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Chemistry 101 : Chap. 9 Molecular Geometry and Bonding Theories (1) Molecular Shape (2) The VSEPR Model (3) Molecular Shape and Molecular Polarity (4)

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Presentation on theme: "Chemistry 101 : Chap. 9 Molecular Geometry and Bonding Theories (1) Molecular Shape (2) The VSEPR Model (3) Molecular Shape and Molecular Polarity (4)"— Presentation transcript:

1 Chemistry 101 : Chap. 9 Molecular Geometry and Bonding Theories (1) Molecular Shape (2) The VSEPR Model (3) Molecular Shape and Molecular Polarity (4) Covalent Bonding and Orbital Overlap (5) Hybrid Orbitals (6) Multiple Bonds

2 Molecular Shape  3-dimensional rendering of a molecule (example = CH 4 ) Structural Formula Ball-and-stick model Perspective drawing Space-filling model tetrahedral

3 Molecular Shape  Five fundamental shapes of AB n bond angle

4 Molecular Shape  Derivatives from the AB n geometries : Additional molecular shapes can be obtained by removing corner atoms from the basic shape

5 VSEPR Model Valence-Shell Electron-Pair Repulsion : The geometry around a central atom is determined by the number of bonding pair of electrons and non-bonding pair (lone pair) electrons surrounding the atom.

6 Electron Domain  Electron Domain: A region surrounding the central atom in which the electrons (bonding or nonbonding pair) are likely to be found VSEPR and Electron Domain : The electron domains in an atom get as far apart from each other as possible The best arrangement of electron domains is the one that minimizes the repulsions among them.

7 Electron Domain  Example : How many electron domains do NH 3 and O 3 have?

8 Electron Domain Geometry  Electron-Domain Geometry : The arrangement of electron domains about the central atom of a molecule or ion

9 Electron Domain Geometry

10 Molecular Geometry  Molecular Geometry : The arrangement of only the atoms around the central atom (1) If all the electron domains arises from bonding pair, electron-domain geometry = molecular geometry (2) If one or more electron-domains arise from nonbonding pairs, ignore such domain to predict the molecular geometry

11 Molecular Geometry  Procedure to determine a molecular structure (1) Draw a Lewis structure and count the total number of electron domains around the central atom (2) Determine the electron-domain geometry by arranging the electron domains to minimize the repulsions among them. (3) Use the arrangement of the bonded atoms to determine the molecular geometry

12 Molecular Geometry  Example : Use VSEPR model to predict the molecular geometry of O 3, H 2 O, and NH 4 +

13 Molecular Geometry  Effect of multiple bonding on bond angle Because multiple bonds contain higher electron-charge density than single bonds, multiple bonds represent larger electron domain  Effect of nonbonding electrons on bond angle Nonbonding pair experience less nuclear attraction  larger electron domain

14 Molecular Geometry  Example : Predict the geometry of IF 5 and SF 4

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