12-18-2017, 12:32 PM
Kerala HSST Chemistry model question papers with key answers can be had from the attachment below to prepare for the coming Kerala PSC HSST Chemistry exam:
Syllabus includes:
Module -I
Formulation of Quantum Mechanics - Approximation Methods - Hydrogen like Atoms -Multi Electron Systems - Angular Momentum - Applications
Chemical Bonding in Diatomic and Polyatomic Molecules-Electronic Spectroscopy of Atoms - Basic principles of Molecular Spectroscopy: Microwave, Infrared, Electronic, NMR, ESR, Raman and Mossbaur
Basic principles of Group Theory - Character Tables - Chemical .and Spectral Applications
Introduction to Computational Chemistry - Computational methods : ab initio, Semi Empirical methods - Molecular Mechanics
Module -II
Laws of Thermodynamics - Thermodynamics of Solutions - Thermodynamics of irreversible process- Phase Equilibria - Two and Three Component Systems
Statistical Mechanics - Fundamentals - Partition Function - Quantum Statistics - Heat capacities of Solids and Gases .
Electrodes and Electrochemical Cells - Nernst, Debye-Huckel, Omsager Equations - Electro kinetic Phenomena, Electrolytic Polarization.
Electro Analytical Methods : Potentiometry, Polarography , Coulometry, Conductometry, Voltametry and Amperometry.
Electronic Structure of Solids - Crystal Symmetry - Theories of Solids - Properties of Solids : Electrical, Magnetical and Optical - Crystal defects.
Structure and Theories of Liquids - Liquid Crystals and their applications.
Basic principles of Kinetics - Kinetics of Complex reactions - steady state approximation -Theories of Reaction Rates - Arrhenius equation - fast reactions.
Homogenous and Heterogeneous Catalysis - Enzyme Catalysis
Monolayer and multilayer adsorption - Adsorption Isotherms - Principles of SEM, TEM, ECSA and Augur Spectroscopy
Colloids - Zeta Potential - Electrokinetic Phenomena
Module-III
Basic concepts of Organic reactions - Electron displacement effects - Aromaticity
Organic Reactions : Substitution, Addition, Elimination, Rearrangements - Mechanism
Concept of Molecular Chirality - Carbon and Nitrogen Compounds - Chiral reagents and Chiral Catalysts
- Stereo chemistry of biphenyl and allenes . Topicity and prostereo isomerism -asymmetric synthesis. Geometrical isomerism . , Conformational analysis in acyclic and cyclic systems , Reactivity in substitution and elimination reactions.
Reaction intermediates - reactions related to substitution, addition, elimination and rearrangements - mechanism and application.
Esterification and ester hydrolysis reactions - structure and reactivity: Linear Free Energy relationship.
Module-IV
Photoreactions of Carbonyl compounds - enes, dienes, arenes - applications
Pericyclic reactions : Electrolytic, cycloaddition, Sigmatropic - Selection rules and
stereochemistry - applications
Chromatographic techniques. Column, TLC, Paper, GC, HPLC and ion exchange
Applications of UV, IR, HNMR, CNMR and Mass Spectroscopy - D NMR techniques -Structural Analysis using Spectral Data
ORD and CD - theory and applications
Organic, Inorganic and organo metallic reagents in organic synthesis.
Protecting groups in peptide synthesis
Natural Products : Terpenes, steroids, alakaloids, carbohydrates, proteins, nucleic acids, vitamins, prostoglandins, hormones and enzymes.
Fundamentals of polymerization - structure - property relationship of polymers - biopolymers.
Module -V
Accuracy & Precision - statistical treatment of data - Theories of titrations
Thermal methods of analysis
Structure and bonding in molecules - chemical periodicity
Theories of acids and bases - Non-acqueous solvents - Isopoly and heteropoly acids
Theories in co-ordination chemistry - stereochemistry of co-ordination compounds - stability of metal complexes - reactions of metal complexes
Electronic, Infrared, NMR, ESR and Mossbaur spectra of complexes - Co-ordination complexes of Lanthanides and actinides.
Module -VI
Synthesis, structure, properties and bonding of organometallic compounds - metal carbonyls and cyanides - Catalysts by organo metallic compounds - hydrogenation, hydroformylation and polymerization.
Metal ions in biological systems - Role and effects - Coenzymes, Cytochromes, chlorophylls and hormones.
Nuclear reactions - structure and stability - radio active equilibria - neutron activation analysis - counting techniques. . . .
Synthesis, reactions, structure and bonding in boranes - organoboranes and hydriborations -synthesis, structure and uses of phosphorous, nitrogen compounds, phosphorus - sulphur compounds, silicones and silicates.
Module -VII
Recent Developments in Chemistry
Nanostructures - ID, 2D and 3D structures - Synthesis and applications of nanomaterials.
Principles of Green chemistry - Green synthesis - Application of Phase Transfer Catalysts -Green Reactions.
Molecular recognition : Synthetic Receptors, Cyclodextrin, Calixiranes, Cyclophanes, Crown Ethers.
Drug design and Drug action
Syllabus includes:
Module -I
Formulation of Quantum Mechanics - Approximation Methods - Hydrogen like Atoms -Multi Electron Systems - Angular Momentum - Applications
Chemical Bonding in Diatomic and Polyatomic Molecules-Electronic Spectroscopy of Atoms - Basic principles of Molecular Spectroscopy: Microwave, Infrared, Electronic, NMR, ESR, Raman and Mossbaur
Basic principles of Group Theory - Character Tables - Chemical .and Spectral Applications
Introduction to Computational Chemistry - Computational methods : ab initio, Semi Empirical methods - Molecular Mechanics
Module -II
Laws of Thermodynamics - Thermodynamics of Solutions - Thermodynamics of irreversible process- Phase Equilibria - Two and Three Component Systems
Statistical Mechanics - Fundamentals - Partition Function - Quantum Statistics - Heat capacities of Solids and Gases .
Electrodes and Electrochemical Cells - Nernst, Debye-Huckel, Omsager Equations - Electro kinetic Phenomena, Electrolytic Polarization.
Electro Analytical Methods : Potentiometry, Polarography , Coulometry, Conductometry, Voltametry and Amperometry.
Electronic Structure of Solids - Crystal Symmetry - Theories of Solids - Properties of Solids : Electrical, Magnetical and Optical - Crystal defects.
Structure and Theories of Liquids - Liquid Crystals and their applications.
Basic principles of Kinetics - Kinetics of Complex reactions - steady state approximation -Theories of Reaction Rates - Arrhenius equation - fast reactions.
Homogenous and Heterogeneous Catalysis - Enzyme Catalysis
Monolayer and multilayer adsorption - Adsorption Isotherms - Principles of SEM, TEM, ECSA and Augur Spectroscopy
Colloids - Zeta Potential - Electrokinetic Phenomena
Module-III
Basic concepts of Organic reactions - Electron displacement effects - Aromaticity
Organic Reactions : Substitution, Addition, Elimination, Rearrangements - Mechanism
Concept of Molecular Chirality - Carbon and Nitrogen Compounds - Chiral reagents and Chiral Catalysts
- Stereo chemistry of biphenyl and allenes . Topicity and prostereo isomerism -asymmetric synthesis. Geometrical isomerism . , Conformational analysis in acyclic and cyclic systems , Reactivity in substitution and elimination reactions.
Reaction intermediates - reactions related to substitution, addition, elimination and rearrangements - mechanism and application.
Esterification and ester hydrolysis reactions - structure and reactivity: Linear Free Energy relationship.
Module-IV
Photoreactions of Carbonyl compounds - enes, dienes, arenes - applications
Pericyclic reactions : Electrolytic, cycloaddition, Sigmatropic - Selection rules and
stereochemistry - applications
Chromatographic techniques. Column, TLC, Paper, GC, HPLC and ion exchange
Applications of UV, IR, HNMR, CNMR and Mass Spectroscopy - D NMR techniques -Structural Analysis using Spectral Data
ORD and CD - theory and applications
Organic, Inorganic and organo metallic reagents in organic synthesis.
Protecting groups in peptide synthesis
Natural Products : Terpenes, steroids, alakaloids, carbohydrates, proteins, nucleic acids, vitamins, prostoglandins, hormones and enzymes.
Fundamentals of polymerization - structure - property relationship of polymers - biopolymers.
Module -V
Accuracy & Precision - statistical treatment of data - Theories of titrations
Thermal methods of analysis
Structure and bonding in molecules - chemical periodicity
Theories of acids and bases - Non-acqueous solvents - Isopoly and heteropoly acids
Theories in co-ordination chemistry - stereochemistry of co-ordination compounds - stability of metal complexes - reactions of metal complexes
Electronic, Infrared, NMR, ESR and Mossbaur spectra of complexes - Co-ordination complexes of Lanthanides and actinides.
Module -VI
Synthesis, structure, properties and bonding of organometallic compounds - metal carbonyls and cyanides - Catalysts by organo metallic compounds - hydrogenation, hydroformylation and polymerization.
Metal ions in biological systems - Role and effects - Coenzymes, Cytochromes, chlorophylls and hormones.
Nuclear reactions - structure and stability - radio active equilibria - neutron activation analysis - counting techniques. . . .
Synthesis, reactions, structure and bonding in boranes - organoboranes and hydriborations -synthesis, structure and uses of phosphorous, nitrogen compounds, phosphorus - sulphur compounds, silicones and silicates.
Module -VII
Recent Developments in Chemistry
Nanostructures - ID, 2D and 3D structures - Synthesis and applications of nanomaterials.
Principles of Green chemistry - Green synthesis - Application of Phase Transfer Catalysts -Green Reactions.
Molecular recognition : Synthetic Receptors, Cyclodextrin, Calixiranes, Cyclophanes, Crown Ethers.
Drug design and Drug action