General Chemistry Question Collection 1st edition

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• Chapter T: WebAssign Answer Templates and Tutorials
  • T: WebAssign Answer Templates and Tutorials
  
  
• Chapter 1: Introductory Concepts and Measurements
  • 1.1: Scientific Method: Hypothesis, Scientific Theory, Scientific Law
  • 1.2: Units of Measurement: Systems of Units
  • 1.3: Exponential (Scientific) Notation
  • 1.4: Uncertainty in Measurement: Precision, Accuracy
  • 1.5: Significant Figures in Calculations
  • 1.6: Dimensional Analysis
  • 1.7: Temperature Conversions
  • 1.8: Additional Skill Tutorials
  • 1: Concept Mastery
  • 1: Exercises
  • 1: Stand Alone Tutorials
  
  
• Chapter 2: Matter
  • 2.1: Classification of Matter
  • 2.2: Properties of Matter
  • 2.3: Separation of Mixtures
  • 2.4: Atomic Structure of Matter
  • 2.5: Molecules and Molecular Compounds
  • 2.6: Ions and Ionic Compounds
  • 2.7: Names of Inorganic Acids
  • 2.8: Additional Skill Tutorials
  • 2: Concept Mastery
  • 2: Exercises
  • 2: Stand Alone Tutorials
  
  
• Chapter 3: Electronic Structure of Atoms
  • 3.1: Waves
  • 3.2: Particles
  • 3.3: Electromagnetic Radiation: Wave Nature of Light
  • 3.4: Quantum Theory
  • 3.5: Atomic Orbitals and Quantum Numbers
  • 3.6: Electron Configurations and Orbital Diagrams
  • 3.7: Additional Skill Tutorials
  • 3: Concept Mastery
  • 3: Exercises
  • 3: Stand Alone Tutorials
  
  
• Chapter 4: Periodic Properties of the Elements
  • 4.1: Electron Configurations and the Periodic Table
  • 4.2: Ionization Energy
  • 4.3: Electron Affinity
  • 4.4: Electronegativity
  • 4.5: Atomic and Ionic Radii
  • 4.6: Effective Nuclear Charge
  • 4.7: Metals, Nonmetals, and Metalloids
  • 4.8: Main-Group Elements or Representative Elements
  • 4.9: Using the Periodic Table to Predict Monatomic Ions and Charges
  • 4.10: Additional Skill Tutorials
  • 4: Concept Mastery
  • 4: Exercises
  • 4: Stand Alone Tutorials
  
  
• Chapter 5: Chemical Bonding
  • 5.1: Valence Electrons
  • 5.2: Core Electrons
  • 5.3: Lewis Symbols for Atoms and the Octet Rule
  • 5.4: Types of Bonds
  • 5.5: Bond Enthalpies
  • 5.6: Electronegativity and Bond Polarity
  • 5.7: Lewis Structures for Compounds
  • 5.8: Resonance Structures
  • 5.9: Exceptions to the Octet Rule
  • 5.10: Bond Length
  • 5.11: Single, Double, and Triple Bonds
  • 5.12: Lattice Energy
  • 5.13: Additional Skill Tutorials
  • 5: Concept Mastery
  • 5: Exercises
  • 5: Stand Alone Tutorials
  
  
• Chapter 6: Molecular Geometry and Theories of Chemical Bonds
  • 6.1: VSEPR Model
  • 6.2: Polarity of Molecules
  • 6.3: Valence-Bond Theory
  • 6.4: Orbital Hybridization
  • 6.5: Sigma Bonds, Pi Bonds
  • 6.6: Molecular Orbital Theory
  • 6.7: Bond Order (Molecular Orbital Theory)
  • 6.8: Additional Skill Tutorials
  • 6: Concept Mastery
  • 6: Exercises
  • 6: Stand Alone Tutorials
  
  
• Chapter 7: Chemical Reactions
  • 7.1: Types of Reactions
  • 7.2: Balancing Chemical Equations
  • 7.3: Additional Skill Tutorials
  • 7: Concept Mastery
  • 7: Exercises
  • 7: Stand Alone Tutorials
  
  
• Chapter 8: Stoichiometry
  • 8.1: Formula Mass (Formula Weight) and Molar Mass
  • 8.2: Percent Composition (by Mass) of Elements in a Compound
  • 8.3: Mole
  • 8.4: Molar Mass
  • 8.5: Converting Between Grams and Moles
  • 8.6: Converting Between Atoms, Molecules, and Grams
  • 8.7: Empirical Formula
  • 8.8: Molecular Formula
  • 8.9: Amounts of Reactants and Products for a Reaction
  • 8.10: Limiting and Excess Reactants
  • 8.11: Theoretical Yield, Percent Yield of a Reaction
  • 8.12: Solution Stoichiometry: Titrations or Reactions in Solution
  • 8.13: Additional Skill Tutorials
  • 8: Concept Mastery
  • 8: Exercises
  • 8: Stand Alone Tutorials
  
  
• Chapter 9: Solutions
  • 9.1: Solute and Solvent Definitions
  • 9.2: Strong Electrolytes, Weak Electrolytes, Nonelectrolytes
  • 9.3: Aqueous Solutions of Ionic and Molecular Compounds
  • 9.4: Ionic Equations for Reactions in Aqueous Solution
  • 9.5: Concentration
  • 9.6: Solubility
  • 9.7: Colligative Properties
  • 9.8: Colloids
  • 9.9: Additional Skill Tutorials
  • 9: Concept Mastery
  • 9: Exercises
  • 9: Stand Alone Tutorials
  
  
• Chapter 10: Thermochemistry
  • 10.1: Energy
  • 10.2: Enthalpy
  • 10.3: Additional Skill Tutorials
  • 10: Concept Mastery
  • 10: Exercises
  • 10: Stand Alone Tutorials
  
  
• Chapter 11: Thermodynamics
  • 11.1: Spontaneous Processes
  • 11.2: Entropy
  • 11.3: Enthalpy and Entropy Changes in the Formation of Solutions
  • 11.4: Gibbs Free Energy
  • 11.5: Additional Skill Tutorials
  • 11: Concept Mastery
  • 11: Exercises
  • 11: Stand Alone Tutorials
  
  
• Chapter 12: States of Matter
  • 12.1: Kinetic Molecular Theory
  • 12.2: Phase Changes
  • 12.3: Intermolecular Forces
  • 12.4: Solids
  • 12.5: Liquids
  • 12.6: Gases
  • 12.7: Additional Skill Tutorials
  • 12: Concept Mastery
  • 12: Exercises
  • 12: Stand Alone Tutorials
  
  
• Chapter 13: Acids and Bases
  • 13.1: Defining Acids and Bases
  • 13.2: Conjugate Acid-Base Pair
  • 13.3: Ion Product of Water
  • 13.4: Defining pH and pOH
  • 13.5: The pH Scale
  • 13.6: Interconverting pH and pOH
  • 13.7: Strong Acids and Bases
  • 13.8: Weak Acids
  • 13.9: Polyprotic Acids
  • 13.10: Weak Bases
  • 13.11: K_a and K_b Relationship
  • 13.12: pK_a and pK_b Relationship
  • 13.13: Acid-Base Properties of Salts of Weak Acids and Bases
  • 13.14: Buffers
  • 13.15: Acid-Base Titrations
  • 13.16: Amphiprotic Substances; Amphoteric Oxides and Hydroxides
  • 13.17: Additional Skill Tutorials
  • 13: Concept Mastery
  • 13: Exercises
  • 13: Stand Alone Tutorials
  
  
• Chapter 14: Chemical Kinetics
  • 14.1: Reaction Rates
  • 14.2: Rate Law
  • 14.3: Reaction Order
  • 14.4: Reaction Half-Life
  • 14.5: Effect of Temperature on Rate
  • 14.6: Reaction Mechanisms
  • 14.7: Catalysis
  • 14.8: Additional Skill Tutorials
  • 14: Concept Mastery
  • 14: Exercises
  • 14: Stand Alone Tutorials
  
  
• Chapter 15: Chemical Equilibrium
  • 15.1: Equilibrium Constant
  • 15.2: Homogeneous Equilibrium
  • 15.3: Heterogeneous Equilibrium
  • 15.4: Reaction Quotient
  • 15.5: Applications of Equilibrium Constants
  • 15.6: Le Châtelier's Principle
  • 15.7: Additional Skill Tutorials
  • 15: Concept Mastery
  • 15: Exercises
  • 15: Stand Alone Tutorials
  
  
• Chapter 16: Electrochemistry
  • 16.1: Voltaic and Galvanic Cells
  • 16.2: Cell Potential
  • 16.3: Spontaneity of Redox Reactions
  • 16.4: Nernst Equation
  • 16.5: Concentration Cells
  • 16.6: Batteries
  • 16.7: Fuel Cells
  • 16.8: Corrosion and Galvanization
  • 16.9: Electrolytic Cells
  • 16.10: Additional Skill Tutorials
  • 16: Concept Mastery
  • 16: Exercises
  • 16: Stand Alone Tutorials
  
  
• Chapter 17: Nuclear Chemistry
  • 17.1: Nuclear Stability
  • 17.2: Radioactivity
  • 17.3: Radioisotopes
  • 17.4: Nuclear Transmutations
  • 17.5: Fission
  • 17.6: Fusion
  • 17.7: Balancing Nuclear Equations
  • 17.8: Energy Changes in Nuclear Reactions
  • 17.9: Radiation Effects and Dosage
  • 17.10: Additional Skill Tutorials
  • 17: Concept Mastery
  • 17: Exercises
  • 17: Stand Alone Tutorials
  
  
• Chapter 18: Organic Chemistry
  • 18.1: Hydrocarbons
  • 18.2: Functional Groups
  • 18.3: Classification, Names, and Properties of Organic Compounds
  • 18.4: Isomerism in Organic Compounds
  • 18.5: Additional Skill Tutorials
  • 18: Concept Mastery
  • 18: Exercises
  • 18: Stand Alone Tutorials
  
  
• Chapter FE: Final Exam Questions
  • FE: Final Exam Questions
  • FE: Stand Alone Tutorials