Ch 100: Fundamentals for ChemistryTypes of CompoundsTypes of Compounds (cont.)Naming CompoundsNaming Simple CompoundsDetermining Chemical Formula of an Ionic CompoundIonic Charges & the Periodic TableGreek Prefixes for Compound NamesIonic Compounds containing Polyatomic ionsAcidsNaming AcidsNaming Acids (cont.)Antoine Lavoisier (1743-1794)Ch 100: Fundamentals for ChemistryChapter 6: Nomenclature of Inorganic CompoundsTypes of Compounds•When compounds are formed they are held together by the association of electrons•This association is called a chemical bond•There are 3 general types of chemical bonds:1. Ionic2. Covalent (or molecular)3. Polar covalent•Simple compounds are classified (and thus named) according to the type of chemical bond(s) that hold together its atomsNote: many compounds have more than one type of chemical bond present, but we will focus on only “simple compounds”Types of Compounds (cont.)For “practical” purposes will separate all simple compounds into 2 general categories:1. Ionic Compoundsa. Made up of ions (both positive and negative charge)b. Must have no net charge (i.e. combined charge of zero)c. Depend on the attraction between positive and negative charges of the ionsd. Usually a metal is present as a cation and a nonmetal is present as an anion2. Non-Ionic (aka: Molecular or Covalent) Compoundsa. Made up of atoms that share their outer electronsb. Electric charge plays no direct role in their formationc. There are usually no metals are present in these compoundsNaming CompoundsThe easiest way (usually) to identify an ionic compound is to ask whether or not there is a metal present in the chemical formula (or the name):Is a metal present?–Yes -> it is an Ionic Compound (e.g. CaCl2)–No -> it is a Non-Ionic Compound (e.g. CCl4) or an AcidNotes:1. Ionic compounds do not use the Greek prefixes and are named according to the identity of the ions present2. Non-Ionic compounds require the use of Greek prefixes to indicate the number of each element present in one moleculeNaming Simple CompoundsA “simple” or binary compound is a compound made of only 2 types of elements •When the first element is a metal:•The first element (metal) keeps its full name•The non-metal goes by its root with the suffix “-ide” added to the endExample: NaCl is sodium chloride•When there are no metals present•Same as above except•Greek prefixes must be used to identify the number of each element present in the compoundExample: CO2 is carbon dioxideDetermining Chemical Formula of an Ionic CompoundTo determine the chemical formula of an ionic compound from its chemical name:1. Identify the ions present, both cation(s) and anion(s), from the name.Example: potassium sulfideCation: potassiumAnion: sulfide2. Determine the ionic charge of the ionsExample: {from above}potassium ion, K+sulfide ion, S2-3. Determine the number of each ion needed to obtain a neutral compoundExample: {from above} 2 K+ ions are needed for every S2-3. Combine the chemical sysmbols of the ions to get the final chemical formulaExample: {from above} K2S is the formula for potassium sulfideIonic Charges & the Periodic TableThe position of an element in the Periodic Table is a useful indicator of the type of ion an element is capable of forming:1. Group 1 metals form 1+ cations (Na+ sodium ion)2. Group 2 metals form 2+ cations (Ca2+ calcium ion)3. Group 13 metals form 3+ cations (Al3+ aluminum ion)4. Group 3-12 Metals (plus Sn, Pb, & Bi) can form more than one type of cationRoman numerals are used to indicate the charge of the cationExample:Fe3+ is called iron(III)FeCl3 is called iron(III) chlorideNotable Exceptions:Ag+, Cd2+ & Zn2+5. Group 15 nonmetals form 3- anions (e.g. N3- nitride ion)6. Group 16 nonmetals form 2- anions (e.g. O2- oxide ion)7. Group 17 nonmetals form 1- anions (e.g. Cl- chloride ion)8. Group 18 elements do not form ionsGreek Prefixes for Compound Names1) Mono-2) Di-3) Tri-4) Tetra-5) Penta-CCl4 is carbon tetrachloride6) Hexa-7) Hepta-8) Octa-9) Nona-10) Deca-C3H8 is tricarbon octahydrideNotes:1) Prefixes are used when the compound does not have a metal present (or when H is the first element in the formula)2) Prefixes must be used for every element present in the compound 3) Mono- is not used for the first element in a compound name (e.g. carbon dioxide)Ionic Compounds containing Polyatomic ions•Some ionic compounds are made up of polyatomic ions•Polyatomic ions are usually ions formed from non-ionic moleculese.g. The sulfate ion, SO42-, is essentially a molecular compound containing S and O with 2 additional electrons•When you encounter polyatomic ions in compounds, do not freak out!!•Become familiar with the common polyatomic ions on the handoutExample: The nitrate ion (NO3-)•Fortunately, the naming of ionic compounds containing polyatomic ions is similar to that for ionic compoundsAcids–From the Latin term for “sour” {Acids are sour to the taste}–Acids are substances that donate or release hydrogen cations, H+, (usually when dissolved in water)–The chemical formula for acids usually begins with HExample: hydrochloric acid (HCl)HCl(aq) H+ + Cl- (aq)–Taste bitter (Note: it is not advised to taste strong bases…)–Usually metal containing hydroxides–Substances that accept hydrogen cations (H+) when dissolved in waterExample: potassium hydroxide (KOH)KOH(aq) + H+ K+(aq) + H2O (l)BasesNaming AcidsLets separate acids into 2 types:1. Acids that contain oxygen2. Acids that do not contain oxygenNaming acids containing oxygen:1. For acids containing “-ate” anions:a. Use root of the anion (for sulfate, SO42-, use sulfur) b. Add “-ic” suffix then end with “acid”Example: H2SO4 is sulfuric acid2. For acids with “-ite” anions:a. Use root of the anion (for sulfite, SO32-, use sulfur) b. Add “-ous” suffix then end with “acid”Example: H2SO3 is sulfurous acidNaming Acids (cont.)Naming acids not containing oxygen:1. Add “hydro-” prefix to beginning2. Use root of the anion (i.e. Cl- use chlor)3. Add “-ic” suffix then end with “acid”Example: HCl is hydrochloric acidName the following acids:HFHNO2HCNH3PO4Antoine Lavoisier (1743-1794)•Considered by many to be the “Father of Modern Chemistry”•Major contributions included1. Demonstrated that water cannot be transmuted to earth2. Established the Law of Conservation of Mass3. Developed a method of producing better gunpowder4. Observed
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