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Unit 3-5 Bond type and ionic compounds

Unit 3-5 Bond type and ionic compounds . Elements and Compounds. elements combine together to make an almost limitless number of compounds the properties of the compound are totally different from the constituent elements. Chemical Bonds.

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Unit 3-5 Bond type and ionic compounds

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  1. Unit 3-5 Bond type and ionic compounds

  2. Elements and Compounds • elements combine together to make an almost limitless number of compounds • the properties of the compound are totally different from the constituent elements

  3. Chemical Bonds • compounds are made of atoms held together by chemical bonds • the bonding attraction comes from attractions between protons and electrons Tro, Chemistry: A Molecular Approach

  4. Bond Types • ionic bonds result when electrons have been transferred between atoms, resulting in oppositely charged ions that attract each other • Found when metal atoms bonded to nonmetal atoms • covalent bonds result when two atoms share some of their electrons • Found when nonmetal atoms bonded together • Metalic bonds • Found in pure metal, such as Na and Au metal.

  5. Representing Compounds with Chemical Formula • compounds are generally represented with a chemical formula • the amount of information about the structure of the compound varies with the type of formula • all formula and models convey a limited amount of information – none are perfect representations • all chemical formulas tell what elements are in the compound • use the letter symbol of the element

  6. Types of Formula • Empirical Formula describe the kinds of elements found in the compound and the ratio of their atoms • they do NOT describe how many atoms, the order of attachment, or the shape • the formulas for ionic compounds are empirical • Molecular Formula describe the kinds of elements found in the compound and the numbers of their atoms • Hydrogen Peroxide • Molecular Formula = H2O2 • Empirical Formula = HO • Table salt, Empirical Formula = NaCl

  7. Types of Formula • Structural Formula describe the kinds of elements found in the compound, the numbers of their atoms, order of atom attachment, and the kind of attachment • they do not directly describe the 3-dimensional shape, but an experienced chemist can make a good guess at it • use lines to represent covalent bonds • each line describes the number of electrons shared by the bonded atoms • single line = 2 shared electrons, a single covalent bond • double line = 4 shared electrons, a double covalent bond • triple line = 6 shared electrons, a triple covalent bond

  8. Representing Compounds - Molecular Models • Models show the 3-dimensional structure along with all the other information given in structural formula • Ball-and-Stick Models use balls to represent the atoms and sticks to represent the attachments between them • Space-Filling Models use interconnected spheres to show the electron clouds of atoms connecting together Tro, Chemistry: A Molecular Approach

  9. Types of Formula

  10. Classification of Elements and Compounds

  11. Classifying Materials • atomic elements = elements whose particles are single atoms • molecular elements = elements whose particles are multi-atom molecules • molecular compounds = compounds whose particles are molecules made of only nonmetals • ionic compounds = compounds whose particles are cations and anions, made of metal + nonmetals • You should know how to identify ionic or molecular compounds!

  12. 7A 7 H2 N2 O2 F2 Cl2 Br2 I2 Molecular Elements • Certain elements occur as 2 atom molecules • Rule of 7’s • You must remember the diatomic pure elements! • Other elements occur as polyatomic molecules • P4, S8, Se8

  13. Ionic vs. Molecular Compounds Propane – contains individual C3H8 molecules Table salt NaCl– contains an array of Na+ ions and Cl- ions Tro, Chemistry: A Molecular Approach

  14. Ionic Compounds • metals + nonmetals. • metal atoms form cations, nonmetal atoms for anions • NO individual molecule units= No molecular formula, empirical formula only. • many contain polyatomic ions • several atoms attached together in one ion • Oxyanion= One or more oxygen found in the polyatomic anion. NO3- , SO42- • Covalent bonds are formed among the atoms within the polyatomic ions. • Remember both the formula and charge of all the polyatomic ions in the handout list, especially the oxyanions!

  15. Zero net charge rule of Ionic Compound • compound must have no total charge, therefore we must balance the numbers of cations and anions in a compound to get “zero” charge • if Na+ is combined with S2-, you will need 2 Na+ ions for every S2- ion to balance the charges, therefore the formula must be Na2S • The name of cation is the same as the element. The name of anion is changed to –ide, except for polyatomic ions.

  16. Writing Formulas for Ionic Compounds • Write the symbol for the metal cation and its charge. If the transition metal has variable charges, the Roman number indicates the charge in this compound. • Write the symbol for the nonmetal anion and its charge • Charge (without sign) becomes subscript for other ion • Reduce subscripts to smallest whole number ratio • Check that the sum of the charges of the cation cancels the sum of the anions

  17. Write the formula of a compound made from aluminum ions and oxide ions • Write the symbol for the metal cation and its charge • Write the symbol for the nonmetal anion and its charge • Charge (without sign) becomes subscript for other ion • Reduce subscripts to smallest whole number ratio • Check that the total charge of the cations cancels the total charge of the anions Al+3 column 3A O2- column 6A Al+3 O2- Al2 O3 Al = (2)∙(+3) = +6 O = (3)∙(-2) = -6

  18. Practice - What are the formulas for compounds made from the following ions? • potassium ion with a nitride ion • calcium ion with a bromide ion • aluminum ion with a sulfide ion

  19. Example – Writing Formula for manganese(IV) sulfide • Write the symbol for the cation and its charge • Write the symbol for the anion and its charge • Charge (without sign) becomes subscript for other ion • Reduce subscripts to smallest whole number ratio • Check that the total charge of the cations cancels the total charge of the anions Mn+4 S2- Mn+4 S2- Mn2S4 MnS2 Mn = (1)∙(+4) = +4 S = (2)∙(-2) = -4 Tro, Chemistry: A Molecular Approach

  20. Practice - What are the formulas for compounds made from the following ions? • copper(II) ion with a nitride ion • iron(III) ion with a bromide ion

  21. Homework • Page 124 27, 29, 30, 32, 33, 34, 35, 36

  22. Nomenclature of Ionic Compounds: Formula-to-Name Rules • Contain Metal Cation + Nonmetal Anion • name metal cation first, name nonmetal anion second • Nicknames: NaCl= table salt, NaHCO3 = baking soda • write systematic name by simply naming the ions • If cation is: • metal with invariant charge = metal name • metal with variable charge = metal name(charge) • polyatomic cation= name of polyatomic cation • If anion is: • nonmetal = stem of nonmetal name + ide • polyatomic ion = name of polyatomic ion

  23. Metal Cation names • Metalswhose ions can only have one possible charge • Representive metals • Transition metal Ag+1, Zn+2 and Sc+3 (Sc is not required) • cation name = metal name • Please remember the charges as in the handout! Tro, Chemistry: A Molecular Approach

  24. Metal Cation names • Metals with Variable Charges • Most of transition metals • determine charge by the charge on anion • cation name = metal name (Roman numeral charge ) • Example: FeCl2. What is the charge of Fe cation? What’s the name of this compound?

  25. Naming Monatomic Nonmetal Anion • determine the charge from position on the Periodic Table • to name anion, change ending on the element name to –ide

  26. Example – Naming CsF and identifying charges of both elements • Identify ionic or molecular compound. If ionic, cationand anion Cs = Cs+ because it is Group 1A F = F- because it is Group 7A • Name the cation Cs+ = cesium • Name the anion F- = fluoride • Write the cation name first, then the anion name cesium fluoride

  27. Name and identify charge of the following compounds • KCl • MgBr2 • Al2S3

  28. Determining the Charge on a Cation with Variable Charge – Au2S3 • determine the charge on the anion Au2S3 - the anion is S, since it is in Group 6A, its charge is -2 • determine the total negative charge since there are 3 S in the formula, the total negative charge is -6 • determine the total positive charge since the total negative charge is -6, the total positive charge is +6 • divide by the number of cations since there are 2 Au in the formula and the total positive charge is +6, each Au has a +3 charge

  29. Example – Naming Binary Ionic with Variable Charge MetalCuF2 • Identify cation and anion F = F- because it is Group 7 Cu = Cu2+ to balance the two (-) charges from 2 F- • Name the cation Cu2+ = copper(II) • Name the anion F- = fluoride • Write the cation name first, then the anion name copper(II) fluoride

  30. Name the following compounds • CoCl2 • PbBr2 • Fe2S3

  31. Compounds Containing Polyatomic Ions • Polyatomic ions are single ions that contain more than one atom. • Most of them are oxyanions (anions containing oxygen) • Often identified by (ion) in formula. If there is only one polyatomic ion in the formula, parenthesis is NOT needed. • NaOH • When naming the ionic compound containing the polyatomic ion, name of polyatomic ion do NOT change

  32. Some Common Polyatomic Ions

  33. Patterns for Polyatomic Ions • Most of nonmetals have two forms of oxyanions, except for halogens: “ate” more oxygens, “ite” less oxygen. • C : CO32- carbonate, CO22-carbonite • N : NO3- nitrate, NO2- nitrite • S : SO42- sulfate, SO32- sulfite • If the polyatomic ion starts with H, add hydrogen- prefix before name and add 1 to the charge CO32- = carbonate \ HCO3-1 = hydrogen carbonate / bicarbonate

  34. -3 -2 -1 BO CO NO 3 3 3 -2 -3 -2 -1 SiO PO SO ClO 3 4 4 3 -2 -1 SeO BrO 4 3 -1 IO 3 Periodic Pattern of Polyatomic Ions-ate groups 3A 4A 5A 6A 7A

  35. Patterns for halogen oxyanions • Halogen elements form 4 types of similar oxyanions, except for F. • 1 to 4 Os and same “1-” charge ClO3- = chlorate \ BrO3- = bromate • -ate ion, 3 Os • chlorate = ClO3-1 • -ate ion + 1 O  same charge, per- prefix • perchlorate = ClO4-1 • -ite ion , 2 Os  same charge • chlorite = ClO2-1 • -ite ion – 1 O  same charge, hypo- prefix, -ite suffix • hypochlorite = ClO-1

  36. Special polyatomic ions • CN- : cyanide • OH- : hydroxide • The ionic compound formed by Metal cation + OH- is call base. • Example: KOH, Al(OH)3 , NH4OH (NH3·H2O) ammonia water. • NH4+ : ammonium. NH3 + H+ NH4+ • C2H3O2- , also written as CH3COO- : acetate • organic ions.

  37. Example – Naming Ionic Compounds Containing a Polyatomic IonNa2SO4 • Identify the ions Na = Na+ because in Group 1A SO4 = SO42- a polyatomic ion • Name the cation Na+ = sodium, metal with invariant charge • Name the anion SO42- = sulfate • Write the name of the cation followed by the name of the anion sodium sulfate

  38. Example – Naming Ionic Compounds Containing a Polyatomic IonFe(NO3)3 • Identify the ions NO3 = NO3- a polyatomic ion Fe = Fe+3 to balance the charge of the 3 NO3-1 • Name the cation Fe+3 = iron(III), metal with variable charge • Name the anion NO3- = nitrate • Write the name of the cation followed by the name of the anion iron(III) nitrate

  39. Homework • Handout.

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