Physical Chemistry 11th edition

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Peter Atkins, Julio de Paula, and James Keeler
Publisher: Oxford University Press

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  • Chapter 1: Focus 1 – The Properties of Gases
    • 1: Integrated Activities

  • Chapter 1A: Topic 1A – The Perfect Gas
    • 1A: Discussion Questions
    • 1A: Exercises (9)
    • 1A: Problems (4)
    • 1A: Extra Problems (2)

  • Chapter 1B: Topic 1B – The Kinetic Model
    • 1B: Discussion Questions
    • 1B: Exercises (4)
    • 1B: Problems
    • 1B: Extra Problems (4)

  • Chapter 1C: Topic 1C – Real Gases
    • 1C: Discussion Questions
    • 1C: Exercises (7)
    • 1C: Problems (1)
    • 1C: Extra Problems

  • Chapter 2: Focus 2 – The First Law
    • 2: Integrated Activities

  • Chapter 2A: Topic 2A – Internal Energy
    • 2A: Discussion Questions
    • 2A: Exercises (4)
    • 2A: Problems (1)
    • 2A: Extra Problems (2)

  • Chapter 2B: Topic 2B – Enthalpy
    • 2B: Discussion Questions
    • 2B: Exercises (3)
    • 2B: Problems
    • 2B: Extra Problems (2)

  • Chapter 2C: Topic 2C – Thermochemistry
    • 2C: Discussion Questions
    • 2C: Exercises (3)
    • 2C: Problems (1)
    • 2C: Extra Problems (1)

  • Chapter 2D: Topic 2D – State Functions and Exact Differentials
    • 2D: Discussion Questions
    • 2D: Exercises (1)
    • 2D: Problems
    • 2D: Extra Problems (1)

  • Chapter 2E: Topic 2E – Adiabatic Changes
    • 2E: Discussion Questions
    • 2E: Exercises (4)
    • 2E: Problems
    • 2E: Extra Problems (1)

  • Chapter 3: Focus 3 – The Second and Third Laws
    • 3: Integrated Activities

  • Chapter 3A: Topic 3A – Entropy
    • 3A: Discussion Questions
    • 3A: Exercises (2)
    • 3A: Problems (1)
    • 3A: Extra Problems

  • Chapter 3B: Topic 3B – Entropy Changes Accompanying Specific Processes
    • 3B: Discussion Questions
    • 3B: Exercises (4)
    • 3B: Problems (4)
    • 3B: Extra Problems (2)

  • Chapter 3C: Topic 3C – The Measurement of Entropy
    • 3C: Discussion Questions
    • 3C: Exercises (1)
    • 3C: Problems (2)
    • 3C: Extra Problems

  • Chapter 3D: Topic 3D – Concentrating on the System
    • 3D: Discussion Questions
    • 3D: Exercises (3)
    • 3D: Problems (1)
    • 3D: Extra Problems

  • Chapter 3E: Topic 3E – Combining the First and Second Laws
    • 3E: Discussion Questions
    • 3E: Exercises (4)
    • 3E: Problems (2)
    • 3E: Extra Problems (7)

  • Chapter 4: Focus 4 – Physical Transformations of Pure Substances
    • 4: Integrated Activities

  • Chapter 4A: Topic 4A – Phase Diagrams of Pure Substances
    • 4A: Discussion Questions
    • 4A: Exercises
    • 4A: Problems
    • 4A: Extra Problems

  • Chapter 4B: Topic 4B – Thermodynamic Aspects of Phase Transitions
    • 4B: Discussion Questions
    • 4B: Exercises (9)
    • 4B: Problems (7)
    • 4B: Extra Problems

  • Chapter 5: Focus 5 – Simple Mixtures
    • 5: Integrated Activities

  • Chapter 5A: Topic 5A – The Thermodynamic Description of Mixtures
    • 5A: Discussion Questions
    • 5A: Exercises (8)
    • 5A: Problems (1)
    • 5A: Extra Problems (4)

  • Chapter 5B: Topic 5B – The Properties of Solutions
    • 5B: Discussion Questions
    • 5B: Exercises (8)
    • 5B: Problems (1)
    • 5B: Extra Problems (2)

  • Chapter 5C: Topic 5C – Phase Diagrams of Binary Systems: Solids
    • 5C: Discussion Questions
    • 5C: Exercises (2)
    • 5C: Problems (1)
    • 5C: Extra Problems

  • Chapter 5D: Topic 5D – Phase Diagrams of Binary Systems: Liquids
    • 5D: Discussion Questions
    • 5D: Exercises
    • 5D: Problems
    • 5D: Extra Problems

  • Chapter 5E: Topic 5E – Phase Diagrams of Ternary Systems
    • 5E: Discussion Questions
    • 5E: Exercises
    • 5E: Problems
    • 5E: Extra Problems

  • Chapter 5F: Topic 5F – Activities
    • 5F: Discussion Questions
    • 5F: Exercises (3)
    • 5F: Problems
    • 5F: Extra Problems

  • Chapter 6: Focus 6 – Chemical Equilibrium
    • 6: Integrated Activities

  • Chapter 6A: Topic 6A – The Equilibrium Constant
    • 6A: Discussion Questions
    • 6A: Exercises (5)
    • 6A: Problems (2)
    • 6A: Extra Problems (2)

  • Chapter 6B: Topic 6B – The Response of Equilibria to the Conditions
    • 6B: Discussion Questions
    • 6B: Exercises (5)
    • 6B: Problems (1)
    • 6B: Extra Problems

  • Chapter 6C: Topic 6C – Electrochemical Cells
    • 6C: Discussion Questions
    • 6C: Exercises (1)
    • 6C: Problems (1)
    • 6C: Extra Problems

  • Chapter 6D: Topic 6D – Electrode Potentials
    • 6D: Discussion Questions
    • 6D: Exercises (2)
    • 6D: Problems
    • 6D: Extra Problems (1)

  • Chapter 7: Focus 7 – Quantum Theory
    • 7: Integrated Activities

  • Chapter 7A: Topic 7A – The Origins of Quantum Mechanics
    • 7A: Discussion Questions
    • 7A: Exercises (9)
    • 7A: Problems (3)
    • 7A: Extra Problems (1)

  • Chapter 7B: Topic 7B – Wavefunctions
    • 7B: Discussion Questions
    • 7B: Exercises
    • 7B: Problems (1)
    • 7B: Extra Problems

  • Chapter 7C: Topic 7C – Operators and Observables
    • 7C: Discussion Questions
    • 7C: Exercises (2)
    • 7C: Problems (3)
    • 7C: Extra Problems

  • Chapter 7D: Topic 7D – Translational Motion
    • 7D: Discussion Questions
    • 7D: Exercises (4)
    • 7D: Problems (1)
    • 7D: Extra Problems

  • Chapter 7E: Topic 7E – Vibrational Motion
    • 7E: Discussion Questions
    • 7E: Exercises (6)
    • 7E: Problems
    • 7E: Extra Problems (1)

  • Chapter 7F: Topic 7F – Rotational Motion
    • 7F: Discussion Questions
    • 7F: Exercises (2)
    • 7F: Problems (1)
    • 7F: Extra Problems

  • Chapter 8: Focus 8 – Atomic Structure and Spectra
    • 8: Integrated Activities (1)

  • Chapter 8A: Topic 8A – Hydrogenic Atoms
    • 8A: Discussion Questions
    • 8A: Exercises (2)
    • 8A: Problems
    • 8A: Extra Problems

  • Chapter 8B: Topic 8B – Many-Electron Atoms
    • 8B: Discussion Questions
    • 8B: Exercises
    • 8B: Problems (1)
    • 8B: Extra Problems

  • Chapter 8C: Topic 8C – Atomic Spectra
    • 8C: Discussion Questions
    • 8C: Exercises (2)
    • 8C: Problems (3)
    • 8C: Extra Problems (1)

  • Chapter 9: Focus 9 – Molecular Structure
    • 9: Integrated Activities

  • Chapter 9A: Topic 9A – Valence-Bond Theory
    • 9A: Discussion Questions
    • 9A: Exercises (1)
    • 9A: Problems
    • 9A: Extra Problems

  • Chapter 9B: Topic 9B – Molecular Orbital Theory: The Hydrogen Molecule-Ion
    • 9B: Discussion Questions
    • 9B: Exercises (1)
    • 9B: Problems (1)
    • 9B: Extra Problems (1)

  • Chapter 9C: Topic 9C – Molecular Orbital Theory: Homonuclear Diatomic Molecules
    • 9C: Discussion Questions
    • 9C: Exercises (2)
    • 9C: Problems (3)
    • 9C: Extra Problems (2)

  • Chapter 9D: Topic 9D – Molecular Orbital Theory: Heteronuclear Diatomic Molecules
    • 9D: Discussion Questions
    • 9D: Exercises (3)
    • 9D: Problems
    • 9D: Extra Problems (2)

  • Chapter 9E: Topic 9E – Molecular Orbital Theory: Polyatomic Molecules
    • 9E: Discussion Questions
    • 9E: Exercises (2)
    • 9E: Problems
    • 9E: Extra Problems (2)

  • Chapter 10: Focus 10 – Molecular Symmetry
    • 10: Integrated Activities

  • Chapter 10A: Topic 10A – Shape and Symmetry
    • 10A: Discussion Questions
    • 10A: Exercises (5)
    • 10A: Problems
    • 10A: Extra Problems

  • Chapter 10B: Topic 10B – Group Theory
    • 10B: Discussion Questions
    • 10B: Exercises
    • 10B: Problems
    • 10B: Extra Problems

  • Chapter 10C: Topic 10C – Applications of Symmetry
    • 10C: Discussion Questions
    • 10C: Exercises (1)
    • 10C: Problems
    • 10C: Extra Problems

  • Chapter 11: Focus 11 – Molecular Spectroscopy
    • 11: Integrated Activities

  • Chapter 11A: Topic 11A – General Features of Molecular Spectroscopy
    • 11A: Discussion Questions
    • 11A: Exercises (11)
    • 11A: Problems (1)
    • 11A: Extra Problems (3)

  • Chapter 11B: Topic 11B – Rotational Spectroscopy
    • 11B: Discussion Questions
    • 11B: Exercises (8)
    • 11B: Problems (1)
    • 11B: Extra Problems (1)

  • Chapter 11C: Topic 11C – Vibrational Spectroscopy of Diatomic Molecules
    • 11C: Discussion Questions
    • 11C: Exercises (7)
    • 11C: Problems
    • 11C: Extra Problems (2)

  • Chapter 11D: Topic 11D – Vibrational Spectroscopy of Polyatomic Molecules
    • 11D: Discussion Questions
    • 11D: Exercises (3)
    • 11D: Problems
    • 11D: Extra Problems

  • Chapter 11E: Topic 11E – Symmetry Analysis of Vibrational Spectra
    • 11E: Discussion Questions
    • 11E: Exercises
    • 11E: Problems
    • 11E: Extra Problems

  • Chapter 11F: Topic 11F – Electronic Spectra
    • 11F: Discussion Questions
    • 11F: Exercises (1)
    • 11F: Problems
    • 11F: Extra Problems (7)

  • Chapter 11G: Topic 11G – Decay of Excited States
    • 11G: Discussion Questions
    • 11G: Exercises
    • 11G: Problems (1)
    • 11G: Extra Problems

  • Chapter 12: Focus 12 – Magnetic Resonance
    • 12: Integrated Activities

  • Chapter 12A: Topic 12A – General Principles
    • 12A: Discussion Questions
    • 12A: Exercises (5)
    • 12A: Problems
    • 12A: Extra Problems (3)

  • Chapter 12B: Topic 12B – Features of NMR Spectra
    • 12B: Discussion Questions
    • 12B: Exercises (1)
    • 12B: Problems
    • 12B: Extra Problems (4)

  • Chapter 12C: Topic 12C – Pulse Techniques in NMR
    • 12C: Discussion Questions
    • 12C: Exercises (1)
    • 12C: Problems
    • 12C: Extra Problems

  • Chapter 12D: Topic 12D – Electron Paramagnetic Resonance
    • 12D: Discussion Questions
    • 12D: Exercises (5)
    • 12D: Problems (1)
    • 12D: Extra Problems

  • Chapter 13: Focus 13 – Statistical Thermodynamics
    • 13: Integrated Activities

  • Chapter 13A: Topic 13A – The Boltzmann Distribution
    • 13A: Discussion Questions
    • 13A: Exercises (2)
    • 13A: Problems (1)
    • 13A: Extra Problems (1)

  • Chapter 13B: Topic 13B – Molecular Partition Functions
    • 13B: Discussion Questions
    • 13B: Exercises (5)
    • 13B: Problems (2)
    • 13B: Extra Problems (2)

  • Chapter 13C: Topic 13C – Molecular Energies
    • 13C: Discussion Questions
    • 13C: Exercises
    • 13C: Problems
    • 13C: Extra Problems

  • Chapter 13D: Topic 13D – The Canonical Ensemble
    • 13D: Discussion Questions
    • 13D: Exercises (1)
    • 13D: Problems
    • 13D: Extra Problems

  • Chapter 13E: Topic 13E – The Internal Energy and the Entropy
    • 13E: Discussion Questions
    • 13E: Exercises (7)
    • 13E: Problems (5)
    • 13E: Extra Problems (6)

  • Chapter 13F: Topic 13F – Derived Functions
    • 13F: Discussion Questions
    • 13F: Exercises (2)
    • 13F: Problems (2)
    • 13F: Extra Problems

  • Chapter 14: Focus 14 – Molecular Interactions
    • 14: Integrated Activities (1)

  • Chapter 14A: Topic 14A – The Electric Properties of Molecules
    • 14A: Discussion Questions
    • 14A: Exercises (7)
    • 14A: Problems (6)
    • 14A: Extra Problems

  • Chapter 14B: Topic 14B – Interactions Between Molecules
    • 14B: Discussion Questions
    • 14B: Exercises
    • 14B: Problems (3)
    • 14B: Extra Problems

  • Chapter 14C: Topic 14C – Liquids
    • 14C: Discussion Questions
    • 14C: Exercises (3)
    • 14C: Problems
    • 14C: Extra Problems

  • Chapter 14D: Topic 14D – Macromolecules
    • 14D: Discussion Questions
    • 14D: Exercises (4)
    • 14D: Problems (2)
    • 14D: Extra Problems (14)

  • Chapter 14E: Topic 14E – Self-Assembly
    • 14E: Discussion Questions
    • 14E: Exercises
    • 14E: Problems (1)
    • 14E: Extra Problems

  • Chapter 15: Focus 15 – Solids
    • 15: Integrated Activities (1)

  • Chapter 15A: Topic 15A – Crystal Structure
    • 15A: Discussion Questions
    • 15A: Exercises (2)
    • 15A: Problems
    • 15A: Extra Problems

  • Chapter 15B: Topic 15B – Diffraction Techniques
    • 15B: Discussion Questions
    • 15B: Exercises (4)
    • 15B: Problems (1)
    • 15B: Extra Problems (4)

  • Chapter 15C: Topic 15C – Bonding in Solids
    • 15C: Discussion Questions
    • 15C: Exercises (2)
    • 15C: Problems
    • 15C: Extra Problems

  • Chapter 15D: Topic 15D – The Mechanical Properties of Solids
    • 15D: Discussion Questions
    • 15D: Exercises (1)
    • 15D: Problems
    • 15D: Extra Problems

  • Chapter 15E: Topic 15E – The Electrical Properties of Solids
    • 15E: Discussion Questions
    • 15E: Exercises
    • 15E: Problems
    • 15E: Extra Problems

  • Chapter 15F: Topic 15F – The Magnetic Properties of Solids
    • 15F: Discussion Questions
    • 15F: Exercises (2)
    • 15F: Problems
    • 15F: Extra Problems (2)

  • Chapter 15G: Topic 15G – The Optical Properties of Solids
    • 15G: Discussion Questions
    • 15G: Exercises (1)
    • 15G: Problems
    • 15G: Extra Problems

  • Chapter 16: Focus 16 – Molecules in Motion
    • 16: Integrated Activities

  • Chapter 16A: Topic 16A – Transport Properties of a Perfect Gas
    • 16A: Discussion Questions
    • 16A: Exercises (11)
    • 16A: Problems (1)
    • 16A: Extra Problems (3)

  • Chapter 16B: Topic 16B – Motion in Liquids
    • 16B: Discussion Questions
    • 16B: Exercises (5)
    • 16B: Problems (1)
    • 16B: Extra Problems (2)

  • Chapter 16C: Topic 16C – Diffusion
    • 16C: Discussion Questions
    • 16C: Exercises (4)
    • 16C: Problems (1)
    • 16C: Extra Problems

  • Chapter 17: Focus 17 – Chemical Kinetics
    • 17: Integrated Activities (5)

  • Chapter 17A: Topic 17A – The Rates of Chemical Reactions
    • 17A: Discussion Questions
    • 17A: Exercises (5)
    • 17A: Problems
    • 17A: Extra Problems (1)

  • Chapter 17B: Topic 17B – Integrated Rate Laws
    • 17B: Discussion Questions
    • 17B: Exercises (5)
    • 17B: Problems (6)
    • 17B: Extra Problems (3)

  • Chapter 17C: Topic 17C – Reactions Approaching Equilibrium
    • 17C: Discussion Questions
    • 17C: Exercises
    • 17C: Problems
    • 17C: Extra Problems (1)

  • Chapter 17D: Topic 17D – The Arrhenius Equation
    • 17D: Discussion Questions
    • 17D: Exercises (1)
    • 17D: Problems (1)
    • 17D: Extra Problems (1)

  • Chapter 17E: Topic 17E – Reaction Mechanisms
    • 17E: Discussion Questions
    • 17E: Exercises
    • 17E: Problems
    • 17E: Extra Problems (5)

  • Chapter 17F: Topic 17F – Examples of Reaction Mechanisms
    • 17F: Discussion Questions
    • 17F: Exercises (2)
    • 17F: Problems (2)
    • 17F: Extra Problems

  • Chapter 17G: Topic 17G – Photochemistry
    • 17G: Discussion Questions
    • 17G: Exercises (1)
    • 17G: Problems (4)
    • 17G: Extra Problems (2)

  • Chapter 18: Focus 18 – Reaction Dynamics
    • 18: Integrated Activities

  • Chapter 18A: Topic 18A – Collision Theory
    • 18A: Discussion Questions
    • 18A: Exercises (5)
    • 18A: Problems (1)
    • 18A: Extra Problems

  • Chapter 18B: Topic 18B – Diffusion-Controlled Reactions
    • 18B: Discussion Questions
    • 18B: Exercises (4)
    • 18B: Problems (1)
    • 18B: Extra Problems

  • Chapter 18C: Topic 18C – Transition-State Theory
    • 18C: Discussion Questions
    • 18C: Exercises (5)
    • 18C: Problems (2)
    • 18C: Extra Problems

  • Chapter 18D: Topic 18D – The Dynamics of Molecular Collisions
    • 18D: Discussion Questions
    • 18D: Exercises
    • 18D: Problems
    • 18D: Extra Problems

  • Chapter 18E: Topic 18E – Electron Transfer in Homogeneous Systems
    • 18E: Discussion Questions
    • 18E: Exercises (1)
    • 18E: Problems (1)
    • 18E: Extra Problems

  • Chapter 19: Focus 19 – Processes at Solid Surfaces
    • 19: Integrated Activities

  • Chapter 19A: Topic 19A – An Introduction to Solid Surfaces
    • 19A: Discussion Questions
    • 19A: Exercises (2)
    • 19A: Problems (1)
    • 19A: Extra Problems (1)

  • Chapter 19B: Topic 19B – Adsorption and Desorption
    • 19B: Discussion Questions
    • 19B: Exercises (8)
    • 19B: Problems
    • 19B: Extra Problems

  • Chapter 19C: Topic 19C – Heterogeneous Catalysis
    • 19C: Discussion Questions
    • 19C: Exercises (1)
    • 19C: Problems
    • 19C: Extra Problems

  • Chapter 19D: Topic 19D – Processes at Electrodes
    • 19D: Discussion Questions
    • 19D: Exercises (3)
    • 19D: Problems
    • 19D: Extra Problems (8)


Atkins' Physical Chemistry, the highly respected and established text that evolves with every edition to meet the needs of current students, is widely acknowledged by both students and instructors around the globe to be the textbook of choice for studying physical chemistry. Now, in its eleventh edition, the text has been enhanced with additional learning features and math support, and reorganized into a unique "Focus/Topic" structure that provides instructors with maximum flexibility in teaching the subject and makes the text more readable for students. The text provides students with unrivaled mathematical support through annotated equations, physical interpretations, and unique "Chemist's Toolkits." Adopting instructors gain access to unparalleled resources for this course, including all figures and tables from the text, tables of editable equations, and expanded "Deeper Look" sections (online) covering more advanced topics.

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Question Group Key
E - Exercise
P - Problem
XP - Extra Problem


Question Availability Color Key
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Group Quantity Questions
Chapter 1: Focus 1 – The Properties of Gases
1 0  
Chapter 1A: Topic 1A – The Perfect Gas
1A.E 9 002a 003a 004a 005a 006a 007a 008a 009a 011a
1A.P 4 005 008 010 012
1A.XP 2 001 002
Chapter 1B: Topic 1B – The Kinetic Model
1B.E 4 001a 003a 008a 009a
1B.XP 4 001 002 003 004
Chapter 1C: Topic 1C – Real Gases
1C.E 7 001a 002a 003a 004a 005a 006a 009a
1C.P 1 008
Chapter 2: Focus 2 – The First Law
2 0  
Chapter 2A: Topic 2A – Internal Energy
2A.E 4 003a 004a 005a 006a
2A.P 1 008
2A.XP 2 001 002
Chapter 2B: Topic 2B – Enthalpy
2B.E 3 001b 003a 004a
2B.XP 2 001 002
Chapter 2C: Topic 2C – Thermochemistry
2C.E 3 004a 005a 007a
2C.P 1 001
2C.XP 1 001
Chapter 2D: Topic 2D – State Functions and Exact Differentials
2D.E 1 004b
2D.XP 1 001
Chapter 2E: Topic 2E – Adiabatic Changes
2E.E 4 002a 003a 004a 005a
2E.XP 1 001
Chapter 3: Focus 3 – The Second and Third Laws
3 0  
Chapter 3A: Topic 3A – Entropy
3A.E 2 002a 004a
3A.P 1 001
Chapter 3B: Topic 3B – Entropy Changes Accompanying Specific Processes
3B.E 4 002a 004a 005a 006a
3B.P 4 003 007 009 011
3B.XP 2 001 002
Chapter 3C: Topic 3C – The Measurement of Entropy
3C.E 1 002a
3C.P 2 005 007
Chapter 3D: Topic 3D – Concentrating on the System
3D.E 3 002a 003a 005a
3D.P 1 002
Chapter 3E: Topic 3E – Combining the First and Second Laws
3E.E 4 001a 002a 004a 006a
3E.P 2 001 008
3E.XP 7 001 002 003 004 005 006 007
Chapter 4: Focus 4 – Physical Transformations of Pure Substances
4 0  
Chapter 4B: Topic 4B – Thermodynamic Aspects of Phase Transitions
4B.E 9 005a 006a 007a 008a 009a 011a 012a 013a 014a
4B.P 7 001 003 005 007 009 011 015
Chapter 5: Focus 5 – Simple Mixtures
5 0  
Chapter 5A: Topic 5A – The Thermodynamic Description of Mixtures
5A.E 8 002a 004a 005b 006a 007a 008a 010a 011a
5A.P 1 006
5A.XP 4 001 002 003 004
Chapter 5B: Topic 5B – The Properties of Solutions
5B.E 8 001a 002a 003a 005a 008a 009a 011a 012a
5B.P 1 009
5B.XP 2 001 002
Chapter 5C: Topic 5C – Phase Diagrams of Binary Systems: Solids
5C.E 2 001a 004a
5C.P 1 002
Chapter 5F: Topic 5F – Activities
5F.E 3 002a 003a 005a
Chapter 6: Focus 6 – Chemical Equilibrium
6 0  
Chapter 6A: Topic 6A – The Equilibrium Constant
6A.E 5 009a 011a 012a 013a 014a
6A.P 2 002 003
6A.XP 2 001 002
Chapter 6B: Topic 6B – The Response of Equilibria to the Conditions
6B.E 5 003a 004a 006a 007a 008a
6B.P 1 002
Chapter 6C: Topic 6C – Electrochemical Cells
6C.E 1 003a
6C.P 1 001
Chapter 6D: Topic 6D – Electrode Potentials
6D.E 2 001a 002a
6D.XP 1 001
Chapter 7: Focus 7 – Quantum Theory
7 0  
Chapter 7A: Topic 7A – The Origins of Quantum Mechanics
7A.E 9 004a 005a 006a 007a 008a 009a 011a 012a 013a
7A.P 3 005 006 009
7A.XP 1 001
Chapter 7B: Topic 7B – Wavefunctions
7B.P 1 007
Chapter 7C: Topic 7C – Operators and Observables
7C.E 2 009a 010a
7C.P 3 001 006 008
Chapter 7D: Topic 7D – Translational Motion
7D.E 4 003a 005a 010b 014a
7D.P 1 011
Chapter 7E: Topic 7E – Vibrational Motion
7E.E 6 001a 002a 003a 003b 005a 008a
7E.XP 1 001
Chapter 7F: Topic 7F – Rotational Motion
7F.E 2 001a 003a
7F.P 1 004
Chapter 8: Focus 8 – Atomic Structure and Spectra
8.I 1 003
Chapter 8A: Topic 8A – Hydrogenic Atoms
8A.E 2 001a 002a
Chapter 8B: Topic 8B – Many-Electron Atoms
8B.P 1 001
Chapter 8C: Topic 8C – Atomic Spectra
8C.E 2 003a 010a
8C.P 3 002 005 009
8C.XP 1 001
Chapter 9: Focus 9 – Molecular Structure
9 0  
Chapter 9A: Topic 9A – Valence-Bond Theory
9A.E 1 008a
Chapter 9B: Topic 9B – Molecular Orbital Theory: The Hydrogen Molecule-Ion
9B.E 1 003a
9B.P 1 005
9B.XP 1 001
Chapter 9C: Topic 9C – Molecular Orbital Theory: Homonuclear Diatomic Molecules
9C.E 2 001a 002a
9C.P 3 002 003 004
9C.XP 2 001 002
Chapter 9D: Topic 9D – Molecular Orbital Theory: Heteronuclear Diatomic Molecules
9D.E 3 001a 002a 003a
9D.XP 2 001 002
Chapter 9E: Topic 9E – Molecular Orbital Theory: Polyatomic Molecules
9E.E 2 001a 004a
9E.XP 2 001 002
Chapter 10: Focus 10 – Molecular Symmetry
10 0  
Chapter 10A: Topic 10A – Shape and Symmetry
10A.E 5 003a 004a 005a 006a 006b
Chapter 10C: Topic 10C – Applications of Symmetry
10C.E 1 005a
Chapter 11: Focus 11 – Molecular Spectroscopy
11 0  
Chapter 11A: Topic 11A – General Features of Molecular Spectroscopy
11A.E 11 001a 002a 003a 004a 005a 006a 007a 008a 010a 011a 012a
11A.P 1 006
11A.XP 3 001 002 003
Chapter 11B: Topic 11B – Rotational Spectroscopy
11B.E 8 004a 006a 007a 008a 009a 011a 012a 013a
11B.P 1 014
11B.XP 1 001
Chapter 11C: Topic 11C – Vibrational Spectroscopy of Diatomic Molecules
11C.E 7 001a 002a 003a 004a 005a 006a 007a
11C.XP 2 001 002
Chapter 11D: Topic 11D – Vibrational Spectroscopy of Polyatomic Molecules
11D.E 3 001a 002a 005a
Chapter 11F: Topic 11F – Electronic Spectra
11F.E 1 013a
11F.XP 7 001 002 003 004 005 006 007
Chapter 11G: Topic 11G – Decay of Excited States
11G.P 1 006
Chapter 12: Focus 12 – Magnetic Resonance
12 0  
Chapter 12A: Topic 12A – General Principles
12A.E 5 003a 004a 005a 006a 007b
12A.XP 3 001 002 003
Chapter 12B: Topic 12B – Features of NMR Spectra
12B.E 1 005a
12B.XP 4 001 002 003 004
Chapter 12C: Topic 12C – Pulse Techniques in NMR
12C.E 1 001a
Chapter 12D: Topic 12D – Electron Paramagnetic Resonance
12D.E 5 001a 002a 003a 005a 006a
12D.P 1 002
Chapter 13: Focus 13 – Statistical Thermodynamics
13 0  
Chapter 13A: Topic 13A – The Boltzmann Distribution
13A.E 2 003a 006a
13A.P 1 005
13A.XP 1 001
Chapter 13B: Topic 13B – Molecular Partition Functions
13B.E 5 001a 003a 007a 008a 012a
13B.P 2 006 007
13B.XP 2 001 002
Chapter 13D: Topic 13D – The Canonical Ensemble
13D.E 1 001a
Chapter 13E: Topic 13E – The Internal Energy and the Entropy
13E.E 7 001a 002a 003a 004a 005a 007a 008a
13E.P 5 002 004 005 010 016
13E.XP 6 001 002 003 004 005 006
Chapter 13F: Topic 13F – Derived Functions
13F.E 2 001a 003a
13F.P 2 001 005
Chapter 14: Focus 14 – Molecular Interactions
14.I 1 008
Chapter 14A: Topic 14A – The Electric Properties of Molecules
14A.E 7 001a 003a 005a 006a 007a 008a 009a
14A.P 6 001 004 005 008 010 013
Chapter 14B: Topic 14B – Interactions Between Molecules
14B.P 3 003 005 009
Chapter 14C: Topic 14C – Liquids
14C.E 3 001a 002a 003a
Chapter 14D: Topic 14D – Macromolecules
14D.E 4 001a 002a 003a 004a
14D.P 2 007 010
14D.XP 14 001 002 003 004 005 006 007 008 009 010 011 012 013 014
Chapter 14E: Topic 14E – Self-Assembly
14E.P 1 001
Chapter 15: Focus 15 – Solids
15.I 1 001
Chapter 15A: Topic 15A – Crystal Structure
15A.E 2 002a 004a
Chapter 15B: Topic 15B – Diffraction Techniques
15B.E 4 001a 002a 003a 011a
15B.P 1 002
15B.XP 4 001 002 003 004
Chapter 15C: Topic 15C – Bonding in Solids
15C.E 2 003a 004a
Chapter 15D: Topic 15D – The Mechanical Properties of Solids
15D.E 1 003a
Chapter 15F: Topic 15F – The Magnetic Properties of Solids
15F.E 2 002a 004a
15F.XP 2 001 002
Chapter 15G: Topic 15G – The Optical Properties of Solids
15G.E 1 001a
Chapter 16: Focus 16 – Molecules in Motion
16 0  
Chapter 16A: Topic 16A – Transport Properties of a Perfect Gas
16A.E 11 001a 002a 003a 004a 005a 006a 007a 008a 009a 011a 012a
16A.P 1 002
16A.XP 3 001 002 003
Chapter 16B: Topic 16B – Motion in Liquids
16B.E 5 002a 003a 004a 005a 006a
16B.P 1 004
16B.XP 2 001 002
Chapter 16C: Topic 16C – Diffusion
16C.E 4 002a 005a 006a 008a
16C.P 1 010
Chapter 17: Focus 17 – Chemical Kinetics
17.I 5 002 003 005 006 007
Chapter 17A: Topic 17A – The Rates of Chemical Reactions
17A.E 5 003a 004a 005a 006a 007a
17A.XP 1 001
Chapter 17B: Topic 17B – Integrated Rate Laws
17B.E 5 002a 003a 004a 005a 006b
17B.P 6 004 006 008 009 011 013
17B.XP 3 001 002 003
Chapter 17C: Topic 17C – Reactions Approaching Equilibrium
17C.XP 1 001
Chapter 17D: Topic 17D – The Arrhenius Equation
17D.E 1 002a
17D.P 1 006
17D.XP 1 001
Chapter 17E: Topic 17E – Reaction Mechanisms
17E.XP 5 001 002 003 004 005
Chapter 17F: Topic 17F – Examples of Reaction Mechanisms
17F.E 2 001a 004a
17F.P 2 003 007
Chapter 17G: Topic 17G – Photochemistry
17G.E 1 001a
17G.P 4 001 002 004 006
17G.XP 2 001 002
Chapter 18: Focus 18 – Reaction Dynamics
18 0  
Chapter 18A: Topic 18A – Collision Theory
18A.E 5 001a 002a 003a 004a 005a
18A.P 1 002
Chapter 18B: Topic 18B – Diffusion-Controlled Reactions
18B.E 4 001a 002a 003a 004a
18B.P 1 004
Chapter 18C: Topic 18C – Transition-State Theory
18C.E 5 001a 003a 004a 005a 006a
18C.P 2 001 002
Chapter 18E: Topic 18E – Electron Transfer in Homogeneous Systems
18E.E 1 003a
18E.P 1 002
Chapter 19: Focus 19 – Processes at Solid Surfaces
19 0  
Chapter 19A: Topic 19A – An Introduction to Solid Surfaces
19A.E 2 001b 002a
19A.P 1 002
19A.XP 1 001
Chapter 19B: Topic 19B – Adsorption and Desorption
19B.E 8 001a 002a 003a 004a 005a 006a 007a 009a
Chapter 19C: Topic 19C – Heterogeneous Catalysis
19C.E 1 001a
Chapter 19D: Topic 19D – Processes at Electrodes
19D.E 3 001a 005a 007a
19D.XP 8 001 002 003 004 005 006 007 008
Total 504