Department of Chemistry

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:To learn the properties, synthesis, structure and bonding of the non-transition elements.
CO2:To learn the M-C multiple bonded compounds and synthetic applications of main group organometallic compounds.
CO3: To learn the biological chemistry of Iron and Cobalt.
CO4: To understand the biological chemistry of Copper and Zinc, Metal complexes in medicine and anticancer activity of complexes.

CO1: Learnt the wave mechanical treatment of covalent bond, valence bond theory, molecular orbital theory, VSEPR theory, Walsh diagrams, shapes of molecules having regular and irregular geometry, orbital configuration of different molecules
CO2: Learnt the nature of the nucleus, natural radioactivity, theory of radioactivity disintegration and its equilibrium, series, units, measurement and application of radioactive isotopes
CO3: Understood the principles of corrosion , different forms of corrosion, prevention-corrosion inhibitors and passivators, cathodic and anodic protection, metallic coating, role of paints, plastic linings, alloying for corrosion resistance
CO4:Gained knowledge of basic requirements of a titration reaction, standard and primary standard solution, expressing concentration of standard solution, volumetric titration co-relation, p-functions, acid-base titration, theory of acid base indicators, redox titration, complexometric titration, indicators for EDTA titration, cautions in volumetric titrimetric

CO1: To understand the classification, methods of production, chemical properties and uses of urea, Ammonium sulphate, ammonium sulphate nitrate, ammonium chloride, single super phosphate, triple super phosphate, bio fertilizers. Learn the types of biofertilizers like nitrogen fixing and phosphate-solubilizing.
CO2: To learn types of magnetic bodies, Russell-Saunders and LS coupling. Derivation of Russell-Saunders terms, spin-orbit interaction, thermal energy and magnetic property, magnetic moment for different multiple widths, multiple width large and small compared to KT, lanthanides and actinides. To understand the determination of magnetic susceptibility by different methods
CO3: Learn the types of corrosion principles of corrosion inhibitors, corrosion as an electrochemical process, practical aspects of corrosion inhibition, anion inhibitor properties in neutral electrolytes, some application of corrosion inhibitors
CO4: To understand the synthesis, characterization and properties of Ion exchangers, mechanism of ion exchange, equilibria-rate theory, Separation of metal and non-metals using ion exchangers. To learn the Inorganic ion exchangers and their applications

CO1: Learnt the theoretical principle of VBT Inner orbital complexes and outer orbital complexes, example of complexes of co-ordination number 2 to 6, advantages and its limitations.
CO2: Learnt Advanced theories like Jahn teller effects and distortions in Oh complexes, Ligand field theory(LFT), Adjusted crystal field theory (ACFT), Qualitative molecular orbital energy level diagrams and their interpretation of Oh, Td And SP.
CO3: Understand Spectroscopic terms, coupling of terms, microstates for the p, d and f configurations, Hund’s rule for ground state term, electronic transition selection rules, spin-orbit coupling. Crystal field diagram for d1 and d10 configuration. Orgel diagram for Oh and Td complexes (d1-d9 )states
CO4: Understand the Tanabe Sugano energy level diagram for Oh and Td complexes (d1-d9 states). Charge transfer spectra and interligand spectra, factors affecting charge spectra, calculation of Dq, B’ and spectrochemical series and nephelauxatic series.

CO1: Understand the basics of opening of ores and alloys
CO2: Learn the percentage of constituents in different samples, alloys and ore by different methods.
CO3: Learnt to perform experiments using different references.
CO4: Learn to perform practicals by qualitative methods.
CO5: Learn Mole-ratio of metals and ligands.
CO6: Understand the calculation using different references.
CO7: Appreciate good laboratory practices.

CO1: Learn about Photochemistry laws and photochemical kinetics, photochemical process and photochemical equipment, Photo physical process theory and relative process stimulated absorption, spontaneous emission, selection rules, theory of non-radiative processes, radiationless transitions and bimolecular
CO2: Learnt and understand about various types of water pollution, sources, sinks and methods of control.
CO3: Understand the types of catalysts, different methods of homogeneous catalysis, Hydrogenation of alkene, Ziegler-Natta polymerization of olefins, Hydrocarbonylation of olefins, The Wacker process, Monsanto Acetic Acid Synthesis, Water-gas Shift Reaction, Hydrosilation, Activation of C-H bond.
CO4: Learn the characterization of transition metal hydride complexes, methods of preparation, properties, Mononuclear polyhydrides, Homoleptic polyhydrido anions, Metal carbonyl hydrides, Dihydrogen complexes.

CO1: Learn about development of Supramolecular chemistry, classification of Supramolecular Host-Guest compounds, Receptors, coordination and lock and key analogy,nature of supramolecular interactions, solvation and hydrophobic effects, supramolecular concepts and design
CO2: Understand regarding the structural isomerism, stereoisomerism geometrical isomerism in 4 - and 6 - coordinates compound, cis and trans- isomers, mirror image isomerism, Optical isomerism in 4 - and 6 - coordinates compounds. Resolution of racemic mixtures
CO3: Learn about the crystalline and amorphous solids, types of crystals, close packing of identical solid spheres, interstitial sites in close packing of spheres, limiting radius ratio, radius ratio rule and the shape of an ionic crystal, structure of metallic crystals and ionic crystals, lattice energy of an ionic crystal and calculation, Born equation , experimental determination of lattice energy, defect structures of crystals.
CO4: Knowledge of Oxidation number, Galvanic cell, single electrode potential, sign of electrode potential, standard electrode potentials, electrochemical series, Nernst equation, application of electrochemical series, galvanic cell, hydrogen over voltage, oxygen over voltage, redox stability in water, oxidation by atmospheric Oxygen, Latimer diagram, Frost diagram, pourbaix diagram.

CO1: Learn about general aspects and classification of pesticides, structural features of some common insecticides, mode of action-general aspects, fate of insecticides in environment and environment hazards, characteristics, fungicides herbicides,major disasters with the pesticides and herbicides, alternative to chemical pesticides, fertilizers and environmental hazards from the fertilizers, eutrophication
CO2: Understand the principle and presentation of the spectrum of ESR, Hyperfine splitting, Anisotropy and interpretation of g values, hyperfine coupling and zero field splitting, Double Resonance and Fourier transform EPR techniques.
CO3:Learn the principle and application of FT-NMR, Chemical shift, contact shift and pseudo contact shift lanthanide complexes as shift reagents. Double resonance technique, Proton, Boron, Carbon, Nitrogen, Phosphorous NMR of inorganic compounds
CO4: To learn the basic principle, Spectral parameters and spectrum Display. Interpretation of Isomer shift. Application of technique to the studies of bonding and structure of Fe+2 and Fe+3 compounds, Sn+2 and Sn+4 compounds and detection of oxidation states. FAB and electron spray, mass spectrometry of metal complexes.

CO1: Understand kinetics of octahedral substitution reaction, stereochemical changes in octahedral complexes, redox reaction:
CO2: Learn the metal-ligand complex equilibria in solution, Stability of complex ions in solution, Basic principles, mathematical function and interrelationship, determination of stability constants of binary complex by experimental methods, Spectrophotometric methods, Potentiometric methods
CO3: Understand the Solute-Solvent interaction, Solute-Solute interaction, configurational equilibrium, Magnetic exchange coupling, stereochemical applications of magnetic properties
CO4:Understand the Stereochemistry of unusual co-ordination number 2 to 9, Metal sequestration and its industrial applications, Catalysis and Green Chemistry

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole ratio.
CO2: Establish mechanism and monitoring reaction at specified reaction condition.
CO3:Learn to work-up after the complexation of metal and ligands
CO4: Learn Irving-Rossotti methods through the references.
CO5:Perform the practicals at different pH and draw the different graphs.
CO6:Understand the calculation with reference to respective factors.
CO7:Appreciate good laboratory practices.

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:Learn the temperature-based methods and their advantages and application in various fields. Understand the basic instrument design their working and their application with the help of numerical.
CO2:Understand the basic theory of liquid junction potential, coulometer and electrogravimetry and their working. Also learn in-depth of coulometry methods and their application in various titration.
CO3: Learn different principles of rapid scan, hydrodynamic, Cyclic and hydrodynamic voltammetry and comparison as well their limitation and application.
CO4: Understand the interaction of radioactive radiation with matter such as gamma, beta, alpha, X-ray and neutron. Also learn the application of various radioactive radiation in various titration with experimental consideration.

CO1: Understand fundamental & basic terms involved in IR and Raman spectroscopy, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data.
CO2: Understand fundamental & basic terms involved in 1H NMR, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data, distinguish isomers and other closely related compounds by using spectral techniques.
CO3: Understand fundamental & basic terms involved in Mass spectroscopy, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data.
CO4: Understand fundamental & basic terms involved in Molecular luminescence spectroscopy, know effects of various factors on the emission and excitation spectra.

CO1: Understand fundamental & basic terms involved in potentiometry, know effects various factors on the methods, knows the limitation and application of potentiometric methods in various titrations.
CO2: Understand fundamental & basic theory of polarography methods, learn the various current observed on DC polarography, know the various factors and electrode use in polarography and amperometry techniques.
CO3:Understand fundamental & basic theory of different polarographic techniques, learn instrumentation, principles and understand the application, limitation and importance of the polarography techniques.
CO4:Understand classification of ion selective electrode, construction and importance of that electrode for the determination of particular species in solutions.

CO1: Understand fundamental & theory of the sources and available contents in ore and cements. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO2: Understand fundamental & theory of the sources and available pollutants/minerals in air and soils. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO3: Understand fundamental & theory of the adulteration in food. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO4: Understand fundamental & theory of the sources and available contents in paints and pigments. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.

CO1: Understand the basics to carry out practical, calculation of mole and mole ratio.
CO2: Done the titration or instrumental method for quantitative analysis.
CO3: Done the stoichiometry of the reaction involved in titration.
CO4: Draw the graph and find out the unknown concentration by comparision with known compound.
CO5:Appreciate good laboratory practices.

CO1: Understand fundamental & theory electron spectroscopy and microscopy. Learn the interaction of electron with matter, with different surfaces and its contaminations. Understand the working of microscope to find out the morphology of surfaces.
CO2: Learn the advancement in chromatography with use of supercritical fluid CO2, learn selection of stationary phase as well condition in operating, understand the online and offline extraction with super critical fluid.
CO3: Understand fundamental concepts of the separation of charged particles, amino acids, ions with different electrophoresis techniques, learn the separation of molecules with the help of field Flow Fraction.
CO4: Understand limitation of single technique and advantages of hyphenated techniques over it, learn the need of auto analyser for clinical analysis, types of analysis.

CO1:Understand fundamental & theory of atomic x-ray spectroscopy, learn the interaction of x-ray with matter, understand the difference between two techniques. Understand the use of x-ray spectroscopy for qualitative and quantitative analysis.
CO2: Understand fundamental & theory of atomic absorption and emission spectroscopy, learn the phenomenon involved in absorption and emission, understand the use of absorption and emission spectroscopy for qualitative and quantitative analysis.
CO3: Understand fundamental & theory of ESR spectroscopy, learn the difference between ESR and NMR, coupling constant and spin of signal, application in inorganic chemistry.
CO4: Understand fundamental & theory of atomic fluorescence and emission spectroscopy, learn the phenomenon involved in fluorescence and emission, understand the use of fluorescence and emission spectroscopy for qualitative and quantitative analysis.

CO1:Understand fundamental and principles of solvent extraction, basic theory of distribution law, use of the extraction techniques for cryptons and crown ethers, working of Craig vessels extractions.
CO2: Understand fundamental & theory involved in the separation of compound by chromatographic techniques, reason behind the band broadening and their resolution, use of chromatography for qualitative and quantitative analysis.
CO3:Understand the separation of different types of molecules with the help of different chromatographic techniques, choice of different stationary phase and mobile phase and application of chromatography.
CO4: Understand fundamental & theory of solid phase extraction, factors affecting the extraction, techniques involved in extraction and their application.

CO1:Understand fundamental & theory of the sources and available contents in alloys and surfactants. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO2: Understand fundamental & theory of the sources and available contents in fertilizer and pesticides. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO3: Understand fundamental & theory of the drugs and capsules. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO4:Understand fundamental & theory of the sources of vitamins. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.

CO1: Understand the basics to carry out practical, calculation of mole and mole ratio.
CO2: Done the titration or instrumental method for quantitative analysis.
CO3:Done the stoichiometry of the reaction involved in titration.
CO4: Draw the graph and find out the unknown concentration by comparison with known compound.
CO5:Appreciate good laboratory practices.

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:Understand the contribution of different partition function to the assigned system. Calculation of thermodynamic functions for the systems
CO2:Understand sets of partition functions and calculation for various gaseous systems. The fluctuations in calculation of thermodynamic functions
CO3: To learn different types of interactions in liquid mixtures the derivation of empirical equation for excess thermodynamic functions for liquid mixtures
CO4:To understand critical phenomena of gaseous systems.

CO1: Understandfundamental & basic terms involved in IR, 1H NMR, Mass and Luminescence Spectroscopy, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data, distinguish isomers and other closely related compounds by using spectral techniques.
CO2: Identify drug testing contamination in food, isotope ratio determination and protein identification with the help of spectroscopy
CO3: Identify the name of compounds using spectroscopy
CO4: Understand the instrumental set up for all instruments.

CO1: Understand concept of POLAROGRAPHY and its importance in analysis of elctro active compounds
CO2: Learn types of various electrodes their characteristics and their uses
CO3: Understand the application of different Polarography in identification of compunds
CO4:Understand the Potentiometric Titration and Chronopotentiometry

CO1: Understand biophysical chemistry of enzyme catalysed reaction. Immobilization of enzymes and role of cell membrane.
CO2: Identify the separation of solid or liquid using phase diagram.
CO3: Designing of new compounds using concept of solid state
CO4: Different theories help to understand the behaviour of Electronic materials in depth

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of compounds using different solvent systems
CO6: Theories of indicators

CO1: To learn statistical thermodynamic approach to chemical kinetics. The factors responsible for rate of reaction. Thermodynamic concept to understand the rate constant of the reaction
CO2:Gives guidelines to understand control of reaction condition, increase reaction rate to increase production, effect of catalysis, slow down side reaction and improve separation process
CO3: To learn about mechanism of various catalytic reactions Arrhenius and vont hoff concept of catalytic mechanism
CO4: To learn about kinetics of control of solution and gas phase reaction.

CO1: Understand the theory, instrumentation and important terms of Atomic X-RAY Spectroscopy. Identification of compound from X ray pattern
CO2: learn instrumentation and important terms of AAS and FES in identification of metal ions in industrial effluents.
CO3: To learn concept of Electron Spin Resonance Spectroscopy and Qualitative and quantitative applications of EPRS.
CO4: To learn instrumentation, application of Atomic Emission and Fluorescence Spectroscopy

CO1: The concept of separation of compounds from solution using the partition law. Application of extracting agents and use of various solvents for the same
CO2: Understand the basics of chromatography, factors affecting chromatography and its application in separation and purification of componds
CO3:Learn the principle and application of liquid chromatography for separation of proteins, small organic compounds. Choice of mobile and stationary phases
CO4: Learn the concept of micro exraction for the separation of compounds

CO1: Understand various thermodynamic function responsible for dissolution of polymer. Flory parameter for solubility and Flory Huggins theory of dissolution.
CO2: Learn the techniques for polymer fractionation. Understand the kinetics of copolymerization for their synthesis.
CO3: Learn life cycle of various polymers, types of polymer degradation and factors affecting polymer degradation.
CO4:Synthesis of different polymers.

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of compounds using different solvent systems
CO6:Theories of indicators

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:Thoroughly understand the principles, fundamental, definition, scope and importance of environmental science, obtains the knowledge of various environmental components and learns the global environmental problem.
CO2:Establish the knowledge of various natural resources like renewable and non-renewable sources, develops the grip of various natural resources and its associated problems.
CO3: Gain an understanding of Ecosystem, its concept, structure, components and functions, through which leads to understand the importance of ecological succession and learns the characteristic features and function of different ecosystem.
CO4: Know about the various Natural hazards such as river flooding, landslides, Costal hazard, earthquake, volcanism and their causes, protection and prevention.

CO1: To learn the about air pollution and its adverse effects. Learn about ozone layer and Global Warming.
CO2: Learn water & air pollution, basic concepts of Eutrophication, water contamination with heavy materials, halogens, hydrocarbons and water purifying techniques and purification of water, sewage treatment, determination of air pollutants SOX, NOX, COX and hydrocarbons. Development of technologies to compart gaseous pollutants, effluent treatment of various paper pulp & distillation.
CO3: To understand the basic concept about soil and to derive the different characteristics and composition of soil. Understand fundamental & theory of the sources and available minerals in soils. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO4: Understand the chemistry involved in noise, radiation and thermal pollution and their hazardous effects.

CO1:Understand the source, classification, characteristics and disposal of hazardous waste.
CO2: Learn radioactive waste and principle of radioactivity, its decay, health effects of ionization, to storage , transport and disposal of radioactive waste.
CO3:Understand introductory part of biomedical waste and its disposal by different methods
CO4:Understand about chemical toxicity and genotoxicity in detail.

CO1: Understand fundamental & basic terms involved in 1H NMR, 13C NMR , know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data, distinguish isomers and other closely related compounds by using spectral techniques.
CO2: Able to understand spectroscopic techniques, Atomic Absorption and Atomic Fluorescence Spectrometry, Atomic Emission Spectrometry for water analysis.
CO3: Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO4:Understand the basic theory of coulometer, voltammetry electrogravimetry and their working. Also learn in-depth of coulometry methods and their application in various titration, Supercritical Fluid Chromatography and ion selective electrodes

CO1: Understand the basics to carry out practical.
CO2: Done the titration or instrumental method for quantitative analysis.
CO3: Done the stoichiometry of the reaction involved in titration.
CO4: Draw the graph and find out the unknown concentration by comparision with known compound.
CO5: Appreciate good laboratory practices.

CO1: Understand Sampling methods and preservation DO, BOD and COD- Signification, Analytical Methods, Interferences and their elimination, Modifications
CO2:To learn various water purification methods, sewage treatment, and water management
CO3: Water pollution occurs in different industries like Pharmaceutical IndustryFertilizers Industry, Pulp and Paper Industry, Sugar Industry, Distillery Industry, Textile Industry and its remedies with flowchart diagram.
CO4: Understand the analysis of soil on the basis of pH, Lime requirement of soil, Nitrogen analysis, Phosphorous analysis,Exchangeable Cation Analysis, Micro nutrient analysis.

CO1: Understand the Analysis of Oxides of Sulphur, Nitrogen Oxygen and Carbon, H2S, Mercaptons, Hydrocarbons and Organics in different air sampling and compare the samples of different polluted areas.
CO2: Learn about the different equipments like cyclone collector and dynamic precipitators; Electrostatic precipitators; wet and dry Scrubbers, filters, Fabric filters.
CO3: Learn the different air pollutants from Petroleum refinery, Cement industries, Fertilizers Industry, Thermal power plants Iron and Steel industries, Chemical Process industries-Mineral Acid manufacturing and Chloralkali Plants.
CO4: Study about bioremediation process, systems, applications and Microbial detoxification of specialty chemicals (Insecticides, Herbicides, Fungicides,

CO1:Study Overview of green chemistry, principles of sustainable and green chemistry. Basic principles of green technology, concepts of atom economy and carbon trading, tools of green technology
CO2: Understand the Catalytic methods in green synthesis, use of green solvents and solvent less processes.
CO3:Understand Nanomaterials and green nanotechnology, Fullerene, carbon nanotubes, Nanoparticles and its characterization.
CO4: Understand how green technology is applicable in industries and other production methods, fuel cell and electric vehicles, solar energy and hydrogen production

CO1: Study detailed description about ENVIRONMENTAL IMPACT ASSESSMENT
CO2: To study the various acts for ENVIRONMENTAL PROTECTION LEGISLATIONS
CO3: To understand Description of the Environmental settling, Prediction and Assessment of impact on air, water, Noise and Biological environment
CO4:To understand the case studies of Movements related to Environment Sacred groves, Bishnoi tradition, Chipko movement, Tehridam, Sardar Sarovar, Narmada dam, Almatti dam, Silent Valley.

CO1: Understand the basics of practical.
CO2: Understand reaction and monitoring specified reaction condition.
CO3:Learn to work-up after the completion of practical.
CO4: Confirm the results with the references.
CO5:Understand the calculation with reference to respective factors.
CO6:Appreciate good laboratory practices.

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:Understand the nature of natural pigments & alkaloids, spectral properties of porphyrins, generation of various pyrrole and their carboxylic acid derivatives and their synthesis, structural elucidation of pigments and alkaloids, their analytical evidences for the confirmation of structure including intermediates.
CO2:To learn basic skeleton of steroids, structural elucidation of cholesterol, ergosterol, bile acids, male, female sex hormones, their interrelation of each other, corticoids and their physiological activities.
CO3: To learn biochemical function of vitamins, classification & structural elucidation, through analytical and synthetic evidences of vitamins and terpenoids, confirmation of intermediates through respective synthetic pathway, their respective oxidation, reduction, hydrolysis etc. and rearrangement reactions.
CO4: To understand nucleic acids, respective purine and pyridine bases, their interrelation to each other, structural elucidation of DNA & RNA, their classification & nomenclature of enzymes, their next generation, protein synthesis, catalytic activities through various parameters.

CO1: Understand fundamental & basic terms involved in 1H NMR, 13C NMR & 2D NMR spectroscopy, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data, distinguish isomers and other closely related compounds by using spectral techniques.
CO2: Learn water & air pollution, basic concepts of Eutrophication, water contamination with heavy materials, halogens, hydrocarbons and water purifying techniques and purification of water, sewage treatment, determination of air pollutants SOX, NOX, COX and hydrocarbons. Development of technologies to compart gaseous pollutants, effluent treatment of various paper pulp & distillation.
CO3: To understand the basic concept of name reaction for the heterocyclic chemistry, aware about all heterocyclic ring systems such as mono, bi,,tri and fused ring systems with all backgrounds in terms of naming of new compounds, application of heterocycles in medicinal chemistry.
CO4: Understand the chemistry involved in oxidation, reduction, transformation, cyclisation etc by employing numerous reactants to appreciate the chemo-selectivity of the reagents, synthesis of reagents with respective mechanism and their application in industry. Suggest the use of miscellaneous reagents in organic synthesis.

CO1: Understand process chemistry versus research chemistry, concept of clinical trials on various phases, FDA, ADMET, classes of agrochemical-pesticides, herbicides, insecticides and toxicity studies.
CO2: Learn colour and chemical constitution, various theories , fastness properties of dyes through various parameters. Application of dyes on various fibres, miscellaneous application of dyes like- non textiles, leather, medicines, photography, cosmetics etc.
CO3:Understand of drugs, nomenclature & classification, generic and trivial/brand names of drugs, various theories of drug action, biological defence, administration of drug and study their various physico chemical parameters.
CO4:Understand unit process & operation. Various unit processes, determination of agents employed in unit process on the basic motif & analogous, establishment of mechanism and their application in industry with different routes.

CO1: Understand drug design, procedure of drug design, preparation of library of compounds-leads to identification and optimization. Various concept like pro drug, soft drug, SAR, MOA, ADMET and receptor, drug administration, pharmacokinetics and pharmacodynamics, role of enzyme in biotransformation etc.
CO2: Learn general classification of psychoactive agents, difference between sedative and hypnotics, general structure of each class of drugs with substituent, their SAR and trivial/generic name, synthesis and uses of selective drug.
CO3: Understand general classification of analgesic, antipyretic, NSAIDs Agents, general structure of each class of drugs with substituent, their SAR and trivial/generic name, synthesis and uses of selective drug.
CO4:General classification of diuretics, general structure of each class of drugs with substituent, their SAR and trivial/generic name, synthesis and uses of selective drug method..

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole ratio.
CO2: Establish mechanism of reaction and monitoring specified reaction condition.
CO3: Learn to work-up after the completion of reaction, purification.
CO4: Confirm the product through the references.
CO5: Learn to set up reaction condition for individual estimation of compound.
CO6: Understand the calculation with reference to respective factors.
CO7: Appreciate good laboratory practices.

CO1: To learn type of transformation, intermediate step. Types of multicomponent reaction, insitu reaction, role of reactive intermediate in transformation, types of asymmetric synthesis, alkene formation reaction, base catalyzed reaction, mechanism of reaction and their synthetic applications.
CO2: To learn the role of various oxidizing agents, study chemoselectivity, mechanism of reaction, transformation of group, name reactions based on various oxidizing agents and their synthetic applications.
CO3: To learn about role of various reducing agents, chemoselectivity, mechanism of reaction, transformation of group, name reactions based on various reducing agents and their synthetic applications.
CO4: To learn about type of rearrangement, migrating aptitude, ring expansion, contraction, strain theory, isotopic effect, effect of other groups with reference to functional group and their application.

CO1: Understand the theory, instrumentation and important terms of mass spectrometry, fragmentation pattern, to set valuable insight into the types of molecular interaction and interpreting from obtained data.
CO2: To learn about basic concept, synthesis and application of heterocyclic chemistry, aware about heterocyclic systems, types of heterocyclic rings, application of heterocycles in medicinal chemistry.
CO3: To learn about type of reactions in context to kinetically and thermodynamically control concept, derivatization of various equation and their significance, different terminology and their application in designing various bioactive scaffolds.
CO4: To learn about natural and synthetic polymers, their classification, properties and synthetic applications.

CO1: Focus on the protecting and deprotecting groups with various organic scaffolds, choose of reagents, solvents and synthetic pathway, the reactions of group and their synthetic applications.
CO2: Understand deep aspects of retrosynthesis and oxidation-reduction reaction, assumption of synthetic equipment and design the novel route for the synthesis target.
CO3:Understand synthesis of various rings based on retrosynthetic pathway, application of reactive intermediate in the synthesis of ring, can be able to design new molecules of interest and generation of aromatic hydrocarbons from various heterocycles.
CO4: Learn the Role of organometallic compounds in organic synthesis, reduction, oxidation, transformation of a group, application in pharmaceutical industries for the synthesis of pharmaceutically active agents.

CO1: Understand antibiotics, their classification, general structure, lactum and non-lactum antibiotics, next generation antibiotics, SAR, synthesis and uses of selected drug molecules.
CO2: Learn general classification of anti histamines, anti-mycobacterial and sulphonamides, their structural variations, mode of action and synthesis of selected drug molecules.
CO3: Learn life cycle of malaria, types of plasmodia, general structure of anti malarial agents, structural variation among them, mode of action, synthesis and uses of selected drug molecules.
CO4:Understand life cycle of virus. Identification of enzymes responsible for replication of virus, mechanism of drug action. Synthesis and uses of selected drug molecules.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole ratio.
CO2: Establish mechanism and monitoring reaction at specified reaction condition.
CO3:Learn to work-up after the completion of reaction, purification.
CO4: Confirmation of product through the references.
CO5:Learn to interpret structure of organic compounds from given spectra.
CO6:Understand the calculation with reference to respective factors.
CO7:Appreciate good laboratory practices.

CO1: Demonstrate the ability to choose methods appropriate to research aims and objectives. Learn about research methods, their criteria and problems.
CO2: To learn about journals and patents. To understand monographs and treatises on specific areas and to grab information about Literature search, citation index and locate journals.
CO3: To understand general aspects of research article writing. To learn about publishing, manuscript writing and importance of the author and how the reviewer interprets the article. To know about poster presentation and how to present it.
CO4: To learn the importance and significance of laboratory safety and proper regulation of laboratory

CO1: Able to interpret the structure of organic compounds from spectra like UV, IR, NMR and Mass.
CO2: To understand the familiarize with the basic properties, theory & interpretation of 1H NMR, 13C NMR and 2D NMR spectrometry, to impart knowledge in the theory & principles of spectroscopic techniques for characterization & differentiation of various molecules.
CO3: Interpret and evaluate the information contained in the several types of spectra obtained with different types of mass spectrometers. Analyze the validation of the results obtained in the resolution of a problem by mass spectrometry.
CO4: Determine appropriate chromatographic technique and approach for analysis. Comprehend the optimization of chromatographic methods.

CO1: Understand the basics to carry out reactions, nature of the reaction and establish mechanism and monitoring reaction at specified reaction condition
CO2:Understand the chemistry involved in oxidation, reduction, transformation, cyclisation etc by employing numerous reactants to appreciate the chemo-selectivity of the 12 reagents, synthesis of reagents with respective mechanism and their application in industry. Suggest the use of miscellaneous reagents in organic synthesis.
CO3:Learning about aquatic pollution –pesticides, Industrial and Sewage, Detergents, Oil spills and Oil pollutants. Understanding of Analytical methods for measuring DO, BOD and COD oxides of N, C, S, O and their effect. Purification and treatment of water. Industrial pollution and effluent treatment plants of sugar, drug, pulp & paper industries.
CO4: To understand unit processes and implementation in industry, determination of various agents in unit process and their synthetic route.

CO1: Learning Ideal monoatomic gas, Thermodynamic functions Helmholtz free Energy function, pressure, Internal energy, Understanding the concept of entropy, theories of reaction rates, limitations and extension of rate theory, statistical approach to transition-state theory, factors, rate of reaction, the effect of Solvent.
CO2:Understanding properties of Mixtures, method of determination. Learning Raoult’s law. The mixing function for ideal and non-ideal solution, excess function for solution. Experimental determination of excess thermodynamic method. To know about Solute solvent interactions, effect of interactions, semi empirical equations and theory of liquid mixture.
CO3:To learn application of reduced phase rule. Representation and calculation of composition in three component system, Knowing about phase behavior of component, phase equilibria between two solids and liquid, the phase diagram of multicomponent systems.
CO4: Learning the theory of surface action, effect and behaviour, properties of surfactant solutions and methods of their measurements: micelle properties. Measurement of critical micelle concentration; foaming power and foam stability, wetting power, emulsifying power, stability of dispersion and detergency. Understanding transition temperatures, solubility parameters, solution properties, temperature, good/ bad solvent and about polymers.

CO1: To understand about green chemistry, green solvents and green reactions. To learn about ionic liquids and its characteristics.
CO2:Learning about alternative sources of energy such as Ultrasonic Reactions: Esterification, Saponification, Hydrolysis, Substitution reaction, Alkylation, Coupling reactions, solid-phase and microwave-assisted reaction.
CO3:Understanding about biocatalysis, photocatalysis and Homogeneous Catalysis: Hydrogenation of alkenes, hydrocarbonylation of olefins, activation of C-H bond, oxidative-addition reaction, reductive-elimination reaction, Insertion and desertion reaction
CO4: Learning basic principle, spectral analysis, interpretation of Mossbauer spectroscopy. Understanding about the application of the technique to the studies of bonding and structure of Fe and compounds and detection of oxidation states. FAB and electron spray, mass spectrometry of metal complexes.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:To learn the properties, synthesis, structure and bonding of the non-transition elements.
CO2:To learn the M-C multiple bonded compounds and synthetic applications of main group organometallic compounds.
CO3: To learn the biological chemistry of Iron and Cobalt.
CO4: To understand the biological chemistry of Copper and Zinc, Metal complexes in medicine and anticancer activity of complexes.

CO1: Learnt the wave mechanical treatment of covalent bond, valence bond theory, molecular orbital theory, VSEPR theory, Walsh diagrams, shapes of molecules having regular and irregular geometry, orbital configuration of different molecules
CO2: Learnt the nature of the nucleus, natural radioactivity, theory of radioactivity disintegration and its equilibrium, series, units, measurement and application of radioactive isotopes
CO3: Understood the principles of corrosion , different forms of corrosion, prevention-corrosion inhibitors and passivators, cathodic and anodic protection, metallic coating, role of paints, plastic linings, alloying for corrosion resistance
CO4:Gained knowledge of basic requirements of a titration reaction, standard and primary standard solution, expressing concentration of standard solution, volumetric titration co-relation, p-functions, acid-base titration, theory of acid base indicators, redox titration, complexometric titration, indicators for EDTA titration, cautions in volumetric titrimetric

CO1: To understand the classification, methods of production, chemical properties and uses of urea, Ammonium sulphate, ammonium sulphate nitrate, ammonium chloride, single super phosphate, triple super phosphate, bio fertilizers. Learn the types of biofertilizers like nitrogen fixing and phosphate-solubilizing.
CO2: To learn types of magnetic bodies, Russell-Saunders and LS coupling. Derivation of Russell-Saunders terms, spin-orbit interaction, thermal energy and magnetic property, magnetic moment for different multiple widths, multiple width large and small compared to KT, lanthanides and actinides. To understand the determination of magnetic susceptibility by different methods
CO3: Learn the types of corrosion principles of corrosion inhibitors, corrosion as an electrochemical process, practical aspects of corrosion inhibition, anion inhibitor properties in neutral electrolytes, some application of corrosion inhibitors
CO4: To understand the synthesis, characterization and properties of Ion exchangers, mechanism of ion exchange, equilibria-rate theory, Separation of metal and non-metals using ion exchangers. To learn the Inorganic ion exchangers and their applications

CO1: Learnt the theoretical principle of VBT Inner orbital complexes and outer orbital complexes, example of complexes of co-ordination number 2 to 6, advantages and its limitations.
CO2: Learnt Advanced theories like Jahn teller effects and distortions in Oh complexes, Ligand field theory(LFT), Adjusted crystal field theory (ACFT), Qualitative molecular orbital energy level diagrams and their interpretation of Oh, Td And SP.
CO3: Understand Spectroscopic terms, coupling of terms, microstates for the p, d and f configurations, Hund’s rule for ground state term, electronic transition selection rules, spin-orbit coupling. Crystal field diagram for d1 and d10 configuration. Orgel diagram for Oh and Td complexes (d1-d9 )states
CO4: Understand the Tanabe Sugano energy level diagram for Oh and Td complexes (d1-d9 states). Charge transfer spectra and interligand spectra, factors affecting charge spectra, calculation of Dq, B’ and spectrochemical series and nephelauxatic series.

CO1: Understand the basics of opening of ores and alloys
CO2: Learn the percentage of constituents in different samples, alloys and ore by different methods.
CO3: Learnt to perform experiments using different references.
CO4: Learn to perform practicals by qualitative methods.
CO5: Learn Mole-ratio of metals and ligands.
CO6: Understand the calculation using different references.
CO7: Appreciate good laboratory practices.

CO1: Learn about Photochemistry laws and photochemical kinetics, photochemical process and photochemical equipment, Photo physical process theory and relative process stimulated absorption, spontaneous emission, selection rules, theory of non-radiative processes, radiationless transitions and bimolecular
CO2: Learnt and understand about various types of water pollution, sources, sinks and methods of control.
CO3: Understand the types of catalysts, different methods of homogeneous catalysis, Hydrogenation of alkene, Ziegler-Natta polymerization of olefins, Hydrocarbonylation of olefins, The Wacker process, Monsanto Acetic Acid Synthesis, Water-gas Shift Reaction, Hydrosilation, Activation of C-H bond.
CO4: Learn the characterization of transition metal hydride complexes, methods of preparation, properties, Mononuclear polyhydrides, Homoleptic polyhydrido anions, Metal carbonyl hydrides, Dihydrogen complexes.

CO1: Learn about development of Supramolecular chemistry, classification of Supramolecular Host-Guest compounds, Receptors, coordination and lock and key analogy,nature of supramolecular interactions, solvation and hydrophobic effects, supramolecular concepts and design
CO2: Understand regarding the structural isomerism, stereoisomerism geometrical isomerism in 4 - and 6 - coordinates compound, cis and trans- isomers, mirror image isomerism, Optical isomerism in 4 - and 6 - coordinates compounds. Resolution of racemic mixtures
CO3: Learn about the crystalline and amorphous solids, types of crystals, close packing of identical solid spheres, interstitial sites in close packing of spheres, limiting radius ratio, radius ratio rule and the shape of an ionic crystal, structure of metallic crystals and ionic crystals, lattice energy of an ionic crystal and calculation, Born equation , experimental determination of lattice energy, defect structures of crystals.
CO4: Knowledge of Oxidation number, Galvanic cell, single electrode potential, sign of electrode potential, standard electrode potentials, electrochemical series, Nernst equation, application of electrochemical series, galvanic cell, hydrogen over voltage, oxygen over voltage, redox stability in water, oxidation by atmospheric Oxygen, Latimer diagram, Frost diagram, pourbaix diagram.

CO1: Learn about general aspects and classification of pesticides, structural features of some common insecticides, mode of action-general aspects, fate of insecticides in environment and environment hazards, characteristics, fungicides herbicides,major disasters with the pesticides and herbicides, alternative to chemical pesticides, fertilizers and environmental hazards from the fertilizers, eutrophication
CO2: Understand the principle and presentation of the spectrum of ESR, Hyperfine splitting, Anisotropy and interpretation of g values, hyperfine coupling and zero field splitting, Double Resonance and Fourier transform EPR techniques.
CO3:Learn the principle and application of FT-NMR, Chemical shift, contact shift and pseudo contact shift lanthanide complexes as shift reagents. Double resonance technique, Proton, Boron, Carbon, Nitrogen, Phosphorous NMR of inorganic compounds
CO4: To learn the basic principle, Spectral parameters and spectrum Display. Interpretation of Isomer shift. Application of technique to the studies of bonding and structure of Fe+2 and Fe+3 compounds, Sn+2 and Sn+4 compounds and detection of oxidation states. FAB and electron spray, mass spectrometry of metal complexes.

CO1: Understand kinetics of octahedral substitution reaction, stereochemical changes in octahedral complexes, redox reaction:
CO2: Learn the metal-ligand complex equilibria in solution, Stability of complex ions in solution, Basic principles, mathematical function and interrelationship, determination of stability constants of binary complex by experimental methods, Spectrophotometric methods, Potentiometric methods
CO3: Understand the Solute-Solvent interaction, Solute-Solute interaction, configurational equilibrium, Magnetic exchange coupling, stereochemical applications of magnetic properties
CO4:Understand the Stereochemistry of unusual co-ordination number 2 to 9, Metal sequestration and its industrial applications, Catalysis and Green Chemistry

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole ratio.
CO2: Establish mechanism and monitoring reaction at specified reaction condition.
CO3:Learn to work-up after the complexation of metal and ligands
CO4: Learn Irving-Rossotti methods through the references.
CO5:Perform the practicals at different pH and draw the different graphs.
CO6:Understand the calculation with reference to respective factors.
CO7:Appreciate good laboratory practices.

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:Learn the temperature-based methods and their advantages and application in various fields. Understand the basic instrument design their working and their application with the help of numerical.
CO2:Understand the basic theory of liquid junction potential, coulometer and electrogravimetry and their working. Also learn in-depth of coulometry methods and their application in various titration.
CO3: Learn different principles of rapid scan, hydrodynamic, Cyclic and hydrodynamic voltammetry and comparison as well their limitation and application.
CO4: Understand the interaction of radioactive radiation with matter such as gamma, beta, alpha, X-ray and neutron. Also learn the application of various radioactive radiation in various titration with experimental consideration.

CO1: Understand fundamental & basic terms involved in IR and Raman spectroscopy, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data.
CO2: Understand fundamental & basic terms involved in 1H NMR, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data, distinguish isomers and other closely related compounds by using spectral techniques.
CO3: Understand fundamental & basic terms involved in Mass spectroscopy, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data.
CO4: Understand fundamental & basic terms involved in Molecular luminescence spectroscopy, know effects of various factors on the emission and excitation spectra.

CO1: Understand fundamental & basic terms involved in potentiometry, know effects various factors on the methods, knows the limitation and application of potentiometric methods in various titrations.
CO2: Understand fundamental & basic theory of polarography methods, learn the various current observed on DC polarography, know the various factors and electrode use in polarography and amperometry techniques.
CO3:Understand fundamental & basic theory of different polarographic techniques, learn instrumentation, principles and understand the application, limitation and importance of the polarography techniques.
CO4:Understand classification of ion selective electrode, construction and importance of that electrode for the determination of particular species in solutions.

CO1: Understand fundamental & theory of the sources and available contents in ore and cements. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO2: Understand fundamental & theory of the sources and available pollutants/minerals in air and soils. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO3: Understand fundamental & theory of the adulteration in food. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO4: Understand fundamental & theory of the sources and available contents in paints and pigments. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.

CO1: Understand the basics to carry out practical, calculation of mole and mole ratio.
CO2: Done the titration or instrumental method for quantitative analysis.
CO3: Done the stoichiometry of the reaction involved in titration.
CO4: Draw the graph and find out the unknown concentration by comparision with known compound.
CO5:Appreciate good laboratory practices.

CO1: Understand fundamental & theory electron spectroscopy and microscopy. Learn the interaction of electron with matter, with different surfaces and its contaminations. Understand the working of microscope to find out the morphology of surfaces.
CO2: Learn the advancement in chromatography with use of supercritical fluid CO2, learn selection of stationary phase as well condition in operating, understand the online and offline extraction with super critical fluid.
CO3: Understand fundamental concepts of the separation of charged particles, amino acids, ions with different electrophoresis techniques, learn the separation of molecules with the help of field Flow Fraction.
CO4: Understand limitation of single technique and advantages of hyphenated techniques over it, learn the need of auto analyser for clinical analysis, types of analysis.

CO1:Understand fundamental & theory of atomic x-ray spectroscopy, learn the interaction of x-ray with matter, understand the difference between two techniques. Understand the use of x-ray spectroscopy for qualitative and quantitative analysis.
CO2: Understand fundamental & theory of atomic absorption and emission spectroscopy, learn the phenomenon involved in absorption and emission, understand the use of absorption and emission spectroscopy for qualitative and quantitative analysis.
CO3: Understand fundamental & theory of ESR spectroscopy, learn the difference between ESR and NMR, coupling constant and spin of signal, application in inorganic chemistry.
CO4: Understand fundamental & theory of atomic fluorescence and emission spectroscopy, learn the phenomenon involved in fluorescence and emission, understand the use of fluorescence and emission spectroscopy for qualitative and quantitative analysis.

CO1:Understand fundamental and principles of solvent extraction, basic theory of distribution law, use of the extraction techniques for cryptons and crown ethers, working of Craig vessels extractions.
CO2: Understand fundamental & theory involved in the separation of compound by chromatographic techniques, reason behind the band broadening and their resolution, use of chromatography for qualitative and quantitative analysis.
CO3:Understand the separation of different types of molecules with the help of different chromatographic techniques, choice of different stationary phase and mobile phase and application of chromatography.
CO4: Understand fundamental & theory of solid phase extraction, factors affecting the extraction, techniques involved in extraction and their application.

CO1:Understand fundamental & theory of the sources and available contents in alloys and surfactants. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO2: Understand fundamental & theory of the sources and available contents in fertilizer and pesticides. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO3: Understand fundamental & theory of the drugs and capsules. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.
CO4:Understand fundamental & theory of the sources of vitamins. Also learn the different approaches and classical as well as instrumental techniques used for the analysis.

CO1: Understand the basics to carry out practical, calculation of mole and mole ratio.
CO2: Done the titration or instrumental method for quantitative analysis.
CO3:Done the stoichiometry of the reaction involved in titration.
CO4: Draw the graph and find out the unknown concentration by comparison with known compound.
CO5:Appreciate good laboratory practices.

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.

CO1: Understand the definitions of magnetic properties, type of magnetic bodies, determination of magnetic susceptibility and its applications.
CO2:Understand, classification of metal carbonyls and nitrosyls, structure and bonding. Vibrational spectra studies for bonding and structure elucidation, preparation of metal carbonyls and nitrosyls.
CO3: To learn the characteristics of inorganic polymer and characterization of physical properties by molecular weight, number average and weight average. Structural features of polymers by different bonding.
CO4:Understand the classification of coordination compounds, Werner's theory, Electronic interpretation, factors effecting the formation of complex ions, detection of complex ion in solution, stability of metal chelates and Importance of chelates, role of metal chelates in living system

CO1: Understand the analysis of alloy and ore and calculation of molarity and mole ratio.
CO2: Learn to methods to find copper, zinc gravimetrically and volumetrically.
CO3: Learn to find available chlorine bleaching powder.
CO4:Learn to determine calcium, lead, Iron and chromium in admixture.
CO5:Appreciate good laboratory practices.

CO1: Understand the role of transition metal in organic synthesis by studying Heck, Suzuki, Sonogashira and Buchwald Hartwing reaction, formylation by Villsmayer Heck reaction, substituted amines, amides formation reaction, cyclisation through condensation reaction and inverted configuration through Mitsunobu reaction.
CO2: Understand aromaticity, various parameters for the measurement of aromaticity, frost circle method and calculation of energy for the determination of aromaticity. Aromaticity measurement through NMR, types of aromaticity and aromaticity measurement in fused rings, annulenes and azulenes etc
CO3:To learn the chemistry involved in oxidation-reduction reactions by employing numerous reagents & appropriate chemo-selectivity of the reagents, suggest use of miscellaneous reagents in organic synthesis including Wilkinson catalyst, DIBAL-H, PTC-crown ether, 1,3-Dithiane etc.
CO4:Get one self familiarize with usual photochemical reactions, terms of photochemistry, understanding fluorescence, phosphorence by photoexcitation decay/discipation of energy. Types photochemical reactions like Norrish type-I & II, Paterno-Buchi etc., Photodimensation and their application in organic synthesis.

CO1: Understand the basics to carry out reactions, nature of reaction and calculation of mole and mole ratio.
CO2:Establish mechanism and monitora reaction at specified condition.
CO3: Work-up after the completion of reaction and purification.
CO4: Confirmation of product through the references.
CO5:Appreciate good laboratory practices.

CO1: Understand the electrolytes in conductance of solutions. Importance of polorization decomposition potential and over voltage in electrolysis process and in industries
CO2: Understand physical phenomena of surface chemistry. Application of surface active substance and factor affecting surface chemistry, adsorption of surface active materials
CO3: Understand the solution behaviour of surfactants. Colloidal chemistry explain the importance of micelle formation for colloidal industry
CO4: Identify the molecular interactions and concentration and identification of componds

CO1: Understand preparation of solutions.
CO2:Qualitative analysis of compound
CO3: calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of solvent using phase diagram

CO1: Understand the basic concept of Infrared radiation and their interaction with the matter and use of FTIR spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule in liquid chromatography and identify the problems and their solution during the analysis.
CO3: Learn different principles of green chemistry and their use in various techniques, also learn the determination of various pollutants in water by different techniques available such as classical and instrumental techniques.
CO4: Understand the making of different solution with the help of different concentration and learn the non-aqueous titration when aqueous titration fails. Also learn the determination of various elements in organic compounds.

CO1:Understand the contribution of different partition function to the assigned system. Calculation of thermodynamic functions for the systems
CO2:Understand sets of partition functions and calculation for various gaseous systems. The fluctuations in calculation of thermodynamic functions
CO3: To learn different types of interactions in liquid mixtures the derivation of empirical equation for excess thermodynamic functions for liquid mixtures
CO4:To understand critical phenomena of gaseous systems.

CO1: Understandfundamental & basic terms involved in IR, 1H NMR, Mass and Luminescence Spectroscopy, know effects of various factors on the spectra, interpretation from spectral data, identify structure of organic compounds by using combined spectral data, distinguish isomers and other closely related compounds by using spectral techniques.
CO2: Identify drug testing contamination in food, isotope ratio determination and protein identification with the help of spectroscopy
CO3: Identify the name of compounds using spectroscopy
CO4: Understand the instrumental set up for all instruments.

CO1: Understand concept of POLAROGRAPHY and its importance in analysis of elctro active compounds
CO2: Learn types of various electrodes their characteristics and their uses
CO3: Understand the application of different Polarography in identification of compunds
CO4:Understand the Potentiometric Titration and Chronopotentiometry

CO1: Understand biophysical chemistry of enzyme catalysed reaction. Immobilization of enzymes and role of cell membrane.
CO2: Identify the separation of solid or liquid using phase diagram.
CO3: Designing of new compounds using concept of solid state
CO4: Different theories help to understand the behaviour of Electronic materials in depth

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4: Understand behaviour of surfactant and polymer
CO5: Separation of compounds using different solvent systems
CO6: Theories of indicators

CO1: To learn statistical thermodynamic approach to chemical kinetics. The factors responsible for rate of reaction. Thermodynamic concept to understand the rate constant of the reaction
CO2:Gives guidelines to understand control of reaction condition, increase reaction rate to increase production, effect of catalysis, slow down side reaction and improve separation process
CO3: To learn about mechanism of various catalytic reactions Arrhenius and vont hoff concept of catalytic mechanism
CO4: To learn about kinetics of control of solution and gas phase reaction.

CO1: Understand the theory, instrumentation and important terms of Atomic X-RAY Spectroscopy. Identification of compound from X ray pattern
CO2: learn instrumentation and important terms of AAS and FES in identification of metal ions in industrial effluents.
CO3: To learn concept of Electron Spin Resonance Spectroscopy and Qualitative and quantitative applications of EPRS.
CO4: To learn instrumentation, application of Atomic Emission and Fluorescence Spectroscopy

CO1: The concept of separation of compounds from solution using the partition law. Application of extracting agents and use of various solvents for the same
CO2: Understand the basics of chromatography, factors affecting chromatography and its application in separation and purification of componds
CO3:Learn the principle and application of liquid chromatography for separation of proteins, small organic compounds. Choice of mobile and stationary phases
CO4: Learn the concept of micro exraction for the separation of compounds

CO1: Understand various thermodynamic function responsible for dissolution of polymer. Flory parameter for solubility and Flory Huggins theory of dissolution.
CO2: Learn the techniques for polymer fractionation. Understand the kinetics of copolymerization for their synthesis.
CO3: Learn life cycle of various polymers, types of polymer degradation and factors affecting polymer degradation.
CO4:Synthesis of different polymers.

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of compounds using different solvent systems
CO6:Theories of indicators

CO1: Understand the of matrices and vectors matrix notations, reducible representation and their relation, applications of group theory
CO2: Learn regarding quantum mechanics, angular momentum, understanding the solution of Schrodinger equation, Different types of operators and their uses
CO3: Learn different types of inorganic reaction mechanism, acid hydrolysis, base hydrolysis . conjugate base mechanism their synthetic application
CO4: Understand the introduction and classification of metal clusters, electron counting scheme for HNCCS and Wade’s rule and their synthetic application

CO1: Understand basics analysis of Inorganic mixtures.
CO2: Identify anions by dry test of the mixture.
CO3: Separation of each anions by group test from mixture.
CO4: Identify each cation and confirm it by confirmative test.
CO5:Understand different methods of Preparations of inorganic salts.
CO6:Appreciate good laboratory practices.

CO1: Understand generation of reactive intermediates, their mechanism, rearrangement based on each intermediate, application of reactive intermediate in organic synthesis and industries application.
CO2:Recognise pericyclic reactions, understanding of thermal and photochemical reaction, determination of mechanistic pathway, symmetry properties, aromaticity based on mobius method, application of pericyclic reactions in organic synthesis.
CO3:Learn difference between eliminations and addition reaction, concept of anchimeric assistance in various groups like sulphide, halogen, phenyl, hydroxyl, tosylates & mesilates, amino group etc, aromatic nucleophilic substitution through addition elimination, elimination addition, cine substitution and their synthetic application.
CO4: Detect chirallity in moleculer structure, recognize the relationship between enantiomeric and diastereomeric structures, understand & distinguish stereoselective and stereospecific reactions, dynamic resolution, confirmative study of various substituted aromatic and fused aromatic rings and their application inn pharmaceutical industry.

CO1: Understand basics of separation of organic tertary mixtures.
CO2: Identify and chemical nature of mixture.
CO3: Separate of each component from mixture.
CO4: Identify each component through their functional group test, elemental analysis and M.P/BP.
CO5: Purify the compounds using different techniques including distillation, crystallization etc.
CO6: Record physical constants for individual compounds.
CO7: Appreciate good laboratory practices.

CO1: Students learn thermodynamic terminology, fundamental thermodynamic properties, properties of solution, fundamental knowledge assist student to understand related topic in next semester.
CO2: Understand kinetics of different types of reaction. Understand the factors responsible for behaviour of different kind of chemical reaction
CO3: Learn relation between quantum chemistry and statistical thermodynamics. Understand basic terminology and their application in calculation of thermodynamic function.
CO4:Understand the method for synthesis of polymer and their characterization

CO1: Understand preparation of solutions.
CO2: Qualitative analysis of compound
CO3:calculate the concentration of unknown solution by pH, potentiometer and colorimeter
CO4:Understand behaviour of surfactant and polymer
CO5:Separation of solvent using phase diagram

CO1: Understand the basic concept of electromagnetic radiation and their interaction with the matter and use of UV-Visible spectrophotometer in structure identification and quantitative determination.
CO2:Recognize the use of different stationary and mobile phase for the separation of organic molecule and identify the problems and their solution during the analysis and learn the use of the chromatography for those whose don’t identified by the techniques.
CO3:Learn difference between different types of errors observed during analysis and use of statistical treatment of data. Also learn to accept and reject the data with help of different type of tests.
CO4:Use of the thermometric techniques when the other methods are failed. The requirement of the techniques and identified the problems arise during the analysis.