Subject
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Programme Specific outcomes
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Course Code
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Paper Title
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Course Outcomes
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M.Sc (CHEMISTRY)
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PSO 1 Acquire in-depth knowledge of the advance concepts in the branch of specialization viz, Physical , Inorganic , Organic & Analytical.
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RPSCHE101
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PHYSICAL CHEMISTRY
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CO 1 Derive Maxwell equations and understand their significance.
CO 2 Connect quantum mechanical operators to observables.
CO 3 Calculate probabilities, amplitudes, averages values of the observables.
CO 4 Derive rate laws of different types of the reactions.
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PSO 2 Design and carry out analysis as well as accurately record and analyse the results.
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RPSCHE102
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INORGANIC CHEMISTRY
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CO 1 Comprehend the derivation of different hybridizations such as sp, sp2, sp3 using sigma bonding concept.
CO 2 Recognize the concept of MOT and how MOT is constructed for polyatomic molecules.
CO 3 Know how the physical properties like melting and boiling points of molecules get affected by chemical forces present in it.
CO 4 Understand Symmetry operations and Symmetry elements.
CO 5 Differentiate Abelian and Non-abelian point groups.
CO 6 Use of Great Orthogonality Theorem for construction of character table.
CO 7 Examine chemical bonding, visualizing molecular orbitals, behaviour of atoms, molecules and solids using group theory.
CO 8 Know the importance of Material Chemistry and its potential in developing applications, either by compositional control to optimize properties or by fabrication into desired forms, shapes or products.
CO 9 Recognize the importance of Stability as we all seek to achieve stability including molecules.
CO 10 Aware of the various methods/ techniques used to detect complex formation between metal and ligand.
CO 11 Interpret the electronic spectra of octahedral and square planar complexes.
CO 12 Calculate the various spectral parameters using correlation diagram and spectra.
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PSO 3 Explain the findings and share the results with scientists and non scientist with the help of the written and oral communication skills acquire during the course.
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RPSCHE103
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ORGANIC CHEMISTRY
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CO 1 Know the kinetic and thermodynamic requirements of organic reactions and a few methods to determine the reaction mechanisms.
CO 2 Recognize the factors affecting acidity and basicity.
CO 3 Understand advanced nucleophilic substitutions with special emphasis on Neighbouring Group Participations (NGP) and factors affecting the NGP.
CO 4 Identify structural, thermochemical, and magnetic criteria for aromaticity, including NMR characteristics of aromatic systems.
CO 5 Comprehend the concept of chirality, Molecules with tri- and tetra-coordinate centres, Axial and planar chirality and prochirality.
CO 6 Explore the applications of different oxidizing and reducing agents in organic reactions.
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PSO 4 Apply the skills to do specialized research in the core and applied areas of chemical sciences.
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RPSCHE104
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ANALYTICAL CHEMISTRY
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CO 1 Identify the relationships among the different instrument components and the flow of information from the characteristics of the analyte through the components to the numerical or graphical output produced by the instrument.
CO 2 Determine the different types of errors in chemical analysis.
CO 3 Make use of calibration curve and standard addition method to carry out quantitative analysis of sample.
CO 4 Outline the role and importance of total quality management, safety, accreditations and GLP in industries.
CO 5 Apply the knowledge learned to all scientific data analyses during their studies and future career-related activities.
CO 6 Explain the working principle and Enlist the applications of UV visible and IR spectroscopy.
CO 7 Elaborate on the basic principle underlying the different types of thermal methods and will understand how these methods are employed in industries and research for characterization of sample.
CO 8 Compare the technique of DTA with DSC.
CO 9 Comprehend the utility of automation in chemical analysis.
CO 10 Outline the Objectives of automation in chemical analysis.
CO 11 Enlist the advantages and disadvantages of Automatic Analysis.
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PSO 5 Explore new areas of research in chemistry and allied fields of science and technology.
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RPSCHE201
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PHYSICAL CHEMISTRY
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CO 1 Distinguish between physical and chemical adsorption.
CO 2 Predict spontaneous nature of thermodynamic mixing.
CO 3 Calculate energy of hydrogen atom.
CO 4 Draw the atomic orbital and locate radial and angular nodes.
CO 5 Derive rate laws for the solid-state reaction.
CO 6 Analyse the effect of inhibitor on enzyme catalysed reaction.
CO 7 Draw phase diagram for two and three component system.
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PSO 6 Demonstrating the developed skills such as problem solving approach , critical thinking , analytical reasoning ,team work and effective communication for solving the applied research problems related to their field.
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RPSCHE202
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INORGANIC CHEMISTRY
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CO 1 Analyse the reaction pathways of metal complexes and to develop a deeper understanding of their mechanisms.
CO 2 Know the rate behaviour of the reaction using reaction mechanism.
CO 3 Recognize the general shape of the transition state using trans effect, steric effect and stereochemistry of the coordination complexes.
CO 4 Illustrate the importance of 18 and 16 electron rules.
CO 5 Understand the structure and bonding involved in d block Organometallic compounds on the basis of VBT and MOT.
CO 6 Critically review environmental issues as a matter of widespread public concern.
CO 7 Know the toxicology of certain elements through case studies.
CO 8 Identify the importance of essential elements for the organisms.
CO 9 Evaluate the role of metal ions in biological systems.
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PSO 7 Explain why chemistry plays an integral role in addressing social , economic and environmental problems.
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RPSCHE203
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ORGANIC CHEMISTRY
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CO 1 Correlate between kinetically and thermodynamically formed enolates and the factors affecting their formation.
CO 2 Understand the interaction of carbon nucleophiles with carbonyl groups and its reaction mechanism.
CO 3 Draw the mechanism and stereochemistry (if applicable) of various rearrangement reactions.
CO 4 Apply Molecular orbital theory to organic molecules with special emphasis on the FMO theory
CO 5 Make use of advanced application of UV, IR and NMR spectroscopy techniques in structural elucidation of molecules.
CO 6 Know the concept of McLafferty Rearrangement and its implications on Fragmentation pattern of molecules.
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PSO 8 Become professionally skilled for higher studies in research institutions and to work in industries.
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RPSCHE204
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ANALYTICAL CHEMISTRY
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CO 1 Utilize GC & HPLC techniques for separation of the different components present in a sample.
CO 2 Make use of X-ray spectroscopy for qualitative and quantitative analysis of elements.
CO 3 Describe the function of different components of a mass spectrometer.
CO 4 Elaborate on the methods of electrogravimetry and coulometry.
CO 5 Compare the advantages/disadvantages of electrogravimetry and coulometry.
CO 6 Describe the functioning of different types of ion selective electrodes.
CO 7 Select the best method from among those covered in these units while carrying out analysis of a sample and will be able to justify their choice.
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M.Sc (PHYSICAL CHEMISTRY)
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RPSCHEP301
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Polymer, Surface & Photochemistry
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CO 1 Determine molar mass of polymers using different methods.
CO 2 Distinguish the various types of polymers.
CO 3 Classify the surfactants by their process of formation.
CO 4 List the various applications of surfactant in different fields.
CO 5 Illustrate the various deactivation processes of molecular excited states.
CO 6 Describe the photochemical reactivity of ethenes and carbonyl compounds.
CO 7 Explain the application of Fluorescence Phenomena.
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RPSCHEP302
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Advanced Instrumental Techniques
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CO 1 Make use of the basic working principles of surface analytical techniques (such as SIMS, PIXE) electron spectroscopy and Nuclear Quadrupole Resonance for different applications.
CO 2 Assess hyphenated techniques and the different types of interfaces that are used to achieve this hyphenation.
CO 3 Apply principles of the thermal methods and radiochemical methods for different applications.
CO 4 Develop a working knowledge of various methods used in Voltammetry.
CO 5 Explain anodic, cathodic and adsorptive stripping methods in voltammetry.
CO 6 Select a suitable method of voltammetry for the analysis of a particular sample
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RPSCHEP303
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Atomic and Molecular: Structure and Spectroscopy
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CO 1 Solve the Schrodinger equation for complex system.
CO 2 Compare different theories of Molecule formation
CO 3 Discuss the general principles and theory of spectroscopy
CO 4 Summarize applications of various types of spectroscopic methods.
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RPSCHEPEC-I-304
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Nano-chemistry, Applied Electrochemistry, Statistical Mechanics & Nuclear Chemistry
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CO 1 Perceive the concept of nanomaterials and preparation of various nanomaterials for the research in material science
CO 2 Develop the concept of electrochemistry in energy creation which is need of new age by fuel cells, batteries
CO 3 Apply the concept of probability to the thermodynamic properties at micro level
CO 4 Prove derivation of Maxwell-Boltzmann, Fermi-Dirac statistics.
CO 5 Build knowledge of particle accelerators work viz. Linear, cyclotron.
CO 6 Comprehend the concept of nuclear model’s Liquid drop, Fermi gas, Shell, Optical etc.
CO 7 Apply knowledge of nuclear radiations in pharma, geology, industry for various applications
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RPSCHEPEC-II-304
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Modern Methods in Instrumental Analysis
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CO 1 Make use of principles of reflectance methods, photoacoustic spectroscopy, Chemiluminescence methods, and polarimetry for various applications.
CO 2 Discuss advantages of modified electrodes over the classical polarographic methods.
CO 3 Develop a working knowledge of various methods used in modern voltammetry.
CO 4 Outline enhanced Raman spectroscopy techniques, namely Surface Enhanced Raman and Resonance Raman Spectroscopy.
CO 5 Interpret mass spectra of molecules, recognize metastable ion peaks, and correlate peak presence with possible fragmentation mechanisms to arrive at the structure.
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RPSCHEP401
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CHEMISTRY: POLYMER, GREEN, BIOPHYSICAL AND APPLIED.
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CO 1 Elaborate Macromolecule, their properties and its characterization.
CO 2 Account for the fundamental background of Density Functional Theory
CO 3 Prove Hohenberg-Kohn theorems and their application.
CO 4 Apply photo physical kinetics of unimolecular and bimolecular processes using Stern-Volmer kinetics.
CO 5 Appraise physical chemistry involved in biological process.
CO 6 Measure thermodynamic parameters for different interactions that are important for the formation of structures in biological systems.
CO 7 Compare the different techniques of electrophoresis
CO 8 Discuss important uses of the solar cell.
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RPSCHEP402
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Material Sciences and Non-equilibrium Thermodynamics
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CO 1 Relate concept of bonding for structure of crystalline solids.
CO 2 Explain different types of lattices, unit cells and defects in crystal in detail.
CO 3 Assess structure determination by powder diffraction and single crystal X-ray diffraction.
CO 4 Develop concept of lasers in chemistry, its generation, characteristics and types of lasers.
CO 5 Describe applications of lasers in chemistry such as spectroscopy, isotope separation, and kinetics of fast reactions.
CO 6 Make use of Band theory for working of superconductors and magnetic properties.
CO 7 Explain second law of thermodynamics at non-equilibrium i.e. entropy production and rate. Also, comprehend principle of microscopic reversibility and transport phenomena across membranes.
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RPSCHEP403
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Symmetry, Spectroscopy and Catalysis
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CO 1 Describe the selection rule for infrared-active transitions.
CO 2 Determine whether the molecular vibrations of a triatomic molecule are Raman active.
CO 3 Analyse the hybridization of given compounds.
CO 4 Explain concepts of equivalent and non-equivalent hydrogens.
CO 5 Assess effect of structure on chemical shift and coupling constants.
CO 6 Elucidate the electronic structure of free radicals and paramagnetic transition metal complexes.
CO 7 Comprehend magnetic properties of the materials and its order of orientations.
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RPSCHEPOC-I-404
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INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS
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CO 1 Relate concept of intellectual property and the terms involved with respect to Indian Patent Law.
CO 2 Distinguish between patents and copyrights.
CO 3 Compare the economic impact and legislature involved in Intellectual property rights.
CO 4 Build knowledge about software tools pertaining to Cheminformatics and Molecular Modelling.
CO 5 Determine structure and sub-structure search online, determine SMILES codes for various molecules.
CO 6 Summarize knowledge about the application of the research-based tools.
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RPSCHEPOC-II-404
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RESEARCH METHODOLOGY
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CO 1 Perceive basics of research methodology
CO 2 Conduct research by developing a problem
CO 3 Develop research paper writing, study formats of existing research papers and review papers
CO 4 Appraise importance of lab-safety and the safety protocols in R&D laboratories.
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M.Sc (INORGANIC CHEMISTRY)
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RPSCHEI301
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Solid State Chemistry
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CO 1 Predict the structures of some known type of compounds based on their stoichiometry like AB, AB2 etc.
CO 2 Classify the oxides based on structure whether inverse, normal or random and how the polyhedra forms by sharing its corner, edge or face.
CO 3 Have a clear distinction between Perfect and imperfect crystals and how these defects lead to change the properties of solids.
CO 4 Be well versed with the methods available to synthesize the inorganic solids based on the compositions.
CO 5 Identify the importance of Single Crystal and its method of preparation.
CO 6 Understand the behavior studies of solids using diffusion as property. Applications of Liquid Crystals.
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RPSCHEI302
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ADVANCED INSTRUMENTAL TECHNIQUES
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CO 1 Make use of the surface analytical techniques (such as SIMS, PIXE) for obtaining information about the surfaces while characterizing the samples.
CO 2 Enlist the advantages of development of hyphenated techniques and will be able to explain the different types of interfaces that are used to achieve this hyphenation.
CO 3 Apply the principle underlying spectro-electrochemistry & the use of optically transparent electrodes to carry out the analysis of samples.
CO 4 Elaborate on the essential principles underlying the applications of thermal methods and radiochemical methods.
CO 5 Develop a working knowledge of various methods used in Voltammetry.
CO 6 Explain anodic, cathodic and adsorptive stripping methods in voltammetry.
CO 7 Select a suitable method of voltammetry for the analysis of a particular sample.
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RPSCHEI303
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BIOINORGANIC AND COORDINATION CHEMISTRY
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CO 1 Outline the role of Iron, Zinc, Manganese and Nickel in different biological processes.
CO 2 Illustrate the reactivity of Lewis acids and bases and Classification based on Frontier Molecular Orbital concept.
CO 3 Know the different features of groups from 13-17 with respect to the acidity.
CO 4 Predict the strength, hardness and softness of acids and bases.
CO 5 Be well versed with the Latimer, Pourbaix and Frost diagrams.
CO 6 Explain the different routes of synthesizing coordination complexes.
CO 7 Differentiate between sigma and pi bonding of coordination complexes and geometries of tetrahedral and octahedral.
CO 8 Rationalize the chiral and fluxional behavior of coordination complexes.
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RPSCHEIEC-I-304
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APPLIED CHEMISTRY - I
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CO 1 Have a clear idea of the some important inorganic chemicals and materials and their application in day to day life.
CO 2 Explain the process by which metals are extracted, recovered and recycled.
CO 3 Be well versed with the inorganic chemicals or materials used in pharmaceuticals.
CO 4 Outline the importance of environment monitoring and assessment.
CO 5 Have an idea about the different aspects of environmental legislation pertaining to e-waste, Forest Act and plastic manufacture.
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RPSCHEIEC-II-304
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APPLIED CHEMISTRY - II
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CO 1 Synthesize nanomaterials by choosing an appropriate method out of the various methods learned.
CO 2 Prepare some of the industrially important inorganic chemicals and materials used in day to day life.
CO 3 Explain the PUREX process used for the recovery of Uranium & Plutonium from spent nuclear fuel.
CO 4 Be well versed with the super heavy elements and its importance in Chemistry.
CO 5 Elaborate on the importance of Safety in Chemical Laboratory.
CO 6 Have an idea about the Environment Protection act.
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RPSCHEI401
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SOLID STATE CHEMISTRY AND MOLECULAR SPECTROSCOPY
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CO 1 Understand the electrical properties of inorganic solids and how these materials can be used as superconductors.
CO 2 Outline the importance of inorganic materials in making batteries and sensors.
CO 3 Make use of hopping model to describe the carrier transport in a disordered semiconductor or in amorphous solid.
CO 4 Know transition metal oxides such as spinels, garnets and the strength of magnets.
CO 5 Elaborate on the thermal properties and optical behaviour of inorganic solids.
CO 6 Know the different models available to understand optical properties of inorganic solids.
CO 7 Elucidate the structure by powder diffraction and single crystal X-ray diffraction patterns.
CO 8 Determine the crystal structure using X-ray diffraction.
CO 9 Comprehend the general principles and theory of spectroscopy.
CO 10 Grasp the specialties and applications of various types of spectroscopic methods.
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RPSCHEI402
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ORGANOMETALLIC AND MAIN GROUP CHEMISTRY
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CO 1 Discuss classification of clusters and different structural patterns of metal clusters.
CO 2 Explain how low nuclearity clusters differ from high nuclearity clusters and capping rules in metal clusters.
CO 3 Be well versed with the Synthesis of various palladium Coupling complexes and its properties along with applications.
CO 4 Enlist the Homogenous and heterogeneous catalytic applications of organometallic compounds in various industrial fields.
CO 5 Explain the preparation methods and properties of silicates, inorganic polymers.
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RPSCHEI403
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SYMMETRY, SPECTROSCOPY TECHNIQUES AND CATALYSIS
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CO 1 Describe the selection rule for infrared-active transitions.
CO 2 Determine whether the molecular vibrations of a triatomic molecule are Raman active.
CO 3 Analyse the hybridization of given compounds.
CO 4 Understand the concepts of equivalent and non-equivalent hydrogens.
CO 5 Identify the effect of structure on chemical shift and coupling constants.
CO 6 Elucidate the electronic structure of free radicals and paramagnetic transition metal complexes.
CO 7 Illustrate the magnetic properties of the materials and its order of orientation.
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RPSCHEIOC-I-404
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INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS
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CO 1 Be well versed with the concept of intellectual property and the terms involved with respect to Indian Patent Law.
CO 2 Distinguish between patents and copyrights.
CO 3 Elaborate on the economic impact and legislature involved in Intellectual property rights.
CO 4 Make use of the software tools pertaining to Cheminformatics and Molecular Modelling.
CO 5 Conduct structure and sub-structure search online, determine SMILES codes for various molecules.
CO 6 Gain knowledge about the application of the research-based tools.
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RPSCHEIOC-II-404
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RESEARCH METHODOLOGY
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CO 1 Know basics of research methodology.
CO 2 Get the technical know-how of research from developing a problem.
CO 3 Write a research paper, study formats of existing research papers and review papers.
CO 4 Be aware about importance of lab-safety and the safety protocols in R&D laboratories.
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M.Sc (ORGANIC CHEMISTRY)
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RPSCHEO301
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THEORETICAL ORGANIC CHEMISTRY-I
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CO 1 Predict pathways of reaction mechanism and stability of intermediates.
CO 2 Study of stereochemistry of pericyclic reactions.
CO 3 Determine point groups based on symmetry elements and carry out conformational analysis of ring compounds.
CO 4 Understand photochemical reactions with special reference to cleavage of carbonyl compounds and photochemistry of olefins.
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RPSCHEO302
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SYNTHETIC ORGANIC CHEMISTRY-I
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CO 1 Write mechanism for various named reactions, including Multicomponent reactions and Click reactions.
CO 2 Predict the product formed in the above reactions.
CO 3 Give the method for preparing synthetically important compounds involving radicals.
CO 4 Give the method for preparing synthetically important compounds via enamines and ylides.
CO 5 Understand and explore the application of various metals and non metals in organic synthesis.
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RPSCHEO303
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NATURAL PRODUCT AND SPECTROSCOPY
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CO 1 Know basic structural elucidation of carbohydrates, organic pigments and alkaloids.
CO 2 Understand the synthetic strategies towards the synthesis of important biologically active molecules.
CO 3 Develop a problem solving approach towards the structural elucidation from spectral data.
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RPSCHEOEC-I-304
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MEDICINAL, ENZYMES AND GREEN CHEMISTRY
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CO 1 Know basic terms involved in medicinal chemistry, procedures involved in drug design and factors affecting the activity and potency of a particular drug,
CO 2 Understand the effect of Structure-Activity Relationship on drug function and the concept of prodrugs.
CO 3 Summarize the twelve principles of Green Chemistry and study their applications in synthetic organic chemistry.
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RPSCHEOEC-II-304
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BIORGANIC CHEMISTRY
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CO 1 Develop a deeper understanding in the Chemistry of Proteins and Nucleic Acids.
CO 2 Infer the effect of physical parameters on the structure and function of nucleic acids.
CO 3 Apply the basic concepts of organic reaction mechanism to enzyme action and the action of coenzymes.
CO 4 Understand the biomimetic approach towards enzyme activity.
CO 5 Understand the various pathways towards the biosynthesis of important molecules and predict their pathways of synthesis.
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RPSCHEO401
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THEORETICAL ORGANIC CHEMISTRY-II
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CO 1 Correlate the effects of substituent’s on a substrate with its reactivity.
CO 2 Understand the concept of molecular assembly and intermolecular bond in macromolecules and their effects on their catalytic activity.
CO 3 Determine enantiomeric and diastereomeric compositions using various available methods.
CO 4 Understand the properties of molecules by studying physical phenomenon like Circular Dichroism (CD) and Optical Rotatory Dispersion (ORD).
CO 5 Discuss the types of Assymetric Synthesis controlled by Chiral Auxiliary, chiral catalyst, chiral substrate and chiral reagent with examples .
CO 6 Appreciate the importance and challenges in asymmetric synthesis, exemplified by Felkin-Anh and chelation models and asymmetric aldol reactions.
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RPSCHEO402
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SYNTHETIC ORGANIC CHEMISTRY-II
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CO 1 Propose a reterosynthetic strategy for an organic compound.
CO 2 Give the forward synthesis, recognizable starting material and steps involved in the synthesis of the compound.
CO 3 Know the current trends in synthesizing organic compound.
CO 4 Explore the applications of modern and greener methods of organic synthesis.
CO 5 Understand the application of transition metal reagents and catalysts in organic synthesis.
CO 6 Know the use of electrochemical methods for organic synthesis.
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RPSCHEO403
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NATURAL PRODUCT AND HETEROCYCLIC CHEMISTRY
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CO 1 Understand the occurrence and biological roles of steroids, vitamins, terpenoids and antibiotics.
CO 2 Have an enhanced approach towards structural elucidation.
CO 3 Apply the rules of IUPAC nomenclature and other methodologies towards nomenclature of heterocycles.
CO 4 Understand the reactivity of various heterocyclic molecules and their importance towards synthesis of certain biologically active molecules.
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RPSCHEOOC-I-404
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INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS
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CO 1 Be well versed with the concept of intellectual property and the terms involved with respect to Indian Patent Law.
CO 2 Distinguish between patents and copyrights.
CO 3 Elaborate on the economic impact and legislature involved in Intellectual property rights.
CO 4 Make use of the software tools pertaining to Cheminformatics and Molecular Modelling.
CO 5 Conduct structure and sub-structure search online, determine SMILES codes for various molecules.
CO 6 Gain knowledge about the application of the research based tools.
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RPSCHEOOC-II-404
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RESEARCH METHODOLOGY
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CO 1 Know basics of research methodology.
CO 2 Get the technical know-how of research from developing a problem.
CO 3 Write a research paper, study formats of existing research papers and review papers.
CO 4 Be aware about importance of lab-safety and the safety protocols in R&D laboratories.
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M.Sc (ANALYTICAL CHEMISTRY)
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RPSCHEA301
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QUALITY IN ANALYTICAL CHEMISTRY
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CO 1 Elaborate on the concept of Sampling and various methods involved in sample preparation and storage.
CO 2 Select the best method out of all the methods available for the analysis of samples.
CO 3 Calculate the uncertainty involved in a measurement.
CO 4 Describe the sources & different methods used for the enhancement of signal to noise ratio.
CO 5 Apply the parameters involved in method validation for developing a new method for the analysis of a sample.
CO 6 Make use of the principles involved in various chromatographic techniques such as Ionexchange, Size exclusion, SCF, Affinity, Inverse & UPLC to carry out separation & analysis of sample.
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RPSCHEA302
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ADVANCED INSTRUMENTAL TECHNIQUES
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CO 1 Make use of the surface analytical techniques(such as SIMS,PIXE) for obtaining information about the surfaces while characterizing the samples.
CO 2 Enlist the advantages of development of hyphenated techniques and will be able to explain the different types of interfaces that are used to achieve this hyphenation.
CO 3 Apply the principle underlying spectroelectrochemistry& the use of optically transparent electrodes to carry out the analysis of samples.
CO 4 Elaborate on the essential principles underlying the applications of thermal methods and radiochemical methods.
CO 5 Develop a working knowledge of various methods used in polarography.
CO 6 Explain anodic , cathodic and adsorptive stripping methods in voltammetry.
CO 7 Select a suitable method of voltammetry for the analysis of a particular sample.
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RPSCHEA303
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BIOANALYTICAL CHEMISTRY AND FOOD ANALYSIS
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CO 1 Describe the composition of body fluids (blood & Urine).
CO 2 Enlist the physiological and nutritional significance of vitamins & biological macromolecules.
CO 3 Apply the various analytical (microbiological techniques) learned for the analysis of these
vitamins and biological macromolecules which in turn will help them in identification
and diagnosis of diseases.
CO 4 Explain the mechanism of operation of immune system.
CO 5 Describe the various food preservation techniques that are widely practiced in food industries
as quality control measure.
CO 6 Design an experiment to confirm the presence and amount of various components present in
different types of food samples for further label claim studies.
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RPSCHEAEC-I-304
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ENVIRONMENTAL AND CERTAIN INDUSTRIALLY IMPORTANT MATERIALS
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CO 1 List the major sources of different types of pollutants.
CO 2 Classify the different types of pollutants.
CO 3 Estimate the pollutants present in air.
CO 4 Outline the role of pollution control boards in monitoring and controlling pollution.
CO 5 Apply the methods learned in sampling of these pollutants to procure a sample for analysis.
CO 6 Indicate appropriate measures to reduce/or minimize the effects of these pollutants on environment.
CO 7 Evaluate the quality of potable water based on the guidelines laid down by the regulatory bodies.
CO 8 Acquire awareness of the principles of green chemistry.
CO 9 Plan out the synthesis of a sample by incorporating benign and environmentally safe solvents.
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RPSCHEAEC-II-304
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PHARMACEUTICAL AND ORGANIC ANALYSIS
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CO 1 Categorize the different types of drugs and dosage forms.
CO 2 Outline the role of FDA in pharmaceutical industry.
CO 3 Make use of the different methods learned to estimate the amount of drug present in a sample.
CO 4 Apply the concept of impurity profiling, stability studies, limit tests, bioavailability and bioequivalence while ensuring the uniformity in standards of quality , efficacy & safety of pharmaceutical products.
CO 5 Elaborate on the role of analytical chemistry in forensic laboratories.
CO 6 Identify and estimate the amount of the toxins found at crime scenes.
CO 7 Evaluate the quality of the cosmetic products by carrying out their analysis using the methods learned.
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RPSCHEA401
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SEPARATION TECHNIQUES AND INDUSTRIAL MATERIALS
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CO 1 Identify and design the suitable membrane separation technique for intended problem.
CO 2 Elaborate on the importance of concept of pH ½ in solvent extraction.
CO 3 Select an appropriate method for the processing, extraction using different techniques and standardization of the herbal materials as per WHO cGMP guidelines.
CO 4 Recommend methods for the biodegradation of insectiscides and pestiscides.
CO 5 Judge the quality of the detergents by making use of the various methods which are used in industries for carrying out their analysis.
CO 6 Enlist properties of an ideal fuel.
CO 7 Determine the calorific value of fuels using the methodologies learned.
CO 8 Separate & estimate the amount of biomolecules using appropriate electrophoretic technique.
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RPSCHEA402
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ADVANCED INSTRUMENTAL TECHNIQUES
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CO 1 Explain the basic theory of 1H NMR spectroscopy & Raman Spectroscopy.
CO 2 Describe the working of the different components of NMR spectrophotometer & Raman spectrometer and will be able to explain how the spectrum is recorded.
CO 3 Apply 1H ,13C, 31Pand 19F NMR spectroscopy techniques in combination with other spectroscopic data to carry out structure determination.
CO 4 Explain the mechanism of formation and fragmentation of ions in gas phase.
CO 5 Interpret the information contained in the mass spectra.
CO 6 Apply the basic working principles involved in the spectroscopic techniques learned for carrying out identification and analysis of samples.
CO 7 Make use of the phenomenon of chemiluminescence for varied applications.
CO 8 Elaborate on the concept of ORD & CD.
CO 9 Discuss the principle , instrumentation involved in Photoacoustic spectroscopy and will be able to use it for the trace analysis of solid , liquid and gaseous samples.
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RPSCHEA403
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ENVIRONMENTAL AND CERTAIN INDUSTRIALLY IMPORTANT MATERIALS
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CO 1 Elaborate on the various physical , chemical and biological processes which are used in CETP to remove the contaminants from wastewater.
CO 2 Apply the concept of recycling, reuse & reclamation in managing solid waste in real life.
CO 3 Classify the different types of plastics.
CO 4 Outline the importance of additives in plastic.
CO 5 Estimate the amount of metallic impurities in plastics.
CO 6 Describe the composition of paints.
CO 7 Make use of the methodologies learned to carry out the analysis of each and every component present in paints.
CO 8 Develop an understanding of zone refining and vacuum fusion and extraction techniques.
CO 9 Classify the kinds of elements that can be purified by the process of zone refining.
CO 10 Suggest a method for analyzing different elements present in ores & alloys.
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RPSCHEAOC-I-404
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INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS
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CO 1 Be well versed with the concept of intellectual property and the terms involved with respect to Indian Patent Law.
CO 2 Distinguish between patents and copyrights.
CO 3 Elaborate on the economical impact and legislature involved in Intellectual property rights.
CO 4 Make use of the software tools pertaining to Cheminformatics and Molecular Modelling.
CO 5 Conduct structure and sub-structure search online, determine SMILES codes for various molecules.
CO 6 Gain knowledge about the application of the research based tools.
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RPSCHEAOC-II-404
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RESEARCH METHODOLOGY
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CO 1 Know basics of research methodology
CO 2 Get the technical know-how of research from developing a problem.
CO 3 Write a research paper, study formats of existing research papers and review papers.
CO 4 Be aware about importance of lab-safety and the safety protocols in R&D laboratories.
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