syllabus for m.sc
TRANSCRIPT
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8/3/2019 Syllabus for M.sc.
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Semester-IV
Sub. Code. Title
AC 401 : Fertilizers
AC 402 : Biochemistry and Toxicology of Pesticides.
AC 403: Herbicides & Plant Growth Regulators.
AC 404 : Pesticides Residues
Laboratory Courses for Second Year (Semester III & IV)
Course No. Course Marks
AC 004
AC 005
AC 006
Project
Laboratory Course in Pesticides & Agrochemicals I
Laboratory Course in Pesticides & Agrochemicals II
100
100
100
Minimum 50% Practicals rom all units should be completed in semester III
The Project will be allotted in the beginning of third semester and will be
continued during fourth semester. The examination will be conducted at the end
of the year.General Instructions :
1. Each Theory course requires 48 lectures each of one hour ( 4 hrs/ week)
2. Each Practical course requires 144 laboratory periods each of one hour.
3. Teacher should follow syllabus as well as time schedule given in the
syllabus for all topic Variation up 4-5 hours ( more or less ) may be acceptable.
4. Each external examination theory question paper should contain 8
questions of 12 Mark each Students will be asked to answer 5 questions out of 8
questions. Paper setter may consider subparts as [ (a),(b), (c) ] in each question.
5. Question paper should generally be uniformly distributed over thesyllabus.
Examination Pattern ;
Number of Internal Tests and Time duration.
Three internal tests ( per course ) each of 20 Mark and one hour duration
should be conduct as per the test schedule . Total marks out of 40 should be
considered from best two test s marks.
External Examination:
University will conduct external examination at the end of each semester.Each Theory course will have examination of 60 marks ( Duration 3 hours )
Practical examination will be conducted at the end of year (annual ) before
theory examination. Time table for external examinations will be Declan by
Examination section of University well in advance. Project viva will be
arranged after practical examination.
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Standard of Passing:
To pass any course, the candidate has to secure minimum 40% marks in
internal as well external examination.
The candidate failed in internal or external or both examinations shall
have to appear subsequent examinations for that course.
Educational Tour: Educational tour aiming at giving practical exposure to
students is propos once in two years.
In Plant Training : Students are expected to undergo one month practical
training ( at their on Cost ) in relevant industries, The said training is proposed
after III / semester.
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CH-203 : PHYSICAL CHEMISTRY II
CONTENTS
1 Microwave Spectroscopy
2 Infrared Spectroscopy
3 Raman Spectroscopy
4 Electronic Spectroscopy of Molecules
5 The Rates of Reactions
6 The Kinetics of Complex Reactions.
7 Molecular Reaction Dynamics
8 Fast Reactions
CH-203 : PHYSICAL CHEMISTRY II
1 MICROWAVE SPECTROSCOPY :-
The intensity of spectral I nes, the rotation of molecules, the rigid
diatomic molecules, the rigid diatomic molecules intensities of
spectral lines, effect of isotopic substitution, Non rigid rotator,
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spectrum of non-figid rotator, polyatomic molecules; linear
molecules, symmetric top molecules.
Ref 1 Chapter 25 Page : 1- 50 [6]
2 INFRARED SPECTROSCOPY :-
Vibrating diatomic molecules, simple harmonic oscillator,
anharmonic oscillator, Diatomic vibrating rotator, vibration rotation spectrum
of CO2, Breakdown of Bron-Oppenheimer approximation, vibrations of
polyatomic molecules, Fundamental vibrations and their symmetry, overtone
and combination frequenci4es, the influence of rotation on spectra of
polyatomic linear and symmetric top molecules, influence of nuclear spin [7]
3 RAMAN SPECTORSCOPY :-
Quantum and classical theories of Raman effect, Pure rotational
Raman Spectra Linear molecules, Symmetric top molecules,
spherical topmolecules, vibrational Raman Spectral Raman activity
of vibrations Rule of Mutual exclusion, vibrational Raman spectra,Rotational fine structurem structure determination from Raman and
infrared spectroscopy.
Ref 1 Chapter 4 Pages 100 -116 ,119 -121 [5]
4 ELECTRONIC SPECTROSCOPY OF MOLECULES :-
Electronic spectra of diatomic molecules:
Born- oppenhemier approximation vibrational coarse structure,
Intensity of vibrational-electromic spectra, franck-condon principle
Dissociation energy and dissociation products, Rotational fine
structure of electronic vibration transitions the Fortrat diagram,
predissociation.
Raf:- 1 Chapter 6 Page 162 175 [6]
5 THE RATE OF REACTINS:-
Rate laws and rate constants, reactions approaching equilibrium,
consecutive elementary reactions, the variation of concentrations
with time rate determining step, the steady state approximation, Pre-
equilibria, the Michaelis, -Menten mechanism,