VSEPR Model. Valence-Shell Electron-Pair Repulsion Bonds (single or multiple) and lone pairs are thought of as charge clouds
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1 Molecular Shapes
2 VSEPR Model Valence-Shell Electron-Pair Repulsion Bonds (single or multiple) and lone pairs are thought of as charge clouds They repel each other and stay as far away from each other as possible Because of this, molecules assume specific 3D geometries based on the lone pairs and bonds made.
3 Electron Groups The Lewis structure predicts the arrangement of valence electrons around the central atom(s). Each lone pair of electrons constitutes one electron group on a central atom. Each bond constitutes one electron group on a central atom. Regardless of whether it is single, double, or triple. O N O There are 3 electron groups on N. 1 lone pair. 1 single bond. 1 double bond.
4 Steps to Predicting a VSEPR Geometry 1. Draw the Electron-Dot Structure 2. Identify the number of bonds and lone pairs. 3. Predict the arrangement assuming that the clouds orient so that they are as far apart as possible. Note that actual shape is based on where atoms are, not the lone pairs.
5 Molecular Shapes: the VSEPR Model Two Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/5
6 Molecular Shapes: the VSEPR Model Three Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/6
7 Molecular Shapes: the VSEPR Model Four Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/7
8 Sketching a Molecule Because molecules are three-dimensional objects, our drawings should indicate their three-dimensional quality By convention: A filled wedge indicates that the attached atom is coming out of the paper toward you. A dashed wedge indicates that the attached atom is going behind the paper away from you.
9 Sketching a Molecule, Continued F F C F F F F F C F
10 Molecular Shapes: the VSEPR Model Four Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/10
11 Molecular Shapes: the VSEPR Model Five Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/11
12 Molecular Shapes: the VSEPR Model Five Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/12
13 Molecular Shapes: the VSEPR Model Six Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/13
14 Molecular Shapes: the VSEPR Model Six Charge Clouds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/14
15 Valence Bond Theory Valence Bond Theory: A quantum mechanical model which shows how electron pairs are shared in a covalent bond. sigma (s) bonds Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/15
16 Valence Bond Theory Valence Bond Theory: A quantum mechanical model which shows how electron pairs are shared in a covalent bond. Covalent bonds are formed by overlap of atomic orbitals, each of which contains one electron of opposite spin. Each of the bonded atoms maintains its own atomic orbitals, but the electron pair in the overlapping orbitals is shared by both atoms. The greater the amount of overlap, the stronger the bond. Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/16
17 Hybridization and sp 3 Hybrid Orbitals How can the bonding in CH 4 be explained? 4 valence electrons 2 unpaired electrons Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/17
18 Hybridization and sp 3 Hybrid Orbitals How can the bonding in CH 4 be explained? 4 valence electrons 4 unpaired electrons Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/18
19 Hybridization and sp 3 Hybrid Orbitals How can the bonding in CH 4 be explained? 4 nonequivalent orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/19
20 Hybridization and sp 3 Hybrid Orbitals How can the bonding in CH 4 be explained? 4 equivalent orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/20
21 Hybridization and sp 3 Hybrid Orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/21
22 Hybridization and sp 3 Hybrid Orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/22
23 Other Kinds of Hybrid Orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/23
24 Other Kinds of Hybrid Orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/24
25 Other Kinds of Hybrid Orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/25
26 Other Kinds of Hybrid Orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/26
27 Other Kinds of Hybrid Orbitals Copyright 2008 Pearson Prentice Hall, Inc. Chapter 7/27
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32 Bond Polarity
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36 Molecular Polarity Diatomic: Same as bond polarity 3 or more atoms: Depends on two things: Individual bond polarities 3D Shape of molecule If a molecule is nonpolar, the bond polarities must be the same (not necessarily nonpolar), AND the shape must be symmetric. THINK SYMMETRY!!!
37 Population Density: Texas If electrons were people, and states were molecules
38 Population Density: Wyoming
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40 Electron Density Maps CH 4
41 Electron Density Maps CH 4 CH 3 Br
42 Electron Density Maps CH 4 NH 3
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45 Polar or Non?
46 Larger Molecules: Nonpolar
47 The Bigger Picture: Guanine and Cytosine
48 Protein Folding
49
Covalent Compounds: Bonding Theories and Molecular Structure
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