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halides, boron chemistry, carbides, fullerenes, halogens. d-block Elements: Transition metals, coordination compounds, metal-
ligand bonding;
References:
5. A. Bahl, S. S. Bahl, G. D. Tuli, Essentials of Physical Chemistry, S. Chand, 2016.
6. P. Atkins and J. de Paula, Atkins’s Physical Chemistry, Oxford University Press, NY, 2010.
7. J. D. Lee, Concise Inorganic Chemistry, Blackwell Science, 2008.
8. J. E. Huheey, E. A. Keiter & R. L. Keiter, Inorganic Chemistry: Principles of Structure and Reactivity, Pearson India, 2008.
CY1238: INORGANIC CHEMISTRY LABORATORY [0 0 2 1]
Inorganic: Qualitative analysis of inorganic salts, volumetric analysis of inorganic mixtures, synthesis of transition metal complexes.
Reference:
1. A. K. Nad, B. Mahapatra, & A. Ghoshal, An Advanced Course in Practical Chemistry, New Central Book Agency, 2011.
PY1261: ELECTROMAGNETISM [3 1 0 4]
Electric Field and Electric Potential: Electric field and lines, electric flux, Gauss’s law, Gauss’s law in differential form, calculation of E
due to various charge distribution, electric potential difference and electric potential V, potential and electric field due to various
charge distribution force and torque on a dipole, conductors in an electrostatic field, description of a system of charged conductors,
an isolated conductor and capacitance, electrostatic energy due to various charge distribution. Electric Field in Matter: Dielectric
constant, parallel plate capacitor with a dielectric, polarization charges and polarization vector, electric susceptibility, Gauss’s law in
dielectrics, displacement vector D, relations between the three electric vectors, capacitors filled with dielectrics. Magnetic Effect of
Currents: Magnetic Field B, magnetic force between current elements and definition of B, magnetic flux, Biot-Savart’s law:
calculation of B due to various charge distribution, magnetic dipole and its dipole moment, Ampere’s Circuital law, B due to a
solenoid and a toroid, curl and divergence of B, vector potential. forces on an isolated moving charge, magnetic force on a current
carrying wire, torque on a current loop in a uniform magnetic field, Gauss’s law of magnetism, magnetic intensity (H), relation
between B, M and H, stored magnetic energy in matter, B-H curve, Faraday’s law, Lenz’s law, self and mutual induction, single
phase transformer, energy stored in a magnetic field, potential energy of a current loop. Ballistic Galvanometer: Current and charge
sensitivity, electromagnetic damping, logarithmic damping, critical damping.
References:
1. D. J. Griffiths, Introduction to Electrodynamics, PHI learning, 2015.
2. E. M. Purcel, Electricity and Magnetism, Tata McGraw-Hill Education, 2011.
3. J. H. Fewkes, J. Yarwood, Electricity and Magnetism, Oxford University Press, 1991.
4. D. C. Tayal, Electricity and Magnetism, Himalaya Publishing House, 2014.
5. M. Alonso, E. Finn, Physics, Addison-Wesley, 2000.
6.
GE – II (B) & LAB
MA1241: APPLIED STATISTICS [2 1 0 3]
Demand Analysis: Laws of demand and supply, price and supply elasticity of demand, partial and cross elasticity of demand, income
elasticity of demand, utility function, methods of determining demand and supply curves from family budget and time series date,
Leontief’s method, Pigou’s method, Engel curve and its different forms, Pareto’s law of income distribution, curves of
concentration, Index Numbers: Introduction and their construction, Laspeyer’s, Paashce’s, Marshall –Edge Worth and Fisher’s index
numbers, tests for index numbers, uses of index numbers, price, quantity and value relatives, link and chain relatives, chain base
index numbers, cost of living index numbers; Time Series: Analysis of time series, components of time series, trend measurement
by mathematical curves, polynomial, growth curves, moving average method, Spencer’s formulae, Effect of elimination of trend on
other components of time series, variate difference method and its use for estimation of variance of the random component,
measurement of seasonal fluctuations measurement of cyclical component, periodogram analysis; Statistical Quality Control:
Control charts for variable and attributes, acceptance sampling by attributes- single, double, multiple and sequential sampling
plans, concepts of average outgoing limit (AOQL), acceptable quality limit (ATI), acceptance sampling by variables-use of Dodge-
Romig and other tables.
References:
rd
1. S.C. Gupta and V.K Kapoor, Fundamentals of Applied Statistics, Sultan Chand and Co., 3 edition, New Delhi, 2008.
2. P. Mukhopadhyay, Mathematical Statistics, Books & Allied (P) Ltd., 2009.
3. D.C. Montgomery, Introduction to Statistical Quality Control, Wiley India Ltd., New Delhi, 2009.
4. A.M. Goon, M.K. Gupta and B. Das Gupta, Fundamentals of Statistics, Vol.-2, 2001.
5. P. Mukhopadhyay, Fundamental of Statistics, Vol.-2, 1999.
6. B.L. Agarwal, Basic Statistics, Wiley India Ltd., New Delhi, 2012.
MA1231: LAB ON APPLIED STATISTICS [0 0 2 1]
The following practical will be performed using statistical software: Trend analysis by using method of semi-averages, method of
curve fitting, method of moving average, Spencer’s 15 - point and 21 point – formulas, computation of seasonal variation indices by
using ratio to trend method, ratio to moving average method, link relative method, measurement of cyclical component,
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