Chemistry: Atoms First
1st Edition

On-Line Text
Power Points (htm file):

Module 4II:
Bonding & Compounds

Burge Chapter 5:    ppt
Ionic and Covalent Compounds
5.1 Compounds
5.2 Lewis Dot Symbols
5.3 Ionic Compounds and Bonding
5.4 Naming Ions and Ionic
    Compounds
5.5 Covalent Molecules and Bonding
5.6 Naming Molecular Compounds
5.7 Covalent Bonding in Ionic
     Species

Burge Chapter 6:    ppt
Representing Molecules
6.1 The Octet Rule
6.2 Electronegativity and Polarity
6.3 Drawing Lewis Structures
6.4 Lewis Structures and Formal
    Charge
6.5 Resonance
6.6 Exceptions to the Octet Rule

Burge Chapter 7:    ppt
Molecular Geometry and Bonding Theories
7.1 Molecular Geometry
7.2 Molecular Geometry and Polarity
7.3 Valence Bond Theory
7.4 Hybridization of Atomic Orbitals
7.5 Hybridization in Molecules
     Containing Multiple Bonds
7.6 Molecular Orbital Theory
7.7 Bonding Theories and
     Descriptions of Molecules
     with Delocalized Bonding

Annimations

Chapter 5 Files
Chapter 6 Files
Chapter 7 Files

Module 7II

Burge Chapter 12:    ppt
Intermolecular Forces and the Physical Properties of Condensed Phases
12.1 Intermolecular Forces
12.2 Properties of Liquids
12.3 Crystal Structure
12.4 Types of Crystals
12.5 Amorphous Solids
12.6 Phase Changes
12.7 Phase Diagrams

Annimations

Chapter 12 Animations

Future 2046 Textbook:
Tro 2nd Edition Spring 2013



Table of Contents CHM 2046
9. Chemical Bonding I:
      Lewis Theory
10. Chemical Bonding II: ppt
    Molecular Shapes,
    Valence Bond Theory,
    and Molecular Orbital Theory
     Worked Examples
11. Liquids, Solids, and ppt
    Intermolecular Forces
    Worked Examples
12. Solutions ppt
    Worked Examples
13. Chemical Kinetics
14. Chemical Equilibrium
15. Acids and Bases
16. Aqueous Ionic Equilibrium
17. Free Energy and
     Thermodynamics
18. Electrochemistry
19. Radioactivity and
     Nuclear Chemistry
20. Organic Chemistry

CHM 2046C
Power Point Menu

Link to CHM 2045C Home Page

Module 8II

Burge Chapter 13:    ppt
Physical Properties of Solutions
13.1 Types of Solutions
13.2 A Molecular View of the Solution Process
13.3 Concentration Units
13.4 Factors that Affect Solubility
13.5 Colligative Properties
13.6 Calculations Using Colligative Properties
13.7 Colloids

Annimations

Chapter 13 Animations

Module 9

Burge Chapter 14:    ppt
Chemical Kinetics
14.1 Reaction Rates
14.2 Collision Theory of Chemical Reactions
14.3 Measuring Reaction Progress and
       Expressing Reaction Rate
14.4 Dependence of Reaction Rate on
       Reactant Concentration
14.5 Dependence of Reactant Concentration
       on Time
14.6 Dependence of Reaction Rate on Temperature
14.7 Reaction Mechanisms
14.8 Catalysis

Annimations

Chapter 14 Animations

Module 10

Burge Chapter 15:    ppt
Chemical Equilibrium
15.1 The Concept of Equilibrium
15.2 The Equilibrium Constant
15.3 Equilibrium Expressions
15.4 Using Equilibrium Expressions
       to Solve Problems
15.5 Factors That Affect
       Chemical Equilibrium

Annimations

Chapter 15 Animations

Former 2045 Textbook:
McMurray 5e Summer 2009/Spring 2011:
McMurry 5th Edition Textbook
Table of Contents for 2046:
Exam#1
Module 4II
6. Ionic Bonds and Some Main-Group Chemistry
7. Covalent Bonds and Molecular Structure and Hybrid Orbitals
Module 7II
10. Physical Properties of Solids, Liquids, and Solids
Module 8II
11. Solutions and Their Properties

Exam#2
Module 9
12. Chemical Kinetics
Module 10
13. Chemical Equilibrium

Exam#3
Module 11
14. Aqueous Equilibria: Acids and Bases
Module 12 15. Applications of Aqueous Equilibria

Exam#4
Module 13
16. Thermodynamics: Entropy, Free Energy, and Equilibrium
Module 14
17. Electrochemistry
Module 15
22. Nuclear Chemistry

Exam#5
Module 16
23. Organic Chemistry
Module 17 24. Biochemistry


Companion Website:
McMurray 5e

Module 11

Burge Chapter 16:    ppt
Acids and Bases
16.1 Brønsted Acids and Bases
16.2 Molecular Structure and Acid Strength
16.3 The Acid-Base Properties of Water
16.4 The pH Scale
16.5 Strong Acids and Bases
16.6 Weak Acids and Acid Ionization Constants
16.7 Weak Bases and Base Ionization Constants
16.8 Conjugate Acid-Base Pairs
16.9 Diprotic and Polyprotic Acids
16.10 Acid-Base Properties of Salt Solutions
16.11 Acid-Base Properties of Oxides and Hydroxides
16.12 Lewis Acids and Bases

Annimations

Chapter 16 Animations

Module 12

Burge Chapter 17:    ppt
Acid-Base Equilibrium and
Solubility Equilibria
17.1 The Common Ion Effect
17.2 Buffer Solutions
17.3 Acid-Base Titrations
17.4 Solubility Equilibria
17.5 Factors Affecting Solubility
17.6 Separation of Ions Using Differences in Solubility

Annimations

Chapter 17 Animations

Module 13

Burge Chapter 18:    ppt
Entropy, Free Eneergy, and Equilibrium
18.1 Spontaneous Processes
18.2 Entropy
18.3 Entropy Changes in a System
18.4 Entropy Changes in the Universe
18.5 Predicting Spontaneity
18.6 Free Energy and Chemical Equilibrium
18.7 Thermodynamics in Living Systems

Module 14

Burge Chapter 19:    ppt
Electrochemistry
19.1 Balancing Redox Reactions
19.2 Galvanic Cells
19.3 Standard Reduction Potentials
19.4 Spontaneity of Redox Reactions
        Under Standard-State Conditions
19.5 Spontaneity of Redox Reactions
       Under Conditions Other than Standard-State
19.6 Batteries
19.7 Electrolysis
19.8 Corrosion

Module 15

Burge Chapter 20:    ppt
Nuclear Chemistry
20.1 Nuclei and Nuclear Reactions
20.2 Nuclear Stability
20.3 Natural Radioactivity
20.4 Nuclear Transmutation
20.5 Nuclear Fission
20.6 Nuclear Fusion
20.7 Uses of Isotopes
20.8 Biological Effects of Radiation





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