Dedication;Preface; Who This Book is For; How This Book is Organized; Acknowledgments; Thank You;Chapter 1: Introduction; 1.1 Maintaining a Laboratory Notebook;Chapter 2: Laboratory Safety; 2.1 Laboratory Safety Rules We Recommend;Chapter 3: Equipping a Home Chemistry Laboratory; 3.1 General Purpose Glassware and Plasticware; 3.2 Volumetric Glassware; 3.3 Microscale Equipment; 3.4 Recommended Laboratory Glassware; 3.5 Laboratory Equipment and Supplies; 3.
6 Work Area;Chapter 4: Chemicals for the Home Chemistry Lab; 4.1 Chemical Names; 4.2 Chemical Grades; 4.3 Chemical Risk Factors and Safety Advice; 4.4 Hazard Pictograms and Letter Symbols; 4.5 Safe Chemical Handling; 4.6 Chemicals Used in This Book;Chapter 5: Mastering Laboratory Skills; 5.1 Measurement Resolution and Significant Figures; 5.
2 Handling Chemicals Properly; 5.3 Using a Balance; 5.4 Measuring Liquids by Volume; 5.5 Filtration; 5.6 Separations; 5.7 Using Heat Sources; 5.8 Working with Glass Tubing; 5.9 Cleaning Glassware;Chapter 6: Laboratory: Separating Mixtures; 6.
1 Laboratory 6.1: Differential Solubility: Separate Sand and Sucrose; 6.2 Laboratory 6.2: Distillation: Purify ethanol; 6.3 Laboratory 6.3: Recrystallization: Purify Copper Sulfate; 6.4 Laboratory 6.4: Solvent Extraction; 6.
5 Laboratory 6.5: Chromatography: Two-Phase Separation of Mixtures; 6.6 Laboratory 6.6: Determine the Formula of a Hydrate;Chapter 7: Laboratory: Solubility and Solutions; 7.1 Laboratory 7.1: Make Up a Molar Solution of a Solid Chemical; 7.2 Laboratory 7.2: Make Up a Molal Solution of a Solid Chemical; 7.
3 Laboratory 7.3: Make Up a Molar Solution of a Liquid Chemical; 7.4 Laboratory 7.4: Make Up a Mass-to-Volume Percentage Solution; 7.5 Laboratory 7.5: Determine Concentration of a Solution by Visual Colorimetry;Chapter 8: Laboratory: Colligative Properties of Solutions; 8.1 Laboratory 8.1: Determine Molar Mass by Boiling Point Elevation; 8.
2 Laboratory 8.2: Determine Molar Mass by Freezing Point Depression; 8.3 Laboratory 8.3: Observe the Effects of Osmotic Pressure;Chapter 9: Laboratory: Introduction to Chemical Reactions and Stoichiometry; 9.1 Laboratory 9.1: Observe a Composition Reaction; 9.2 Laboratory 9.2: Observe a Decomposition Reaction; 9.
3 Laboratory 9.3: Observe a Single Displacement Reaction; 9.4 Laboratory 9.4: Stoichiometry of a Double Displacement Reaction;Chapter 10: Laboratory: Reduction-Oxidation (Redox) Reactions; 10.1 Laboratory 10.1: Reduction of copper ore to copper metal; 10.2 Laboratory 10.2: Observe the Oxidation States of Manganese;Chapter 11: Laboratory: Acid-Base Chemistry; 11.
1 Laboratory 11.1: Determine the Effect of Concentration on PH; 11.2 Laboratory 11.2: Determine the pH of Aqueous Salt Solutions; 11.3 Laboratory 11.3: Observe the Characteristics of a Buffer Solution; 11.4 Laboratory 11.4: Standardize a Hydrochloric Acid Solution by Titration;Chapter 12: Laboratory: Chemical Kinetics; 12.
1 Laboratory 12.1: Determine the Effect of Temperature on Reaction Rate; 12.2 Laboratory 12.2: Determine the Effect of Surface Area on Reaction Rate; 12.3 Laboratory 12.3: Determine the Effect of Concentration on Reaction Rate; 12.4 Laboratory 12.4: Determine the Effect of a Catalyst on Reaction Rate;Chapter 13: Laboratory: Chemical Equilibrium and Le Chatelier''s Principle; 13.
1 Laboratory 13.1: Observe Le Chatelier''s Principle in Action; 13.2 Laboratory 13.2: Quantify the Common Ion Effect; 13.3 Laboratory 13.3: Determine a Solubility Product Constant;Chapter 14: Laboratory: Gas Chemistry; 14.1 Laboratory 14.1: Observe the Volume-Pressure Relationship of Gases (Boyle''s Law); 14.
2 Laboratory 14.2: Observe the Volume-Temperature Relationship of Gases (Charles'' Law); 14.3 Laboratory 14.3: Observe the Pressure-Temperature Relationship of Gases (Gay-Lussac''s Law); 14.4 Laboratory 14.4: Use the Ideal Gas Law to Determine the Percentage of Acetic Acid in Vinegar; 14.5 Laboratory 14.5: Determine Molar Mass from Vapor Density;Chapter 15: Laboratory: Thermochemistry and Calorimetry; 15.
1 Laboratory 15.1: Determine Heat of Solution; 15.2 Laboratory 15.2: Determine the Heat of Fusion of Ice; 15.3 Laboratory 15.3: Determine the Specific Heat of a Metal; 15.4 Laboratory 15.4: Determine the Enthalpy Change of a Reaction;Chapter 16: Laboratory: Electrochemistry; 16.
1 Laboratory 16.1: Produce Hydrogen and Oxygen by Electrolysis of Water; 16.2 Laboratory 16.2: Observe the Electrochemical Oxidation of Iron; 16.3 Laboratory 16.3: Measure Electrode Potentials; 16.4 Laboratory 16.4: Observe Energy Transformation (Voltage and Current); 16.
5 Laboratory 16.5: Build a Voltaic Cell with Two Half-Cells; 16.6 Laboratory 16.6: Build a Battery;Chapter 17: Laboratory: Photochemistry; 17.1 Laboratory 17.1: Photochemical Reaction of Iodine and Oxalate;Chapter 18: Laboratory: Colloids and Suspensions; 18.1 Laboratory 18.1 Observe Some Properties of Colloids and Suspensions; 18.
2 Laboratory 18.2: Produce Firefighting Foam; 18.3 Laboratory 18.3: Prepare a Gelled Sol;Chapter 19: Laboratory: Qualitative Analysis; 19.1 Laboratory 19.1: Use Flame Tests to Discriminate Metal Ions; 19.2 Laboratory 19.2: Use Borax Bead Tests to Discriminate Metal Ions; 19.
3 Laboratory 19.3: Qualitative Analysis of Inorganic Anions; 19.4 Laboratory 19.4: Qualitative Analysis of Inorganic Cations; 19.5 Laboratory 19.5: Qualitative Analysis of Bone;Chapter 20: Laboratory: Quantitative Analysis; 20.1 Laboratory 20.1: Quantitative Analysis of Vitamin C by Acid-Base Titration; 20.
2 Laboratory 20.2: Quantitative Analysis of Chlorine Bleach by Redox Titration; 20.3 Laboratory 20.3: Quantitative Anion Analysis of Seawater;Chapter 21: Laboratory: Synthesis of Useful Compounds; 21.1 Laboratory 21.1: Synthesize Methyl Salicylate From Aspirin; 21.2 Laboratory 21.2: Produce Rayon Fiber;Chapter 22: Laboratory: Forensic Chemistry; 22.
1 Laboratory 22.1: Use the Sherlock Holmes Test to Detect Blood; 22.2 Laboratory 22.2: Perform a Presumptive Test for Illicit Drugs; 22.3 Laboratory 22.3: Reveal Latent Fingerprints; 22.4 Laboratory 22.4: Perform the Marsh Test;.