In this post ( my debut post on mirtitles.org and the site’s 375th !) we will see an amazing book on chemistry titled General Chemistry Volume 1 by Nikolai Glinka and edited by Veniamin Rabinovich.
About the book ( From the Back Cover)
Professor N. Glinka’s textbook systematizes the theoretical aspects and includes an extensive collection of reference data tor the course in general chemistry. Great attention is given to the structure of atoms and molecules, the laws of chemical reactions, and oxidation-reduction, processes. The book has been very popular in the Soviet Union and other countries for many years. During the author’s life, it saw 12 editions in Russian and was repeatedly published in other languages. The time that has elapsed after the author’s death, however required the introduction of appreciable amendments into the book, first of all because of the deep penetration of chemistry into many branches of the national economy and of the tremendous growth in the volume of the factual material of chemistry. The required revision of the textbook was carried out in its sixteenth Russian edition (1973). An additional revision of the book mainly due to the transition to SI units of physical quantities and the associated alterations in the terminology was carried out in the nineteenth Russian edition (1977). The present English text has been translated from the 21st Russian edition (1980), and to facilitate work with the book, has been divided into two volumes. The book is intended for students of higher educational institutions not majoring in chemistry. It will also be very helpful for persons studying the fundamentals of chemistry independently, and for students of chemical technical schools and the senior classes of secondary schools.
This book was hugely popular in the Soviet Union and other countries for many years. It was first published in 1958 and revised from the 1980 enlarged and updated Russian edition. Seriously though I have never read a book before this one that had explained General Chemistry in such an elucidating manner. Especially the way the chapter The Fundamentals of Chemical Reactions is explained is amazing. The Volume 1 and Volume 2 together contains everything from Inorganic Chemistry that we read in 10+2. Thank you very much The Mitr for cleaning and bookmarking the pdf and helping me make my first post. Volume 2 to follow.
PDF | OCR | Bookmarked | Paginated
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Contents
Preface to the Third English Edition 5
Introduction 11
1. Matter and Its Motion 11 2. Substances and Their Changes. The Subject of Chemistry 12 3. The Importance of Chemistry. Chemistry in the National Economy of the USSR 13
Chapter 1. The Atomic and Molecular Concept 15
4. Law of Conservation of Mass 16 5. Essence of the Atomic and Molecular Concept 18 6. Elementary Substance and Chemical Element 20 7. Law of Definite Proportions. Law of Multiple Proportions 22 8. Law of Combining Volumes. Avogadro Law 24 9. Atomic and Molecular Masses. The Mole 25 10. Determining the Molecular Masses of Gaseous Substances 27 11. Partial Pressure of a Gas 30 12. Equivalent. Law of Equivalents 31 13. Determination of Atomic Masses. Valence 33 14. Chemical Symbols 37 15. Most Important Classes of Inorganic Substances 38 16. Chemical Calculations 44
Chapter 2. Mendeleev’s Periodic Law 48
17. Mendeleev’s Periodic Law 48 18. The Periodic Table of Elements 50 19. Significance of the Periodic Table 55
Chapter 3. Structure of the Atom. Development of the Periodic Law 58 20. Radioactivity 58 21. Nuclear Model of the Atom 61 22. Atomic Spectra 63 23. The Quantum Theory of Light 65 24. Structure of an Atom’s Electron Shell According to Bohr 69 25. Initial Concepts of Quantum Mechanics 72 26. Wave Function 74 27. Energy State of an Electron in an Atom 76 28. Principal Quantum Number 79 29. Orbital Quantum Number. Shapes of Electron Clouds 80 30. Magnetic and Spin Quantum Numbers 86 31. Many-Electron Atoms 89 32. The Pauli Exclusion Principle. Electron Configuration of Atoms and the Periodic Table 91 33. The Dimensions of Atoms and Ions 103 34. Ionization Energy and Affinity to Electron 105 35. Structure of Atomic Nuclei. Isotopes 108 36. Radioactive Elements and Their Decay 111 37. Artificial Radioactivity. Nuclear Reactions 115
Chapter 4. The Chemical Bond and the Structure of Molecules 119
38. The Theory of Chemical Structure 120 39. Covalent Bond. The Method of Valence Bonds 124 40. Non-Polar and Polar Covalent Bond 129 41. Ways of Forming a Covalent Bond 133 42. Direction of a Covalent Bond 138 43. Hybridization of Atomic Electron Orbitals 141 44. Multiple-Centre Bonds 145 45. The Method of Molecular Orbitals 148 46. Ionic Bond 158 47. Hydrogen Bond 162
Chapter 5. The Structure of Solids and Liquids 165 48. Intermolecular Interaction 165 49. The Crystalline State of a Substance 166 50. The Internal Structure of Crystals 168 51. Real Crystals 171 52. The Amorphous State of a Substance 172 53. Liquids 173
Chapter 6. Fundamental Laws of Chemical Reactions 175 54. Energy Conversions in Reactions 175 55. Thermochemistry 176 56. Thermochemical Calculations 178 57. Rate of a Chemical Reaction 180 58. Dependence of Reaction Rate on the Reactant Concentrations 182 59. Dependence of Reaction Rate on the Temperature and Nature of the Reactants 184 60. Catalysis 187 61. Reaction Rate in Heterogeneous Systems 190 62. Chain Reactions 191 63. Irreversible and Reversible Reactions. Chemical Equilibrium 193 64. Displacement of Chemical Equilibrium. Le Chatelier’s Principle 196 65. Factors Determining the Direction of Chemical Reactions 200 66. Thermodynamic Quantities. Internal Energy and Enthalpy 205 67. Thermodynamic Quantities. Entropy and Gibbs Energy 208 68. Standard Thermodynamic Quantities. Chemico-Thermodynamic Calculations 211
Chapter 7. Water. Solutions 216
69. Water in Nature 216 70. The Physical Properties of Water 217 71. Phase Diagram of Water 220 72. The Chemical Properties of Water 223 73. A Characteristic of Solutions. The Dissolving Process 224 74. Concentration of Solutions 225 75. Hydrates and Crystal Hydrates 227 76. Solubility 229 77. Supersaturated Solutions 234 78. Osmosis 235 79. Vapour Pressure of Solutions 238 80. Freezing and Roiling of Solutions 240
Chapter 8. Solutions of Electrolytes 243
81. Features of Solutions of Salts, Acids, and Bases 243 82. The Theory of Electrolytic Dissociation 245 83. The Dissociation Process 247 84. Degree of Dissociation. Strength of Electrolytes 248 85. Dissociation Constant 249 86. Strong Electrolytes 252 87. Properties of Acids, Bases, and Salts from the Viewpoint of the Theory of Electrolytic Dissociation 255 88. Net Ionic Equations 258 89. Solubility Product 261 90. Dissociation of Water. pH 263 91. Shift of Ionic Equilibria 266 92. Hydrolysis of Salts 270
Chapter 9. Oxidation-Reduction Reaction. Fundamentals of Electrochemistry 277 93.
Oxidation of Elements 277 94. Oxidation-Reduction Reactions 278 95. Compiling Equations of Oxidation-Reduction Reactions 279 96. Most Important Oxidizing and Reducing Agents 283 97. Oxidation-Reduction Duality. Intramolecular OxidationReduction 284 98. Chemical Sources of Electrical Energy 286 99. Electrode Potentials 292 100. Electromotive Series of Metals 303 101. Electrolysis 306 102. Laws of Electrolysis 311 103. Electrolysis in Industry 312 104. Electrochemical Polarization. Overvoltage 315
Chapter 10. Dispersed Systems. Colloids 318 105.
The Dispersed State of a Substance. Dispersed Systems 318 106. State of a Substance at a Phase Interface 323 107. Colloids and Colloidal Dispersions 325 108. Dispersion Analysis. Optical and Molecular-Kinetic Properties of Dispersed Systems 330 109. Sorption and Sorption Processes. Molecular Adsorption 333 110. Ion-Exchange Adsorption 337 111. Chromatography 340 112. Electrokinetic Phenomena 343 113. Stability and Coagulation of Dispersed Systems 346 114. Structure Formation in Dispersed Systems. The Physicochemical Mechanics of Solids and Dispersed Structures 351
Name Index 357
Subject Index 359
