Chemistry of the non-metals : with an introduction to atomic structure and chemical bonding /

Mostrar otras versiones (2)

"Steude's book offers a very readable and easy-to-understand presentation of the key concepts of inorganic molecular chemistry. Following an introduction into chemical bonding, the book focuses on the material chemistry of the main group elements."Prof. Dr. Michael Ruck, TU Dresden

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Steudel, Ralf, 1937-
Formato: Electrónico eBook
Idioma:Inglés
Alemán
Publicado: Berlin ; New York : W. de Gruyter, 1977.
Edición:English ed. /
Colección:De Gruyter textbook.
Temas:
Nonmetals.
Atomic theory.
Chemical bonds.
Non-métaux.
Théorie atomique.
Liaisons chimiques.
SCIENCE > Chemistry > Inorganic.
Atomic theory
Chemical bonds
Nonmetals
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Part I: Atomic Structure and Chemical Bonding; 1. Introduction; 2. Elementary Particles; 3. Units and Conversion Factors; 4. Atomic Models; 4.1. Structure and Properties of the Electron Cloud; 4.1.1. The Hydrogen Atom; 4.1.2. Many Electron Atoms; 4.1.3. The Aufbau Principle and the Periodic System; 4.2. The Structure and Properties of Atomic Nuclei; 5. Theory of the Chemical Bond; 5.1. The Ionic Bond; 5.1.1. Introduction; 5.1.2. Ionization Energy; 5.1.3. Electron Affinity; 5.1.4. Ion Lattices and Ionic Radii; 5.1.5. Lattice Energy; 5.1.6. Determination of Lattice Energy.
  • 5.1.7. Importance of the Lattice Energy5.1.8. Polarization of Anions by Cations; 5.2. The Covalent Bond; 5.2.1. The Bohr Atomic Model and Molecule Formation; 5.2.2. The VB Theory of the Covalent Bond; 5.2.3. The Molecular Orbital Theory of the Covalent Bond; 5.2.4. The Coordinate Bond; 5.3. The Van der Waals Bond; 5.3.1. The Dipole Effect; 5.3.2. The Induction Effect; 5.3.3. The Dispersion Effect; 5.3.4. Van der Waals Radii; 5.4. Molecular Geometry; 5.4.1. Theory of Electron Pair Repulsion; 5.4.2. Molecular Symmetry and Point Group Symbols; 5.5. Bond Properties.
  • 5.5.1. Bond Energy and Dissociation Energy5.5.2. The Internuclear Distance; 5.5.3. The Valence Force Constant; 5.5.4. The Overlap Integral; 5.5.5. Definition of Bond Order, b, and its Relation to other Bond Properties; 5.5.6. Polarity of Covalent Bonds; Part II: Chemistry of the Non-Metals; 6. Hydrogen; 6.1. Elementary Hydrogen; 6.2. Hydrogen Ions, H+; 6.3. Acids; 6.4. Bases; 6.5. Relative Acid and Base Strength; 6.5.1. Dilute Solutions; 6.5.2. Concentrated and Anhydrous Acids; 6.6. Hydrogen Bonds; 6.6.1. General; 6.6.2. General Properties of Hydrogen Bonds.
  • 6.6.3. Experimental Evidence for Hydrogen Bonds6.6.4. Examples of Special Hydrogen Bonds; 6.6.5. Theory of Hydrogen Bond Formation; 6.7. Hydrogen Compounds (Hydrides); 6.7.1. Covalent Hydrides; 6.7.2. Salt-like Hydrides; 6.7.3. Metal- and Alloy-like Hydrides; 7. Oxygen; 7.1. Elemental Oxygen; 7.1.1. Molecular Oxygen; 7.1.2. Atomic Oxygen; 7.1.3. Ozone, O3; 7.2. Oxygen Bond Types in Covalent and Ionic Compounds; 7.2.1. Oxides; 7.2.2. Peroxides; 7.2.3. Superoxides; 7.2.4. Ozonides; 7.2.5. Dioxygenyl Compounds; 7.2.6. Comparison of Bond Properties of the Ions Oxxx, Oxxx and 0xxx ...
  • 7.3. Hydrides of Oxygen and Peroxo-Compounds7.3.1. General; 7.3.2. Hydrogen Peroxide, H2O2; 7.4. Fluorides of Oxygen; 7.4.1. General; 7.4.2. Oxygen difluoride, OF2; 7.4.3. Dioxygen difluoride, O2F2; 7.5. Comparison of Bond Relationships in Hydrides and Fluorides of Oxygen; 8. Sulfur, Selenium, Tellurium, Polonium; 8.1. General; 8.2. Theory of d-Orbital Participation; 8.3. Trends in the VIth Main Group; 8.4. Preparation of the Elements; 8.4.1. Sulfur; 8.4.2. Selenium and Tellurium; 8.4.3. Polonium; 8.5. Modifications; 8.5.1. Sulfur; 8.5.2. Selenium, Tellurium, Polonium.

Ejemplares similares