Concise chemistry of the elements /

The Periodic Table of the Elements is the most widely used basis for systematic discussion of inorganic chemistry. Two experienced chemists encapsulate their knowledge and teaching experience in this succinct text, suitable for both undergraduate and post-graduate courses. Part one explains how fund...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Siekierski, Slawomir
Otros Autores: Burgess, John
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge, England ; Philadelphia, Pennsylvania ; New Delhi, India : Woodhead Publishing, 2012.
Colección:Horwood Publishing series in chemical science.
Temas:
Chemical elements.
Periodic law.
Elements
�El�ements chimiques.
Loi p�eriodique.
elements (chemical substances)
SCIENCE > Chemistry > Inorganic.
Chemical elements
Periodic law
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; About the Authors; Concise Chemistry of the Elements; Copyright Page; Table of Contents; Periodic Table; Preface; Introduction; PART 1: General properties; Chapter 1. Many-electron atoms; 1.1 THE HYDROGEN ATOM AND PROBABILITY DENSITY; 1.2 ORBITAL RADII; 1.3 MANY-ELECTRON ATOMS; 1.4 RESULTS OF THE HARTREE METHOD; Chapter 2. Shell filling in many-electron atoms; 2.1 GENERAL RULES FOR FILLING SHELLS IN ATOMS; 2.2 EVOLUTION OF ORBITAL ENERGY; 2.3 OCCUPATION OF ORBITALS AND THEIR ENERGY; Chapter 3. Radii and their changes in the Main-Group elements.
  • 3.1 SCREENING FROM THE NUCLEAR CHARGE3.2 CHANGES OF ATOMIC RADII IN s AND p BLOCK ELEMENTS; 3.3 TYPES OF EXPERIMENTAL RADII; Chapter 4. Orbital energies and related properties; 4.1 ORBITAL ENERGIES; 4.2 IONIZATION ENERGIES; 4.3 ELECTRON AFFINITY; 4.4 ELECTRONEGATIVITY; 4.5 HARDNESS AND SOFTNESS; 4.6 RELATIVISTIC EFFECTS AND PROPERTIES OF ELEMENTS; Chapter 5. Oxidation states and their stability; 5.1 VALENCE, HYPERVALENCE AND OXIDATION STATE; 5.2 OXIDATION STATES OF s AND p BLOCK ELEMENTS; 5.3 CHANGES IN STABILITY OF THE MAXIMUM OXIDATION STATE DOWN THE p BLOCK GROUPS.
  • 5.4 DIMERIC MOLECULES AND DIMERIC CATIONS5.5 STEREOCHEMICAL PROPERTIES OF A LONE ELECTRON PAIR; Chapter 6. Catenation and formation of condensed phases; 6.1 CATENATION; 6.2 FORMATION OF CLUSTERS; 6.3 FORMATION OF CONDENSED PHASES; 6.4 CONDITIONS FOR FORMATION OF A METALLIC PHASE; 6.5 THE CHARACTER OF THE CONDENSED PHASE AND THE POSITION OF THE ELEMENT IN THE PERIODIC TABLE; 6.6 ALLOTROPY; PART 2: Chemical properties; Chapter 7. Group 1. Hydrogen and the alkali metals; 7.1 PROPERTIES OF HYDROGEN; 7.2 THE ALKALI METALS; Chapter 8. Group 2. The alkaline-earth metals; 8.1 GENERAL PROPERTIES.
  • 8.2 CHANGES OF PROPERTIES DOWN THE GROUP8.3 BERYLLIUM; 8.4 STRUCTURAL CHEMISTRY; 8.5 COORDINATION AND SOLUTION CHEMISTRY; Chapter 9. Groups 13 and 3; 9.1 THE GROUP 13 ELEMENTS; 9.2 PROPERTIES OF BORON; 9.3 PROPERTIES OF Al, Ga, In, and Tl; 9.4 GROUP 3: Sc, Y, and La; Chapter 10. Group 14; 10.1 PROPERTIES OF CARBON; 10.2 PROPERTIES OF Si, Ge, Sn and Pb; 10.3 COMPARISON WITH GROUP 4 ELEMENTS; Chapter 11. Group 15; 11.1 PROPERTIES OF NITROGEN; 11.2 PROPERTIES OF P, As, Sb AND Bi; 11.3 COMPARISON WITH GROUP 5 ELEMENTS; Chapter 12. Group 16; 12.1 PROPERTIES OF OXYGEN.
  • 12.2 PROPERTIES OF S, Se, Te AND Po12.3 COMPARISON WITH GROUP 6 ELEMENTS; Chapter 13. Group 17. The halogens; 13.1 PROPERTIES OF FLUORINE; 13.2 PROPERTIES OF Cl, Br, I and At; 13.3 STRUCTURES OF IONIC HALIDES; Chapter 14. Group 18 (0). The noble gases; 14.1 INTRODUCTION; 14.2 FORMATION OF COMPOUNDS; Chapter 15. Transition elements; 15.1 GENERAL CHARACTERISTICS; 15.2 THE METALLIC PHASE; 15.3 OXIDATION STATES; 15.4 BINARY COMPOUNDS, SALTS, HYDRATES, and AQUA-IONS; 15.5 FORMATION OF COMPLEXES; 15.6 DIFFERENCES BETWEEN THE SERIES; Chapter 16. Group 11. The coinage metals; 16.1 GENERAL PROPERTIES.

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