ContributorsPrefaceMetallurgical Polarographic Analysis; Polarometric Titrations 1. History 2. Theory 3. Apparatus 4. Techniques of Investigating Solutions 5. Sensitivity and Accuracy of the Method 6. Tables of Depolarization Potentials 7. Applications 8. Polarometric (Amperometric) Titrations ReferencesConductometric Analysis 1. Theory and Technique 2. Conductometric Titrations of Acids and Bases 3. Conductometric Titrations Involving Precipitations 4. Conductometric Titrations with Mercuric Perchlorate ReferencesPotentiometric Analysis 1. Introduction 2. Fundamental Principles 3. Apparatus and Technique 4. Practical Applications ReferencesElectrography and Electro-Spot Testing 1. Introduction 2. Equipment, Materials and Manipulative Techniques 3. Electrolytes, Reagents, and Developing Processes 4. Applications ReferencesMagnetic Methods of Analysis 1. Introduction 2. Definitions and Units 3. Magnetic Energy and Force 4. Magnetic Materials 5. Demagnetizing Field 6. Production of Magnetic Fields 7. Measurement of Magnetic Fields 8. Apparatus for Magnetic Measurements 9. Applications of Magnetic Analysis ReferencesThe Determination of the Area of the Surfaces of Solids 1. Introduction 2. "Absolute" Method of Area Determination 3. Adsorption of Gases 4. Langmuir Isotherm 5. Theory of Brunauer, Emmett, and Teller 6. Entropy Method 7. Relative Method 8. Comparison of Area Methods ReferencesSurface Tension Measurements 1. Introduction 2. Capillary Rise Method 3. Maximum Bubble Pressure Methods 4. Drop-Weight and Pendant Drop Methods 5. Ring Methods ReferencesVacuum Techniques and Analysis 1. Introduction 2. The Measurement of Low Pressures 3. The Production of Low Pressures and the Transfer of Gases 4. The Vacuum Fusion Method for the Analysis of Gaseous Elements in Metals 5. Determination of Carbon by the Low-Pressure Combustion Method 6. The Microanalysis of Gases at Low Pressures 7. Analytical Molecular Distillation 8. Miscellaneous Vacuum Techniques Used in Analysis ReferencesGas Analysis by Methods Depending on Thermal Conductivity 1. Principles of the Method 2. The Thermal Conductivities of Gases 3. Effect of Temperature on Conductivity 4. Effect of Pressure on Conductivity 5. The Conductivities of Mixtures 6. Construction of Analytical Cells-Early Types 7. Sweeping Out the Cell 8. Materials Used in Cells 9. Interchangeability of Cells 10. Classification of Instruments 11. Measuring Circuits 12. Power Supply to Analytical Units 13. Assembly of Units and Accessories 14. Characteristics of the Thermal Conductivity Method 15. Sensitivity 16. Adjustment and Calibration of the Instrument 17. Methods of Analyzing Complex Mixtures 18. Present Status and Applications of the Method 19. Acknowledgments ReferencesThe Measurement of Radioactivity for Tracer Applications 1. General Use of Radioactive Measurements 2. Photographic Method of Detection 3. Electric Methods of Detection 4. Special Analytical Procedures 5. Protection Measures ReferencesStatistical Analysis 1. Statistical Analysis Applied to Spectrographic Measurements 2. Numerical Examples ReferencesChromotographic Analysis 1. Introduction 2. Theory of Chromatographic Analysis 3. Basic Experiments 4. Apparatus 5. Adsorbents 6. Identification of Solutes 7. Reactions with Adsorbents 8. Resolution of Optical Isomers ReferencesAuthor IndexSubject Index
