Introduction to chemical principles

This solid, yet value-priced paperback gives you the background and confidence you'll need to succeed in chemistry. Stoker focuses on the most important topics-omitting organic and biochemistry chapters-and teaches the problem-solving skills students in this course need. Each topic is developed at "ground level," and continues step by step until the level of sophistication required for a further chemistry course is attained.

NOTE: Each chapter concludes with a Summary, Key Terms, Practice Problems, and Multiple-Choice Practice Test. Chapter 1: The Science of Chemistry 1.1 Chemistry-A Scientific Discipline 1.2 Scientific Research and Technology 1.3 The Scope of Chemistry and Chemical Technology 1.4 How Chemists Discover Things-The Scientific Method 1.5 The Limitations of the Scientific Method 1.6 The Limitations of Science Chapter 2 Numbers from Measurements 2.1 The Importance of Measurement 2.2 Exact and Inexact Numbers 2.3 Accuracy, Precision, and Error 2.4 Uncertainty in Measurements 2.5 Significant Figures 2.6 Significant Figures and Mathematical Operations 2.7 Scientific Notation 2.8 Mathematical Operations in Scientific Notation Chapter 3 Unit Systems and Dimensional Analysis 3.1 The Metric System of Units 3.2 Metric Units of Length 3.3 Metric Units of Mass 3.4 Metric Units of Volume 3.5 Units in Mathematical Operations 3.6 Conversion Factors 3.7 Dimensional Analysis 3.8 Density 3.9 Equivalence Conversion Factors Other Than Density 3.10 Percentage and Percent Error 3.11 Temperature Scales Chapter 4 Basic Concepts About Matter 4.1 Chemistry-The Study of Matter 4.2 Physical States of Matter 4.3 Properties of Matter 4.4 Changes in Matter 4.5 Pure Substances and Mixtures 4.6 Heterogeneous and Homogeneous Mixtures 4.7 Elements and Compounds 4.8 Discovery and Abundance of the Elements THE HUMAN SIDE OF CHEMISTRY 1: Joseph Priestley (1733-1804) 4.9 Names and Chemical Symbols of the Elements THE HUMAN SIDE OF CHEMISTRY 2: Joens Jakob Berzelius (1779-1848) 4.10 The Atom THE HUMAN SIDE OF CHEMISTRY 3: John Dalton (1766-1844) 4.11 The Molecule 4.12 Natural and Synthetic Compounds 4.13 Chemical Formulas Chapter 5 Subatomic Particles, Isotopes, and Nuclear Chemistry 5.1 Subatomic Particles: Protons, Neutrons, and Electrons 5.2 Atomic Number and Mass Number 5.3 Isotopes 5.4 Atomic Masses 5.5 Evidence Supporting the Existence and Arrangement of Subatomic Particles 5.6 Nuclear Stability and Radioactivity THE HUMAN SIDE OF CHEMISTRY 4: Ernest Rutherford (1871-1937) 5.7 Half-Life: A Measure of Nuclear stability 5.8 The Nature of Natural Radioactive Emissions 5.9 Equations for Radioactive Decay 5.10 Transmutation and Bombardment Reactions 5.11 Positron Emission and Electron Capture 5.12 Neutron-to-Proton Ratio and Type of Radioactive Decay 5.13 Radioactive Decay Series Chapter 6 Electronic Structure and Chemical Periodicity 6.1 The Periodic Law 6.2 The Periodic Table THE HUMAN SIDE OF CHEMISTRY 5: Dmitri Ivanovich Mendeleev (1834-1907) 6.3 The Energy of an Electron THE HUMAN SIDE OF CHEMISTRY 6: Erwin Schroedinger (1887-1961) 6.4 Electron Shells 6.5 Electron Subshells 6.6 Electron Orbitals 6.7 Electron Configurations 6.8 Orbital Diagrams 6.9 Electron Configurations and the Periodic Law 6.10 Electron Configurations and the Periodic Table 6.11 Classification Systems for the Elements 6.12 Chemical Periodicity Chapter 7 Chemical Bonds 7.1 Types of Chemical Bonds 7.2 Valence Electrons and Lewis Symbols THE HUMAN SIDE OF CHEMISTRY 7: Gilbert Newton Lewis (1875-1946) 7.3 The Octet Rule 7.4 The Ionic Bond Model 7.5 The Sign and Magnitude of Ionic Charge 7.6 Lewis Structures for Ionic Compounds 7.7 Chemical Formulas for Ionic Compounds 7.8 Structure of Ionic Compounds 7.9 Polyatomic Ions 7.10 The Covalent Bond Model 7.11 Lewis Structures for Molecular Compounds 7.12 Single, Double, and Triple Covalent Bonds 7.13 Valence Electron Count and Number of Covalent Bonds Formed 7.14 Coordinate Covalent Bonds 7.15 Resonance Structures 7.16 Systematic Procedures for Drawing Lewis Structures 7.17 Molecular Geometry 7.18 Electronegativity THE HUMAN SIDE OF CHEMISTRY 8: Linus Carl Pauling (1901-1994) 7.19 Bond Polarity 7.20 Molecular Polarity Chapter 8 Chemical Nomenclature 8.1 Classification of Compounds for Nomenclature Purposes 8.2 Types of Binary Ionic Compounds 8.3 Nomenclature for Binary Ionic Compounds 8.4 Nomenclature for Ionic Compounds Containing Polyatomic Ions 8.5 Nomenclature for Binary Molecular Compounds 8.6 Nomenclature for Acids 8.7 Nomenclature Rules-A Summary Chapter 9 Chemical Calculations: The Mole Concept and Chemical Formulas 9.1 The Law of Definite Proportions THE HUMAN SIDE OF CHEMISTRY 9: Joseph-Louis Proust (1754-1826) 9.2 Calculation of Formula Masses 9.3 Significant Figures and Atomic Mass 9.4 Percent Composition of a Compound 9.5 The Mole: The Chemist's Counting Unit THE HUMAN SIDE OF CHEMISTRY 10: Lorenzo Romano Amedeo Carlo Avogadro (1776-1856) 9.6 The Mass of a Mole 9.7 Significant Figures and Avogadro's Number 9.8 Relationship between Atomic Mass Units and Gram Units 9.9 The Mole and Chemical Formulas 9.10 The Mole and Chemical Calculations 9.11 Purity of Samples 9.12 Empirical and Molecular Formulas 9.13 Determination of Empirical Formulas 9.14 Determination of Molecular Formulas Chapter 10 Chemical Calculations Involving Chemical Equations 10.1 The Law of Conservation of Mass THE HUMAN SIDE OF CHEMISTRY 11: Antoine-Laurent Lavoisier (1743-1794) 10.2 Writing Chemical Equations 10.3 Chemical Equation Coefficients 10.4 Balancing Procedures for Chemical Equations 10.5 Special Symbols Used in Chemical Equations 10.6 Classes of Chemical Reactions 10.7 Chemical Equations and the Mole Concept 10.8 Balanced Chemical Equations and the Law of Conservation of Mass 10.9 Calculations Based on Chemical Equations-Stoichiometry 10.10 The Limiting Reactant Concept 10.11 Yields: Theoretical, Actual, and Percent 10.12 Simultaneous and Sequential Chemical Reactions Chapter 11 States of Matter 11.1 Factors That Determine Physical State 11.2 Property Differences among Physical States 11.3 The Kinetic Molecular Theory of Matter 11.4 The Solid State 11.5 The Liquid State 11.6 The Gaseous State 11.7 A Comparison of Solids, Liquids, and Gases 11.8 Endothermic and Exothermic Changes of State 11.9 Heat Energy and Specific Heat 11.10 Temperature Changes as a Substance Is Heated 11.11 Energy and Changes of State 11.12 Heat Energy Calculations 11.13 Evaporation of Liquids 11.14 Vapor Pressure of Liquids 11.15 Boiling and Boiling Points 11.16 Intermolecular Forces in Liquids 11.17 Hydrogen Bonding and the Properties of Water Chapter 12 Gas Laws 12.1 Properties of Some Common Gases 12.2 Gas Law Variables 12.3 Boyle's Law: A Pressure-Volume Relationship THE HUMAN SIDE OF CHEMISTRY 12: Robert Boyle (1627-1691) 12.4 Charles's Law: A Temperature-Volume Relationship THE HUMAN SIDE OF CHEMISTRY 13: Jacques Alexandre Cesar Charles (1746-1823) 12.5 Gay-Lussac's Law: A Temperature-Pressure Relationship THE HUMAN SIDE OF CHEMISTRY 14: Joseph Louis Gay-Lussac (1778-1850) 12.6 The Combined Gas Law 12.7 Avogadro's Law 12.8 An Ideal Gas 12.9 The Ideal Gas Law 12.10 Modified Forms of the Ideal Gas Law Equation 12.11 Volumes of Gases in Chemical Reactions 12.12 Volumes of Gases and the Limiting Reactant Concept 12.13 Molar Volume of a Gas 12.14 Chemical Calculations Using Molar Volume 12.15 Mixtures of Gases 12.16 Dalton's Law of Partial Pressures Chapter 13 Solutions 13.1 Characteristics of Solutions 13.2 Solubility 13.3 Solution Formation 13.4 Solubility Rules 13.5 Solution Concentrations 13.6 Concentration: Percentage of Solute 13.7 Concentration: Parts per Million and Parts per Billion 13.8 Concentration: Molarity 13.9 Concentration: Molality 13.10 Dilution 13.11 Molarity and Chemical Equations 13.12 Calculations Involving Volume: A Summary Chapter 14 Acids, Bases, and Salts 14.1 Arrhenius Acid-Base Theory THE HUMAN SIDE OF CHEMISTRY 15: Svante August Arrhenius (1859-1927) 14.2 Bronsted-Lowry Acid-Base Theory 14.3 Conjugate Acids and Bases 14.4 Mono-, Di-, and Triprotic Acids 14.5 Strengths of Acids and Bases 14.6 Salts 14.7 Reactions of Acids 14.8 Reactions of Bases 14.9 Reactions of Salts 14.10 Self-Ionization of Water 14.11 The pH Scale 14.12 Hydrolysis of Salts 14.13 Buffers 14.14 Acid-Base Titrations Chapter 15 Chemical Equations: Net Ionic and Oxidation-Reduction 15.1 Types of Chemical Equations 15.2 Electrolytes 15.3 Ionic and Net Ionic Equations 15.4 Oxidation-Reduction Terminology 15.5 Oxidation Numbers 15.6 Redox and Nonredox Chemical Reactions 15.7 Balancing Oxidation-Reduction Equations 15.8 Oxidation Number Method for Balancing Redox Equations 15.9 Half-Reaction Method for Balancing Redox Equations 15.10 Disproportionation Reactions 15.11 Stoichiometric Calculations Involving Ions Chapter 16 Reaction Rates and Chemical Equilibrium 16.1 Collision Theory 16.2 Endothermic and Exothermic Chemical Reactions 16.3 Factors That Influence Chemical Reaction Rates 16.4 Chemical Equilibrium 16.5 Equilibrium Mixture Stoichiometry 16.6 Equilibrium Constants 16.7 Equilibrium Position 16.8 Temperature Dependency of Equilibrium Constants 16.9 Le Chatelier's Principle THE HUMAN SIDE OF CHEMISTRY 16: Henri-Louis Le Chatelier (1850-1936) 16.10 Forcing Chemical Reactions to Completion Glossary Answer to Odd-Numbered Problems and All Self-Test Problems Index