Presentation is loading. Please wait.

Presentation is loading. Please wait.

Molecular Geometry

Published byJoleen George Modified over 9 years ago

Similar presentations

Presentation on theme: "Molecular Geometry"— Presentation transcript:

1 Molecular Geometry http://www.scl.ameslab.gov/MacMolPlt/Surface.JPG

2 VSEPR - Valence Shell Electron Pair Repulsion Theory  Each group of valence electrons around a central atom is located as far away as possible from the others in order to minimize repulsions.  The result is five electron-group arrangements of minimum energy seen in a large majority of molecules and polyatomic ions.  Because valence electrons can be bonding or nonbonding, the same electron-group arrangement can give rise to different molecular shapes. AX m E n A - central atomX -surrounding atomE -nonbonding valence electron-group integers Silberberg, Principles of Chemistry

3 Figure 10.3 Electron-group repulsions and the five basic molecular shapes. linear trigonal planar tetrahedral trigonal bipyramidal octahedral Silberberg, Principles of Chemistry

4 Figure 10.4 The single molecular shape of the linear electron-group arrangement. Examples: CS 2, HCN, BeF 2 Silberberg, Principles of Chemistry

5 Figure 10.5 The two molecular shapes of the trigonal planar electron- group arrangement. Class Shape Examples: SO 3, BF 3, NO 3 -, CO 3 2- Examples: SO 2, O 3, PbCl 2, SnBr 2 Silberberg, Principles of Chemistry

6 Figure 10.6 The three molecular shapes of the tetrahedral electron-group arrangement. Examples: CH 4, SiCl 4, SO 4 2-, ClO 4 - NH 3 PF 3 ClO 3 H 3 O + H 2 O OF 2 SCl 2 Silberberg, Principles of Chemistry

7 Figure 10.8 The four molecular shapes of the trigonal bipyramidal electron- group arrangement. SF 4 XeO 2 F 2 I F 4 + I O 2 F 2 - ClF 3 BrF 3 XeF 2 I 3 - I F 2 - PF 5 AsF 5 SOF 4 Silberberg, Principles of Chemistry

8 Figure 10.9 The three molecular shapes of the octahedral electron-group arrangement. SF 6 I OF 5 BrF 5 TeF 5 - XeOF 4 XeF 4 I Cl 4 - Silberberg, Principles of Chemistry

Download ppt "Molecular Geometry"

Similar presentations

The VSEPR Theory Advanced Chemistry Ms. Grobsky. Determining Molecular Geometries In order to predict molecular shape, we use the Valence Shell Electron.

The VSEPR Theory Advanced Chemistry Ms. Grobsky. Determining Molecular Geometries In order to predict molecular shape, we use the Valence Shell Electron.
Molecular Geometry and Polarity

Molecular Geometry and Polarity
Molecular shapes Balls and sticks. Learning objectives  Apply VSEPR to predict electronic geometry and shapes of simple molecules.

Molecular shapes Balls and sticks. Learning objectives  Apply VSEPR to predict electronic geometry and shapes of simple molecules.
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.
The Relation of Bond Order, Bond Length and Bond Energy Bond Bond Order Average Bond Average Bond Length (pm) Energy (kJ/mol) C O 1 143 358 C O 2 123.

The Relation of Bond Order, Bond Length and Bond Energy Bond Bond Order Average Bond Average Bond Length (pm) Energy (kJ/mol) C O C O
VSEPR Theory.

VSEPR Theory.
Molecular Geometry and Polarity

Molecular Geometry and Polarity
Molecular Geometry (Shapes of Molecules)

Molecular Geometry (Shapes of Molecules)
Carvone Bucky ball Molecular Geometry Chapter 8 Part 2.

Carvone Bucky ball Molecular Geometry Chapter 8 Part 2.
+ Bonding Part III Unit 5: Bonding Mrs. Callender VS E P R.

+ Bonding Part III Unit 5: Bonding Mrs. Callender VS E P R.
Shapes of molecules & ions. VSEPR theory VSEPR - the Valence Shell Electron Pair Repulsion theory is used to obtain the shape of simple molecules and.

Shapes of molecules & ions. VSEPR theory VSEPR - the Valence Shell Electron Pair Repulsion theory is used to obtain the shape of simple molecules and.
VSEPR T HEORY Valence Shell Electron Pair Repulsion.

VSEPR T HEORY Valence Shell Electron Pair Repulsion.
Geometry of Molecules VSEPR Theory. Valence Shell Electron Pair Repulsion Theory (VSEPR) The geometry of the molecule at any given central atom is determined.

Geometry of Molecules VSEPR Theory. Valence Shell Electron Pair Repulsion Theory (VSEPR) The geometry of the molecule at any given central atom is determined.
Chapter 7 COVALENT BONDING. 7.1 Lewis Structures; The Octet Rule 7.2 Molecular Geometry Valence-Shell Electron-Pair Repulsion (VSEPR) 7.3 Polarity of.

Chapter 7 COVALENT BONDING. 7.1 Lewis Structures; The Octet Rule 7.2 Molecular Geometry Valence-Shell Electron-Pair Repulsion (VSEPR) 7.3 Polarity of.
VSEPR Theory Valence Shell Electron Pair Repulsion.

VSEPR Theory Valence Shell Electron Pair Repulsion.
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.
VSEPR – Valence Shell Electron Pair Repulsion

VSEPR – Valence Shell Electron Pair Repulsion
10-1 Chapter 10 The Shapes of Molecules. 10-2 The Shapes of Molecules 10.1 Depicting Molecules and Ions with Lewis Structures 10.2 Using Lewis Structures.

10-1 Chapter 10 The Shapes of Molecules The Shapes of Molecules 10.1 Depicting Molecules and Ions with Lewis Structures 10.2 Using Lewis Structures.
Molecular Structure Molecular geometry is the general shape of a molecule or the arrangement of atoms in three dimensional space. Physical and chemical.

Molecular Structure Molecular geometry is the general shape of a molecule or the arrangement of atoms in three dimensional space. Physical and chemical.
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.

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

Ads by Google