## Schaum’s Outline Of Beginning Chemistry, 5th Edition

By David E Goldberg

**Contents:**

CHAPTER 1 Basic Concepts

1.1 Introduction

1.2 The Elements

1.3 Matter and Energy

1.4 Properties

1.5 Classification of Matter

1.6 Representation of Elements

1.7 Laws, Hypotheses, and Theories

CHAPTER 2 Mathematical Methods in Chemistry

2.1 Introduction

2.2 Factor-Label Method

2.3 **Metric System**

2.4 Exponential Numbers

2.5 Significant Digits

2.6 Density

2.7 Temperature Scales

CHAPTER 3 Atoms and Atomic Masses

3.1 Introduction

3.2 Atomic Theory

3.3 Atomic Masses

3.4 Atomic Structure

3.5 Isotopes

3.6 Periodic Table

CHAPTER 4 Electronic Configuration of the Atom

4.1 Introduction

4.2 Bohr Theory

4.3 Quantum Numbers

4.4 Quantum Numbers and Energies of

Electrons

4.5 Shells, Subshells, and Orbitals

4.6 Shapes of Orbitals

4.7 Buildup Principle

4.8 Electronic Structure and the Periodic

Table

CHAPTER 5 Chemical Bonding

5.1 Introduction

5.2 Chemical Formulas

5.3 The Octet Rule

5.4 Ions

5.5 Electron Dot Notation

5.6 Covalent Bonding

5.7 Distinction Between Ionic and Covalent

Bonding

5.8 Predicting the Nature of Bonding in

Compounds

5.9 Detailed Electronic Configurations of Ions

(Optional)

CHAPTER 6 Inorganic Nomenclature

6.1 Introduction

6.2 Binary Compounds of Nonmetals

6.3 Naming Ionic Compounds

6.4 Naming Inorganic Acids

6.5 Acid Salts

6.6 Hydrates

CHAPTER 7 Formula Calculations

7.1 Introduction

7.2 Molecules and Formula Units

7.3 Formula Masses

7.4 The Mole

7.5 Percent Composition of Compounds

7.6 Empirical Formulas

7.7 Molecular Formulas

CHAPTER 8 Chemical Equations

8.1 Introduction

8.2 Balancing Simple Equations

8.3 Predicting the Products of a Reaction

CHAPTER 9 Net Ionic Equations

9.1 Introduction

9.2 Writing Net Ionic Equations

CHAPTER 10 Stoichiometry

10.1 Mole-to-Mole Calculations

10.2 Calculations Involving Other Quantities

10.3 Limiting Quantities

10.4 Calculations Based on Net Ionic

Equations

10.5 Heat Capacity and Heat of Reaction

CHAPTER 11 Molarity

11.1 Introduction

11.2 Molarity Calculations

11.3 Titration

11.4 Stoichiometry in Solution

CHAPTER 12 Gases

12.1 Introduction

12.2 Pressure of Gases

12.3 Boyle’s Law

12.4 Graphical Representation of Data

12.5 Charles’s Law

12.6 The Combined Gas Law

12.7 The Ideal Gas Law

12.8 Dalton’s Law of Partial Pressures

CHAPTER 13 Kinetic Molecular Theory

13.1 Introduction

13.2 Postulates of the Kinetic Molecular

Theory

13.3 Explanation of Gas Pressure, Boyle’s

Law, and Charles’s Law

13.4 Graham’s Law

CHAPTER 14 Oxidation and Reduction

14.1 Introduction

14.2 Assigning Oxidation Numbers

14.3 Periodic Relationships of Oxidation

Numbers

14.4 Oxidation Numbers in Inorganic

Nomenclature

14.5 Balancing Oxidation-Reduction Equations

14.6 Electrochemistry

CHAPTER 15 Solutions

15.1 Qualitative Concentration Terms

15.2 Molality

15.3 Mole Fraction

CHAPTER 16 Rates and Equilibrium

16.1 Introduction

16.2 Rates of Chemical Reaction

16.3 Chemical Equilibrium

16.4 Equilibrium Constants

CHAPTER 17 Acid-Base Theory

17.1 Introduction

17.2 The Brønsted-Lowry Theory

17.3 Acid-Base Equilibrium

17.4 Autoionization of Water

17.5 The pH Scale

17.6 Buffer Solutions

CHAPTER 18 Organic Chemistry

18.1 Introduction

18.2 Bonding in Organic Compounds

18.3 Structural, Condensed, and Line

Formulas

18.4 Hydrocarbons

18.5 Isomerism

18.6 Radicals and Functional Groups

18.7 Alcohols

18.8 Ethers

18.9 Aldehydes and Ketones

18.10 Acids and Esters

18.11 Amines

18.12 Amides

CHAPTER 19 Nuclear Reactions

19.1 Introduction

19.2 Natural Radioactivity

19.3 Half-Life

19.4 Radioactive Series

19.5 Nuclear Fission and Fusion

19.6 Nuclear Energy

APPENDIX Scientific Calculations

A.1 Scientific Algebra

A.2 Calculator Mathematics

Glossary

Practice Quizzes

Answers To Quizzes

Index

Conversions

Table Of The Elements

Periodic Table