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Index
Cover Title Page Table of Contents Introduction
About This Book Foolish Assumptions Icons Used in This Book Beyond the Book Where to Go from Here
Part 1: Getting Cozy with Numbers, Atoms, and Elements
Chapter 1: Noting Numbers Scientifically
Using Exponential and Scientific Notation to Report Measurements Multiplying and Dividing in Scientific Notation Using Exponential Notation to Add and Subtract Distinguishing between Accuracy and Precision Expressing Precision with Significant Figures Doing Arithmetic with Significant Figures Answers to Questions on Noting Numbers Scientifically
Chapter 2: Using and Converting Units
Familiarizing Yourself with Base Units and Metric System Prefixes Building Derived Units from Base Units Converting between Units: The Conversion Factor Letting the Units Guide You Answers to Questions on Using and Converting Units
Chapter 3: Breaking Down Atoms
The Atom: Protons, Electrons, and Neutrons Deciphering Chemical Symbols: Atomic and Mass Numbers Accounting for Isotopes Using Atomic Masses Answers to Questions on Atoms
Chapter 4: Surveying the Periodic Table of the Elements
Organizing the Periodic Table into Periods and Groups Predicting Properties from Periodic and Group Trends Seeking Stability with Valence Electrons by Forming Ions Putting Electrons in Their Places: Electron Configurations Measuring the Amount of Energy (or Light) an Excited Electron Emits Answers to Questions on the Periodic Table
Part 2: Making and Remaking Compounds
Chapter 5: Building Bonds
Pairing Charges with Ionic Bonds Sharing Electrons with Covalent Bonds Occupying and Overlapping Molecular Orbitals Polarity: Sharing Electrons Unevenly Shaping Molecules: VSEPR Theory and Hybridization Answers to Questions on Bonds
Chapter 6: Naming Compounds and Writing Formulas
Labeling Ionic Compounds and Writing Their Formulas Getting a Grip on Ionic Compounds with Polyatomic Ions Naming Molecular (Covalent) Compounds and Writing Their Formulas Addressing Acids Mixing the Rules for Naming and Formula Writing Beyond the Basics: Naming Organic Carbon Chains Answers to Questions on Naming Compounds and Writing Formulas
Chapter 7: Understanding the Many Uses of the Mole
The Mole Conversion Factor: Avogadro’s Number Doing Mass and Volume Mole Conversions Determining Percent Composition Calculating Empirical Formulas Using Empirical Formulas to Find Molecular Formulas Answers to Questions on Moles
Chapter 8: Getting a Grip on Chemical Equations
Translating Chemistry into Equations and Symbols Balancing Chemical Equations Recognizing Reactions and Predicting Products Canceling Spectator Ions: Net Ionic Equations Answers to Questions on Chemical Equations
Chapter 9: Putting Stoichiometry to Work
Using Mole-Mole Conversions from Balanced Equations Putting Moles at the Center: Conversions Involving Particles, Volumes, and Masses Limiting Your Reagents Counting Your Chickens after They’ve Hatched: Percent Yield Calculations Answers to Questions on Stoichiometry
Part 3: Examining Changes in Terms of Energy
Chapter 10: Understanding States in Terms of Energy
Describing States of Matter with the Kinetic Molecular Theory Make a Move: Figuring Out Phase Transitions and Diagrams Answers to Questions on Changes of State
Chapter 11: Obeying Gas Laws
Boyle’s Law: Playing with Pressure and Volume Charles’s Law and Absolute Zero: Looking at Volume and Temperature The Combined and Ideal Gas Laws: Working with Pressure, Volume, and Temperature Mixing It Up with Dalton’s Law of Partial Pressures Diffusing and Effusing with Graham’s Law Answers to Questions on Gas Laws
Chapter 12: Dissolving into Solutions
Seeing Different Forces at Work in Solubility Concentrating on Molarity and Percent Solutions Changing Concentrations by Making Dilutions Altering Solubility with Temperature Answers to Questions on Solutions
Chapter 13: Playing Hot and Cold: Colligative Properties
Portioning Particles: Molality and Mole Fractions Too Hot to Handle: Elevating and Calculating Boiling Points How Low Can You Go? Depressing and Calculating Freezing Points Determining Molecular Masses with Boiling and Freezing Points Answers to Questions on Colligative Properties
Chapter 14: Exploring Rates and Equilibrium
Measuring Rates Focusing on Factors That Affect Rates Measuring Equilibrium Answers to Questions on Rates and Equilibrium
Chapter 15: Warming Up to Thermochemistry
Understanding the Basics of Thermodynamics Working with Specific Heat Capacity and Calorimetry Absorbing and Releasing Heat: Endothermic and Exothermic Reactions Summing Heats with Hess’s Law Answers to Questions on Thermochemistry
Part 4: Swapping Charges
Chapter 16: Working with Acids and Bases
Surveying Three Complementary Methods for Defining Acids and Bases Measuring Acidity and Basicity: pH, pOH, and KW Ka and Kb: Finding Strength through Dissociation Answers to Questions on Acids and Bases
Chapter 17: Achieving Neutrality with Titrations and Buffers
Concentrating on Titration to Figure Out Molarity Maintaining Your pH with Buffers Measuring Salt Solubility with Ksp Answers to Questions on Titrations and Buffers
Chapter 18: Accounting for Electrons in Redox
Oxidation Numbers: Keeping Tabs on Electrons Balancing Redox Reactions under Acidic Conditions Balancing Redox Reactions under Basic Conditions Answers to Questions on Electrons in Redox
Chapter 19: Galvanizing Yourself to Do Electrochemistry
Identifying Anodes and Cathodes Calculating Electromotive Force and Standard Reduction Potentials Coupling Current to Chemistry: Electrolytic Cells Answers to Questions on Electrochemistry
Chapter 20: Doing Chemistry with Atomic Nuclei
Decaying Nuclei in Different Ways Measuring Rates of Decay: Half-Lives Making and Breaking Nuclei: Fusion and Fission Answers to Questions on Nuclear Chemistry
Part 5: The Part of Tens
Chapter 21: Ten Chemistry Formulas to Tattoo on Your Brain
The Combined Gas Law Dalton’s Law of Partial Pressures The Dilution Equation Rate Laws The Equilibrium Constant Free Energy Change Constant-Pressure Calorimetry Hess’s Law pH, pOH, and KW Ka and Kb
Chapter 22: Ten Annoying Exceptions to Chemistry Rules
Hydrogen Isn’t an Alkali Metal The Octet Rule Isn’t Always an Option Some Electron Configurations Ignore the Orbital Rules One Partner in a Coordinate Covalent Bond Giveth Electrons; the Other Taketh All Hybridized Orbitals Are Created Equal Use Caution When Naming Compounds with Transition Metals You Must Memorize Polyatomic Ions Liquid Water Is Denser than Ice No Gas Is Truly Ideal Common Names for Organic Compounds Hearken Back to the Old Days
About the Authors Connect with Dummies End User License Agreement
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