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PRACTICAL (30 Hours)


                 1.  Qualitative  Analysis:  Separation,  purification,  and  identification  of  binary  mixture  of
                    organic compounds by chemical tests.
                 2.  Organic Synthesis:
                   29. Acetylation: - Acetylation of cholesterol and separation of cholesteryl acetate by column
                       chromatography.
                   30. Oxidation: Adipic acid by chromic acid oxidation of cyclohexanol.
                   31. Grignard reaction: Synthesis of triphenyl methanol from benzoic acid.
                   32. Aldol condensation: Dibenzal acetone from benzaldehyde.

                SUGGUESTED READINGS:

                 1.  Finar l. L, Organic Chemistry, Vol.1, 2, Pubs: ELBS (1994).
                 2.  Nicolaou K.C. and Sorensen E.J., Classics in Total Synthesis, Pubs: VCHN.Y.(1986).
                 3.  Nicolaou K.C. and Synder, S.A.Classics in Total Synthesis II, Pubs: VCH N.Y.(2003).
                 4.  Akhrem, A.A.Total Steroids Synthesis, Pubs: Plenum Press, New York, (1970)
                 5.  Solomon T.W.G. and Fryhle C.B., Organic Chemistry, 7thEdn., Pubs: John. Wiley & Sons
                    Inc. N.Y. (2000).
                 6.  Manitto P., Biosynthesis of Natural Products, Pubs: Horwood Ltd.(1981).
                 7.  Padwa, A. Org. Lett. 2007, 9(2), 279-282
                 8.  Macroscale and Microscale Organic Experiments, K.L. Williamson, D.C.Heath.
                 9.  Systematic Qualitative Organic Analysis, H.Middleton, Adward Arnold.
               10.  Handbook of Organic Analysis-Qualitative and Quantitative, H.Clark, Adward Arnold.
               11.  Vogel‘s Textbook of Practical Organic Chemistry, A.R. Tatchell, John Wiley.
               12.  Experiments  and  Techniques  in  Organic  Chemistry,  D.Pasto,  C.  Johnson  and  M.Miller,
                    Prentice Hall.

               Chem.413                   Statistical Thermodynamics and Quantum Chemistry  3+1

               LEARNING OBJECTIVES:

               Objectives of this course are:
                     to teach the fundamental concepts of statistical thermodynamics and quantum chemistry.
                      to provide basic knowledge about applications of quantum chemistry

               LEARNING OUTCOMES:


               The student will be able to
                     to understand the concepts of quantum chemistry
                     to  apply  knowledge  gained  through  the  course  to  fundamental  structure  of  atoms  and
                       molecules.

               THEORY (45 Hours)

               UNIT-I                                                                             (11 Hours)

               Statistical  Thermodynamics:Basic  Terminology:  probability,  phase  space,  micro  and  macro
               states, thermodynamic probability, statistical weight,
               assembly, ensemble, The most probable distribution: Maxwell-Boltzmann distribution, quantum
               statistics:  The  Bose-Einstein  statistics  and  Fermi-  Dirac  Statistics.  Thermodynamic  probability
               (W)  for  the  three  types  of  statistics.  Lagrange‘s  undetermined  multipliers.  Stirling‘s
               approximation, Molecular partition function and its importance.




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