CHEMISTRY

                                                 (DISCIPLINE – C)




               DISCIPLINE SPECIFIC COURSES:



               Chem.111                   Atomic Structure & Chemical Bonding                            3+1

               LEARNING OBJECTIVES:


               Objectives of the course are:
                       To review the structure of the atom, as it is a necessary pre-requisite in understanding
                         the nature of chemical bonding in compounds.
                       To  discuss  the  periodicity  in  properties  with  reference  to  the  s  and  p  block,  this  is
                         necessary in understanding their group chemistry.
                       To provide basic knowledge about different types of bonding present between atoms or
                         ions.


               LEARNING OUTCOMES:

               The students will be able to:
               ● Solve the conceptual questions related to quantum numbers, electronic configuration, radial and
               angular distribution curves, shapes of s, p, and d orbitals, and periodicity in atomic radii, ionic
               radii, ionization enthalpy and electron affinity of elements.
               ● Predict the geometries of molecules using radius ratio rules, VSEPR theory and MO diagrams
               (homo- & hetero-nuclear diatomic molecules).
               ● Understand the concept of lattice energy using Born-Landé and Kapustinskii equation.
               ● Calibrate the apparatus used in titrimetric analysis and prepare standard solutions for titration.
               ● Understand the theory and application of various acid-base and redox titrations.


               THEORY (45 Hours)

               UNIT-I: Atomic Structure                                                           (15 Hours)
               Recapitulation of concept of atom, Bohr‘s theory & its limitations, atomic spectrum of hydrogen
               atom.de  Broglie  concept  of  dual  nature  of  matter,  Heisenberg‘s  Uncertainty  Principle,  and  its
               significance. Postulates of wave mechanics, Time independent Schrödinger‘s wave equation, well
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               behaved  wave  function,  significance  of  ψ  and  ψ .  Quantum  mechanical  treatment  of  H-  atom,
               Quantum  numbers  and  their  significance.  Normalized  and  orthogonal  wave  functions.  Sign  of
               wave  functions.  Radial  and  angular  wave  functions  for  hydrogen  atom.  Radial  function  plots,
               radial  probability  distribution  plots,  angular  distribution  curves.  Shapes  of  s,  p,  and  d  orbitals,
               Relative  energies  of  orbitals.  Pauli‘s  Exclusion  Principle,  Hund‘s  rule  of  maximum  spin
               multiplicity, Aufbau principle and its limitations.

               UNIT- II: Periodic properties of Elements & Periodic Trends                         (6 Hours)
               Brief discussion of the following properties of the elements, with reference to s- &p-block and
               their trends:
                   a)  Effective nuclear charge, shielding or screening effect and Slater‘s rules
                   b)  Atomic and ionic radii
                   c)  Ionization enthalpy (Successive ionization enthalpies)
                   d)  Electron gain enthalpy



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