but we will also consider how to name ionic compounds containing polyatomic ions, and one specific, very important class of compounds known as acids (subsequent chapters in this text will focus on these compounds in great detail). We will limit our attention here to inorganic compounds, compounds that are composed principally of elements other than carbon, and will follow the nomenclature guidelines proposed by IUPAC. The rules for organic compounds, in which carbon is the principle element, will be treated in a later chapter on organic chemistry.

    Ionic Compounds

    To name an inorganic compound, we need to consider the answers to several questions. First, is the compound ionic or molecular? If the compound is ionic, does the metal form ions of only one type (fixed charge) or more than one type (variable charge)? Are the ions monatomic or polyatomic? If the compound is molecular, does it contain hydrogen? If so, does it also contain oxygen? From the answers we derive, we place the compound in an appropriate category and then name it accordingly.

    Compounds Containing Only Monatomic Ions

    The name of a binary compound containing monatomic ions consists of the name of the cation (the name of the metal) followed by the name of the anion (the name of the nonmetallic element with its ending replaced by the suffix –ide). Some examples are given in Table 1.

    Table 1. Names of Some Ionic Compounds
    NaCl, sodium chloride Na2O, sodium oxide
    KBr, potassium bromide CdS, cadmium sulfide
    CaI2, calcium iodide Mg3N2, magnesium nitride
    CsF, cesium fluoride Ca3P2, calcium phosphide
    LiCl, lithium chloride Al4C3, aluminum carbide

    Compounds Containing Polyatomic Ions

    Compounds containing polyatomic ions are named similarly to those containing only monatomic ions, except there is no need to change to an –ide ending, since the suffix is already present in the name of the anion. Examples are shown in Table 2.

    Table 2. Names of Some Polyatomic Ionic Compounds
    KC2H3O2, potassium acetate (NH4)Cl, ammonium chloride
    NaHCO3, sodium bicarbonate CaSO4, calcium sulfate
    Al2(CO3)3, aluminum carbonate Mg3(PO4)2, magnesium phosphate

    Ionic Compounds in Your Cabinets

    Every day you encounter and use a large number of ionic compounds. Some of these compounds, where they are found, and what they are used for are listed in Table 3. Look at the label or ingredients list on the various products that you use during the next few days, and see if you run into any of those in this table, or find other ionic compounds that you could now name or write as a formula.

    Table 3. Everyday Ionic Compounds
    Ionic Compound Use
    NaCl, sodium chloride ordinary table salt
    KI, potassium iodide added to “iodized” salt for thyroid health
    NaF, sodium fluoride ingredient in toothpaste
    NaHCO3, sodium bicarbonate baking soda; used in cooking (and as antacid)
    Na2CO3, sodium carbonate washing soda; used in cleaning agents
    NaOCl, sodium hypochlorite active ingredient in household bleach
    CaCO3 calcium carbonate ingredient in antacids
    Mg(OH)2, magnesium hydroxide ingredient in antacids
    Al(OH)3, aluminum hydroxide ingredient in antacids
    NaOH, sodium hydroxide lye; used as drain cleaner
    K3PO4, potassium phosphate food additive (many purposes)
    MgSO4, magnesium sulfate added to purified water
    Na2HPO4, sodium hydrogen phosphate anti-caking agent; used in powdered products
    Na2SO3, sodium sulfite preservative

    Compounds Containing a Metal Ion with a Variable Charge

    Most of the transition metals can form two or more cations with different charges. Compounds of these metals with nonmetals are named with the same method as compounds in the first category, except the charge of the metal ion is specified by a Roman numeral in parentheses after the name of the metal. The charge of the metal ion is determined from the formula of the compound and the charge of the anion. For example, consider binary ionic compounds of iron and chlorine. Iron typically exhibits a charge of either 2+ or 3+ (see Molecular and Ionic Compounds), and the two corresponding compound formulas are FeCl2 and FeCl3. The simplest name, “iron chloride,” will, in this case, be ambiguous, as it does not distinguish between these two compounds. In cases like this, the charge of the metal ion is included as a Roman numeral in parentheses immediately following the metal name. These two compounds are then unambiguously named iron(II) chloride and iron(III) chloride, respectively. Other examples are provided in Table 4.

    Table 4. Names of Some Transition Metal Ionic Compounds
    Transition Metal Ionic Compound Name
    FeCl3 iron(II) chloride
    Hg2O mercury(I) oxide
    HgO mercury(II) oxide
    Cu3(PO4)2 copper(II) phosphate

    Out-of-date nomenclature used the suffixes –ic and –ous to designate metals with higher and lower charges, respectively: Iron(III) chloride, FeCl3, was previously called ferric chloride, and iron(II) chloride, FeCl2, was known as ferrous chloride. Though this naming convention has been largely abandoned by the scientific community, it remains in use by some segments of industry. For example, you may see the words stannous fluoride on a tube of toothpaste. This represents the formula SnF2, which is more properly named tin(II) fluoride. The other fluoride of tin is SnF4, which was previously called stannic fluoride but is now named tin(IV) fluoride.

    Example 1: Naming Ionic Compounds

    Name the following ionic compounds, which contain a metal that can have more than one ionic charge:

    1. Fe2S3
    2. CuSe
    3. GaN
    4. CrCl3
    5. Ti2(SO4)3

    [reveal-answer q=”143093″]Show Answer[/reveal-answer]
    [hidden-answer a=”143093″]

    The anions in these compounds have a fixed negative charge (S2−, Se2−, N3−, Cl, and {\text{SO}}_{4}{}^{2-}), and the compounds must be neutral. Because the total number of positive charges in each compound must equal the total number of negative charges, the positive ions must be Fe3+, Cu2+, Ga3+, Cr4+, and Ti3+. These charges are used in the names of the metal ions:

    1. iron(III) sulfide
    2. copper(II) selenide
    3. gallium(III) nitride
    4. chromium(III) chloride
    5. titanium(III) sulfate

    [/hidden-answer]

    Check Your Learning

    Write the formulas of the following ionic compounds:

    1. chromium(III) phosphide
    2. mercury(II) sulfide
    3. manganese(II) phosphate
    4. copper(I) oxide
    5. chromium(VI) fluoride

    [reveal-answer q=”560392″]Show Answer[/reveal-answer]
    [hidden-answer a=”560392″]

    1. CrP
    2. HgS
    3. Mn3(PO4)2
    4. Cu2O
    5. CrF6

    [/hidden-answer]

    Erin Brokovich and Chromium Contamination

    In the early 1990s, legal file clerk Erin Brockovich (Figure 1) discovered a high rate of serious illnesses in the small town of Hinckley, California. Her investigation eventually linked the illnesses to groundwater contaminated by Cr(VI) used by Pacific Gas & Electric (PG&E) to fight corrosion in a nearby natural gas pipeline. As dramatized in the film Erin Brokovich (for which Julia Roberts won an Oscar), Erin and lawyer Edward Masry sued PG&E for contaminating the water near Hinckley in 1993. The settlement they won in 1996—$333 million—was the largest amount ever awarded for a direct-action lawsuit in the US at that time.

    Figure A shows a photo of Erin Brockovich. Figure B shows a 3-D ball-and-stick model of chromate. Chromate has a chromium atom at its center that forms bonds with four oxygen atoms each. Two of the oxygen atoms form single bonds with the chromium atom while the other two form double bonds each. The structure of dichromate consists of two chromate ions that are bonded and share one of their oxygen atoms to which each chromate atom has a single bond.
    Figure 1. (a) Erin Brockovich found that Cr(IV), used by PG&E, had contaminated the Hinckley, California, water supply. (b) The Cr(VI) ion is often present in water as the polyatomic ions chromate, CrO42− (left), and dichromate, Cr2O72− (right).

     

    Chromium compounds are widely used in industry, such as for chrome plating, in dye-making, as preservatives, and to prevent corrosion in cooling tower water, as occurred near Hinckley. In the environment, chromium exists primarily in either the Cr(III) or Cr(VI) forms. Cr(III), an ingredient of many vitamin and nutritional supplements, forms compounds that are not very soluble in water, and it has low toxicity. But Cr(VI) is much more toxic and forms compounds that are reasonably soluble in water. Exposure to small amounts of Cr(VI) can lead to damage of the respiratory, gastrointestinal, and immune systems, as well as the kidneys, liver, blood, and skin.

    Despite cleanup efforts, Cr(VI) groundwater contamination remains a problem in Hinckley and other locations across the globe. A 2010 study by the Environmental Working Group found that of 35 US cities tested, 31 had higher levels of Cr(VI) in their tap water than the public health goal of 0.02 parts per billion set by the California Environmental Protection Agency.

    Molecular (Covalent) Compounds

    The bonding characteristics of inorganic molecular compounds are different from ionic compounds, and they are named using a different system as well. The charges of cations and anions dictate their ratios in ionic compounds, so specifying the names of the ions provides sufficient information to determine chemical formulas. However, because covalent bonding allows for significant variation in the combination ratios of the atoms in a molecule, the names for molecular compounds must explicitly identify these ratios.

    Compounds Composed of Two Elements

    When two nonmetallic elements form a molecular compound, several combination ratios are often possible. For example, carbon and oxygen can form the compounds CO and CO2. Since these are different substances with different properties, they cannot both have the same name (they cannot both be called carbon oxide). To deal with this situation, we use a naming method that is somewhat similar to that used for ionic compounds, but with added prefixes to specify the numbers of atoms of each element. The name of the more metallic element (the one farther to the left and/or bottom of the periodic table) is first, followed by the name of the more nonmetallic element (the one farther to the right and/or top) with its ending changed to the suffix –ide. The numbers of atoms of each element are designated by the Greek prefixes shown in Table 5.

    Table 5. Nomenclature Prefixes
    Number Prefix   Number Prefix
    1 (sometimes omitted) mono-   6 hexa-
    2 di- 7 hepta-
    3 tri- 8 octa-
    4 tetra- 9 nona-
    5 penta- 10 deca-

    When only one atom of the first element is present, the prefix mono– is usually deleted from that part. Thus, CO is named carbon monoxide, and CO2 is called carbon dioxide. When two vowels are adjacent, the a in the Greek prefix is usually dropped. Some other examples are shown in Table 6.

    Table 6. Names of Some Molecular Compounds Composed of Two Elements
    Compound Name   Compound Name
    SO2 sulfur dioxide   BCl3 boron trichloride
    SO3 sulfur trioxide SF6 sulfur hexafluoride
    NO2 nitrogen dioxide PF5 phosphorus pentafluoride
    N2O4 dinitrogen tetroxide P4O10 tetraphosphorus decaoxide
    N2O5 dinitrogen pentoxide IF7 iodine heptafluoride

    There are a few common names that you will encounter as you continue your study of chemistry. For example, although NO is often called nitric oxide, its proper name is nitrogen monoxide. Similarly, N2O is known as nitrous oxide even though our rules would specify the name dinitrogen monoxide. (And H2O is usually called water, not dihydrogen monoxide.) You should commit to memory the common names of compounds as you encounter them.

    Example 2: Naming Covalent Compounds

    Name the following covalent compounds:

    1. SF6
    2. N2O3
    3. Cl2O7
    4. P4O6

    [reveal-answer q=”1263″]Show Answer[/reveal-answer]
    [hidden-answer a=”1263″]Because these compounds consist solely of nonmetals, we use prefixes to designate the number of atoms of each element:

    1. sulfur hexafluoride
    2. dinitrogen trioxide
    3. dichlorine heptoxide
    4. tetraphosphorus hexoxide

    [/hidden-answer]

    Check Your Learning

    Write the formulas for the following compounds:

    1. phosphorus pentachloride
    2. dinitrogen monoxide
    3. iodine heptafluoride
    4. carbon tetrachloride

    [reveal-answer q=”405667″]Show Answer[/reveal-answer]
    [hidden-answer a=”405667″]

    1. PCl5
    2. N2O
    3. IF7
    4. CCl4

    [/hidden-answer]

    The Chemiste website provides practice with naming chemical compounds and writing chemical formulas. You can choose binary, polyatomic, and variable charge ionic compounds, as well as molecular compounds.

    Binary Acids

    Some compounds containing hydrogen are members of an important class of substances known as acids. The chemistry of these compounds is explored in more detail in later chapters of this text, but for now, it will suffice to note that many acids release hydrogen ions, H+, when dissolved in water. To denote this distinct chemical property, a mixture of water with an acid is given a name derived from the compound’s name. If the compound is a binary acid (comprised of hydrogen and one other nonmetallic element):

    1. The word “hydrogen” is changed to the prefix hydro-
    2. The other nonmetallic element name is modified by adding the suffix –ic
    3. The word “acid” is added as a second word

    For example, when the gas HCl (hydrogen chloride) is dissolved in water, the solution is called hydrochloric acid. Several other examples of this nomenclature are shown in Table 7.

    Table 7. Names of Some Simple Acids
    Name of Gas Name of Acid
    HF(g), hydrogen fluoride HF(aq), hydrofluoric acid
    HCl(g), hydrogen chloride HCl(aq), hydrochloric acid
    HBr(g), hydrogen bromide HBr(aq), hydrobromic acid
    HI(g), hydrogen iodide HI(aq), hydroiodic acid
    H2S(g), hydrogen sulfide H2S(aq), hydrosulfuric acid

    Oxyacids

    Many compounds containing three or more elements (such as organic compounds or coordination compounds) are subject to specialized nomenclature rules that you will learn later. However, we will briefly discuss the important compounds known as oxyacids, compounds that contain hydrogen, oxygen, and at least one other element, and are bonded in such a way as to impart acidic properties to the compound (you will learn the details of this in a later chapter). Typical oxyacids consist of hydrogen combined with a polyatomic, oxygen-containing ion. To name oxyacids:

    1. Omit “hydrogen”
    2. Start with the root name of the anion
    3. Replace –ate with –ic, or –ite with –ous
    4. Add “acid”

    For example, consider H2CO3 (which you might be tempted to call “hydrogen carbonate”). To name this correctly, “hydrogen” is omitted; the –ate of carbonate is replace with –ic; and acid is added—so its name is carbonic acid. Other examples are given in Table 8. There are some exceptions to the general naming method (e.g., H2SO4 is called sulfuric acid, not sulfic acid, and H2SO3 is sulfurous, not sulfous, acid).

    Table 8. Names of Common Oxyacids
    Formula Anion Name Acid Name
    HC2H3O2 acetate acetic acid
    HNO3 nitrate nitric acid
    HNO2 nitrite nitrous acid
    HClO4 perchlorate perchloric acid
    H2CO3 carbonate carbonic acid
    H2SO4 sulfate sulfuric acid
    H2SO3 sulfite sulfurous acid
    H3PO4 phosphate phosphoric acid

    Key Concepts and Summary

    Chemists use nomenclature rules to clearly name compounds. Ionic and molecular compounds are named using somewhat-different methods. Binary ionic compounds typically consist of a metal and a nonmetal. The name of the metal is written first, followed by the name of the nonmetal with its ending changed to –ide. For example, K2O is called potassium oxide. If the metal can form ions with different charges, a Roman numeral in parentheses follows the name of the metal to specify its charge. Thus, FeCl2 is iron(II) chloride and FeCl3 is iron(III) chloride.

    Some compounds contain polyatomic ions; the names of common polyatomic ions should be memorized. Molecular compounds can form compounds with different ratios of their elements, so prefixes are used to specify the numbers of atoms of each element in a molecule of the compound. Examples include SF6, sulfur hexafluoride, and N2O4, dinitrogen tetroxide. Acids are an important class of compounds containing hydrogen and having special nomenclature rules. Binary acids are named using the prefix hydro-, changing the –ide suffix to –ic, and adding “acid;” HCl is hydrochloric acid. Oxyacids are named by changing the ending of the anion to –ic, and adding “acid;” H2CO3 is carbonic acid.

    Exercises

    1. Name the following compounds:
      1. CsCl
      2. BaO
      3. K2S
      4. BeCl2  
      5. HBr
      6. AlF3
    2. Name the following compounds:
      1. NaF
      2. Rb2O
      3. BCl3  
      4. H2Se
      5. P4O6  
      6. ICl3
    3. Write the formulas of the following compounds:
      1. rubidium bromide
      2. magnesium selenide
      3. sodium oxide
      4. calcium chloride
      5. hydrogen fluoride
      6. gallium phosphide
      7. aluminum bromide
      8. ammonium sulfate
    4. Write the formulas of the following compounds:
      1. lithium carbonate
      2. sodium perchlorate
      3. barium hydroxide
      4. ammonium carbonate
      5. sulfuric acid
      6. calcium acetate
      7. magnesium phosphate
      8. sodium sulfite
    5. Write the formulas of the following compounds:
      1. chlorine dioxide
      2. dinitrogen tetraoxide
      3. potassium phosphide
      4. silver(I) sulfide
      5. aluminum nitride
      6. silicon dioxide
    6. Write the formulas of the following compounds:
      1. barium chloride
      2. magnesium nitride
      3. sulfur dioxide
      4. nitrogen trichloride
      5. dinitrogen trioxide
      6. tin(IV) chloride
    7. Each of the following compounds contains a metal that can exhibit more than one ionic charge. Name these compounds:
      1. Cr2O3  
      2. FeCl2  
      3. CrO3  
      4. TiCl4  
      5. CoO
      6. MoS2
    8. Each of the following compounds contains a metal that can exhibit more than one ionic charge. Name these compounds:
      1. NiCO3  
      2. MoO3  
      3. Co(NO3)2  
      4. V2O5  
      5. MnO
      6. Fe2O
    9. The following ionic compounds are found in common household products. Write the formulas for each compound:
      1. potassium phosphate
      2. copper(II) sulfate
      3. calcium chloride
      4. titanium dioxide
      5. ammonium nitrate
      6. sodium bisulfate (the common name for sodium hydrogen sulfate)
    10. The following ionic compounds are found in common household products. Name each of the compounds:
      1. Ca(H2PO4)
      2. FeSO
      3. CaCO
      4. MgO
      5. NaNO2  
      6. KI
    11. What are the IUPAC names of the following compounds?
      1. manganese dioxide
      2. mercurous chloride (Hg2Cl2)
      3. ferric nitrate [Fe(NO3)3]
      4. titanium tetrachloride
      5. cupric bromide (CuBr2)

    [reveal-answer q=”708113″]Show Selected Answers[/reveal-answer]
    [hidden-answer a=”708113″]

    1. (a) cesium chloride; (b) barium oxide; (c) potassium sulfide; (d) beryllium chloride; (e) hydrogen bromide; (f) aluminum fluoride

    3. (a) RbBr; (b) MgSe; (c) Na2O; (d) CaCl2; (e) HF; (f) GaP; (g) AlBr3; (h) (NH4)2SO4

    5. (a) ClO2; (b) N2O4; (c) K3P; (d) Ag2S; (e) AlN; (f) SiO2

    7. (a) chromium(III) oxide; (b) iron(II) chloride; (c) chromium(VI) oxide; (d) titanium(IV) chloride; (e) cobalt(II) oxide; (f) molybdenum(IV) sulfide

    9. (a) K3PO4; (b) CuSO4; (c) CaCl2; (d) TiO2; (e) NH4NO3; (f) NaHSO4

    11. (a) manganese(IV) oxide; (b) mercury(I) chloride; (c) iron(III) nitrate; (d) titanium(IV) chloride; (e) copper(II) bromide

    [/hidden-answer]

    Glossary

    binary acid: compound that contains hydrogen and one other element, bonded in a way that imparts acidic properties to the compound (ability to release H+ ions when dissolved in water)

    binary compound: compound containing two different elements.

    nomenclature: system of rules for naming objects of interest

    oxyacid: compound that contains hydrogen, oxygen, and one other element, bonded in a way that imparts acidic properties to the compound (ability to release H+ ions when dissolved in water)

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