7.0. Introduction 7.0. Introduction 7.1 Position in the Periodic Table 7.2 Electronic Configuration of the d-block Elements 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.3 General Properties of the Transition Elements (d-block) - Physical Properties, Variation in Atomic and Ionic Sizes of Transition Series, Ionisation Enthalpies, Oxidation States, Trends in the M² + /M and M³ + /M² + Standard Electrode Potentials, Trends in Stability of Higher Oxidation States, Chemical Reactivity and EJ Values, Magnetic Properties, Formation of Coloured Ions, Formation of Complex Compounds, Catalytic Properties, Formation of Interstitial Compounds, Alloy Formation 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.4 Some Important Compounds of Transition Elements- Oxides and Oxoanions of Metals- Preparation and Properties of Potassium Dichromate and Potassium Permanganate- Structures of Chromate, Dichromate, Manganate and Permanganate Ions 7.5 Inner Transition Elements(f-block)- Lanthanoids- Electronic Configuration- Atomic and Ionic Sizes- Oxidation States- General Characteristics 7.5 Inner Transition Elements(f-block)- Lanthanoids- Electronic Configuration- Atomic and Ionic Sizes- Oxidation States- General Characteristics 7.5 Inner Transition Elements(f-block)- Lanthanoids- Electronic Configuration- Atomic and Ionic Sizes- Oxidation States- General Characteristics 7.5 Inner Transition Elements(f-block)- Lanthanoids- Electronic Configuration- Atomic and Ionic Sizes- Oxidation States- General Characteristics 7.5 Inner Transition Elements(f-block)- Lanthanoids- Electronic Configuration- Atomic and Ionic Sizes- Oxidation States- General Characteristics 7.5 Inner Transition Elements(f-block)- Lanthanoids- Electronic Configuration- Atomic and Ionic Sizes- Oxidation States- General Characteristics 7.6 Actinoids- Electronic Configuration, Atomic and Ionic Sizes, Oxidation States, General Characteristics and Comparison with Lanthanoids 7.6 Actinoids- Electronic Configuration, Atomic and Ionic Sizes, Oxidation States, General Characteristics and Comparison with Lanthanoids 7.6 Actinoids- Electronic Configuration, Atomic and Ionic Sizes, Oxidation States, General Characteristics and Comparison with Lanthanoids 7.7 Some Applications of d and f block Elements Coordination Compounds 7.8 Werner’s Theory of Coordination Compounds 7.9 Definitions of Some Terms Used in Coordination Compounds 7.10 Nomenclature of Coordination Compounds - IUPAC Nomenclature 7.11 Isomerism in Coordination Compounds-(a) Stereoisomerism- Geometrical and Optical Isomerism (b) Structural Isomerism- Linkage, Coordination, Ionisation and Solvate Isomerism 7.11 Isomerism in Coordination Compounds-(a) Stereoisomerism- Geometrical and Optical Isomerism (b) Structural Isomerism- Linkage, Coordination, Ionisation and Solvate Isomerism 7.11 Isomerism in Coordination Compounds-(a) Stereoisomerism- Geometrical and Optical Isomerism (b) Structural Isomerism- Linkage, Coordination, Ionisation and Solvate Isomerism 7.11 Isomerism in Coordination Compounds-(a) Stereoisomerism- Geometrical and Optical Isomerism (b) Structural Isomerism- Linkage, Coordination, Ionisation and Solvate Isomerism 7.11 Isomerism in Coordination Compounds-(a) Stereoisomerism- Geometrical and Optical Isomerism (b) Structural Isomerism- Linkage, Coordination, Ionisation and Solvate Isomerism 7.11 Isomerism in Coordination Compounds-(a) Stereoisomerism- Geometrical and Optical Isomerism (b) Structural Isomerism- Linkage, Coordination, Ionisation and Solvate Isomerism 7.12 Bonding in Coordination Compounds. (a)Valence Bond Theory - Magnetic Properties of Coordination Compounds- Limitations of Valence Bond Theory (b) Crystal Field Theory (i) Crystal Field Splitting in Octahedral and Tetrahedral Coordination Entities (ii) Colour in Coordination Compounds- Limitations of Crystal Field Theory 7.12 Bonding in Coordination Compounds. (a)Valence Bond Theory - Magnetic Properties of Coordination Compounds- Limitations of Valence Bond Theory (b) Crystal Field Theory (i) Crystal Field Splitting in Octahedral and Tetrahedral Coordination Entities (ii) Colour in Coordination Compounds- Limitations of Crystal Field Theory 7.12 Bonding in Coordination Compounds. (a)Valence Bond Theory - Magnetic Properties of Coordination Compounds- Limitations of Valence Bond Theory (b) Crystal Field Theory (i) Crystal Field Splitting in Octahedral and Tetrahedral Coordination Entities (ii) Colour in Coordination Compounds- Limitations of Crystal Field Theory 7.12 Bonding in Coordination Compounds. (a)Valence Bond Theory - Magnetic Properties of Coordination Compounds- Limitations of Valence Bond Theory (b) Crystal Field Theory (i) Crystal Field Splitting in Octahedral and Tetrahedral Coordination Entities (ii) Colour in Coordination Compounds- Limitations of Crystal Field Theory 7.13 Bonding in Metal Carbonyls 7.14 Stability of Coordination Compounds 7.15 Importance and Applications of Coordination Compounds
1 - Solid State 2 - Solutions 3 - Electrochemistry and Chemical Kinetics Electrochemistry 4 - Surface Chemistry 5 - General Principles of Metallurgy 6 - The p-Block Elements Group 15 7 - d and f-Block Elements and Coordination Compounds - d and f-Block Elements 8 - Polymers 9 - Biomolecules 10 - Chemistry in Every Day Life 11 - Haloalkanes and Haloarenes 12 - Organic Compounds Containing C, H and O 13. Organic Compounds Containing Nirogen Amines