a.  sugar
                         b.  ethanol
                         c.  sodium chloride
                 iii.   Surface  tension  of  pure  solvents,  analysis  of  mixtures  of  two  miscible  solvents,
                       verification of Gibb‘s Thomson Rule of surface tension.
                 2.  Partition  –  Coefficient:  Determination  of  partition  –  coefficient  for  I2  and  benzoic  acid
                    between two immiscible solvents.
                 3.  Adsorption  Measurements:  Verification  of  Freundlich  adsorption  isotherm  for  I2,  and
                    acetic acid on charcoal.
                 4.  Colloidal  Solution:  Preparation  of  sol  solution  of  arsenic  sulphide  and  estimation  of
                    flocculation value for NaCl, KCl, BaCl 2, AlCl 3.
               SUGGUESTED READINGS:

                 1.  Young R.J. and Lovell P.A., Introduction to Polymers, Pubs: Chapman and Hall, London, 2nd
                    ed., New Delhi (2004).
                                                                                                rd
                 2.  Billmeyer F.W. Jr., Text book of polymers science, Pubs: Wiley-Interscience, 3  edn.,(1984).
                 3.  Myers D., Surfactant Science and Technology, Pubs: VCH Publishers (1988).
                 4.  Flory P.J., Principles of polymer chemistry, Pubs: Cornell Univ. Press, (Indian Print 2006).
                 5.  Tager A, Physical Chemistry of polymer, Pubs: Mir Publishers, Moscow (1971).
                 6.  Hunter  3.  R.J.,  Foundations  of  Colloid  Science,  Vols.  I  &  II,  Pubs:  Oxford  Science
                    Publications (1989).
                 7.  Rosen M.J., Surfactants and Interfacial Phenomena, Pubs: John Wiley & Sons (1989).



               HIGHER & APPLIED AREA LEVEL COURSES:




               Chem.414                   Advanced Organometallics                                     (3+1)

               LEARNING OBJECTIVES:

               Objectives of this course are:
                     to provide knowledge about the bonding and fluxionality in organometallic compounds of
                       transition elements.
                     to explain homogeneous transition metal catalysis
                     to give information about metal-metal bonding in metal clusters.

               LEARNING OUTCOMES:


               The student will be able to
                     get information about different aspects the metal-carbon multiple bonded organometallic
                       compounds and their different applications
                     apply knowledge of homogeneous transition metal catalysis to explain hydrogenation of
                       organic compounds.
                     Explain important homogeneous catalytic reactions and their utility in organic synthesis.



               THEORY (45 Hours)

               UNIT-I                                                                             (12 Hours)
               Organometallic Compounds of transition elements: Types of ligands and their classifications
               in organometallic compounds, 16 and 18 electron rule and its limitations. Hapto-nomenclature,



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