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M.Sc. Chemistry Sem-II (NEP 2020) ❯
| Class | Course | Outcomes (Students will be able to) |
|---|---|---|
| Sem-II Mandatory Course - I Theory Paper - I |
CHEM 647 Inorganic Chemistry-II |
CO1. : The learners will be able to learn ligand substitution reactions of Octahedral and Square planar complexes, Trans effect and factors affecting these substitution reactions. CO2. : The learners will be able to understand the 18 e- and 16 e- electron square planar complexes by studying different examples. They will also learn the preparation and properties of a few selected compounds including sandwich compounds of Fe, Cr. CO3. : The learners will understand the structure and bonding of a few inorganic compounds like Ziese’s salt, ferrocene and bis(arene)chromium(0). CO4. : The learners will understand the occurrence and effect of toxic metals like Pb, As, Cu, Cd, and Hg on the environment, the different diseases caused by poisoning of metals and the impact these metals have on the living organism. CO5. : The learners will be familiar with the role of Inorganic chemistry in Biological systems, understand the structure of various biological oxygen carriers and molecules involved in electron storage and transport. |
| Sem-II Mandatory Course - II Theory Paper - II |
CHEM 509 Organic Chemistry - II |
CO1. : Recognise the type of mechanism & intermediates involved in the given organic reaction and to prove mechanism for the reaction. CO2. : Identify the ways to modify aliphatic and aromatic compounds via Nucleophilic substitution reactions. CO3. : Predict the mechanism and stereochemistry of important organic reactions. CO4. : Understand and write the mechanism of rearrangement reactions with stereochemistry and its applications. CO5. : Understand the HOMO-LUMO concept and it significance in organic chemistry. CO6. : Understand the basic principle and concepts in UV and IR spectroscopy. CO7. : Understand the basic concepts of 1H, 13C NMR, and mass spectroscopy. CO8. : Understand how 1H, 13C NMR and Mass spectroscopy are important for the structure determination of organic compounds. |
| Sem-II Mandatory Course - III Theory Paper - III |
CHEM 510 Analytical Chemistry-II |
CO1. : Able to compare the advantages/disadvantages of SEM, STM and TEM. CO2. : Able to develop different techniques to separate the components of mixture. CO3. : Conversant with basic principles and theories of mass spectrometry. CO4. : Able to apply the electroanalytical methods to sample under consideration. CO5. : Able to elaborate on electrogravimetry and coulometry techniques. |
| Sem-II Mandatory Course Practical |
PRCHEMOA 511 Chemistry Practical-I (Organic Chemistry and Analytical Chemistry) |
CO1. : Learn determination of chemical types of different organic binary mixture. CO2. : Learn to separate solid organic binary mixtures on the basis of solubility. CO3. : Learn to purify the separated organic compound by recrystallization technique. CO4. : Learn charachterization steps of organic compounds. CO5. : Handle and get familiar with SOP's of instruments like potentiometer, conductivity meter, colorimeter and spectrophotometer. CO6. : Understand the concept of complexometric titrations and factors enhancing selectivity of EDTA as a titrant. CO7. : Apply the theory of FES to fertilizers analysis. CO8. : Develop scientific temperament and research-based skills accomplish to encountered in the field of research. |
| Sem-II Elective–I Theory |
CHEM 50711 Physical Chemistry-III |
CO1. : To learn the concept of quantum chemistry and able to solve problems related to 1D box, 2D box, 3D box and to explain the role of operators in quantum chemistry. CO2. : To understand the use of Schrodinger wave equation in one and two electron systems along with applications of HMO. CO3. : To develop the skill to solve the problems based on chemical thermodynamics, molecular dynamics and quantum Chemistry. CO4. : To apply the concept of Jablonski mechanism in photochemical reactions. |
| Sem-II Elective–I Practical |
CHEM 50711 Chemistry Practical (Physical and Inorganic Chemistry) |
Physical Chemistry CO1. : To use the concept of quantum chemistry to interprete the shape and information about the orbitals like 1s, 2pz and 3dz2. CO2. : To apply the subject fundamentals-principles with practical knowledge to design experiments, analyze and interpret data so as to reach to proper conclusions. CO3. : Learner will train to handle the sophisticated instrument like digital potentiometer, conductivity meter, spectrophotometer. Inorganic Chemistry CO1. : The learners will characterize different coordination compounds with the help of conductivity measurements, electronic and magnetic measurements and spectroscopic measurements. CO2. : Able to calculating the equilibrium constant for Fe3-/SCN1- by slope intercept method. CO3. : Able to determine the electrolytic nature of some inorganic compounds by conductance measurements. |
| Sem-II Elective–II Theory |
CHEM 50712 Physical Chemistry-IV |
CO1. : To develop the skill to solve the problems based on molecular dynamics and quantum Chemistry. CO2. : Learners will able to distinguish between competitive, Noncompetitive and Uncompetitive Inhibition in enzyme-catalysed reactions. CO3. : Learners will get knowledge of advanced chemical kinetics and molecular dynamics. CO4. : Leathers will able to use advanced concepts of chemical thermodynamics in chemical reactions. |
| Sem-II Elective–II Practical |
CHEM 50712 Chemistry Practical (Physical and Inorganic Chemistry) |
Physical Chemistry CO1. : To use the concept of quantum chemistry to interprete the shape and information about the orbitals like 1s, 2pz and 3dz2. CO2. : To apply the subject fundamentals-principles with practical knowledge to design experiments, analyze and interpret data so as to reach to proper conclusions. CO3. : Learner will train to handle the sophisticated instrument like digital potentiometer, conductivity meter, spectrophotometer. Inorganic Chemistry CO1. : The learners will characterize different coordination compounds with the help of conductivity measurements, electronic and magnetic measurements and spectroscopic measurements. CO2. : Able to calculating the equilibrium constant for Fe3-/SCN1- by slope intercept method. CO3. : Able to determine the electrolytic nature of some inorganic compounds by conductance measurements. |
| Sem-II OJT/FP |
CHEM 512 Industrial Training/Field Project |
CO1. : Understand the Organizational Structure of a company. CO2. : Develop work habits and attitudes necessary for job success (technical competence, professional attitude, organization skills etc.). CO3. : Develop written communication and technical report writing skills. |
M.Sc. Chemistry Sem-III (NEP 2020) ❯
| Class | Course | Outcomes (Students will be able to) |
|---|---|---|
| Sem-III Mandatory Course - I Theory Paper - I |
CHEM 502 Inorganic Chemistry-I |
CO1. : The learner will know the important fundamental concept of Group Theory, which helps them in understanding the properties and bonding in polyatomic molecules. CO2. : The learner get the knowledge about the various techniques used for Characterization coordination compounds. CO3. : The learners develops the skill in interpretation of the spectra. CO4. : The learners will get comprehensive idea about established instrumental techniques and Significant characterization tools available to study inorganic complexes having wide applications in industries. |
| Sem-III Mandatory Course - II Theory Paper - II |
CHEM 503 Organic Chemistry - I |
CO1. : predict the reactivity of organic compound from its structure. CO2. : understand different methods used for determination of Organic Reaction Mechanism CO3. : understand the fundamental concept in stereochemistry by applying various symmetry elements of organic molecule. CO4. : acquire the knowledge of chirality by taking examples of symmetrical and unsymmetrical molecule. CO5. : develop interest in stereochemistry by studying stereochemical features of different classes of organic compounds CO6. : identify the nomenclature of various stereochemical phenomena CO7. : organize the techniques of aromatic nucleophilic substitution reactions for synthesizing/transforming molecules. CO8. : understand the concept of aromaticity and to know the nature of bonds, electronic effects and other properties of molecules. CO9. : understand the preparation of important oxidizing reagent and predict the selectivity of the reagents in organic reactions. CO10. : explain the preparation and uses of important reducing reagents in various organic transformation reaction. |
| Sem-III Mandatory Course - III Theory Paper - III |
CHEM 505 Analytical Chemistry-I |
CO1. : Understand various terms used in analytical chemistry. CO2. : Identify the different types of errors in analysis. CO3. : Sketch out the role and importance of total quality management, safety, accreditations and GLP in industries. CO4. : Understand the efficacy of automation in chemical analysis. CO5. : Design and specify applications of advanced analytical techniques in various fields. CO6. : Explore the applications of IR spectroscopy and thermal methods. CO7. : Perform basic calculations required in chemical analysis CO8. : Interpret the experimental results of analytical techniques. transformation reaction. |
| Sem-III Mandatory Course Practical |
CHEM 504 Chemistry Practical-I (Organic and Analytical Chemistry) |
CO1. : Carry out one step preparation in laboratory with basic understanding of stoichiometry CO2. : Evaluate the process and outcomes of an experiment quantitatively and qualitatively 3. Check purity of product using thin layer chromatography CO3. : handle and get familiar with SOP's of instruments like potentiometer, conductivity meter, colorimeter and spectrophotometer. CO4. : understand the concept of non-aqueous titrations and apply it in analysis of samples. CO5. : apply the theory of redox reactions to experimental systems. CO6. : separate the component of interest from the matrix. CO7. : develop scientific temperament and research-based skills accomplish to encountered in the field of research |
| Sem-III Elective - I Theory |
CHEM 50111 Physical Chemistry-I |
CO1. : The learners will apply the advanced thermodynamics, Maxwell equation and its applications to ideal gasses. CO2. : The learners will implement the applications of chemical thermodynamics to real gases, solutions, surfaces and their energetics. CO3. : The learners will understand the applications of operators and Schrodinger equation in the field of quantum Chemistry. CO4. : The learners will try to accomplish a solution to problems encountered in the field of research. |
| Sem-III Elective - I Practical |
CHEM 50111 Chemistry Practical (Physical and Inorganic Chemistry) |
Physical Chemistry CO1. : To Gain knowledge of the advanced concepts in pH metry, quantum mechanics, potentiometry and conductometry experiments. CO2. : To understand advance concept of thermodynamics and chemical kinetics in the chemical reactions. CO3. : To develop scientific temper and research based skills accomplish to encountered in the field of research. CO4. : To usage of subject fundamentals-principles with practical knowledge to design experiments, analyze and interpret data so as to reach to proper conclusions. CO5. : Learner will train the handling of equipments like potentiometer, conductivity meter, colorimeter and spectrophotometer. CO6. : Learner will develop scientific temper and research based skills accomplish to encountered in the field of research. Inorganic Chemistry CO1. : To apply basic concepts of separation and estimation of metals ions from constituent ores/alloys effectively using chemical analysis CO2. : To gain knowledge of employing instrumental techniques for quantitative analysis. CO3. : The learner can able to analyze structure, reactivity and reaction mechanisms of coordination compounds. CO4. : It explains various methods, concepts, highlights on effect of environment on human beings. CO5. : Will able to understand Commercial applications of novel materials in synthesis of compounds. |
| Sem-III Elective - II Theory |
CHEM 50112 Physical Chemistry-II |
CO1. : The learners evaluate the different theories of chemical kinetics and effect of temperature on reaction rates. CO2. : The learners will understand the applications of chain reactions in the field of Polymer Chemistry. CO3. : The learners will evaluate the resting membrane potential by using the concept of bio electrochemistry. CO4. : The learners will try to accomplish a solution to problems encountered in the field of research. |
| Sem-III Elective - II Practical |
CHEM 50112 Chemistry Practical (Physical and Inorganic Chemistry) |
Physical Chemistry CO1. : To Gain knowledge of the advanced concepts CO2. : To understand advance concept of thermodynamics and chemical kinetics in the chemical reactions. CO3. : To develop scientific temper and research based skills accomplish to encounter in the field of research. CO4. : To usage of subject fundamentals-principles with practical knowledge to design experiments, analyze and interpret data so as to reach to proper conclusions. CO5. : Learner will train the handling of equipments like potentiometer, conductivity meter, colorimeter and spectrophotometer. CO6. : Learner will develop scientific temper and research based skills accomplish to encountered in the field of research. Inorganic Chemistry CO1. : To apply basic concepts of separation and estimation of metals ions from constituent ores/alloys effectively using chemical analysis CO2. : To gain knowledge of employing instrumental techniques for quantitative analysis. CO3. : The learner can able to analyze structure, reactivity and reaction mechanisms of coordination compounds. CO4. : It explains various methods, concepts, highlights on effect of environment on human beings. CO5. : Will able to understand Commercial applications of novel materials in synthesis of compounds. |
| Sem-III Research Methodology |
CHEM 506 Research Methodology |
CO1. : To enable the student to be able to extract information from journals and digital resources. CO2. : Understanding tools to analyse the data, writing and presenting scientific papers. CO3. : Safe working procedure And ethical handling of chemicals. CO4. : Describe research, identification of research problems, and preparation of proposals. CO5. : Practice ethics in all the domains of research. CO6. : Analyze the results using mathematical and statistical tools. |
MSC Chem Sem-I (NEP 2020) ❯
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