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Collection of problems in physical chemistry /

Collection of Problems in Physical Chemistry provides illustrations and problems covering the field of physical chemistry. The material has been arranged into illustrations that are solved and supplemented by problems, thus enabling readers to determine the extent to which they have mastered each su...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Bares, Jiri (Autor)
Otros Autores: Watney, Helena (Traductor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford : Pergamon Press, 1961.
Colección:Pergamon international library of science, technology, engineering, and social studies.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Collection of Problems in Physical Chemistry; Copyright Page; Table of Contents; FOREWORD TO THE CZECH EDITION; FOREWORD TO THE ENGLISH EDITION; CHAPTER I. ATOMIC STRUCTURE AND THE FUNDAMENTALS OF QUANTUM MECHANICS; Chapter A. ATOMIC STRUCTURE; Illustration 1. Determination of specific charge of electron from deflection in magnetic field; Illustration 2. Determination of electronic charge; Illustration 3. Determination of neutron mass from nuclear photoeffect in heavy hydrogen; Illustration 4. Determination of wave-length of electron from diffraction on grating
  • Illustration 5. Determination of positron massIllustration 6. Photoelectric effect-calculation of characteristic frequency and Planck constant; Illustration 7. Compton effect-shift in wave-length of X-rays; Illustration 8. Spectral distribution of black-body radiation; Illustration 9. Determination of atomic number by means of X-ray spectra; Illustration 10. Calculation of wave-length of lines of Balmer series of hydrogen; Illustration 11. Determination of isotopes by means of electronic spectra; Illustration 12. Calculation of electronic mass from Rydberg constants of hydrogen and helium
  • Illustration 13. Calculation of critical potentials of helium from spectroscopic dataIllustration 14. Rate of radioactive disintegration and radioactive equilibrium; Illustration 15. Estimation of radioactive constant by Geiger-Nuttall rule; B. THE FUNDAMENTALS OF QUANTUM MECHANICS; Illustration 1. Calculation of translational partition function of ideal gas; Illustration 2. Rotational partition function of carbon monoxide; Illustration 3. Vibrational partition function of hydrogen chloride; RESULTS; CHAPTER 2. II. KINETIC THEORY OF IDEAL GAS
  • Illustration 1. Calculation of molecular velocitiesIllustration 2. Calculation of molar heat capacity; Illustration 3. Mean free path; Illustration 4. Collision diameter of molecules; Illustration 5. Collision diameter and diffusion coefficient; Illustration 6. Determination of molecular weight from effusion of gas; Illustration 7. Determination of vapour pressure by effusion method; PROBLEMS; RESULTS; CHAPTER 3. III. IDEAL GAS; Illustration 1. Boyle's law; Illustration 2. Gay-Lussac's law and the absolute temperature scale; Illustration 3. Ideal gas equation-calculation of volume
  • Illustration 4. Ideal gas equation-calculation of molecular weightIllustration 5. Determination of molecular weight by method of limiting densities; Illustration 6. Ideal gas equation-degree of dissociation; Illustration 7. Calculation of degree of association from molecular weights; Illustration 8. Expression of concentration of gas mixtures; Illustration 9. Calculation of total pressure of gas mixture from Dalton's law; Illustration 10. Calculation of partial pressure from Dalton's law; PROBLEMS; REESULTS; CHAPTER IV. FUNDAMENTALS OF THERMODYNAMICS; A. FIRST LAW OF THERMODYNAMICS