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Introductory Chemistry Online

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From Wikibooks, open books for an open world

Introductory Chemistry Online is an open-source introductory chemistry textbook/workbook that is designed cover a college-level one-semester course. Many contemporary textbooks in chemistry seem have adopted the notion that "more is better"; the books are long, expensive, and the pages are often cluttered with interesting tidbits and restatements of what it is that you have “just learned”. The Chemistry Online text, on the other extreme, is designed to be simple, uncluttered and very much to the point.

This text was under development at a main-stream publisher when I realized that it was destined to become "yet another" $200 textbook that would be "revised" every three years. I withdrew from my contract and removed the Publisher's material. A printed, basic black-and-white textbook based on the revised Introductory Chemistry Online text is relatively inexpensive (about $30), compared with traditional textbooks, and is available through the Wikibooks mechanism, or through the Chemistry Online website.

Profits from book sales support the external site and help pay contractual licensing fees and royalties. You can also print the book yourself by clicking on 'print version' on the left sidebar, or download the book as PDF and print it there. You can also visit Special:Book, compile all pages within the book and order a copy to be printed from PediaPress. Within the printed text, the photographs, illustrations and problems are either licensed through third-party vendors, prepared by contributing authors, or they are available within the public domain. Because the licensed content cannot be distributed as public domain, Figures, Exercises and End-of-Chapter problems are only available through links provided in the text; but the full content is available.

Authors

  • Paul R. Young, Professor of Chemistry, University of Illinois at Chicago, Wiki: AskTheNerd; PRY﹫askthenerd.com - pyoung﹫uic.edu; ChemistryOnline.com

Contents

The complete table of contents is shown below; the links will take you to the individual chapters.

  • 1.1 Why Study Chemistry?
  • 1.2 Organization of the Elements: The Periodic Table
  • 1.3 Scientific Notation
  • 1.4 SI and Metric Units
  • 1.5 Unit Conversion with the Metric System
  • 1.6 Significant Figures
  • 1.7 Atomic Structure and Electron Configuration
  • 1.8 Filling Orbitals with Electrons
  • 2.1 Pure Substances and Mixtures
  • 2.2 The States of Matter
  • 2.3 Density, Proportion and Dimensional Analysis
  • 2.4 Chemical & Physical Properties and Changes
  • 2.5 Conservation of Mass
  • 3.1 Compounds, Lewis Diagrams & Ionic Bonds
  • 3.2 Covalent Bonding
  • 3.3 Lewis Representation of Ionic Compounds
  • 3.4 Identifying Molecular and Ionic Compounds
  • 3.5 Polyatomic Ions
  • 3.6 Resonance
  • 3.7 Electronegativity and the Polar Covalent Bond
  • 3.8 Exceptions to the Octet Rule
  • 3.9 Common Valence States & Ionic Compounds
  • 3.10 Nomenclature of Ionic Compounds
  • 4.1 Measurement and Scale; the Mole Concept
  • 4.2 Molar Mass
  • 4.3 Mole-Mass Conversions
  • 4.4 Percentage Composition
  • 4.5 Empirical and Molecular Formulas
  • 5.1 Chemical Changes & Chemical Reactions
  • 5.2 Chemical Equations
  • 5.3 Balancing Chemical Equations
  • 5.4 Classifying Chemical Reactions
  • 5.5 Oxidation & Reduction Reactions
  • 5.6 Predicting Products from Chemical Reactions
  • 5.7 Predicting Solubility Trends
  • 5.8 The Energetics of Chemical Reactions
  • 6.1 An Introduction to Stoichiometry
  • 6.2 Molar Stoichiometry in Chemical Equations
  • 6.3 Mass Calculations
  • 6.4 Percentage Yield
  • 6.5 Limiting Reactants
  • 7.1 Hydrogen Bonding and the Properties of Water
  • 7.2 Molecular Dipoles
  • 7.3 Dissolution of Ionic Compounds
  • 7.4 Concentration and Molarity
  • 7.5 Solution Stoichiometry
  • 7.6 Dilution of Concentrated Solutions
  • 8.1 Hydrogen Bonding
  • 8.2 Ionization of Acids in Solution
  • 8.3 Conjugate Acid-Base Pairs
  • 8.4 Acids-Bases Reactions: Neutralization
  • 8.5 The Meaning of Neutrality: The Autoprotolysis of Water
  • 8.6 pH Calculations
  • 8.7 Titrations: Neutralization and Stoichiometry
  • 9.1 Gasses and Atmospheric Pressure
  • 9.2 The Pressure-Volume Relationship: Boyle’s Law
  • 9.3 The Temperature-Volume Relationship: Charles’s Law
  • 9.4 The Mole-Volume Relationship: Avogadro’s Law
  • 9.5 The Ideal Gas Law
  • 9.6 Combining Stoichiometry and the Ideal Gas Laws
  • 10.1 The Concept of Equilibrium Reactions
  • 10.2 The Equilibrium Constant
  • 10.3 Calculating Equilibrium Values
  • 10.4 Using Molarity in Equilibrium Calculations
  • 10.5 Equilibria involving Acids and Bases
  • 10.6 The pH of Weak Acid Solutions
  • 10.7 Solubility Equilibria
  • 11.1 Radioactivity
  • 11.2 The Nuclear Equation
  • 11.3 Beta Particle Emission
  • 11.4 Positron Emission
  • 11.5 Radioactive Half-Life
  • 11.6 Atomic Fission and Fusion Reactions