Presentation is loading. Please wait.

Presentation is loading. Please wait.

CHM 108 SUROVIEC SPRING 2014 Chapter 10. I. VSEPR Theory A simple model that we can use to look at molecular shapes is the VSEPR (valence shell electron.

Published byGwendolyn Pearson Modified over 8 years ago

Similar presentations

Presentation on theme: "CHM 108 SUROVIEC SPRING 2014 Chapter 10. I. VSEPR Theory A simple model that we can use to look at molecular shapes is the VSEPR (valence shell electron."— Presentation transcript:

1 CHM 108 SUROVIEC SPRING 2014 Chapter 10

2 I. VSEPR Theory A simple model that we can use to look at molecular shapes is the VSEPR (valence shell electron pair repulsion) theory Theory is based on the idea that electron groups repel one another through columbic forces

3 A. 2 electron groups - Linear BeCl 2 CO 2

4 B. 3 electron groups – Trigonal Planar BF 3 CH 2 O

5 C. 4 electron groups - tetrahedral CH 4

6 D. 5 and 6 electron groups Trigonal Bipyramidal PCl 5 Octahedral SF 6

7

8 10_T0102.JPG

9 II. VSEPR Theory and Lone Pairs We just looked at molecules with all atoms bonded, what if there were lone pairs involved?

10 A. Four electron groups with lone pairs NH 3 H 2 O

11 B. 5 electron groups with lone pairs SF 4 BrF 3

12 C. 6 electron groups with lone pair BrF 5 XeF 4

13 Summary Geometry of a molecule is determine by number of electron groups on central atom Number of electron groups depends on correct Lewis structure Each of the following counts as a single electron group Geometry of electron groups is determined by minimizing their repulsion

14 II. Molecular Shape and Polarity A. In Lewis structures covalent bonds look like the electrons are shared equally, but that is not always true Ex. HF and H 2

15 II. Molecular Shape and Polarity In a polyatomic molecule having a polar bond may or may not result in a polar molecule Ex. CO 2 vs. H 2 O

16 II. Molecular Shape and Polarity B. Summary 1. Draw Lewis Structure 2. Determine the VSEPR stucture 2. Determine if there are any polar bonds 3. Determine if polar bonds add together to make a net dipole moment Ex. CH 4, NH 3, BF 3, CS 2

17 C. Polar, covalent and ionic Polar: unsymmetrical distribution of electrons Nonpolar: symmetrical distribution of electrons Ionic: complete transfer of electrons

18 Increasing difference in electronegativity C. Classification of bonds by difference in electronegativity DifferenceBond Type 0Covalent  2 Ionic 0 < and <2 Polar Covalent

19 Classify the following bonds as ionic, polar covalent,or covalent: The bond in CsCl; the bond in H 2 S; and the NN bond in H 2 NNH 2. Cs = 0.7Cl = 3.0 H = 2.1S = 2.5 N = 3.0

Download ppt "CHM 108 SUROVIEC SPRING 2014 Chapter 10. I. VSEPR Theory A simple model that we can use to look at molecular shapes is the VSEPR (valence shell electron."

Similar presentations

Section 8.5 and 8.6 Molecular Geometry and Polarity.

Section 8.5 and 8.6 Molecular Geometry and Polarity.
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 10.

Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 10.
Chapter 9 Molecular Geometry and Bonding Theories.

Chapter 9 Molecular Geometry and Bonding Theories.
Bonding By John Patrick Fahy III of Galway. Coulomb’s Law Attractive force is proportional to (+q)(-q)/r^2 +q = magnitude of the positive charge -q =

Bonding By John Patrick Fahy III of Galway. Coulomb’s Law Attractive force is proportional to (+q)(-q)/r^2 +q = magnitude of the positive charge -q =
Drawing Lewis Structures and VSEPR. Draw basic Lewis dot structures of atoms and compounds. Using VSEPR, predict bond shape from electron arrangement.

Drawing Lewis Structures and VSEPR. Draw basic Lewis dot structures of atoms and compounds. Using VSEPR, predict bond shape from electron arrangement.
Molecular Shapes Chapter 6 Section 3. Molecular Structure It mean the 3-D arrangement of atoms in a molecule Lewis dot structures show how atoms are bonded.

Molecular Shapes Chapter 6 Section 3. Molecular Structure It mean the 3-D arrangement of atoms in a molecule Lewis dot structures show how atoms are bonded.
Drawing Lewis Structures and VSEPR A Tutorial on Writing Lewis Dot Structure.

Drawing Lewis Structures and VSEPR A Tutorial on Writing Lewis Dot Structure.
B. Ionic bonding and Structures of Ionic Compounds

B. Ionic bonding and Structures of Ionic Compounds
+ Bonding Part III Unit 5: Bonding Mrs. Callender VS E P R.

+ Bonding Part III Unit 5: Bonding Mrs. Callender VS E P R.
IIIIII Molecular Geometry (p. 232 – 236) Ch. 8 – Molecular Structure.

IIIIII Molecular Geometry (p. 232 – 236) Ch. 8 – Molecular Structure.
Chapter 10 Chemical Bonding II. Lewis Structure  Molecular Structure Structure determines chemical properties.

Chapter 10 Chemical Bonding II. Lewis Structure  Molecular Structure Structure determines chemical properties.
I Chemical Bonding. Chemical Bond  attractive force between atoms or ions that binds them together as a unit  bonds form in order to…  decrease potential.

I Chemical Bonding. Chemical Bond  attractive force between atoms or ions that binds them together as a unit  bonds form in order to…  decrease potential.
Molecular Geometry ( Textbook: page )

Molecular Geometry ( Textbook: page )
Molecular Geometry and VSEPR Theory. VSEPR Theory Valence Shell Electron Pair Repulsion Theory States that electron pairs repel each other and assume.

Molecular Geometry and VSEPR Theory. VSEPR Theory Valence Shell Electron Pair Repulsion Theory States that electron pairs repel each other and assume.
Molecular Geometry Chapter 6.5.

Molecular Geometry Chapter 6.5.
IIIIII Molecular Geometry Molecular Structure. A. VSEPR Theory  Valence Shell Electron Pair Repulsion Theory  Electron pairs orient themselves so that.

IIIIII Molecular Geometry Molecular Structure. A. VSEPR Theory  Valence Shell Electron Pair Repulsion Theory  Electron pairs orient themselves so that.
IIIIII I. Lewis Diagrams Molecular Structure. A. Octet Rule n Remember…  Most atoms form bonds in order to have 8 valence electrons.

IIIIII I. Lewis Diagrams Molecular Structure. A. Octet Rule n Remember…  Most atoms form bonds in order to have 8 valence electrons.
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 9 Copyright © The McGraw-Hill Companies, Inc.  Permission required.

Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 9 Copyright © The McGraw-Hill Companies, Inc.  Permission required.
The Shape of Covalent Molecules

The Shape of Covalent Molecules
IIIIII II. Molecular Geometry Ch. 9 – Molecular Structure.

IIIIII II. Molecular Geometry Ch. 9 – Molecular Structure.

Similar presentations

Ads by Google