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Chemical formula and Lewis Structures Constitutional Isomers Covalent bonds (sigma and pi)

Chapter 1: Bonding and Molecular Structure CH 1-2 Hybridization & Molecular Geometry. Chemical formula and Lewis Structures Constitutional Isomers Covalent bonds (sigma and pi) Hybridization Molecular geometry Formal Charge Dash formula, condensed formula, zig-zag formula.

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Chemical formula and Lewis Structures Constitutional Isomers Covalent bonds (sigma and pi)

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  1. Chapter 1: Bonding and Molecular StructureCH 1-2 Hybridization & Molecular Geometry • Chemical formula and Lewis Structures • Constitutional Isomers • Covalent bonds (sigma and pi) • Hybridization • Molecular geometry • Formal Charge • Dash formula, condensed formula, zig-zag formula

  2. Covalent Bonds, Hybridization, and Molecular Geometry – sp3 Sp3 Hybridization at Carbon: -Four Sigma (s) Covalent Bonds -Tetrahedral molecular geometry Ethane

  3. Covalent Bonds, Hybridization, and Molecular Geometry – sp2 Sp2 Hybridization at Carbon: -Three Sigma (s) and one Pi (p) Covalent Bonds -Trigonal planar molecular geometry Ethylene

  4. Covalent Bonds, Hybridization, and Molecular Geometry – sp Sp Hybridization at Carbon: -Two Sigma (s) and two Pi (p) Covalent Bonds -Linear molecular geometry Ethyne

  5. Covalent Bonds, Hybridization, and Molecular Geometry sp sp3 sp sp2 How many Sigma (s) Covalent Bonds are there? What is the Hybridization at each carbon atom? What is the Molecular Geometry at each carbon atom? How many Pi (p) Covalent Bonds are there? What is the total # of Covalent Bonds in this molecule?

  6. Determining Molecular Geometry at Oxygen Atoms 2 The “O” in methanol has: _____ Sigma (s) Covalent Bonds _____ Lone Pairs 2 _____ molecular geometry bent sp3 _____ hybridization

  7. Determining Molecular Geometry at Oxygen Atoms 1 The “O” in acetone has: _____ Sigma (s) Covalent Bonds _____ Lone Pairs 2 _____ molecular geometry linear sp2 _____ hybridization

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