內容

12. Quantum Mechanics and Atomic Theory

12.1 Electromagnetic Radiation

12.2 The Nature of Matter

12.3 The Atomic Spectrum of Hydrogen

12.4 The Bohr Model

12.5 The Quantum Mechanical Description of the Atom

12.6 The Particle in a Box

12.7 The Wave Equation for the Hydrogen Atom

12.8 The Physical Meaning of a Wave Function

12.9 The Characteristics of Hydrogen Orbitals

12.10 Electron Spin and the Pauli Principle

12.11 Polyelectronic Atoms

12.12 The History of the Periodic Table

12.13 The Aufbau Principle and the Periodic Table

12.14 Further Development of the Polyelectronic Model

12.15 Periodic Trends in Atomic Properties

12.16 The Properties of a Group: The Alkali Metals

13. Bonding : General Concepts

13.1 Types of Chemical Bonds

13.2 Electronegativity

13.3 Bond Polarity and Dipole Moments

13.4 Ions: Electron Configurations and Sizes

13.5 Formation of Binary Ionic Compounds

13.6 Partial Ionic Character of Covalent Bonds

13.7 The Covalent Chemical Bond: A Model

13.8 Covalent Bond Energies and Chemical Reactions

13.9 The Localized Electron Bonding Model

13.10 Lewis Structures

13.11 Resonance

13.12 Exceptions to the Octet Rule

13.13 Molecular Structure: The VSEPR Model

14. Covalent Bonding: Orbitals

14.1 Hybridization and the Localized Electron Model

14.2 The Molecular Obital Model

14.3 Bonding in Homonuclear Diatomic Molecules

14.4 Bonding in Heteronuclear Diatomic Molecules

14.5 Combining the Localized Electron and Molecular Orbital Models

14.6 Orbitals: Human Inventions

14.7 Molecular Spectroscopy

14.8 Electronic Spectroscopy

14.9 Vibrational Spectroscopy

14.10 Rotational Spectroscopy

14.11 Nuclear Magnetic Resonance Spectroscopy

15. Chemical Kinetics

15.1 Reaction Rates

15.2 Rate Laws: An Introduction

15.3 Determining the Form of the Rate Law

15.4 The Integrated Rate Law

15.5 Rate Laws: A Summary

15.6 Reaction Mechanisms

15.7 The Steady-State Approximation

15.8 A Model for Chemical Kinetics

15.9 Catalysis

16. Liquids and Solids

16.1 Intermolecular Forces

16.2 The Liquid State

16.3 An Introduction to Structures and Types of Solids

16.4 Structure and Bonding in Metals

16.5 Carbon and Silicon: Network Atomic Solids

16.6 Molecular Solids

16.7 Ionic Solids

16.8 Structures of Actual Ionic Solids

16.9 Lattice Defects

16.10 Vapor Pressure and Changes of State

16.11 Phase Diagrams

17. Properties of Solutions

17.1 Solution Composition

17.2 The Thermodynamics of Solution Formation

17.3 Factors Affecting Solubility

17.4 The Vapor Pressures of Solutions

17.5 Boiling-Point Elevation and Freezing-Point Depression

17.6 Osmotic Pressure

17.7 Colligative Properties of Electrolyte Solutions

17.8 Colloids

18. The Representative Elements: Groups 1A Through 4A

18.1 A Survey of the Representative Elements

18.2 The Group 1A Elements

18.3 The Chemistry of Hydrogen

18.4 The Group 2A Elements

18.5 The Group 3A Elements

18.6 The Group 4A Elements

19. The Representative Elements: Group 5A Through 8A

19.1 The Group 5A Elements

19.2 The Chemistry of Nitrogen

19.3 The Chemistry of Phosphorus

19.4 The Group 6A Elements

19.5 The Chemistry of Oxygen

19.6 The Chemistry of Sulfur

19.7 The Group 7A Elements

19.8 The Group 8A Elements

20. Transition Metals and Coordination Chemistry

20.1 The Transition Metals: A Survey

20.2 The First-Row Transition Metals

20.3 Coordination Compounds

20.4 Isomerism

20.5 Bonding in Complex Ions: The Localized Electron Model

20.6 The Crystal Field Model

20.7 The Molecular Orbital Model

20.8 The Biological Importance of Coordination Complexes

21. The Nucleus: A Chemist’s View

21.1 Nuclear Stability and Radioactive Decay

21.2 The Kinetics of Radioactive Decay

21.3 Nuclear Transformations

21.4 Detection and Uses of Radioactivity

21.5 Thermodynamic Stability of the Nucleus

21.6 Nuclear Fission and Nuclear Fusion

21.7 Effects of Radiation

22. Organic and Biochemical Molecules

22.1 Alkanes: Saturated Hydrocarbons

22.2 Alkenes and Alkynes

22.3 Aromatic Hydrocarbons

22.4 Hydrocarbon Derivatives

22.5 Polymers

22.6 Natural Polymers

評分方式
Two Midterm Exams, Final Exam, and Quiz (optional)