Chemistry

NMR spectroscopy for Chemists and Biologists

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This course will start with Basic principles of NMR, walk through the analysis of spectra and demonstrate the application of multidimensional NMR spectroscopy in Chemistry and structural Biology.INTENDED AUDIENCE: M. Sc./ PhD and Scientists working in Pharma and Biophrma IndustriesPREREQUISITES: Under graduate level understanding of Physics and MathematicsINDUSTRY SUPPORT: Biocon, Wockhardt, Aurobindo Biopharma etc

Fundamentals of Particle and Fluid Solid Processing

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The objective of this course is to familiarize students with various industrial operations involving particulate solids and its handling in various unit operations, where fluid-particle interactions are of paramount importance.This course will describe and explain the fundamentals of fluid-particle mechanics, which are essential for the understandings of numerous industrial fluid-solid processes like packed bed operation, fluidization, sedimentation, filtration, separation of solids from fluids,etc.Along with the fundamentals, industrial applications will also be discussed. Even though this course is primarily intended for the UG students of chemical engineering, the course content can certainly form the foundation of courses related to particle technology for UG students of other disciplines including mechanical, civil, pharmaceutical, metallurgy and minerals engineering.INTENDED AUDIENCE: Engineering Students/FacultyPREREQUISITES: Fluid MechanicsINDUSTRY SUPPORT: Process industries, e.g., IOCL, HPCL, BPCL, GAIL, ONGC, etc

Ultrafast Optics and Spectroscopy

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Plane wave and phase velocity, Representation of short pulses in time and frequency domain, General construction of laser, Ultrafast Laser System: Oscillator and Amplifier, Gaussian Beam characteristics, Polarization and Birefringence in ultrafast optics, Pulse Measurements in frequency and time domains, Nonlinear Ultrafast Optics: second order, third order, higher order, Dispersion in Ultrafast Optics, Ultrafast Spectroscopy, Ultrafast Dynamics through Conical Intersections, Ultrafast Processes in gas, liquid, and solids INTENDED AUDIENCE: Senior UG, MSc and PhD StudentsPREREQUISITES: NilINDUSTRY SUPPORT: Optic Industries and Spectrometer

Advanced Fluid Mechanics

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This is an advanced course in Fluid Mechanics. The subject Fluid Mechanics has a wide scope and is of prime importance in several fields of engineering and science. Present course emphasizes the fundamental underlying fluid mechanical principles and application of those principles to solve real life problems. Special attention is given towards deriving all the governing equations starting from the fundamental principle. There is a well balanced coverage of physical concepts, mathematical operations along with examples and exercise problems of practical importance. After completion of the course, the students will have a strong fundamental understanding of the basic principles of Fluid Mechanics and will be able to apply the basic principles to analyze fluid mechanical systems.INTENDED AUDIENCE:Mechanical EngineeringChemical EngineeringCivil EngineeringAerospace EngineeringMining EngineeringAtmospheric and Ocean EngineeringPhysicsPREREQUISITES:Basic knowledge of Mathematics and Fluid MechanicsINDUSTRY SUPPORT:Oil Companies (IOCL, SHELL, BPCL and others)Automobile and Aviation companies (GE, AIRBUSTATA Motors and others)

Coordination Chemistry

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It will give an excellent opportunity to study and use the century old Nobel prize winning knowledge of coordination chemistry. The study will also lead to understand the difference between a coordinated ligand and charge balancing ion in a coordination compound. Complexation reactions, stability constants, structures, geometrical and optical isomerism, bonding, reactions and reactivity will be discussed. Color and electronic, and magnetic properties will be delineated with respect to their application in analytical chemistry, industry and medicine. Use of coordination compounds of some precious metal ions will be explained in relation to homogeneous catalysis for the production of useful organic and pharmaceutically important substances.NTENDED AUDIENCE: B. Tech.B. E.M. Sc.B. Engg.PRE-REQUISITES: H. S. +2 levelINDUSTRY SUPPORT: Hindustan Lever Ltd, Ranbaxy, Shell, ONGC, NTPC, SAIL, CIL, Waters, Environment protection agencies, PHE Dept.

El enlace y la nomenclatura en los compuestos químicos

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En este curso aprenderás a predecir el tipo de enlace de un compuesto en base a las características de los elementos que lo constituyen y su relación con las propiedades físicas que manifiesta. Así mismo, podrás deducir qué enlace presenta un compuesto observando sus características y comportamiento. También, sabrás cómo reconocer y nombrar los compuestos químicos inorgánicos y orgánicos más comunes.

Infrared Spectroscopy for Pollution Monitoring

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Nowadays, Infra Red Spectroscopy is the most preferred technique for synthesis and monitoring almost all organic compounds. The course consists of : Introduction to pollution control monitoring, Atomic structure, Introduction to Infra Red Spectroscopy,Interaction of electromagnetic radiation with matter, Instrumentation for Infra Red Spectroscopy, Applications ofInfra Red Spectroscopy for air pollution, organic compounds in the Industrial Effluents,Continuous Monitoring etc.INTENDED AUDIENCE :Chemists and Chemical Engineers, Environmental Engineers, Environmental Scientists, Civil Engineers, Pollution Control Administrators.PREREQUISITES : 10+2 +3years of BE/BSC Basic knowledge of differential calculus and integrationINDUSTRY SUPPORT :Chemical industries, pollution control

Quantum Mechanics and Molecular Spectroscopy

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This course is based on application of quantum mechanics to molecular systems to probe their energy levels. Prior understanding of solutions to the time-independent Schrodinger equation is assumed. The major emphasis of this course is to derive the 'Transition Moment Integral' using semi-classical approach. Further, the relationship between the transition moment integral to experimental observables such as extinction coefficient (from Beet-Lambert law) will evaluated. INTENDED AUDIENCE:Core course for MSc / Elective for PhDPREREQUISITES:Basic understating of Quantum Mechanics / Quantum Chemistry.INDUSTRIES SUPPORT:Not Applicable

Principles and Applications of NMR Spectroscopy

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The objective of the course is to teach the basic aspects of nuclear magnetic resonance (NMR) spectroscopy, which is an important analytical tool in chemical and pharmaceutical industry for the structural characterization of molecules. The topics to be covered will include one-dimensional NMR, Chemical shifts, J-coupling, Interpretation of 1D NMR spectrum, Basics of 2D NMR, Different 2D NMR experiments and their application/interpretation, Application of 2D NMR for assignment of molecules and peptides.

Principles and Applications of NMR Spectroscopy

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The objective of the course is to teach the basic aspects of nuclear magnetic resonance (NMR) spectroscopy, which is an important analytical tool in chemical and pharmaceutial industry for structural characterization of molecules. The topics to be covered will include one-dimensional NMR, Chemical shifts, J-coupling, Interpretation of 1D NMR spectrum, Basics of 2D NMR, Different 2D NMR experiments and their application/interpretation, Application of 2D NMR for assignment of molecules and peptides.INTENDED AUDIENCE :Students of M. Sc and Ph. DPREREQUISITES :Should have studied Chemistry at undergraduate level and Mathematics at least up to 12th StandardINDUSTRY SUPPORT :All pharmaceutical companies (e.g., Reddy's laboratories, CIPLA, Sun Pharma) and R &D laboratories like Hindustan Unilever, Biotech companies (Biocon)

Sr.Secondary : Chemistry (313)

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According to present scheme of school education at Senior Secondary stage, chemistry emerges out as a separate discipline. The present chemistry course has been developed basically around the themes: Why do chemical reactions occur? What is the quantitative relationship among reacting constituents in a chemical reaction? How far and how fast will a chemical reaction proceed under a given set of conditions? Can we predict whether a chemical reaction will occur or not? What is the relation between the structure of a chemical substance and its functions/properties? In what way is a chemical reaction relevant for getting new types of substances and materials for daily life and chemical industries? Some interdisciplinary aspects have also been provided to make the course more meaningful and functional. This Chemistry Course has three parts, I and II consist of theory portion and part III is a practical manual. Part I and II of theory portion has eight modules. Part-I consists of five modules namely as : Some basic concepts of chemistry, Atomic Structure and Chemical Bonding, States of matter, Chemical Energetics, and Chemical Dynamics. Part-II consists of three modules namely: Chemistry of Elements, Chemistry of Organic Compounds, and Chemistry in Everyday Life. Each module is further divided into different lessons. Course Overview Module I Some Basic Concepts of Chemistry Alloted Marks: 04 1. Atoms, Molecules and Chemical Arithmetic Module II Atomic Structure and Chemical Bonding Alloted Marks: 10 2. Atomic Structure 3. Periodic Table and Periodicity in Properties 4. Chemical Bonding Module III States of Matter Alloted Marks: 08 5. The Gaseous State and Liquid State 6. The Solid State 7. Solutions 8. Colloids Module IV Chemical Energetics Alloted Marks: 06 09. Chemical Thermodynamics 10. Spontaneity of Chemical Reactions Module V Chemical Dynamics Alloted Marks: 12 11. Chemical Equilibrium 12. Ionic Equilibrium 13. Electrochemistry 14. Chemical Kinetics 15. Adsorption and Catalysis Module VI Chemistry of Elements Alloted Marks: 18 16. Occurrence and Extraction of Metals 17. Hydrogen and s-Block Elements 18. General Characteristics of the p-block Elements 19. p-block Elements and their Compounds – I 20. p-block Elements and their Compounds - II 21. d-Block and f-Block Elements 22. Coordination Compounds Module VII Chemistry of Organic Compounds Alloted Marks: 18 23. Nomenclature and General Principles 24. Hydrocarbons 25. Compounds of Carbon Containing Halogens (Haloalkanes and Haloarenes) 26. Alcohols, Phenols and Ethers 27. Aldehydes, Ketones and Carboxylic Acids 28. Compounds of Carbon Containing Nitrogen 29. Biomolecules Module VIII Chemistry in Everyday Life Alloted Marks: 04 30. Drugs and Medicines 31. Soaps, Detergents and Polymers 32. Environmental Chemistry Total Marks : 80 CURRICULUM FOR PRACTICAL WORKIN CHEMISTRY 1. Basic Laboratory Techniques 2. Characterization of Chemical substances 3. Preparation of dilute solutions 4. Experiment related to pH change 5. Surface Chemistry 6. Electrochemistry 7. Thermochemistry 8. Chemical Equilibrium 9. Chemical Kinetics 10. Preparation of Inorganic Compounds 11. Preparation of Organic Compounds 12. Chromatography 13. Detection of Elements 14. Characteristic Tests for cabohydrates; fats andproteins and their detection 15. Volumetric Analysis (Quantitative analysis) 16. Qualitative Analysis SCHEME OF PRACTICAL EXAMINATION There will be a practical examination of 20 marks and 3 hours duration. The distribution of marks is as follows. 1. Salt Analysis Alloted Marks: 4 (one cation + one anion) 2. Volumetric Analysis Alloted Marks: 6 (i) write-up in which student may be askedto write brief method, indicator, equation, end point. (ii) Set-up of experiment (iii) Results 3. (i) Detection of elements in an organic compound Alloted Marks: 4 (ii) Detection of functional group OR Setting up of one experiment from experiments at serial number 2 to 10, 12 and 13. 4. Viva-voce Alloted Marks: 3 5. Record book Alloted Marks: 3 TotalMarks: 20 CAREER OPPORTUNITIES AFTER STUDYING CHEMISTRY Chemical sciences (Chemistry) offer access to a wide range of careers. Chemistry is the study of substances, their makeup and applications. In fact it is the study of all materials and is vital to every aspect of our lives. Organic Chemistry, Inorganic Chemistry, Analytical chemistry and Biochemistry are the main branches of chemistry. The career options in chemistry are practically endless! However, employment options depend on how far the education, training and experience taken. A chemistry or biochemistry degree can lead to career paths in professions such as medicine, pharmacology, agriculture, chemical engineering, forensic science, etc. Some of the Important career opportunities after studying chemistry at senior secondary level is as Career opportunities in Petrochemical and Pharmaceutical industries Analytical chemist Clinical biochemist Forensic scientist Chemical development engineer Scientific journalist Toxicologist Teacher/Professor Quality controller Laboratory assistant Research associate/ Research assistant Career opportunities in Plastics and Polymer Industry Career opportunities in Textile Industry Biochemistry Biotechnology.

Quantum Chemistry of Atoms and Molecules

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COURSE OUTLINE : The course introduces students to quantum Chemistry. The syllabus is as follows. Black body radiation. Failure of classical mechanics. Marsden experiment and Rutherford theory. Hydrogen atom spectrum. Bohr Sommerfeld theory. Uncertainty principle. Wave particle duality. Schrodinger equation. Postulates of quantum mechanics. Born approximation. Origin of quantization: Particle in a box, particle in a ring. Hydrogen atom. Atomic orbitals. Many electron atoms. Introduction to spin. Slater determinants. Self consistent fields. Valence bond and molecular orbital theories. Molecular orbitals of homonuclear and heteronuclear iatomic molecules. VSEPR. Molecular orbital and Valence bond approaches to polyatomic molecules. Hybrid orbitals. Huckel theory. Introduction to approximation methods. Scope of further study.

Chemical Energetics, Equilibria and Functional Group Organic Chemistry-I

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This course ‘Chemical Energetics, Equilibria and Functional Group Organic Chemistry-I’ will cater to 2nd semester of CBCS based curricula of B.Sc. Chemistry and B.Sc. Physical Science (Physics, Chemistry and Mathematics) under the paper ‘Chemistry-DSC 2B: Chemical Energetics, Equilibria and Functional Group Organic Chemistry-I’. It will also cater to Generic Elective paper namely ‘Chemical Energetics, Equilibria and Functional Organic Chemistry-I’ of B.Sc. Honours with Chemistry CBCS syllabus.Thus the course will cover following topics:1. Chemical Energetics,2. Chemical Equilibrium,3. Ionic Equilibria,4. Aromatic hydrocarbons5. Alkyl and Aryl Halides6. Alcohols, Phenols and Ethers7. Aldehydes and KetonesThese topics will be covered in 13 weeks with intermediate assignments and will end with the final examination which will take an extra week.

Multiphase Flows

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Multiphase flow reactors are critically important many industries like, chemical, petroleum, petrochemicals, food, pharmaceuticals etc. The performances of these reactors largely depend on the interactions of different phases involved. In this course basic of Multiphase flow along with different flow regime map and pressure drop, and volume fraction calculation will be covered. Further, the interaction between different phases at different scales will be discussed. Modelling methods used for multiphase flow reactors will be covered. Finally, different type of multiphase flow reactors will be introduced and their functioning, advantage and disadvantages and challenges along with future direction of research will be discussed.INTENDED AUDIENCE :Under graduate and post graduate students, professional practitioner in the discipline of Chemical Engineering, Petroleum Engineering, Mechanical Engineering and Energy.PREREQUISITES :NILINDUSTRY SUPPORT :IOCL, BPCL, OIL, HPCL, ONGC