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PHILIP DUTTON UNIVERSITY OF WINDSOR DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY

GENERAL CHEMISTRY. Principles and Modern Applications. TENTH EDITION. PETRUCCI HERRING MADURA BISSONNETTE . 10. Chemical Bonding I: Basic Concepts. PHILIP DUTTON UNIVERSITY OF WINDSOR DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY. Chemical Bonding I: Basic Concepts.

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PHILIP DUTTON UNIVERSITY OF WINDSOR DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY

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  1. GENERAL CHEMISTRY Principles and Modern Applications TENTH EDITION PETRUCCI HERRING MADURA BISSONNETTE 10 Chemical Bonding I:Basic Concepts PHILIP DUTTON UNIVERSITY OF WINDSOR DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY General Chemistry: Chapter 10

  2. Chemical Bonding I:Basic Concepts General Chemistry: Chapter 10

  3. 10-1 Lewis Theory: An Overview • Valence e- play a fundamental role in chemical bonding. • e- transfer leads to ionic bonds. • Sharing of e- leads to a covalent bond. • e- are transferred or shared to give each atom a noble gas configuration, the octet. Gilbert Newton Lewis (1875-1946) General Chemistry: Chapter 10

  4. •• •• •• •• •• As Bi P Sb N • • • • • • • • • • • • • • • •• •• •• Al Ar • Se •• I • •• • • •• • • •• • •• Lewis Symbols and Lewis Structures • Si • • • A chemical symbol represents the nucleus and the coree-. Dots around the symbol represent valence e-. General Chemistry: Chapter 10

  5. Lewis structure General Chemistry: Chapter 10

  6. 10-2 Covalent Bonding: An Introduction General Chemistry: Chapter 10

  7. + H H - •• N H Cl •• •• H N H •• •• H H Coordinate Covalent Bonds Cl H FIGURE 10-2 • Formation of the ammonium ion, NH4+ General Chemistry: Chapter 10

  8. • • •• •• C O O •• •• • •• •• • • • •• •• C O O C O O •• •• •• •• • Multiple Covalent Bonds • • • O C O • • • • • • • • • • • • • General Chemistry: Chapter 10

  9. • N N •• •• • • • N N N N •• •• •• •• • Multiple Covalent Bonds • • •• N N •• • • • • General Chemistry: Chapter 10

  10. Paramagnetism of Oxygen General Chemistry: Chapter 10

  11. 10-3 Polar Covalent Bonds and Electrostatic Potential Maps FIGURE 10-4 • Determination of the electrostatic potential map for ammonia General Chemistry: Chapter 10

  12. FIGURE 10-5 The electrostatic potential maps for sodium chloride, hydrogen chloride and chlorine General Chemistry: Chapter 10

  13. Electronegativity FIGURE 10-6 • Electronegativities of the elements General Chemistry: Chapter 10

  14. FIGURE 10-7 Percent ionic character of a chemical bond as a function of electronegativity difference General Chemistry: Chapter 10

  15. 10-4 Writing Lewis Structures • All the valence e- of atoms must appear. • Usually, the e- are paired. • Usually, each atom requires an octet. • H only requires 2 e-. • Multiple bonds may be needed. • Readily formed by C, N, O, S, and P. General Chemistry: Chapter 10

  16. Skeletal Structure H H H C C O H H H Identify central and terminal atoms. General Chemistry: Chapter 10

  17. Skeletal Structure • Hydrogen atoms are always terminal atoms. • Central atoms are generally those with the lowest electronegativity. • Carbon atoms are always central atoms. • Generally structures are compact and symmetrical. General Chemistry: Chapter 10

  18. FIGURE 10-8 Summary scheme for drawing Lewis Structures General Chemistry: Chapter 10

  19. •• •• O=N=O •• •• 1 FC(O) = 6 - 4 – (4) = 0 2 1 FC(N) = 5 - 0 – (8) = +1 2 Formal Charge The formal charge on an atom in a Lewis structure is the number of valence e- in the free atom minus the number of e- assigned to that atom in the Lewis structure. 1 FC = #valence e- - #lone pair e- - #bond pair e- + 2 General Chemistry: Chapter 10

  20. Formal Charge of an Alternative Lewis Structure •• •• •• O N O •• 1 FC(O≡) = 6 - 2 – (6) = +1 2 1 FC(O—) = 6 - 6 – (2) = -1 2 1 FC(N) = 5 - 0 – (8) = +1 2 + - + •• •• O—N—O •• •• •• •• General Chemistry: Chapter 10

  21. - •• + + O≡N—O •• •• •• General Rules for Formal Charge • Sum of FC is the overall charge. • FC should be as small as possible. • Negative FC usually on most electronegative elements. • FC of same sign on adjacent atoms is unlikely. General Chemistry: Chapter 10

  22. + -½ -½ •• •• •• O O O •• •• 10-5 Resonance - - + + •• •• •• •• •• •• O O O O O O •• •• •• •• •• •• Electrostatic potential map of ozone General Chemistry: Chapter 10

  23. 10-6 Exceptions to the Octet Rule • Odd-ElectronSpecies •• •• • N=O •• H •• O—H • H—C—H •• • General Chemistry: Chapter 10

  24. •• •• •• F •• •• F •• + - B B •• - •• •• •• •• F F •• •• F F + •• •• •• •• •• •• •• Incomplete Octets •• •• F •• B •• •• F F •• •• •• •• General Chemistry: Chapter 10

  25. •• •• •• F •• Cl •• •• •• •• •• •• F •• •• Cl F •• Cl •• •• •• •• •• S P •• •• •• F F •• •• Cl Cl •• •• F •• •• •• •• •• •• •• •• Expanded octets •• •• Cl •• P •• •• •• Cl Cl •• •• •• •• General Chemistry: Chapter 10

  26. Expanded Valence Shells General Chemistry: Chapter 10

  27. 10-7 The Shapes of Molecules In H2O the bond lengths d1= d2 = 95.8 pm and the bond angle is α= 104.45°. FIGURE 10-9 • Geometric shape of a molecule General Chemistry: Chapter 10

  28. Bond length – distance between nuclei. • Bond angle – angle between adjacent bonds. • VSEPR Theory • Electron pairs repel each other whether they are in chemical bonds (bond pairs) or unshared (lone pairs). Electron pairs assume orientations about an atom to minimize repulsions. • Electron group geometry – distribution of e- pairs. • Molecular geometry – distribution of nuclei. General Chemistry: Chapter 10

  29. FIGURE 10-10 Balloon analogy to valence-shell electron-pair repulsion General Chemistry: Chapter 10

  30. Methane, Ammonia and Water General Chemistry: Chapter 10

  31. FIGURE 10-12 Several electron-group geometries illustrated General Chemistry: Chapter 10

  32. Table 10.1 Molecular Geometry as a Function of Electron Group Geometry General Chemistry: Chapter 10

  33. General Chemistry: Chapter 10

  34. General Chemistry: Chapter 10

  35. General Chemistry: Chapter 10

  36. General Chemistry: Chapter 10

  37. Replace this part of table 10.1 this format is not present in the text. Parent table is on page 425 and 426 General Chemistry: Chapter 10

  38. Applying VSEPR Theory • Draw a plausible Lewis structure. • Determine the number of e- groups and identify them as bond or lone pairs. • Establish the e- group geometry. • Determine the molecular geometry. General Chemistry: Chapter 10

  39. •• •• •• + + S S S - •• •• •• - •• O O O •• •• •• •• O O O •• •• •• •• •• •• •• •• Structures with Multiple Covalent Bonds Molecules with More Than One Central Atom The geometric distribution of terminal atoms around each central atom must be determined and the results then combined into a single description of the molecular shape. See Example 10-12. General Chemistry: Chapter 10

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