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Chapter 16 Covalent Bonding

Chapter 16 Covalent Bonding. The Nature of Covalent Bonding Bonding Theories Polar Bonds and Molecules. Chapter 16.1 The Nature of Covalent Bonding. Single Covalent Bonds Double and Triple Covalent Bonds Coordinate Covalent Bonds Bond Dissociation Energies Resonance

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Chapter 16 Covalent Bonding

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  1. Chapter 16Covalent Bonding • The Nature of Covalent Bonding • Bonding Theories • Polar Bonds and Molecules

  2. Chapter 16.1 The Nature of Covalent Bonding • Single Covalent Bonds • Double and Triple Covalent Bonds • Coordinate Covalent Bonds • Bond Dissociation Energies • Resonance • Exceptions to the Octet Rule

  3. Single Covalent Bonds • A bond in which two atoms share a pair of electrons (usually non-metals) • The pair of electrons is represented by a dash • Structural formulas – chemical formulas that show the arrangement of atoms in molecules or poly atomic ions

  4. Single Covalent Bonds • Hydrogen • H2 • H H • H-H

  5. Single Covalent Bonds • Water • Ammonia • Methane

  6. Double and Triple Covalent Bonds • Double Covalent Bonds – involve two shared pairs of electrons • Triple Covalent Bonds – involve three shared pairs of electrons

  7. Double and Triple Covalent Bonds • Nitrogen • N2 • N N • N N

  8. Coordinate Covalent Bond • One atom contributes both bonding electrons • Carbon Monoxide

  9. Bond Dissociation Energies • The total energy required to break the bond between two covalently bonded atoms • H-H + 435kJ = H + H • C-C + 347kJ = C + C

  10. Bond Dissociation Energies

  11. Resonance • Structures that have two or more different electron dot structures that have the same number of electron pairs for the same molecule or ion • Ozone • NO3- • http://www.nku.edu/~russellk/tutorial/reson/NO3.gif • http://www.nku.edu/~russellk/tutorial/reson/CO3.gif

  12. Exceptions to the Octet Rule • Occurs when the total number of valence electrons is an odd number. • NO2 (Two resonance structures) • BF3 • PCl3 and PCl5 • SF6

  13. Diamagnetic • All electrons paired • The spinning of electrons creates magnetic fields. • The paired electrons spin in opposite directions, therefore their fields cancel each other out • Show a weak attraction to an external magnetic field

  14. Paramagnetic • Contain one or more unpaired electrons • Creates a magnetic field • Show a strong attraction to an external magnetic field

  15. Oxygen – An Exception • O=O • Actually a mix of • O=O and O-O

  16. Ch 16.2 Bonding Theories • Molecular Orbitals • VSEPR Theory • Hybrid Orbitals

  17. Molecular Orbitals • An orbital resulting from the overlapping of orbitals from two atoms when they bond • Bonding orbital – molecular orbital with an energy lower than the atomic orbital • Antibonding orbital – molecular orbital with an energy higher than the atomic orbital

  18. Molecular Orbitals • Sigma Bond – a molecular orbital that is symmetrical along the axis connecting two atomic nuclei • Two s orbitals directly overlap

  19. Molecular Orbitals • Pi bonds - two parallel 'p' orbitals in close proximity can overlap sideways (laterally) • A pi bond can only form after a sigma bond has already formed

  20. VSEPR Theory • Electron pairs repel, so molecules adjust shape to keep the pairs as far apart as possible • Unbonded electrons repel bonded electrons more, causing the bonded electrons to be closer together • http://www.mikeblaber.org/oldwine/chm1045/notes/Geometry/VSEPR/Geom02.htm

  21. Ch 16.3 Polar Bonds and Molecules • Bond Polarity • Polar Molecules • Attractions Between Molecules • Intermolecular Attractions and Molecular Properties

  22. Bond Polarity • Nonpolar Covalent Bond – equal sharing of electrons, each atom pulls equally (same atoms) • Polar Covalent Bond – unequal sharing of electrons (different atoms)

  23. Bond Polarity • The more electronegative atom will have a greater pull and acquire a slightly negative charge. • HCl • H2O

  24. Bond Polarity

  25. Polar Molecules • Dipole – a molecule with two poles (different charges) • Polarity depends on shape • Atoms that lie in the same axis will cancel each other out

  26. Attractions Between Molecules • van der Waals forces – weak attractions between molecules – Two Types • Dispersion Forces – Weak attraction due to movement of molecules, increase with more electrons (diatomic halogens) • Dipole Interactions – polar molecules attracted to each other (water molecules)

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