chemistry central science 14e isbn

Mastering, Modified Mastering, eText, textbook and loose-leaf versions available. You'll get loose-leaf, three-hole-punched pages ready to be placed in a binder. degree in Chemistry from Pacific Lutheran University (Washington) and his Ph.D. in Chemistry in 1966 from the University of Illinois, Urbana-Champaign. Dr. Bruce was President of the American Chemical Society for 2008. Dr. Theodore has been an Alfred P. Sloan Foundation Research Fellow and has been awarded a Guggenheim Fellowship. © 2020 - CST - College Student Textbooks Pvt Ltd - All Rights Reserved. Accounting; Economics; Finance; Leadership; … Transition Metals and Coordination Chemistry, 24. Only logged in customers who have purchased this product may leave a review. Chemistry: The Central Science approaches general chemistry with unrivaled problem sets, notable scientific accuracy and currency, and remarkable clarity. The Chemistry of Life: Organic and Biological Chemistry, Thermodynamic Quantities for Selected Substances at 298.15 K (25ο C), 1 Introduction: Matter, Energy, and Measurement, The Atomic and Molecular Perspective of Chemistry, Chemistry Put To Work Chemistry and the Chemical Industry, Chemistry Put To Work Chemistry in the News, Strategies For Success Estimating Answers, Strategies For Success The Importance of Practice, Strategies For Success The Features of This Book, 2.3   The Modern View of Atomic Structure, Atomic Numbers, Mass Numbers, and Isotopes, Names and Formulas of Binary Molecular Compounds, Chemistry and Life Elements Required by Living Organisms, Strategies For Success How to Take a Test, 3 Chemical Reactions and Reaction Stoichiometry, A Step-by-Step Example of Balancing a Chemical Equation, Indicating the States of Reactants and Products, 3.2   Simple Patterns of Chemical Reactivity, Percentage Composition from Chemical Formulas, Interconverting Masses and Numbers of Particles, Molecular Formulas from Empirical Formulas, 3.6   Quantitative Information from Balanced Equations, Strategies For Success Design an Experiment, 4.1   General Properties of Aqueous Solutions, Solubility Guidelines for Ionic Compounds, 4.3   Acids, Bases, and Neutralization Reactions, Neutralization Reactions with Gas Formation, Expressing the Concentration of an Electrolyte, Interconverting Molarity, Moles, and Volume, 4.6   Solution Stoichiometry and Chemical Analysis, Strategies For Success Analyzing Chemical Reactions, Bomb Calorimetry (Constant-Volume Calorimetry), Using Enthalpies of Formation to Calculate Enthalpies of Reaction, Bond Enthalpies and the Enthalpies of Reactions, A Closer Look Energy, Enthalpy, and P-V Work, Chemistry and Life The Regulation of Body Temperature, Chemistry Put To Work The Scientific and Political Challenges of Biofuels, Hot Objects and the Quantization of Energy, 6.5   Quantum Mechanics and Atomic Orbitals, Electron Spin and the Pauli Exclusion Principle, 6.9   Electron Configurations and the Periodic Table, A Closer Look Measurement and the Uncertainty Principle, A Closer Look Thought Experiments and Schrödinger’s Cat, A Closer Look Probability Density and Radial Probability Functions, Chemistry and Life Nuclear Spin and Magnetic Resonance Imaging, Variations in Successive Ionization Energies, Periodic Trends in First Ionization Energies, 7.7   Trends for Group 1A and Group 2A Metals, Chemistry Put To Work Ionic Size and Lithium-Ion Batteries, Chemistry and Life The Improbable Development of Lithium Drugs, Electron Configurations of Ions of the s- and p-Block Elements, 8.4   Bond Polarity and Electronegativity, Formal Charge and Alternative Lewis Structures, 8.8   Strengths and Lengths of Covalent Bonds, A Closer Look Calculation of Lattice Energies: The Born—Haber Cycle, A Closer Look Oxidation Numbers, Formal Charges, and Actual Partial Charges, 9 Molecular Geometry and Bonding Theories, Applying the VSEPR Model to Determine Molecular Shapes, Effect of Nonbonding Electrons and Multiple Bonds on Bond Angles, 9.3  Molecular Shape and Molecular Polarity, 9.4  Covalent Bonding and Orbital Overlap, Resonance Structures, Delocalization, and p Bonding, Molecular Orbitals of the Hydrogen Molecule, 9.8  Bonding in Period 2 Diatomic Molecules, Molecular Orbitals from 2p Atomic Orbitals, Electron Configurations for B2 through Ne2, Electron Configurations and Molecular Properties, Chemistry and Life The Chemistry of Vision, A Closer Look Phases in Atomic and Molecular Orbitals, Chemistry Put To Work Orbitals and Energy, The Pressure—Volume Relationship: Boyle’s Law, The Temperature—Volume Relationship: Charles’s Law, The Quantity—Volume Relationship: Avogadro’s Law, Relating the Ideal-Gas Equation and the Gas Laws, 10.5  Further Applications of the Ideal-Gas Equation, 10.7  The Kinetic-Molecular Theory of Gases, Application of Kinetic-Molecular Theory to the Gas Laws, 10.9  Real Gases: Deviations from Ideal Behavior, Strategies for Success Calculations Involving Many Variables, 11.1   A Molecular Comparison of Gases, Liquids, and Solids, Volatility, Vapor Pressure, and Temperature, A Closer Look The Clausius—Clapeyron Equation, Structure and Physical Properties of Polymers, Chemistry Put To Work Solid-State Lighting, Chemistry Put To Work Modern Materials in the Automobile, Chemistry Put To Work Microporous and Mesoporous Materials, The Effect of Intermolecular Forces on Solution Formation, Solution Formation and Chemical Reactions, 13.2   Saturated Solutions and Solubility, Determination of Molar Mass from Colligative Properties, Chemistry and Life Fat-Soluble and Water-Soluble Vitamins, Chemistry and Life Blood Gases and Deep-Sea Diving, A Closer Look Ideal Solutions with Two or More Volatile Components, 14.1   Factors That Affect Reaction Rates, Reaction Orders: The Exponents in the Rate Law, Using Initial Rates to Determine Rate Laws, 14.4   The Change of Concentration with Time, The Rate-Determining Step for a Multistep Mechanism, A Closer Look Using Spectroscopic Methods to Measure Reaction Rates: Beer’s Law, Chemistry Put To Work Methyl Bromide in the Atmosphere, Chemistry Put To Work Catalytic Converters, Chemistry and Life Nitrogen Fixation and Nitrogenase, Equilibrium Constants in Terms of Pressure, Kp, 15.3   Understanding and Working with Equilibrium Constants, The Direction of the Chemical Equation and K, Relating Chemical Equation Stoichiometry and Equilibrium Constants, 15.6   Applications of Equilibrium Constants, Change in Reactant or Product Concentration, A Closer Look Temperature Changes and Le Châtelier’s Principle, Chemistry Put To Work Controlling Nitric Oxide Emissions, 16.9   Acid—Base Properties of Salt Solutions, Combined Effect of Cation and Anion in Solution, 16.10 Acid—Base Behavior and Chemical Structure, Chemistry Put To Work Amines and Amine Hydrochlorides, Chemistry and Life The Amphiprotic Behavior of Amino Acids, 17 Additional Aspects of Aqueous Equilibria, Addition of Strong Acids or Bases to Buffers, 17.6   Precipitation and Separation of Ions, 17.7   Qualitative Analysis for Metallic Elements, Chemistry and Life Blood as a Buffered Solution, A Closer Look Limitations of Solubility Products, Chemistry and Life Tooth Decay and Fluoridation, A Closer Look Lead Contamination in Drinking Water, Photochemical Reactions in the Atmosphere, 18.2   Human Activities and Earth’s Atmosphere, Greenhouse Gases: Water Vapor, Carbon Dioxide, and Climate, 18.4   Human Activities and Water Quality, A Closer Look The Ogallala Aquifer–A Shrinking Resource, 19.2   Entropy and the Second Law of Thermodynamics, The Relationship between Entropy and Heat, 19.3   The Molecular Interpretation of Entropy and the Third Law of Thermodynamics, Expansion of a Gas at the Molecular Level, 19.4   Entropy Changes in Chemical Reactions, Calculating the Standard Entropy Change for a Reaction      Entropy Changes in the Surroundings, 19.7   Free Energy and the Equilibrium Constant, A Closer Look The Entropy Change When a Gas Expands Isothermally, Chemistry and Life Entropy and Human Society.