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eBook Details:
Full title: Chemistry: An Atoms First Approach, 3rd Edition
Edition: 3rd
Copyright year: 2021
Publisher: Cengage Learning
Author: Steven S. Zumdahl; Susan A. Zumdahl; Donald J. DeCoste
ISBN: 9780357363614, 9780357363607
Format: PDF
Description of Chemistry: An Atoms First Approach, 3rd Edition:
Packed with the information, examples and problems you need to learn to “”think like a chemist,”” CHEMISTRY: AN ATOMS FIRST APPROACH, Third Edition is designed to help you become an independent problem-solver. The text begins with coverage of the atom and proceeds through the concept of molecules, structure and bonding. This approach, different from your high school course, will help you become an adept critical thinker and a strong problem-solver — skills that will be useful to you in any career.Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.
Table of Contents of Chemistry: An Atoms First Approach, 3rd Edition PDF ebook:
ContentsTo the ProfessorTo the StudentAbout the AuthorsReview: Measurement and Calculations in ChemistryR.1 Units of MeasurementR.2 Uncertainty in MeasurementR.3 Significant Figures and CalculationsR.4 Learning to Solve Problems SystematicallyR.5 Dimensional AnalysisR.6 TemperatureR.7 DensityR.8 Classification of MatterR.9 EnergyR.10 The MoleFor ReviewChapter 1: Chemical Foundations1.1 Chemistry: An Atoms-First Approach1.2 The Scientific Method1.3 Fundamental Chemical Laws1.4 Dalton’s Atomic Theory1.5 Early Experiments to Characterize the Atom1.6 The Modern View of Atomic Structure: An IntroductionFor ReviewChapter 2: Atomic Structure and Periodicity2.1 Electromagnetic Radiation2.2 The Nature of Matter2.3 The Atomic Spectrum of Hydrogen2.4 The Bohr Model2.5 The Quantum Mechanical Model of the Atom2.6 Quantum Numbers2.7 Orbital Shapes and Energies2.8 Electron Spin and the Pauli Principle2.9 Polyelectronic Atoms2.10 The History of the Periodic Table2.11 The Aufbau Principle and the Periodic Table2.12 Periodic Trends in Atomic PropertiesFor ReviewChapter 3: Bonding: General Concepts3.1 Types of Chemical Bonds3.2 Electronegativity3.3 Ions: Electron Configurations and Sizes3.4 Partial Ionic Character of Covalent Bonds3.5 The Covalent Chemical Bond: A Model3.6 The Localized Electron Bonding Model3.7 Lewis Structures3.8 Exceptions to the Octet Rule3.9 Resonance3.10 Naming Simple CompoundsFor ReviewChapter 4: Molecular Structure and Orbitals4.1 Molecular Structure: The VSEPR Model4.2 Bond Polarity and Dipole Moments4.3 Hybridization and the Localized Electron Model4.4 The Molecular Orbital Model4.5 Bonding in Homonuclear Diatomic Molecules4.6 Bonding in Heteronuclear Diatomic Molecules4.7 Combining the Localized Electron and Molecular Orbital ModelsFor ReviewChapter 5: Stoichiometry5.1 Counting by Weighing5.2 Atomic Masses5.3 Learning to Solve Problems5.4 The Mole5.5 Molar Mass5.6 Percent Composition of Compounds5.8 Chemical Equations5.9 Balancing Chemical Equations5.10 Stoichiometric Calculations: Amounts of Reactants and Products5.11 The Concept of Limiting ReactantFor ReviewChapter 6: Types of Chemical Reactions and Solution Stoichiometry6.1 Water, the Common Solvent6.2 The Nature of Aqueous Solutions: Strong and Weak Electrolytes6.3 The Composition of Solutions6.4 Types of Chemical Reactions6.5 Precipitation Reactions6.6 Describing Reactions in Solution6.7 Stoichiometry of Precipitation Reactions6.8 Acid-Base Reactions6.9 Oxidation-Reduction Reactions6.10 Balancing Oxidation-Reduction EquationsFor ReviewChapter 7: Chemical Energy7.1 The Nature of Chemical Energy7.2 Enthalpy7.3 Calorimetry7.4 Hess’s Law7.5 Standard Enthalpies of Formation7.6 Covalent Bond Energies and Chemical Reactions7.7 Present Sources of Energy7.8 New Energy SourcesFor ReviewChapter 8: Gases8.1 Pressure8.2 The Gas Laws of Boyle, Charles, and Avogadro8.3 The Ideal Gas Law8.4 Gas Stoichiometry8.5 Dalton’s Law of Partial Pressures8.6 The Kinetic Molecular Theory of Gases8.7 Effusion and Diffusion8.8 Real Gases8.9 Characteristics of Several Real Gases8.10 Chemistry in the AtmosphereFor ReviewChapter 9: Liquids and Solids9.1 Intermolecular Forces9.2 The Liquid State9.3 Vapor Pressure and Changes of State9.4 Phase Diagrams9.5 An Introduction to Structures and Types of Solids9.6 Structure and Bonding in Metals9.7 Carbon and Silicon: Network Atomic Solids9.8 Molecular SolidsFor ReviewChapter 10: Properties of Solutions10.1 Solution Composition10.2 The Energies of Solution Formation10.3 Factors Affecting Solubility10.4 The Vapor Pressures of Solutions10.5 Boiling-Point Elevation and Freezing?Point Depression10.6 Osmotic Pressure10.7 Colligative Properties of Electrolyte Solutions10.8 ColloidsFor ReviewChapter 11: Chemical Kinetics11.1 Reaction Rates11.2 Rate Laws: An Introduction11.3 Determining the Form of the Rate Law11.4 The Integrated Rate Law11.5 Reaction Mechanisms11.6 A Model for Chemical Kinetics11.7 CatalysisFor ReviewChapter 12: Chemical Equilibrium12.1 The Equilibrium Condition12.2 The Equilibrium Constant12.3 Equilibrium Expressions Involving Pressures12.4 Heterogeneous Equilibria12.5 Applications of the Equilibrium Constant12.6 Solving Equilibrium Problems12.7 Le Chatelier’s PrincipleFor ReviewChapter 13: Acids and Bases13.1 The Nature of Acids and Bases13.2 Acid Strength13.3 The pH Scale13.4 Calculating the pH of Strong Acid Solutions13.5 Calculating the pH of Weak Acid Solutions13.6 Bases13.7 Polyprotic Acids13.8 Acid-Base Properties of Salts13.9 The Effect of Structure on Acid-Base Properties13.10 Acid-Base Properties of Oxides13.11 The Lewis Acid-Base Model13.12 Strategy for Solving Acid-Base Problems: A SummaryFor ReviewChapter 14: Acid-Base Equilibria14.1 Solutions of Acids or Bases Containing a Common Ion14.2 Buffered Solutions14.3 Buffering Capacity14.4 Titrations and pH Curves14.5 Acid-Base IndicatorsFor ReviewChapter 15: Solubility and Complex Ion Equilibria15.1 Solubility Equilibria and the Solubility Product15.2 Precipitation and Qualitative Analysis15.3 Equilibria Involving Complex IonsFor ReviewChapter 16: Spontaneity, Entropy, and Free Energy16.1 Spontaneous Processes and Entropy16.2 Entropy and the Second Law of Thermodynamics16.3 The Effect of Temperature on Spontaneity16.4 Free Energy16.5 Entropy Changes in Chemical Reactions16.6 Free Energy and Chemical Reactions16.7 The Dependence of Free Energy on Pressure16.8 Free Energy and Equilibrium16.9 Free Energy and WorkFor ReviewChapter 17: Electrochemistry17.1 Balancing Oxidation-Reduction Equations17.2 Galvanic Cells17.3 Standard Reduction Potentials17.4 Cell Potential, Electrical Work, and Free Energy17.5 Dependence of Cell Potential on Concentration17.6 Batteries17.7 Corrosion17.8 Electrolysis17.9 Commercial Electrolytic ProcessesFor ReviewChapter 18: The Nucleus: A Chemist’s View18.1 Nuclear Stability and Radioactive Decay18.2 The Kinetics of Radioactive Decay18.3 Nuclear Transformations18.4 Detection and Uses of Radioactivity18.5 Thermodynamic Stability of the Nucleus18.6 Nuclear Fission and Nuclear Fusion18.7 Effects of RadiationFor ReviewChapter 19: The Representative Elements19.1 A Survey of the Representative Elements19.2 The Group 1A (1) Elements19.3 The Chemistry of Hydrogen19.4 The Group 2A (2) Elements19.5 The Group 3A (13) Elements19.6 The Group 4A (14) Elements19.7 The Group 5A (15) Elements19.8 The Chemistry of Nitrogen19.9 The Chemistry of Phosphorus19.10 The Group 6A (16) Elements19.11 The Chemistry of Oxygen19.12 The Chemistry of Sulfur19.13 The Group 7A (17) Elements19.14 The Group 8A (18) ElementsFor ReviewChapter 20: Transition Metals and Coordination Chemistry20.1 The Transition Metals: A Survey20.2 The First-Row Transition Metals20.3 Coordination Compounds20.4 Isomerism20.5 Bonding in Complex Ions: The Localized Electron Model20.6 The Crystal Field Model20.7 The Biological Importance of Coordination Complexes20.8 Metallurgy and Iron and Steel ProductionFor ReviewChapter 21: Organic and Biological Molecules21.1 Alkanes: Saturated Hydrocarbons21.2 Alkenes and Alkynes21.3 Aromatic Hydrocarbons21.4 Hydrocarbon Derivatives21.5 Polymers21.6 Natural PolymersFor ReviewAppendix 1: Mathematical ProceduresAppendix 2: The Quantitative Kinetic Molecular ModelAppendix 3: Spectral AnalysisAppendix 4: Selected Thermodynamic DataAppendix 5: Equilibrium Constants and Reduction PotentialsAppendix 6: SI Units and Conversion FactorsGlossaryAnswers to Selected ExercisesIndex
