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Why It Matters: Essential Ideas
1.1 Chemistry in Context: The Scientific Method
1.2 Phases and Classification of Matter
1.3 Physical and Chemical Properties
1.4 Measurements
1.5 Measurement Uncertainty, Accuracy, and Precision
1.6 Mathematical Treatment of Measurement Results
Why It Matters: Atoms, Molecules, and Ions
2.1 Early Ideas in Atomic Theory
2.2 Evolution of Atomic Theory
2.3 Atomic Structure and Symbolism
Why It Matters: Electronic Structure
3.1 Electromagnetic Energy
3.2 Quantum Theory
3.3 The Bohr Model
3.4 The Wavelength Nature of Matter - Chemistry LibreTexts
3.5 Quantum Mechanics and The Atom - Chemistry LibreTexts
3.6 The Shape of Atomic Orbitals - Chemistry LibreTexts
Why It Matters: Composition of Substances and Solutions
5.1 Ionic Bonding
5.2 Covalent Bonding
5.3 Molecular and Ionic Compounds
7.1 Molecular Structure and VSEPR Theory
7.2 Electron Pair Geometry versus Molecular Structure
Why It Matters: Thermochemistry
10.1 Energy Basics
10.2 Calorimetry
10.3 Enthalpy
New Chapter
10.4 Hess's Law
Chapter 10 Practice
Why It Matters: Liquids and Solids
11.1 Intermolecular Forces
11.2 Properties of Liquids
11.3 Phase Transitions
(Libre clone with Lumen examples) 11.4 Heating Curve for Water
11.5 Phase Diagrams
11.6 The Solid State of Matter
11.7 Lattice Structures in Crystalline Solids
11.8 X-Ray Crystallography
Chapter 11 Practice
Why It Matters: Solutions and Colloids
12.1 The Dissolution Process
12.2 Electrolytes
12.3 Types of Solutions and Solubility
[merged with Libre] 12.4 Solution Concentration
12.5 Colligative Properties
12.6 Colligative Properties of Electrolyte Solutions
Chapter 12 Practice
Why It Matters: Thermodynamics
13.1 Spontaneity
13.2 Entropy
13.3 The Second and Third Laws of Thermodynamics
13.4 Free Energy
Chapter 13 Practice
Why It Matters: Fundamental Equilibrium Concepts
14.1 Chemical Equilibria
14.2 Equilibrium Constants
14.3 Shifting Equilibria: Le Châtelier’s Principle
14.4 Equilibrium Calculations
14.5 Equilibrium and Thermodynamics
Chapter 14 Practice
Why It Matters: Acid-Based Equilibria
15.1 Brønsted-Lowry Acids and Bases
15.2 pH and pOH
15.3 Relative Strengths of Acids and Bases
15.4 Hydrolysis of Salts
15.5 Polyprotic Acids
15.6 Buffers
15.7 Acid-Base Titrations
Chapter 15 Practice
Why It Matters: Electrochemistry
17.1 Review of Redox Chemistry
17.2 Galvanic Cells
17.3 Electrode and Cell Potentials
17.4 Potential, Free Energy, and Equilibrium
17.5 Batteries and Fuel Cells
17.6 Electrolysis
17.7 Corrosion
Chapter 17 Practice
Why It Matters: Equilibria of Other Reaction Classes
16.1 Precipitation and Dissolution
16.2 Lewis Acids and Bases
16.3 Coupled Equilibria
Chapter 16 Practice
Why It Matters: Kinetics
18.1 Chemical Reaction Rates
18.2 Factors Affecting Reaction Rates
18.3 Rate Laws
18.4 Integrated Rate Laws
18.5 Collision Theory and the Effect of Temperature on Reaction Rate
18.6 Reaction Mechanisms
18.7 Catalysis
Chapter 18 Practice
Why It Matters: Nuclear Chemistry
19.1 Nuclear Structure and Stability
19.2 Nuclear Equations
19.3 Radioactive Decay
19.4 Transmutation and Nuclear Energy
19.5 Uses of Radioisotopes
19.6 Biological Effects of Radiation
Chapter 19 Practice
The Periodic Table
Essential Mathematics
Units and Conversion Factors
Fundamental Physical Constants
Water Properties
Standard Thermodynamic Properties for Selected Substances
Ionization Constants of Weak Acids
Ionization Constants of Weak Bases
Solubility Products
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Chemistry Fundamentals Copyright © by Dr. Julie Donnelly, Dr. Nicole Lapeyrouse, and Dr. Matthew Rex is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, except where otherwise noted.