Atomic physics/ (Record no. 151230)
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000 -LEADER | |
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fixed length control field | 00340nam a2200145Ia 4500 |
020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
International Standard Book Number | 9780486659848 |
040 ## - CATALOGING SOURCE | |
Transcribing agency | CUS |
082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
Classification number | 539.7 |
Item number | BOR/A |
100 ## - MAIN ENTRY--PERSONAL NAME | |
Personal name | Born, Max. |
245 #0 - TITLE STATEMENT | |
Title | Atomic physics/ |
Statement of responsibility, etc. | Max Born. |
250 ## - EDITION STATEMENT | |
Edition statement | 8th ed. |
260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
Place of publication, distribution, etc. | New York: |
Name of publisher, distributor, etc. | Dover, |
Date of publication, distribution, etc. | 1969. |
300 ## - PHYSICAL DESCRIPTION | |
Extent | xiv, 495 p. : |
Other physical details | ill. ; |
Dimensions | 22 cm. |
440 ## - SERIES | |
Title | Dover books on physics and chemistry. |
505 ## - FORMATTED CONTENTS NOTE | |
Formatted contents note | CHAPTER I KINETIC THEORY OF GASES<br/>1. Atomic Theory in Chemistry<br/>2. Fundamental Assumptions of the Kinetic Theory of Gases<br/>3. Calculation of the Pressure of a Gas<br/>4. Temperature of a Gas<br/>5. Specific Heat<br/>6. Law of Distribution of Energy and Velocity<br/>7. Free Path<br/>8. Determination of Avogadro's Number<br/>CHAPTER II ELEMENTARY PARTICLES<br/>1. Conduction of Electricity in Rarefied Gases<br/>2. Canal Rays and Anode Rays (Positive Rays)<br/>3. X-rays<br/>4. Radiations from Radioactive Substances<br/>5. "Prout's Hypothesis, Isotopy, the Proton"<br/>6. The Neutron<br/>7. Cosmic Rays. Positrons<br/>8. Mesons and Nuclear Forces<br/>CHAPTER III THE NUCLEAR ATOM<br/>1. Lorentz's Electron Theory<br/>2. The Theorem of the Inertia of Energy<br/>3. Investigation of Atomic Structure by Scattering Experiments<br/>4. Mass Defect and Nuclear Binding Energy. The Neutrino<br/>5. Heavy Hydrogen and Heavy Water<br/>6. Nuclear Reactions and Radioactive Decay<br/>CHAPTER IV WAVE-CORPUSCLES<br/>1. Wave Theory of Light. Interference and Diffraction<br/>2. Light Quanta<br/>3. Quantum Theory of the Atom<br/>4. Compton Effect<br/>5. Wave Nature of Matter. De Broglie's Theory<br/>6. Experimental Demonstration of Matter Waves<br/>7. "The Contradiction between the Wave Theory and the Corpuscular Theory, and its Removal"<br/>CHAPTER V ATOMIC STRUCTURE AND SPECTRAL LINES<br/>1. The Bohr Atom; Stationary Orbits for Simply Periodic Motions<br/>2. Quantum Conditions for Simply and Multiply Periodic Motions<br/>3. Matrix Mechanics<br/>4. Wave Mechanics<br/>5. Angular Momentum in Wave Mechanics<br/>6. Parity<br/>7. The Statistical Interpretation of Wave Mechanics<br/>8. Emission and Absorption of Radiation<br/>CHAPTER VI SPIN OF THE ELECTRON AND PAULI'S PRINCIPLE<br/>1. Alkali Doublets and the Spinning Electron<br/>2. The Anomalous Zeeman Effect<br/>3. The Hydrogen Atom and X-ray Terms<br/>4. The Helium Atom<br/>5. Pauli's Exclusion Principle<br/>6. The Periodic System. Closed Shells<br/>7. Magnetism<br/>8. Wave Theory of the Spin Electron<br/>9. Density of the Electronic Cloud<br/>CHAPTER VII QUANTUM STATISTICS<br/>1. Heat Radiation and Planck's Law<br/>2. Specific Heat of Solids and of Polyatomic Gases<br/>3. Quantisation of Balck Body Radiation<br/>4. Bose-Einstein Statistics of Light Quanta<br/>5. Einstein's Theory of Gas Degeneration<br/>6. Fermi-Dirac Statistics<br/>7. Electron Theory of Metals. Energy Distribution<br/>8. Thermionic and Photoelectric Effect in Metals<br/>9. Magnetism of the Electron Gas<br/>10. Electrical and Thermal Conductivity. Thermoelectricity<br/>CHAPTER VIII MOLECULAR STRUCTURE<br/>1. Molecular Properties as an Expression of the Distribution of Charge in the Electronic Cloud<br/>2. Experimental Determination of the Molecular Constants<br/>3. Band Spectra and the Raman Effect<br/>4. Chemical Binding. Classification of Types of Binding<br/>5. Theory of Heteropolar Ionic Binding<br/>6. Theory of Co-valency Binding<br/>7. Theory of van der Waals Forces and other Types of Binding<br/>CHAPTER IX QUANTUM THEORY OF SOLIDS<br/>1. Introduction<br/>2. Modes of Lattice Vibration<br/>3. Quantisation of the Lattice Vibrations<br/>4. Inelastic Scattering of Neutrons<br/>5. The Mössbauer Effect<br/>6. Electrons in a Periodic Lattice Band<br/>7. Metals and Insulators<br/>8. Metals<br/>9. Superconductivity<br/>10. Ferromagnetism<br/>11. Insulators and Semiconductors<br/>CHAPTER X NUCLEAR PHYSICS<br/>1. The Size of the Nucleus and a-Decay<br/>2. Angular Momentum and Magnetic Moment<br/>3. The Deuteron and Nuclear Forces<br/>4. Nuclear Structure and Nuclear Saturation<br/>5. The Nuclear Shell Model<br/>6. The Nuclear Collective Model<br/>7. ß-Decay and K-Capture<br/>8. Nuclear Electromagnetic Interactions<br/>9. "The Drop Model, Nuclear Reactions and Fission "<br/>_ Conclusion by M. Born<br/>APPENDICES<br/>I. Evaluation of Some Integrals Connected with the Kinetic Theory of Gases<br/>II. "Heat Conduction, Viscosity, and Diffusion"<br/>III. Van der Waals' Equation of State<br/>IV. The Mean Square Deviation<br/>V. Theory of Relativity<br/>VI. Electron Theory<br/>VII. The Theorem of the Inertia of Energy<br/>VIII. Calculation of the Coefficient of Scattering for Radiation by a Free Particle<br/>IX. Rutherford's Scattering Formula for a-rays<br/>X. The Compton Effect<br/>XI. Phase Velocity and Group Velocity<br/>XII. Elementary Derivation of Heisenberg's Uncertainty Relation<br/>XIII. Hamiltonian Theory and Action Variables<br/>XIV. Quantisation of the Elliptic Orbits in Bohr's Theory<br/>XV. The Oscillator according to Matrix Mechanics<br/>XVI. The Oscillator according to Wave Mechanics<br/>XVII. The Vibrations of a Circular Membrane<br/>XVIII. Solution of Schrödinger's Equation for the Kepler (Central Force) Problem<br/>XIX. The Orbital Angular Momentum<br/>XX. Deduction of Rutherford's Scattering Formula by Wave Mechanics<br/>XXI. Deduction of the Selection Rules for Electric Dipole Radiation<br/>XXII. Anomalous Zeeman Effect of the D Lines of Sodium<br/>XXIII. Enumeration of the Terms in the Case of Two p-Electrons<br/>XXIV. Atomic Form Factor<br/>XXV. The Formalism of Quantum Mechanics<br/>XXVI. General Proof of the Uncertainty Relation<br/>XXVII. Transition Probabilities<br/>XXVIII. Quantum Theory of Emission of Radiation<br/>XXIX. The Electrostatic Energy of Nuclei<br/>XXX. Theory of a-Disintegration<br/>XXXI. The Ground State of the Deuteron<br/>XXXII. Meson Theory<br/>XXXIII. The Stefan-Boltzmann Law and Wien's Displacement Law<br/>XXXIV. Absorption by an Oscillator<br/>XXXV. Temperature and Entropy in Quantum Statistics<br/>XXXVI. Thermionic Emission of Electrons<br/>XXXVII. Temperature Variation of Paramagnetism<br/>XXXVIII. Theory of Co-valency Binding<br/>XXXIX. Time-independnet Perturbation Theory for Non-degenerate States<br/>XL. Theory of the van der Waals Forces<br/>XLI. The Modes of Vibration of a Linear Monatomic Chain<br/>Bibliography<br/>Index |
650 ## - SUBJECT | |
Keyword | Nuclear physics |
650 ## - SUBJECT | |
Keyword | Physics |
942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
Koha item type | General Books |
Withdrawn status | Lost status | Damaged status | Not for loan | Home library | Current library | Shelving location | Date acquired | Full call number | Accession number | Date last seen | Koha item type | Public note |
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Science Library, Sikkim University | Science Library, Sikkim University | Science Library General Section | 28/08/2016 | 539.7 BOR/A | P05902 | 16/01/2020 | General Books Science Library | Books For SU Science Library |