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Assessment Weightage:
SIC2018 ORGANIC CHEMISTRY II Continuous assessment: 40%
Final examination: 60%
Nucleophilic addition, nucleophilic acyl substitution, oxidation and
reduction.
SIC2021 PRACTICAL OF PHYSICAL CHEMISTRY II
Organometallic reagents in organic synthesis.
Thermodynamical properties of liquid-vapour phase equilibrium,
Chemistry of enols and enolates: Acidity of the α-hydrogen, heat of neutralisation, determining activity coefficients via emf
-keto-enol tautomerism; halogenation and alkylation, regioselective measurements, ionic transport numbers, partial molar properties of
enolate formation: formation of aldols and enamines as enol solutions, kinetics of chemical reaction, determination of mean
equivalents. Conjugate addition. Chemistry of amines; chirality of activity coefficient and solubility of potassium hydrogen tartarate
nitrogen atom, reactions of amines. (KHT) in aqueous solution.
Introduction to biomolecules: carbohydrates, amino acids, peptides Assessment Weightage:
and proteins, nucleic acids and lipids. Continuous assessment: 100%
Final examination: -
Assessment Weightage:
Continuous assessment: 40%
Final examination: 60% SIC2022 ANALYTICAL CHEMISTRY I
Introduction
SIC2019 PRACTICAL OF ORGANIC CHEMISTRY II Classical analysis, concentration systems/units, sampling in
analysis.
Organic synthesis & natural product extraction; Application of metal
reagents in organic synthesis; Data Treatment
Precision and accuracy, statistical methods for error analysis,
Application of qualitative elemental analysis, functional group tests, population and sampling, confidence limits, measurement
spectroscopy and small-scale chemical conversion for the uncertainty, significant figures, test for mean, rejection of analytical
identification of organic compounds. data.
Assessment Weightage: Complexometric titration
Continuous assessment: 100% EDTA complexometric titrations, back titration, metal indicators,
Final examination: - masking agent.
Spectrometry
SIC2020 PHYSICAL CHEMISTRY II Interaction of light energy between atoms and molecules;
quantitative aspects of absorption. Molecular spectrometric
Part A: Quantum Chemistry techniques – UV / Visible, IR, NIR; dispersion, absorption,
Harmonic oscillator and vibrational motion, angular momentum and fluorescence and emission. Spectrophotometric instruments;
rotational motion; Electronic structures of hydrogen-like atoms and Atomic emission spectroscopy and atomic absorption spectrometry:
many-electron atoms, approximation methods for many electron An introduction uses of spectrophotometry. Separation Methods
atoms–neglect of electron-electron repulsion, perturbation theory Introduction to the theory and process of separation in GC and
and variation methods, independent particle approximation, Pauli HPLC, ion exchange chromatography, solvent extraction, partition
principle, Aufbau principle, Hund's rules, Slater determinant, coefficient, multiple extraction, efficiency.
Hartree-Fock self-consistent field method, molecular Hamilton
operator, Electronic structure of molecules: Born-Oppenheimer
approximation, molecular orbital theory, valence-bond theory,
Huckel molecular orbital theory.
Electroanalytical Chemistry
Quantitative analysis – standard addition technique and internal
Part B: Chemical Kinetics standard technique; Potentiometry – indicator and reference
Introduction to reaction rate theory. Collision between molecules, electrode, pH glass electrode, ion selective electrodes.
gas transport phenomenon. Collision theory of uni-, bi- and
termolecular gas reactions. Complex reactions. Assessment Weightage:
Practical: 30%
Part C: Chemical Thermodynamics Continuous assessment: 20%
Second law of thermodynamics. Thermodynamic properties of Final examination: 50%
multicomponent mixtures. Equilibrium of chemical reactions. Phase
equilibrium: phase transition and classification; phase rule, phase
diagram for multicomponent system (liquid-vapour, liquid-liquid and SIC2023 MOLECULAR SPECTROSCOPY
liquid-solid) and applications.
Basic Spectroscopy. Vibrational, Rotational, Electronic and Nuclear
Part D: Macromolecules Magnetic Resonance (NMR) Spectroscopy
Introduction to macromolecules and polymers. Kinetics of free
radical polymerisation. Distribution and determination of molecular Components in a spectrophotometer, experimental setup of Fourier
weights. Solubility and conformation of polymers. Transform. Rotational, vibrational and rotational- vibrational
