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Naming Chemical Compounds: A Review

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1 Naming Chemical Compounds: A Review
I. Ionic Compounds II. Covalent Compounds

2 Classifying Compounds
The system for naming an ionic compound is different from that for naming a covalent compound, so before a compound can be named, it must be classified as ionic or covalent. Classifying a compound is not an easy task, but for the purposes of naming them, we employ a simple test: Is there a metal or a polyatomic ion present? If the answer is yes, use the system for naming ionic compounds. If the answer is no, use the system for naming covalent compounds.

3 Naming Ionic Compounds
Ionic compounds are named simply by naming the ions present. There are, however, two complicating factors: I. Some metals form more than one ion. II. Identifying polyatomic ions I. Metals that form more than one ion, such as iron, add a Roman numeral to the name to indicate the charge: Fe2+ is called iron (II) and Fe3+ is called iron (III) Assume a Roman numeral is required for any metal except 1. metals in groups IA and IIA on the periodic table 2. aluminum, cadmium, silver, and zinc

4 Naming Ionic Compounds (continued)
If a Roman numeral is required, the charge on the metal ion must be determined from the charge on the negative ion. Helpful Rules to Remember A metal ion is always positive. The Roman numeral indicates the charge, not the subscript. The positive and negative charges must cancel (total charge must = 0). Nonmetals are always negative & can never form more than one monatomic ion. Examples Formula Reasoning Name FeCl2 Cl has a 1- charge, and there are 2 of them for a total of 2-, so the Fe must be 2+ iron (II) chloride Fe2O3 O has a 2- charge, and there are 3 of them for a total of 6-, so the Fe must have a total charge of 6+ split equally between the two iron atoms, so each must have a 3+ charge iron (III) oxide PbS2 S has a 2- charge, and there are 2 of them for a total of 4-, so the Pb must be 4+ lead (IV) sulfide Cu3N N has a 3- charge, so the Cu must have a total charge of 3+ split equally between the 3 copper atoms, so each must have a 1+ charge copper (I) nitride

5 Naming Ionic Compounds (continued)
II. Polyatomic ions each have specific names which must be memorized so they can be recognized on sight. (At this point, if you are asked to name any compound that contains more than two elements, it will contain at least one polyatomic ion.) A few of the more common polyatomic ions Formula Name C2H3O21- acetate CO32- carbonate HCO31- bicarbonate NH41+ ammonium Formula Name NO31- nitrate OH1- hydroxide PO43- phosphate SO42- sulfate

6 Naming Ionic Compounds: Examples
Na2SO4 sodium sulfate C2H3O21- acetate CO32- carbonate HCO31- bicarbonate NH41+ ammonium NO31- nitrate OH1- hydroxide PO43- phosphate SO42- sulfate * Groups I & II, Al, Zn, Cd, and Ag need no Roman numeral. Fe(NO3)2 iron (II) nitrate AlCl3 aluminum chloride PbI4 lead (IV) iodide (NH4)3PO4 ammonium phosphate Mg3N2 magnesium nitride AgC2H3O2 silver acetate

7 Naming Covalent Compounds
Covalent compounds are named by adding prefixes to the element names. The compounds named in this way are binary covalent compounds. ‘Binary’ means that only two atom are present. ‘Covalent’ (in this context) means both elements are nonmetals. A prefix is added to the name of the first element in the formula if more than one atom of it is present. (The less electronegative element is typically written first.) A prefix is always added to the name of the second element in the formula. The second element will use the form of its name ending in ‘ide’.

8 Naming Covalent Compounds
Prefixes Subscript Prefix 1 mono- 2 di- 3 tri- 4 tetra- 5 penta- Subscript Prefix 6 hexa- 7 hepta- 8 octa- 9 nona- 10 deca- Note: When a prefix ending in ‘o’ or ‘a’ is added to ‘oxide’, the final vowel in the prefix is dropped.

9 Naming Binary Covalent Compounds: Examples
1 mono 2 di 3 tri 4 tetra 5 penta 6 hexa 7 heptaa 8 octa 9 nona 10 deca * Second element in ‘ide’ from * Drop –a & -o before ‘oxide’ N2S4 dinitrogen tetrasulfide NI3 nitrogen triiodide XeF6 xenon hexafluoride CCl4 carbon tetrachloride P2O5 diphosphorus pentoxide SO3 sulfur trioxide

10 Naming Compounds: Practice
SiF4 silicon tetrafluoride Naming Compounds: Practice two nonmetals  covalent  use prefixes Na2CO3 sodium carbonate metal present  ionic  no prefixes Na  group I  no Roman numeral Analysis If “Yes” * Is the cation a metal? (If so, does it need a Roman numeral? The compound is ionic: name each ion present (DO NOT USE PREFIXES) * Is there a polyatomic ion present? * Are both elements nonmetals? The compound is covalent: use prefixes (NO CHARGES EXIST) N2O dinitrogen monoxide two nonmetals  covalent  use prefixes K2O potassium oxide metal present  ionic  no prefixes K  group I  no Roman numeral Cu3PO4 copper (I) phosphate metal present  ionic  no prefixes Cu  not group I, II, etc.  add Roman numeral (PO4 is 3-, each Cu must be 1+) CoI3 cobalt (III) iodide metal present  ionic  no prefixes Co  not group I, II, etc.  add Roman numeral (I is 1-, total is 3-, Co must be 3+) PI3 phosphorus triiodide two nonmetals  covalent  use prefixes NH4Cl potassium oxide NH4  polyatomic ion present  ionic  no prefixes

11 Writing Chemical Formulas: A Review
I. Ionic Compounds II. Covalent Compounds

12 Classifying Compounds
Classifying a compound using its name is not as difficult as using its formula. The names of covalent compounds will be easily recognized by the presence of the prefixes (mono-, di-, tri-, etc.). If no prefixes are present in the name, the compound is ionic. (Exception: some polyatomic ion names always contain prefixes (such as dichromate) but those will be memorized and recognized as ions.)

13 Writing Formulas for Ionic Compounds
Formulas for ionic compounds are written by balancing the positive and negative charges on the ions present. The total positive charge must equal the total negative charge because the number of electrons lost by one element (or group of elements) must equal the number gained by the other(s). Polyatomic ion names must still be recognized from memory (e.g. ammonium nitrate), but metals will have a Roman numeral associated with them if there is the possibility of more than one ion (e.g. copper (I) chloride or copper (II) chloride). The Roman numeral indicates the charge on the ion not the number of ions in the formula.

14 Writing Formulas for Ionic Compounds (continued)
Helpful Rules to Remember A metal ion is always positive. The Roman numeral indicates the charge, not the subscript. The positive and negative charges must cancel (total charge must = 0). If more than one polyatomic ion is needed, put it in parentheses, and place a subscript outside the parentheses. Examples Name Reasoning Formula ammonium sulfate NH4 has a 1+ charge & SO4 has a 2- charge, so 2 ammonium ions are required for each sulfate. (NH4)2SO4 zinc chloride Zn has a 2+ charge & Cl has a 1- charge, so 2 chloride ions are required for each zinc ion. ZnCl2 copper (II) phosphate Cu has a 2+ charge & PO4 has a 3- charge, so 3 copper (II) ions are required for every two phosphate ions. Cu3(PO4)2

15 Writing Formulas for Covalent Compounds
The names of covalent compounds contain prefixes that indicate the number of atoms of each element present. If no prefix is present on the name of the first element, there is only one atom of that element in the formula (its subscript will be 1). A prefix will always be present on the name of the second element. The second element will use the form of its name ending in Remember: The compounds named in this way are binary covalent compounds (they contain only two elements, both of which are nonmetals). When in covalent compounds, atoms do not have charges. Subscripts are determined directly from the prefixes in the name.

16 Writing Formulas for Binary Covalent Compounds: Examples
1 mono 2 di 3 tri 4 tetra 5 penta 6 hexa 7 heptaa 8 octa 9 nona 10 deca * Second element in ‘ide’ from * Drop –a & -o before ‘oxide’ nitrogen dioxide NO2 diphosphorus pentoxide P2O5 xenon tetrafluoride XeF4 sulfur hexafluoride SF6

17 Writing Formulas: Practice
carbon tetrafluoride CF4 Writing Formulas: Practice prefixes  covalent  prefixes indicate subscripts sodium phosphate Na3PO4 Analysis If “Yes” The compound is covalent: the prefixes give the subscripts. * Are there prefixes present The compound is ionic: subscripts must be determined by balancing charges metal  ionic  balance charges  3 Na1+ needed for 1 PO43- copper (I) sulfate Cu2SO4 metal present  ionic  balance charges 2 Cu1+ needed for 1 SO42- aluminum sulfide Al2S3 metal present  ionic  balance charges 2 Al3+ needed for 3 S2- dinitrogen pentoxide N2O5 prefixes  covalent  prefixes indicate subscripts ammonium nitrate NH4NO3 polyatomic ion present  ionic  balance charges  1 NH41+ needed for 1 NO31- lead (IV) oxide PbO2 metal present  ionic  balance charges 1 Pb4+ needed for 2 O2- iron (III) carbonate Fe2(CO3)3 metal present  ionic  balance charges 2 Fe3+ needed for 3 CO32-

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