8.1. Position in the Periodic Table & 8.2. Electronic Configuratins of the D- Block Elements 8.1. Position in the Periodic Table & 8.2. Electronic Configuratins of the D- Block Elements 8.3. General Properties of the Transitional Elements (d- block) 8.3.1 Physical Properties 8.3.2. Variation in Atomic and Ionic Sizes of Transition Metals 8.3.3. Ionisation Enthalpies 8.3.4. Oxidation States 8.3.5. Trends in the M2+/M Standard Electrode Potentials 8.3.6. Trends in the M3+/M2 Standard Electrode Potentials 8.3.7. Trends in Stability of Higher Oxidation States 8.3.8. Chemical Reactivity and E (-) Values 8.3.9. Magnetic Properties 8.3.10. Formation of Colored Ions 8.3.11. Formation of Complex Compounds 8.3.12. Catalytic Properties 8.3.13. Formation of Interstitial Compounds 8.3.14. Alloy Formation 8.4. Some Important Compounds of Transition Elements 8.4.1. Oxides and Oxoanians of Metals 8.5. The Lanthanoids & 8.5.1. Electronic Configurations 8.5.2. Atomic and Ionic Sizes 8.5.3. Oxidation States 8.5.4. General Characteristics 8.6. The Actinoids & 8.6.1. Electronic Configurations 8.6.2. Ionic Sizes 8.6.3. Oxidation States 8.6.4. General Characteristics and Comparison with Lanthanoids 8.7. Some Applications of d- and f- Block Elements
1. The Solid State 2. Solutions 3. Electrochemistry 4. Chemical Kinetics 5. Surface Chemistry 6. General Principles and Processes of Isolation of Elements 7. The p-Block Elements 8. The d & f-Block Elements 9. Coordinate Compounds 10. Haloalkanes and Haloarenes 11. Alcohols, Phenols and Ethers 12. Aldehydes, Ketones and CarboXylic Acids 13. Amines 14. Biomolecules 15. Polymers 16. Chemistry in Everyday Life