8.0. Introduction 8.1 Classification of Polymers - Classification based on Source, Structure, Mode of Polymerisation, Molecular Forces and Growth Polymerisation 8.1 Classification of Polymers - Classification based on Source, Structure, Mode of Polymerisation, Molecular Forces and Growth Polymerisation 8.1 Classification of Polymers - Classification based on Source, Structure, Mode of Polymerisation, Molecular Forces and Growth Polymerisation 8.1 Classification of Polymers - Classification based on Source, Structure, Mode of Polymerisation, Molecular Forces and Growth Polymerisation 8.1 Classification of Polymers - Classification based on Source, Structure, Mode of Polymerisation, Molecular Forces and Growth Polymerisation 8.1 Classification of Polymers - Classification based on Source, Structure, Mode of Polymerisation, Molecular Forces and Growth Polymerisation 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.2 Types of Polymerization Reactions - Addition Polymerization or Chain Growth Polymerization - Ionic Polymerization, Free Radical Mechanism - Preparation of Addition Polymers – Polythene, Teflon and Polyacrylonitrile - Condensation Polymerization or Step Growth Polymerization – Poly amides - Preparation of Nylon 6,6 and Nylon 6 – Polyesters – Terylene – Bakelite, Melamine, Formaldehyde Polymer – Copolymerisation – Rubber - Natural Rubber - Vulcanization of Rubber - Synthetic Rubbers - Preparation of Neoprene and Buna-n 8.3 Molecular Mass of Polymers - Number Average and Weight Average Molecular Masses - Poly Dispersity Index(PDI) 8.3 Molecular Mass of Polymers - Number Average and Weight Average Molecular Masses - Poly Dispersity Index(PDI) 8.3 Molecular Mass of Polymers - Number Average and Weight Average Molecular Masses - Poly Dispersity Index(PDI) 8.4 Biodegradable Polymers - PHBV, Nylon 2 - Nylon 6 8.5, Polymers of Commercial Importance - Polypropylene, Polystyrene, Polyvinyl Chloride(PVC) , Urea - Formaldehyde Resin, Glyptal, Bakelite - Their Monomers, Structures and Uses 8.4 Biodegradable Polymers - PHBV, Nylon 2 - Nylon 6 8.5, Polymers of Commercial Importance - Polypropylene, Polystyrene, Polyvinyl Chloride(PVC) , Urea - Formaldehyde Resin, Glyptal, Bakelite - Their Monomers, Structures and Uses 8.4 Biodegradable Polymers - PHBV, Nylon 2 - Nylon 6 8.5, Polymers of Commercial Importance - Polypropylene, Polystyrene, Polyvinyl Chloride(PVC) , Urea - Formaldehyde Resin, Glyptal, Bakelite - Their Monomers, Structures and Uses 8.4 Biodegradable Polymers - PHBV, Nylon 2 - Nylon 6 8.5, Polymers of Commercial Importance - Polypropylene, Polystyrene, Polyvinyl Chloride(PVC) , Urea - Formaldehyde Resin, Glyptal, Bakelite - Their Monomers, Structures and Uses
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