CH – 101-ENGINEERING CHEMISTRY |
PART – A |
1. WATER AND ITS TREATMENT: Specifications of water for different uses, water
for domestic uses, different method of water softening , boiler feed water,
desalination of water.
2. CORROSION AND ITS PREVENTIONS: Corrosion, different types corrosion
like wet corrosion, dry corrosion, atmospheric corrosion, soil corrosion, protective
measure against corrosion, other forms of corrosion.
3. CHROMATOGRAPHYY: Introduction to chromatography, classification of
chromatographic separation methods, liquid chromatography, flow diagram of LC
instrument, instrumentation, types of liquid chromatography, general and
fundamental concepts of chromatography, chromatographic development.
Applications
4. ELECTROCHEMISTRY: Electrochemical series, Nernst’s equation for electrode
potential and cell EMFF, varieties of cell-concentration and chemical cells, liquid
junction potential, thermodynamic functions from cell EMF measurements, acid-base
titrations, redox titrations, redox indicators, over voltage.
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PART-B |
5. PHTOCHEMISTRY: Laws of photochemistry, quantum yield, primary and
secondary photochemical processes, Kinetics of photochemical reactions,
photosensitized reactions, fluorescence and phosphorescence, masers and lasers,
photosynthesis, oxygen liberation and carbon dioxide consumption in photosynthesis,
various theories of mechanism of photosynthesis.
6. MOLECULAR SPECTROSCOPY: Experimental techniques for analysis,
intensities and line widths, Infrared Spectroscopy, Ultra-violet and Visible
spectroscopy, Franck – Condon principle.
7. MAGNETIC RESONANCE SPECTROSCOPY: Principles of magnetic
resonance, information in NMR, spin-spin relaxation, spin-lattice relaxation, number
of signals, chemical shift, spin-spin coupling, NMR spectrum at more than one radiofrequency,
double resonance, deuterium exchange reactions nuclear overhauser
effect, MRI and other applications of NMR, preliminary introduction to 13C NMR.
Introduction to ESR spectroscopy, number of signals, hyperfine structures,
applications.
8. PHASE EQUILBRIA : Phase boundaries, phase diagrams of one component
system- Water, carbon, helium and carbon dioxide, two component systems-leadsilver.
Potassium iodide-water, phenol-water, triethylamine-water and nicotine-water,
mixture of volatile liquids. Thermodynamic description of mixture colligative
properties.
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TEXT BOOKS |
1. Atkins P.W., The Elements of Physical Chemistry, Oxford University Press
2. Sud, Dhiraj, Comprehensive Engineering Chemistry, Kataria Publishers
3. Sharma,Y.R., Elementary Organic Spectroscopy.
4. Jain & Jain, Engineering Chemistry, Dhanpat Rai Publishing Company.
5.Sharma, B.K, Engineering chemistry
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REFERENCE BOOK |
1. Atkins, P.W. Physical Chemistry, Oxford ELBS
2. Rao, C.N.R, Chemical Application of Infra-red Spectroscopy, Academic Press, New York.
3. Bellamy, L.J, The Infra-red spectra of complex molecules,Wiley
4. Rao, C.N.R, Ultra violet and visible spectroscopy-Chemical Applications, Plenum Press.
5. Rohatgi, Fundamentals of Photo Chemistry.
6. Glasstone, An Introduction to Electrochemistry
7. Banwet,C.N, Fundamentals of Molecular Spectroscopy.
8. Kuericase, J.C & Rajaram J, Chemistry in Engineering & Technology, Vol.I & II, Tata McGraw Hill
1. Kuriacose J.C. & Rajaram J., Chemistry in engineering & Technology, Vol . I & II
Tata McGraw – Hill
2. Gurdeep Chatwal., photpchemistry
3.Banwell, C.N., Molecular Spectroscopy., Mc Graw-Hill
4. Morrison & Boyd, Organic Chemistry., Prentice Hall
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