B.E. 2nd Year Second Semester
S. No.	Course Code	Course Name	L	T	P	Total	Credits
1	CH 201	Chemistry I	4	0	0	4	4
2	CH 202	Chemistry Lab.	0	0	3	3	2
3	MA 201 or MA 201H	Mathematics III	4	0	0	4	4
4	EE 203	Department Lab I	0	0	4	4	2
5	EE 204 or EE 204H	Electrical Machines	4	0	0	4	4
6	EE 205 or EE 205H	Electric Energy Systems	4	0	0	4	4
		Total	16	0	7	23	20

Course Name       :               CHEMISTRY I
Course Code        :               CH 201
Credits                  :               4             
 L T P                    :               4 0 0      
Lecture wise breakup                                                                                                                                No. of Lectures
WATER TREATMENT AND ITS ANALYSIS                                                                                             (10)
Boiler feed water and its problems, Water Softening techniques- Internal and external treatment, Domestic Water treatment, Chemical Analysis- Hardness, Alkalinity, Dissolved Oxygen, BOD, COD, Free Chlorine, Sulphates, Chloride ions , Dissolved CO2, TDS, TSS, SS and related numerical problems
METAL TOXICOLOGY                                                                                                                                    (3)
 Biochemical effects of As, Pb, Cd, Hg, CN
POLYMER CHEMISTRY                                                                                                                                (6)
Introduction, Mechanism and methods of polymerisation, Plastics, Rubber and fibres, moulding constituents of plastics. Engineering Polymer- silocone, Epoxy resins, Conducting Polymers and Biopolymers ,Vulcanization & Reclaimation of rubber
SUBSTITUTION REACTIONS                                                                                                                       (6)
Electrophilic aromatic substitution-General mechanism, Effect of mono & multiple substituents on rate and regioselectivity. Nucleophilic aromatic substitution- Diazonium ions, addition-Elimination, Elimination via benzyne formation. Applications in industrially important compounds.
PHASE RULE                                                                                                                                                     (6)
Introduction, Gibbs phase rule and its related terms, One component system- Water system, Carbondioxide and sulphur system. Thermal analysis of one component system. Two component system-Lead- Silver system and cadmium- Bismuth system, and their thermal analysis
TRANSITION METAL COMPLEXES                                                                                                          (6)
Crystal field theory and Crystal field splitting in Octahedral, tetrahedral and Square planar complexes. Organometallic compounds and their applications.
LUBRICANTS                                                                                                                                                     (5)
Functions of lubricant, mechanism, classification, properties and analysis of  Lubricants and related numerical problems
MOLECULAR SPECTROSCOPY                                                                                                                  (8)
IR, UV and NMR Spectroscopy- Principle, instrumentation and applications.BOOK:1.     Chemistry for Environmental Engineering, Clair N Sawyer, Perry McCarty, Gene F, Parkin, Mc Graw Hill Inc. New York.
REFERENCES:
1.     Environmental Chemistry by A.K.De., New Age International(P) Limited, 2006.
2.     Organic Chemistry by Robert Thornton Morrison and Robert Neilson Boyd, 6th Edition 1992, Prentice Hall f India Pvt. Ltd.
3.     Organic Chemistry by Joseph M.Hornback Brooke/Cole Publishing Company U.S.A.
4.     Atkin’s Physical Chemistry by Peter Atkins, Julio de Paula, 7th Edition, Oxford University Press.
5.     Inorganic Chemistry Vth Edition J D Lee 2003 (Chapman & Hall).
6.     A Textbook of Engineering Chemistry by Shashi Chawla, Dhanpat Rai & Co. Pvt. Ltd.
7.     Introductory Polymer Chemistry by G.S.Mishra, John Wiley & Sons, New York, 1993.
8.     Fundamentals of Molecular Spectroscopy, 4th Edition, 1994, by C.N.Banwell, E.M.McCash, McGraw-Hill College.Course Name       :               CHEMISTRY LAB.
Course Code        :               CH 202
Credits                  :               2             
 L T P                    :               0 0 3      
Course Contents :Volumetric analysis- Permanganometric titrations, Acid-Base titrations, Iodometric titrations, Complexometric titrations and Dichrometric titrations, Analysis of lubricants- Viscosity, Flash Point, acid value and degree of penetration, Instrumental techniques for chemical analysis - Conductometric
and potentiometric titrations, Atomic Absorption Spectrophotometer, UV-Visible Spectrophotometric, Preparations-Dye, Drug, Metal Complexes, Polymers.BOOK:1.     Vogel’s a text book of Quantitative Analysis, 6th edition J Mendham, RC Denney, J D Barner, M J K Thomas.
REFERENCES:
1.     Vogel’s Qualitative Inorganic Analysis, 7th Edition by G.Svehla, Pearson Education.
2.     Essentials of Experimental Engineering Chemistry by Shashi Chawla, Dhanpat Rai & Co. (PVT.) LTD. New Delhi.Course Name       :               MATHEMATICS III
Course Code        :               MA 201
Credits                  :               4             
L T P                     :               4 0 0      
Lecture wise breakup                                                                                                                              No. of Lectures
COMPLEX VARIABLES                                                                                                                                 (19)
Demoivre’s theorem with applications, Functions of a complex variable, Separation into real and imaginary parts, Limit, Continuity and Differentiability.                                                                                                                                                         
Analytic functions, Cauchy–Riemann equations, Laplace’s equation, Harmonic functions.                    
Integration in the complex plane, Cauchy’s theorem, Cauchy’s integral formula, Morera’s theorem, Liouville’s theorem.        
Taylor’s series, Laurent’s series, Zeros, Singular points, Residues, Residue theorem , Evaluation of real integrals
PARTIAL DIFFERENTIAL EQUATIONS                                                                                                  (19)
Formation and solution of first order partial differential equations.Linear equations of higher order with constant coefficients. Classification and solution of second order partial differential equations. Applications to Engineering problems.
FOURIER SERIES                                                                                                                                            (9)
Periodic functions,  Trigonometric series, Fourier Series  Euler’s formulae, Conditions for existence of Fourier series, Even and odd functions, Half range expansions Complex Fourier series.                                                                                
Applications of Fourier series, Parseval’s identity, Harmonic analysis.                                                           
BOOK:
1.     Advanced Engineering Mathematics, Kreyszig, John Wiley and Sons, 8th edition, 2001.
REFERENCES:
1.     Advanced Engineering Mathematics, Wylie and Barrett, Mc Graw Hill, 6th edition, 1995.
2.     Complex Variables with Applications, Brown and Churchill, McGraw Hill, 1996.
3.     Elements of Partial differential equations, Sneddon, Mc Graw Hill, 1998.MA 201H Mathematics – III          
In addition to the contents of MA 201 the additional topics:
Conformal Mappings – Mapping, Conformal mapping, Transformation by exponential, Trigonometric, Hyperbolic, Power & logarithmic functions, Bilinear transformations.Course Name       :               DEPARTMENT LAB-I
Course Code        :               EE 203Credits                  :               2Design Points       :               4
L T P                     :               0 0 4Pre req                  :               EE 201 and EE 202Design work in the subject should involve the assignments consisting of open-ended projects.  The students may be encouraged to refer the hand books data books, standards, manuals and e-support from related web pages.  Each design point should involve an assignment(s), which may require at least fifteen hrs of contact plus at home hrs.
The lab work should aim at three/four integrated experimental projects involving the aims and objects documents in the following routine experiments.  The students should  be asked to submit a detailed project report for one of the integrated experiments mentioned above consisting of the aims/objective, the theory, concepts involved the data referred, name plate rating involved with serial number of the equipments, the suitable observation tables, graphical presentation of the results, the difficulties encountered, how these were overcome, and the suggestion to improve the given integrated experiment.  This report may span over twenty to forty pages.  The record for all the experiments mentioned above should be entered in the experimental record book of every student to be brought during the contact hours in the lab session.
List of Experiments
 NETWORKS EXPERIMENTS
1.     To design & study a three phase unbalanced network
i)     with isolated neutral
ii)     with neutral return of known impedance. Measure the phase current,potential of the load neutral and verify the results by Millman's  theorem.
2.     To study the polarity markings of a transformer and to determine the self inductance of each winding as well as mutual inductance between         the windings.
3.     To study the resonance in a  series   and parallel R-L-C  circuits with variable inductance and to measure the  Q- factor.
4.     To obtain the capacitor voltage  vs. time curve and time constant of  R-C  circuit when  : 
i)      it is switched on to D.C supply
ii)     Capacitor is discharged through the resistance
5.     To study the various  Electrical circuit components; draw, design  and fabricate a small working circuit on a PCB.
6.     To design the various two port network parameters (open circuits, short circuits, transmission and hybrid).
7.     To find image parameters (image impedance and propagation functions) for a two port network.
8.     To verify Bisection theorem and to obtain an equivalent lattice network of a two port network.
9.     To find equivalent T and PI network of a transmission line.
10.  To determine the  ABCD parameters of a transmission line.
11.  To study the input and output characteristics of a BJT in CE, CE & CB configurations.
12. To study the source-drain characteristics of JFET & MOSFET.
13. To study the IC OPAMP as integrator, differentiator and full wave rectifier.
MEASUREMENT & INSTRUMENTATION EXPERIMENTS

1. Calibration of d.c. voltmeter by direct reading d.c. Potentiometer.
2. Measurement of active and reactive power in a three-phase balanced circuit by one Wattmeter method.
3. Measurement of power and power factor by two Wattmeter method incorporating instrument transformers.
4. Measurement of capacitance and loss angle of a capacitor by Schering Bridge.
5. Measurement of Phase angle and time delay using Oscilloscope.
6. To study a strain gauge and plot its response to an application using Wheatstone bridge.
7. To plot the characteristics of a thermistor and calibrate it for temperature measurement.
8.  To study the different analog multiplexer ICs and to use one of these for an application.
9.  Characteristics study of optocoupler and photocell in application to biomedical equipment.

Course Name       :               ELECTRICAL MACHINES
Course Code        :               EE 204
Credits                  :               4
Design Points       :               2
L T P                     :               4 0 0Pre req                  :               ---Lecture wise breakup                                                                                                                        No. of lectures
MAGNETIC CIRCUITS AND INDUCTION
Magnetic Circuits, Magnetic materials and their properties.
TRANSFORMERS
Construction Transformer on no-load, Ideal transformer, Real transformer and equivalent circuit and determination of its parameters, Transformer losses, Transformer testing, The per unit system, Efficiency and voltage regulation, Autotransformer, Parallel operation of transformer (single phase transformer), Three phase transformers connections.
BASIC CONCEPTS IN ROTATING MACHINES
Elementary machines, Generated EMF, Torque in round rotor machine.
DC MACHINES
Construction of EMF and Torque, Circuit model, Armature reaction, Compensating winding, Commutation, Methods of excitation, Magnetization characteristic, Characteristics of dc Generators, Characteristics of dc Motors, Starting of dc motors, Speed control of dc motors.
INDUCTION MACHINE
Construction, Flux and MMF waves in induction motor – principle of operation, Development of circuit model (equivalent circuit), Power across air-gap, torque and power output, Tests to determine circuit-model parameters, Starting, Cogging and Crawling
BOOK:
1.     Electrical machines, I.J.Nagrath ,D.P.Kothari.
REFERENCES:

1. Electrical Machinery, M.G.Say
2. Electrical Machines, Fitzerald A.E.Kingsly

3.     Electrical Machinery by P.S.Bindra
4.     Generalised Theory of Electrical Machines by P.S.BindraDesign work
Design work in the subject should involve the assignments consisting of open-ended projects.  The students may be encouraged to refer the hand books data books, standards, manuals and e-support from related web pages.  Each design point should involve an assignment(s), which may require at least fifteen hrs of contact plus at home hrs.
The design problems in the subject should involve the assignments such as the suitability/feasibility of using a single-phase two-winding transformer/3-ф transformer/an autotransformer for a given application.  Further the problems may involve the applicable of suitable D.C. m/c in a system involving other electrical machines.EE 204H ELECTRICAL MACHINES
In addition to the contents of EE 204 the additional topics:
For students registering for honours course in this subject are to be given advanced problem to check their capabilities to earn in the subject.  The assignment/projects/exploring an idea using e-support involving independent effort of the student.Course Name       :               ELECTRIC ENERGY SYSTEMS
Course Code        :               EE 205
Credits                  :               4
Design Points       :               4
L T P                     :               4 0 0Pre req                  :               ---Lecture wise breakup                                                                                                                              No. of lecturesGENERAL PRINCIPLES OF TRANSMISSION                                                                                         (7)
Overhead and underground transmission, transmission voltages, conductor materials, solid stranded, ACSR, hollow and bundle conductors. Different types and supporting structures and towers for over-head lines. Configurations of conductors in overhead transmission lines. Elementary idea about transmission lines construction and Erection.                                                                                                          
DISTRIBUTION SYSTEM                                                                                                                               (6)
Radial, ring main network distribution systems. Distribution Voltage, Choice of conductor size for distributors. Type and location of distribution substations. Main equipment in distribution sub-station ,supporting structures for distribution line conductors. Distribution system voltage regulation.
INSULATORS                                                                                                                                                     (4)
Insulating materials, Types of insulators, voltage distribution over an insulator string. String- efficiency, Equalizing voltage drops across insulators of a string.                                                                                          
CABLES                                                                                                                                                               (5)
Insulating materials, Types of LV and HV cables, Three core solid, oil filled and Gas pressure cables, Effective conductor resistance, inductive reactance and capacitance of cables, grading of cables, Sheath and dielectric loss in cables, Elementary ideas about cable breakdown.                                                          
PERFORMANCE AND MODELING OF TRANSMISSION LINES                                                      (6)
Short transmission lines, voltage drop, regulation and efficiency calculations, Medium transmission lines. Normal T and PI, solution for voltage drop, regulation and efficiency. Long Transmission lines, current and voltage relations, ABCD constants, charging current and Ferranti effect.
SUBSTATION EQUIPMENT.                                                                                           (5)
Bus bar arrangement and substation layout, Distribution substations, isolators, shielding, earthing, earth electrodes and lightning arresters and their locations.             
CIRCUIT BREAKERS                                                                                                                                      (7)
Arc interruption theories. Classification of circuit breaking apparatus. Construction and principles of operation of M.O.C.B., SF6 circuit breaker, air and air-blast circuit breaker, vacuum circuit breaker, high voltagecircuit breakers.
BOOKS:
1.     C.L.Wadhwa.Electrical Power Systems,
2.     I.J.Nagrath & D.P.Kothari, Modern Power System analysis
REFERENCES:
1.     Electrical Transmission and Distribution, Reference book of Westinghouse-Electric Corporation.
2.     Philip G. Hill, Power GenerationDesign Work
Design work in the subject should involve the assignments consisting of open-ended projects.  The students may be encouraged to refer the hand books data books, standards, manuals and e-support from related web pages.  Each design point should involve an assignment(s), which may require at least fifteen hrs of contact plus at home hrs.
The design problem in the subject may involve the computation of load demand & consequent requirement of generating capacity for a given load area (Industrial Area) Satellite city, capitive consumer.  Further the problem may involve the design of a transmission system with suitable alternative for the transmission of energy from the given generating station to the load center, may use of the alternatives such as overhead/underground transmission.EE 205H ELECTRIC ENERGY SYSTEMS
In addition to the contents of EE 205 the additional topics:
For students registering for honours course in this subject are to be given advanced problem to check their capabilities to earn in the subject.  The assignment/projects/exploring an idea using e-support involving independent effort of the student.