This is completed downloadable of Test Bank for Chemistry The Science in Context, Fourth Edition
Product Details:
- ISBN-10 : 0393124185
- ISBN-13 : 978-0393124187
- Author:
All general chemistry students face similar challenges, but they use their textbook differently to meet those challenges. Some read chapters from beginning to end, some consult the book as a reference, and some look to the book for problem-solving help. Chemistry, Fourth Edition supports all kind of learners, regardless of how they use the book, by helping them connect chemistry to their world, see that world from a molecular point of view, and become expert problem solvers.
Table contents:
- Chapter T: WebAssign Answer Templates and Tutorials
- T: WebAssign Answer Templates and Tutorials (3)
- Chapter 1: Matter and Energy: The Origin of the Universe
- 1.1: Classes of Matter
- 1.2: Matter: An Atomic View
- 1.3: Mixtures and How to Separate Them
- 1.4: A Framework for Solving Problems
- 1.5: Properties of Matter
- 1.6: States of Matter (7)
- 1.7: The Scientific Method: Starting Off with a Bang
- 1.8: Making Measurements and Expressing the Results
- 1.9: Unit Conversions and Dimensional Analysis (17)
- 1.10: Testing a Theory: The Big Bang Revisited (7)
- 1: Visual Problems (2)
- 1: Additional Problems (5)
- 1: Extra Problems (13)
- Chapter 2: Atoms, Ions, and Molecules: Matter Starts Here
- 2.1: The Nuclear Model of Atomic Structure
- 2.2: Isotopes
- 2.3: Average Atomic Mass (7)
- 2.4: The Periodic Table of the Elements (12)
- 2.5: Trends in Compound Formation (3)
- 2.6: Naming Compounds and Writing Formulas (17)
- 2.7: Nucleosynthesis (1)
- 2: Visual Problems
- 2: Additional Problems (5)
- 2: Extra Problems (3)
- Chapter 3: Stoichiometry: Mass, Formulas, and Reactions
- 3.1: Chemical Reactions and Earth’s Early Atmosphere
- 3.2: The Mole (21)
- 3.3: Writing Balanced Chemical Equations (3)
- 3.4: Combustion Reactions
- 3.5: Stoichiometric Calculations and the Carbon Cycle (8)
- 3.6: Determining Empirical Formulas from Percent Composition
- 3.7: Empirical and Molecular Formulas Compared (4)
- 3.8: Combustion Analysis (2)
- 3.9: Limiting Reactants and Perfect Yield (7)
- 3: Visual Problems
- 3: Additional Problems (1)
- 3: Extra Problems (15)
- Chapter 4: Solution Chemistry: The Hydrosphere
- 4.1: Solutions on Earth and Other Places
- 4.2: Concentration Units (12)
- 4.3: Dilutions (3)
- 4.4: Electrolytes and Nonelectrolytes (4)
- 4.5: Acid–Base Reactions: Proton Transfer (3)
- 4.6: Titrations (6)
- 4.7: Precipitation Reactions (7)
- 4.8: Ion Exchange
- 4.9: Oxidation–Reduction Reactions: Electron Transfer (7)
- 4: Visual Problems
- 4: Additional Problems
- 4: Calcium: In the Limelight
- 4: Extra Problems (14)
- Chapter 5: Thermochemistry: Energy Changes in Reactions
- 5.1: Energy: Basic Concepts and Definitions
- 5.2: Systems, Surroundings, and Energy Transfer (8)
- 5.3: Enthalpy and Enthalpy Changes (4)
- 5.4: Heating Curves and Heat Capacity (8)
- 5.5: Calorimetry: Measuring Heat Capacity and Enthalpies of Reaction (6)
- 5.6: Hess’s Law
- 5.7: Standard Enthalpies of Formation and Reaction (8)
- 5.8: Fuel Values and Food Values (2)
- 5: Visual Problems (1)
- 5: Additional Problems (14)
- 5: Carbon: Diamonds, Graphite, and the Molecules of Life (1)
- 5: Extra Problems (9)
- Chapter 6: Properties of Gases: The Air We Breathe
- 6.1: The Gas Phase
- 6.2: Atmospheric Pressure (4)
- 6.3: The Gas Laws (10)
- 6.4: The Ideal Gas Law
- 6.5: Gases in Chemical Reactions (10)
- 6.6: Gas Density (3)
- 6.7: Dalton’s Law and Mixtures of Gases (3)
- 6.8: The Kinetic Molecular Theory of Gases (7)
- 6.9: Real Gases (4)
- 6: Visual Problems
- 6: Additional Problems (9)
- 6: Nitrogen: Feeding Plants and Inflating Air Bags
- 6: Extra Problems (23)
- Chapter 7: A Quantum Model of Atoms: Waves and Particles
- 7.1: Light Waves (5)
- 7.2: Atomic Spectra
- 7.3: Particles of Light and Quantum Theory (7)
- 7.4: The Hydrogen Spectrum and the Bohr Model (5)
- 7.5: Electron Waves (4)
- 7.6: Quantum Numbers and Electron Spin
- 7.7: The Sizes and Shapes of Atomic Orbitals (4)
- 7.8: The Periodic Table and Filling the Orbitals of Multielectron Atoms
- 7.9: Electron Configurations of Ions (10)
- 7.10: The Sizes of Atoms and Ions (1)
- 7.11: Ionization Energies
- 7.12: Electron Affinities
- 7: Visual Problems (3)
- 7: Additional Problems (2)
- 7: A Noble Family: Special Status for Special Behavior
- 7: Extra Problems (6)
- Chapter 8: Chemical Bonds: What Makes a Gas a Greenhouse Gas?
- 8.1: Types of Chemical Bonds
- 8.2: Lewis Structures (6)
- 8.3: Polar Covalent Bonds (3)
- 8.4: Vibrating Bonds and the Greenhouse Effect
- 8.5: Resonance (2)
- 8.6: Formal Charge: Choosing among Lewis Structures (3)
- 8.7: Exceptions to the Octet Rule (3)
- 8.8: The Lengths and Strengths of Covalent Bonds (3)
- 8: Visual Problems
- 8: Additional Problems (4)
- 8: Fluorine and Oxygen: Location, Location, Location
- 8: Extra Problems (17)
- Chapter 9: Molecular Geometry: Shape Determines Function
- 9.1: Molecular Shape
- 9.2: Valence-Shell Electron-Pair Repulsion Theory (VSEPR) (8)
- 9.3: Polar Bonds and Polar Molecules (4)
- 9.4: Valence Bond Theory (3)
- 9.5: Shape and Interactions with Large Molecules
- 9.6: Chirality and Molecular Recognition (1)
- 9.7: Molecular Orbital Theory (7)
- 9: Visual Problems
- 9: Additional Problems (8)
- 9: Chalcogens: From Alcohol to Asparagus, the Nose Knows (1)
- 9: Extra Problems (13)
- Chapter 10: Intermolecular Forces: The Uniqueness of Water
- 10.1: Interactions between Ions (1)
- 10.2: Interactions Involving Polar Molecules (4)
- 10.3: Dispersion Forces (2)
- 10.4: Polarity and Solubility (2)
- 10.5: Vapor Pressure of Pure Liquids (2)
- 10.6: Phase Diagrams: Intermolecular Forces at Work (8)
- 10.7: Some Remarkable Properties of Water (2)
- 10: Visual Problems
- 10: Additional Problems (1)
- 10: The Halogens: The Salt of the Earth
- 10: Extra Problems (3)
- Chapter 11: Solutions: Properties and Behavior
- 11.1: Vapor Pressure of Solutions (1)
- 11.2: Solubility of Gases in Water (3)
- 11.3: Energy Changes during Formation and Dissolution of Ionic Compounds (2)
- 11.4: Mixtures of Volatile Solutes (2)
- 11.5: Colligative Properties of Solutions (8)
- 11.6: Measuring the Molar Mass of a Solute Using Colligative Properties (1)
- 11: Visual Problems
- 11: Additional Problems (2)
- 11: Extra Problems (1)
- Chapter 12: Solids: Structures and Applications
- 12.1: The Solid State
- 12.2: Structures of Metals (7)
- 12.3: Alloys (2)
- 12.4: Metallic Bonds and Conduction Bands (2)
- 12.5: Semiconductors (4)
- 12.6: Salt Crystals: Ionic Solids (4)
- 12.7: Structures of Nonmetals (1)
- 12.8: Ceramics: Insulators to Superconductors (1)
- 12.9: X-ray Diffraction: How We Know Crystal Structures (6)
- 12: Visual Problems (2)
- 12: Additional Problems (2)
- 12: Silicon, Silica, Silicates, Silicone: What’s in a Name?
- 12: Extra Problems (11)
- Chapter 13: Organic Chemistry: Fuels, Pharmaceuticals, Materials, and Life
- 13.1: Carbon: The Scope of Organic Chemistry (3)
- 13.2: Alkanes (7)
- 13.3: Alkenes and Alkynes (4)
- 13.4: Aromatic Compounds (3)
- 13.5: Amines (1)
- 13.6: Alcohols, Ethers, and Reformulated Gasoline (3)
- 13.7: Carbonyl-Containing Compounds (8)
- 13.8: Chirality (5)
- 13: Visual Problems (6)
- 13: Additional Problems (2)
- 13: Extra Problems (2)
- Chapter 14: Chemical Kinetics: Reactions in the Air We Breathe
- 14.1: Cars, Trucks, and Air Quality
- 14.2: Reaction Rates (4)
- 14.3: Effect of Concentration on Reaction Rate (16)
- 14.4: Reaction Rates, Temperature, and the Arrhenius Equation (3)
- 14.5: Reaction Mechanisms (3)
- 14.6: Catalysis (1)
- 14: Visual Problems (4)
- 14: Additional Problems (4)
- 14: Extra Problems (5)
- Chapter 15: Chemical Equilibrium: How Much Product Does a Reaction Really Make?
- 15.1: The Dynamics of Chemical Equilibrium (2)
- 15.2: Writing Equilibrium Constant Expressions
- 15.3: Relationships between Kc and Kp Values (9)
- 15.4: Manipulating Equilibrium Constant Expressions (3)
- 15.5: Equilibrium Constants and Reaction Quotients (2)
- 15.6: Heterogeneous Equilibria
- 15.7: Le Châtelier’s Principle (2)
- 15.8: Calculations Based on K (12)
- 15: Visual Problems
- 15: Additional Problems
- 15: Extra Problems (7)
- Chapter 16: Acid–Base and Solubility Equilibria: Reactions in Soil and Water
- 16.1: Acids and Bases: The Brønsted–Lowry Model (5)
- 16.2: pH and the Autoionization of Water (3)
- 16.3: Calculations Involving pH, Ka, and Kb (1)
- 16.4: Polyprotic Acids (7)
- 16.5: Acid Strength and Molecular Structure (1)
- 16.6: pH of Salt Solutions (3)
- 16.7: The Common-Ion Effect
- 16.8: pH Buffers (6)
- 16.9: Indicators and Acid–Base Titrations
- 16.10: Solubility Equilibria (5)
- 16: Visual Problems
- 16: Additional Problems (2)
- 16: The Chemistry of Two Strong Acids: Sulfuric and Nitric Acids (2)
- 16: Extra Problems (14)
- Chapter 17: Metal Ions: Colorful and Essential
- 17.1: Lewis Acids and Bases (3)
- 17.2: Complex Ions (3)
- 17.3: Complex-Ion Equilibria (3)
- 17.4: Naming Complex Ions and Coordination Compounds (3)
- 17.5: Hydrated Metal Ions as Acids (5)
- 17.6: Polydentate Ligands
- 17.7: Ligand Strength and the Chelate Effect
- 17.8: Crystal Field Theory (2)
- 17.9: Magnetism and Spin States (2)
- 17.10: Isomerism in Coordination Compounds
- 17.11: Coordination Compounds in Biochemistry (2)
- 17: Visual Problems (3)
- 17: Additional Problems (3)
- 17: Extra Problems (6)
- Chapter 18: Thermodynamics: Spontaneous and Nonspontaneous Reactions and Processes
- 18.1: Spontaneous Processes
- 18.2: Thermodynamic Entropy (5)
- 18.3: Absolute Entropy and the Third Law of Thermodynamics (1)
- 18.4: Calculating Entropy Changes (1)
- 18.5: Free Energy (5)
- 18.6: Temperature and Spontaneity (1)
- 18.7: Free Energy and Chemical Equilibrium
- 18.8: Influence of Temperature on Equilibrium Constants (1)
- 18.9: Driving the Human Engine: Coupled Reactions
- 18.10: Microstates: A Quantized View of Entropy
- 18: Visual Problems (2)
- 18: Additional Problems (7)
- 18: Extra Problems (16)
- Chapter 19: Electrochemistry: The Quest for Clean Energy
- 19.1: Redox Chemistry Revisited
- 19.2: Electrochemical Cells (2)
- 19.3: Standard Potentials (7)
- 19.4: Chemical Energy and Electrical Work (2)
- 19.5: A Reference Point: The Standard Hydrogen Electrode
- 19.6: The Effect of Concentration on Ecell (6)
- 19.7: Relating Battery Capacity to Quantities of Reactants (2)
- 19.8: Corrosion: Unwanted Electrochemical Reactions
- 19.9: Electrolytic Cells and Rechargeable Batteries (8)
- 19.10: Fuel Cells
- 19: Visual Problems (2)
- 19: Additional Problems (2)
- 19: Extra Problems (13)
- Chapter 20: Biochemistry: The Compounds of Life
- 20.1: The Composition of Proteins (1)
- 20.2: Protein Structure and Function (2)
- 20.3: Carbohydrates (2)
- 20.4: Lipids (1)
- 20.5: Nucleotides and Nucleic Acids (1)
- 20.6: From Biomolecules to Living Cells
- 20: Visual Problems (2)
- 20: Additional Problems (1)
- 20: Extra Problems (6)
- Chapter 21: Nuclear Chemistry: Applications to Energy and Medicine
- 21.1: Binding Energy and Nuclear Stability (2)
- 21.2: Unstable Nuclei and Radioactive Decay (2)
- 21.3: Rates of Radioactive Decay (2)
- 21.4: Radiometric Dating (3)
- 21.5: Measuring Radioactivity
- 21.6: Biological Effects of Radioactivity (2)
- 21.7: Medical Applications of Radionuclides (8)
- 21.8: Nuclear Fission (2)
- 21.9: Nuclear Fusion and the Quest for Clean Energy (1)
- 21: Visual Problems
- 21: Additional Problems (2)
- 21: Extra Problems (17)
- Chapter 22: Life and the Periodic Table
- 22.1: The Periodic Table of Life (4)
- 22.2: Major Essential Elements (4)
- 22.3: Trace and Ultratrace Essential Elements (5)
- 22.4: Nonessential Elements
- 22.5: Elements for Diagnostics and Therapy (6)
- 22: Visual Problems (5)
- 22: Additional Problems
- 22: Extra Problems (5)
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