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Some Questions to Consider

Some Questions to Consider. Why are so few elements (such as Au, S, Ar, N, O, Ag) found free in Nature as atoms? Why do atoms of different elements combine (react) to form compounds? What is happening in this process? How can we explain the tremendous number of compounds that are known today?

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Some Questions to Consider

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  1. Some Questions to Consider • Why are so few elements (such as Au, S, Ar, N, O, Ag) found free in Nature as atoms? • Why do atoms of different elements combine (react) to form compounds? • What is happening in this process? • How can we explain the tremendous number of compounds that are known today? • Many of the answers will be found in Chapter 6 (“Chemical Formulas and Bonding”), and they are the result of a ‘tug of war’ between elements. (Example)

  2. Chapter 7: Chemical Formulas and Bonding PPowell 05

  3. 7-1 Objectives • Describe the distinguishing characteristics of an ionic bond. • Describe some properties of ionic compounds. • Explain the “octet rule.” • Draw Lewis dot diagrams to show the valence electrons of an atom. • Distinguish among anions, cations, and polyatomic ions. • Name binary ionic compounds. • Write the empirical formula for binary ionic compounds.

  4. Ions: A Review • Cation: a positively charged ion. • Metals tend to form cations. (How?) • Anion: a negatively charged ion. • Nonmetals tend to form anions. (How?) • How do you think cations and anions will interact? OBJ: Describe the distinguishing characteristics of an ionic bond.

  5. Ionic Compounds • Ionic bond: results from the attraction between a positive ion and a negative ion. • Most metals will form ionic bonds with most nonmetals. • Ionic compound: consists of cations and anions. • Electrically neutral; the total charges of the cations and anions must balance. OBJ: Describe the distinguishing characteristics of an ionic bond.

  6. Video Clip: Ionic Bonds In Action • Reaction of magnesium and oxygen releases light energy. • Product (MgO) is more stable than the reactants alone. OBJ: Describe the distinguishing characteristics of an ionic bond.

  7. Why is magnesium oxide more stable than elemental magnesium and oxygen? • Compare electron configurations of the atoms to their ions: • Mg: [Ne]3s2 • Mg  Mg2+ + 2e- • Mg2+ = [Ne]2+ • O:[He]2s22p4 • O + 2e- O2- • O2-:[He]2s22p6, or [Ne]2- • Noble Gas electron configurations are more stable! 7-1A: Describe the distinguishing characteristics of an ionic bond.

  8. The Octet Rule • Atoms tend to gain, lose, or share electrons in order to get a full set of valence electrons. • Most atoms have eight valence electrons in a full set. • Exceptions: H, He (Why?) • The representative elements act like “noble gas impersonators.” OBJ: Explain the octet rule.

  9. The Octet Rule • Metals will lose e- to “impersonate” a noble gas. • Metals form cations. • Nonmetals will gain e- to “impersonate” a noble gas. • Nonmetals form anions. OBJ: Explain the octet rule.

  10. The Role of Valence Electrons • Note that the valence electrons were involved in these changes, NOT the core electrons. • Why? (Which orbitals & electrons are encountered first when two atoms interact?) • Chemists focus on the valence electrons (s and p outer electrons) to understand the chemistry of atoms. • To aid us, we use shorthand diagrams, called Lewis Dot Diagrams, where dots represent the valence electrons around an atom.

  11. LEWIS DOT DIAGRAMS

  12. Lewis Dot diagrams • A way of keeping track of valence electrons. • How to write them: • Write the symbol. • Put one dot for each valence electron. • Don’t pair electrons until you have to. X OBJ: Draw Lewis dot diagrams to show the valence electrons of an atom.

  13. Lewis Dot Structure: Nitrogen • Nitrogen has 5 valence electrons. • Write the symbol. • Draw one dot per side of the symbol: top, right, bottom, left. • Don’t pair electrons until you have to. N OBJ: Draw Lewis dot diagrams to show the valence electrons of an atom.

  14. Dot Diagram: Ionic Bond Formation Na Cl  Na Cl  Na+ Cl - This is sodium chloride. In solid form, it would have the lattice structure. Is the octet rule still satisfied for Na+? OBJ: Draw Lewis dot diagrams to show the valence electrons of an atom.

  15. With a partner, decide what IONS those elements are likely to form, based on their Lewis dot structure. • Na  Na+ + 1e- gives Na+ = [Ne]1+ • Mg  Mg2+ + 2e- gives Mg2+ = [Ne]2+ • N + 3e-  N3- gives N3- = [Ne]3- • F + e-  F- gives F- = [Ne]1- • Most ions form in order to get the electron configuration of the nearest noble gas. + Na 2+ Mg 3- N F - OBJ:Explain the octet rule.

  16. Lewis Dot Diagram Practice:

  17. Important Note • When an anion is formed, the electron(s) come(s) from some other atom. • When a cation is formed, the original atom has donated its electron(s) to some other atom. • In other words, the previous slide only showed you only half the story. OBJ: Describe the distinguishing characteristics of an ionic bond.

  18. What about Argon? • Ar is a noble gas. • Ar has an octet. • Ar is INERT, or unreactive. Ar OBJ:Explain the octet rule.

  19. Types of Ions • Monatomic ion: has one atom. • May be cations or anions. • Polyatomic ion: has >1 atom. • May be cations or anions. OBJ: Distinguish among anions, cations, and polyatomic ions.

  20. Monatomic Cations • See p. 231 Figure 7-10 • See p. 232 Figure 7-11 • Can you find them in Figures 7-10 and 7-11? Monatomic Anions Polyatomic Ions OBJ: Distinguish among anions, cations, and polyatomic ions.

  21. Structure of Ionic Compounds • The ions within an ionic compound arrange to maximize their electrical attraction. • This results in a repetitive pattern called a “lattice network.” Cl - Na+ 7-1B: Describe some properties of ionic compounds.

  22. - + - + + - + - - - + + - - + + + + - - + + - - - - + + - - + + Properties of Ionic Compounds • High bond strength means high melting points. • Often dissolve in water (soluble). • Ions in solution move freely and allow the solution to conduct electricity. • Ionic compounds are not good conductors as a solid, but they are when melted. • Ionic compounds are brittle. 7-1B: Describe some properties of ionic compounds.

  23. 1 Ca2+ for every 2 F- Binary Ionic Compounds • Have ions of two different elements. • Do not always have 1:1 ratio of the two ions, because charges have to balance (electrical neutrality). • Ratio of ions in a compound is given by the empirical formula: CaF2 OBJ: Name binary ionic compounds.

  24. Try naming these: • KCl • FeO • ZnF2 • NH4Cl Naming Binary Ionic Compounds CaF2 • Name the cation, then the anion. • Change the ending of the anion to “-ide.” CalciumFluoride • Potassium Chloride • Iron Oxide • Zinc Fluoride • Ammonium Chloride OBJ: Name binary ionic compounds.

  25. Writing Formulas for Binary Ionic Compounds Given: Potassium Nitride • Write the element symbols and the charges for both the cation and the anion. K P • Criss-cross the two charges. • Reduce (simplify) the formula if necessary. 1+ 3- 3 1 OBJ: Write the formula for binary ionic compounds.

  26. 7-1 Practice Problems • Do problems 1-5 with a partner. • Do problems 6-10 on your own. OBJ: Write the formula for binary ionic compounds.

  27. Using ion cards, write the correct formulas for the following:

  28. Can you now meet the objectives for 7-1? • Describe the distinguishing characteristics of an ionic bond. • Describe some properties of ionic compounds. • Explain the “octet rule.” • Draw Lewis dot diagrams to show the valence electrons of an atom. • Distinguish among anions, cations, and polyatomic ions. • Name binary ionic comounds. • Write the formula for binary ionic compounds.

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