1
ITM UNIVERSITY
Naya Raipur, Raipur
B.Tech (Bachelor of Technology)
Fourth Year Engineering Syllabus
Seventh Semester
Electrical and Electronics Engineering
(2016)
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Department of Electrical and Electronics Engineering B.Tech Seventh Semester Syllabus Teaching and Examination Scheme
Course Code Course Name
Teaching Scheme Examination Scheme
Th.+Tut (L+T)
Pr. (P)
Theory Marks
Term Work
(Internal)
Practical
(External)
Total
Internal Assessment
CT‐1
CT‐ 2
CT AVG
End Sem. Exam
302701 Power System Operation and Control 04 ‐ 30 30 30 70 ‐ ‐ 100
302702 Power System Analysis 04 ‐ 30 30 30 70 ‐ ‐ 100
302703 Switch Gear and Protection 04 ‐ 30 30 30 70 ‐ ‐ 100
302704 FACTS 04 ‐ 30 30 30 70 ‐ ‐ 100
302705 Elective – I 04 ‐ 30 30 30 70 ‐ ‐ 100
302706 PSCAD Lab ‐ 02 ‐ ‐ ‐ ‐ 15 35 50
302707 ETAP Lab ‐ 02 ‐ ‐ ‐ ‐ 15 35 50
302708 Switch Gear and Protection Lab ‐ 02 ‐ ‐ ‐ ‐ 15 35 50
302709 Vocational Training-II 02 ‐ ‐ ‐ ‐ 15 35 50
302710 General Proficiency-I 04 ‐ ‐ 30 70 100
302711 Project ‐ V 04 50 150 200
24 12 150 350 140 360 1000
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Table – I Elective – I S.N.
Elective ‐ I
Subject Code Subject Name 1 302705 A Power System Planning 2 302705 B Electrical Transients in Power System
3 302705 C Bio-Medical Instrumentation
4 302705 D Fundamental of Digital and Non Linear Control System
5 302705 E Environmental Studies
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Subject Code: 302701 Subject Name: Power System Operation and Control
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I- Economic Operation of Power System: Methods of Loading Turbo-Generators, Thermal
Plant Cost Modelling, Input-Output Curve, Heat Rate, Incremental Cost. Economic Loading of
Generators Neglecting the Transmission Losses- Two Generation Units, Large Number of Units.
Economic Loading Using Transmission Losses- Effect of Transmission Losses, Representation of
Transmission Losses, Coordination Equation , Penalty Factor, General Transmission Loss Formula.
Unit–II- Unit Commitment: Introduction to Unit Commitment, Comparison with Load Dispatch,
Need for Unit Commitment, Constraints in Unit Commitment- Spinning Reserve, Thermal Unit
Constraints, Start Up Cost, Hydro Constraints, Must Run, Fuel Constraints. Cost Function Formula,
Start Up Cost and Shut Down Consideration, Constraints for Plant Commitment Schedules, Unit
Commitment Solution Methods.
Unit‐III- Hydro –Thermal Scheduling: Introduction to Hydro Thermal Scheduling, Need of Hydro
Thermal Scheduling, Hydro-Thermal Coordination, Scheduling of Hydro-Units in a Hydro-Thermal
System, Coordination of Run-off River Plant and Steam Plant, Short-Term Coordination- Constant
Hydro-Generation Method, Constant Thermal-Generation Method, Maximum Hydro Efficiency
Method. Long-Term Coordination, Advantages and Disadvantages of Hydro –Thermal Scheduling.
Unit–IV-Load Frequency Control Loop: Efficiency and Secure Operation of Power System,
Frequency-Reasons for Frequency changes in Power System, Constant Frequency is to be
maintained, PID Controllers and Their Specifications, Load Frequency Control (LFC)-Primary and
Secondary LFC loop specifications- LFC block diagram with Primary and Secondary Loop,
Elements of LFC. Speed governing System, Turbine System (Rotating Components), and Generator
–Load System (Power system).
Unit–V- Automatic Voltage Regulator Loop: Voltage- Reasons for voltage changes in the Power
System, Constant voltage is to be maintained, Automatic Voltage Regulator (AVR) loop- Basic
Elements of AVR Loop, AVR block Diagram, Automatic Generation Control Block Diagram.
Recommended Books:
1. Power System Analysis: Operation And Control 3Rd Ed , PHI learning private limited, Abhijit
Chakrabarti, 2010.
2. Power system Engineering , D.P.Kothari.
3. Sivanaga Raju, “Power System Operation and Control” Pearson Publication.
4. P. Kundur, Power System Stability & Control, McGraw Hill Publications, USA, 1994.
5. Power Generation, Operation and Control, by Allen J Wood.
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Subject Code: 302702 Subject Name: Power System Analysis
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I-Representation of Power System: Single line diagram, impedance diagram, reactance
diagram, equivalent impedance of three phase transformer, per unit quantities, P.U. impedance of
three phase transformer, positive sequence impedance diagram in per unit system, Expression for
three phase power in p.u.
Unit–II-Symmetrical and Unsymmetrical Faults: Common type of faults in underground systems,
Common type of faults in overhead systems, Symmetrical components in Voltage and Current
Phasor, Derivation for Conversion of Phasor Components to Symmetrical Components vice versa,
Symmetrical faults: LLL Fault, LLLG Fault. Unsymmetrical faults: Single line to ground fault,
Double line to ground fault, Line to Line Fault, Numerical based on Faults
Unit‐III-Load Flow Studies: Necessity of Power Flow Studies, Bus admittance matrix, formation of
load flow equation, Derivation of Static load flow equations, Load flow solutions using Gauss Seidel
Method: Acceleration Factor, Load flow solution with and without P‐V buses
Unit–IV-Power System Transients: Sudden symmetrical short circuit of Alternator, Travelling
waves on Transmission Lines, Wave Equation Derivation, Surge Impedance and Wave Velocity-
Over Head lines and Cables, Specifications of Travelling waves, Reflection and Refraction of waves,
Typical Classes of Line Terminations, Equivalent Circuit for Travelling wave Equation.
Unit–V-Power System Stability: Elementary concepts of Steady State, Dynamic and Transient
Stabilities, Description of: Steady State Stability Power Limit, Transfer Reactance, Synchronizing
Power Coefficient, Power Angle Curve and Determination of Steady State Stability and Methods to
improve steady state stability. Derivation of Swing Equation. Determination of Transient Stability by
Equal Area Criterion, Application of Equal Area Criterion.
Recommended Books: 1. Elements of power system analysis By W.D. Stevenson (4
th Ed. Mc Graw Hill)
2. Electrical Power System by Ashfaq Hussain (4th
Ed. CBS Pub. & Dist.)
3. Power System Analysis and Design by B.R. Gupta (3rd
Ed S. Chand)
4. Power System Engg. by I.J. Nagrath & Kothari (Tata McGraw Hill)
5. Power System Engg. by A. Chakrabarti, M.L. Soni, P.V.Gupta, V.S.Bhatnager(6th
Ed Dhanpat Rai
& Co.)
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Subject Code: 302703 Subject Name: Switch Gear and Protection
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I-Introduction to power protection: Definition of power system protection and why it is
needed, Basic objectives of power protection-Reliability, Selectivity, Speed, Simplicity and
Economics.
Unit–II- Fuses, Relays and Circuit Breakers: Fuse: Fuses Definition, Fuse Elements, Fusing
Factor, Types of Fuse, Current carrying capacity of Fuse. Relay: Fundamental Requirements of
Relay, Basic Relays Types, Terms related to Relay: Pick Up Current, Plug Setting Multiplier, Time
Setting Multiplier. Calculating of Relay Operating Time. Circuit Breakers: Operating Principle, Arc
Phenomenon, Principle of Arc Extinction, Methods of Arc Extinction, Arc Voltage, Recovery
Voltage, Classification of Circuit Breakers- Oil CB, Air Blast CB, SF6 CB, Vacuum CB, CB
Ratings.
Unit‐III-Generator, Motor and Transformer Protection: Generator Protection: Generator
Protection, Differential Protection, Modified Differential Protection, balanced Earth Fault Protection,
Stator Inter Turn Protection. Transformer Protection: Protection System for Transformer, Buchholz
Relay, Earth Fault or Leakage Protection, Combined leakage and overload Protection, Circulating
Current Scheme. Motor Protection: Potential motor Hazards, Differential Protection, Ground fault
Protection, Thermal and locked rotor protection.
Unit–IV-Unit Name: Bus Bar, Line and Pilot Protection: Bus Bar Protection-Bus Bar Protection
schemes-Single breaker single bus, Single bus connected with bus ties, Main and transfer buses with
single breakers, Single breaker -double bus, Double breaker with double bus, Ring bus, Breaker and
a half bus, Differential Protection for buses, Ground fault bus. Line Protection- Classification of
lines and feeders, Line classification for protection, Technique and equipment for line protection.
Pilot Protection-Pilot system classifications, protection required for pilot wire.
Unit–V- Grounding and Earthing: Difference between Grounding and Earthing, Earthing
Materials: Conductors, Connections, Earthing Rods, Neutral Grounding, Methods of Neutral
Grounding, Transformer Grounding.
Recommended Books:
1. Power system protection and switchgear , by badri ram, 2nd
edition2
2. Fundamentals of Power System Protection , By Yeshwant G. Paithankar, S. R. Bhide
3. Protective Relaying Principles and Applications, J. Lewis Blackburn, 3RD
Edition CRC Press
4. Power system protection, P.M. Anderson, 2nd
Edition, IEEE.
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Subject Code: 302704 Subject Name: FACTS
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I-Introduction: Basics of Power Transmission Networks, Control of Power Flow in
AC Transmission Line, Flexible AC Transmission System Controllers and Application of FACTS
Controllers in Distribution Systems.
Unit–II-Series and Shunt compensation: Fundamental of series and Shunt compensation
and their principle of operation, TCSC operation in power system, SSSC: principle of
operation, Shunt SVC principles, configuration & control, STATCOM, Modelling and
applications of series and shunt compensating devices.
Unit‐III-Static Phase Shifting Transformer: Principle of operation, steady state model of
static phase shifter, operating characteristics of SPS, power current configuration of SPS
application.
Unit–IV-Unified Power Flow Controllers: Basic operating principles & characteristics, control
UPFC installation applications, UPFC model for power flow studies.
Unit–V-Harmonics: Effects-within the power system, Interference with communication,
Harmonic measurements, Harmonic elimination, Harmonic distortion due to various sources, Effects
of harmonic distortion, THD calculation, Harmonic filter design Active and Passive Filters.
Recommended Books: 1. Understanding FACTS by Hingorani.
2. Thyristor controlled FACTS devices, Mathur
3. FACTS for Transmission lines, Song, Yu.
4. FACTS Controller in Power Transmission and Distribution by K.Padiyar
5. G.T. Heydt, Power Quality, Stars in a Circle Publications, Indiana, 1991
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Subject Code: 302705A Subject Name: Power System Planning
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Planning Concept: Planning, Three cyclic components of Planning, Types of Planning.
Planning Tools. DPR, Least Cost Utility Planning.
Unit–II: Load Forecasting: Objective of Forecasting, Forecasting techniques, Forecasting modeling,
Peak load forecast, Reactive load forecast, Load growth pattern and its importance in planning, Load
growth patterns base on discounted multiple regression technique, weather sensitive load forecasting,
Determination of annual load forecasting
Unit‐III: Transmission Planning: Selection of voltage levels, Planning criteria, Underground
transmission, HVDC transmission, Substation development, Reactive power planning, Rural
Electrification, Deterministic contingency, Probabilistic load flow Analysis, Probabilistic
transmission System reliability analysis, Determination of reliability indices like LOLP, Expected
value of demand not served,, Sub transmission lines.
Unit–IV: Distribution system Planning: Distribution substation, Design of Primary and Secondary
Systems, Distribution system protection, Coordination of protective Devices.
Unit–V: Expansion planning: Basic concepts on expansion planning, Procedure
followed for integrated transmission system planning, Expansion methods and techniques for
Generation, Transmission and Distribution System.
Recommended Books: 1. Power System Planning, by R.L. Sullivan, 2
nd Edition 1977, Tata McGraw Hill.
2. Electrical Power system Planning, by A.S. Pabla, 2nd
Edition 1998, MacMillan
3. Electric power distribution system Engineering, by Turan Gonen, 2008, CRC Press
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Subject Code: 302705 B Subject Name: Electrical Transients in Power System
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Introduction: Travelling waves on transmission lines, Wave Equation, surge impedance and
wave velocity, Specification of Travelling waves, Reflection and Refraction of waves, Typical cases
of line Terminations, Reactive termination, Analysis of trapezoidal wave, Analysis of trapezoidal
wave.
Unit–II: Lightning & Switching Overvoltage: Lightning, Physical Phenomenon of Lightning,
Interaction Between lighting & power system, Factors contributing to line design, Switching Short
Line Fault, Energizing transients, Line Dropping ,Load Rejection, Voltage induced by Fault, Very
fast transient overvoltage.
Unit‐III: Transient in three phase & abnormal Switching Transients: Current Chopping,
Capacitance Switching, Ferro-resonance, Transformer magnetizing inrush Currents, Re-striking
phenomenon & its effects on recovery voltage, Re-striking phenomenon & its effects on recovery
voltage, Switching of three phase transformers, Effects of type of neutral connection, Symmetrical
Component method of analysis of three phase switching transients, Symmetrical Component method
of analysis of three phase switching transients.
Unit–IV: Insulation Co-Ordination: Principle of insulation co-ordination in Air Insulated substation
(AIS) and Gas Insulated Substation (GIS), insulation Level, coordination between insulation and
protection level, overvoltage protective devices, lightning arresters..
Unit–V: Protection of Transmission lines and rotating machines: substation earthling, Protection
of rotating machines, Substation protection, Shielding substation with ground wires, Surge capacitor,
surge reactor and surge absorber, surge diverters, Transmission line insulation and performance,
Ground Wires, Influence of additional lines, Effect of short length of cable, Transmission line
insulation and performance, Protective angle, Driven rods, Protector tube, Selection of arrester rating,
Location of arresters, Influence of additional lines, Effect of short length of cable, Effect of short
length of cable.
Recommended Books:
1. Transients in Electrical Power System, C.S. Indulkar, D P Kothari PHI Publication.
2. Electrical Transients in Power Systems, Allan Greenwood, 2nd
Edition, John Wiley & Sons
3. Transients in Power System, Harold P, John Wiley & Sons, USA.
4. Transient performance of electric power systems, Reinhold Ruder Berg, 1st Edition, MIT
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Subject Code: 302705 C Subject Name: Bio-Medical Instrumentation
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Human Physiology And Basics: Brief introduction to human physiology, Basic components of bio-
medical instruments, bioelectric signals, action potentials, Bio-electrodes.
Unit–II: Transducers: Biomedical Transducers displacement, velocity, force, acceleration, flow,
temperature, potential, dissolved ions and gases
Unit‐III: Electro-Physiological Measurements: Analysis of EEG, ECG, EMG, EOG, & Bio-
Potential Amplifiers for ECG, EMG, EEG, etc.
Unit–IV: Electrical Parameter Measurements: Cardiovascular measurement-blood pressure, blood
flow, stroke volume, Impedance Plethysmography, Cardiac output, heart sound etc. Instrumentation
for respiratory & nervous systems.
Unit–V: Monitoring, Assisting, Therapeutic Equipments And Safety: Patient care & monitoring
system, Remote monitoring through telephone, Internet, Satellite link, Safety aspects associated with
Biomedical Instrumentation. Recent advances in Bio-Medical Instrumentation, Microprocessor based
systems, Laser & optical Fiber systems.
Recommended Books:
1. Biomedical Instrumentation and Measurements, Leslie Cromwell, Fred J. Weibell, Erich A.
Pfeiffer, Prentice-Hall
2. Handbook Of Biomedical Instrumentation, R. S. Khandpur, McGraw Hill
3. Biomedical Instrumentation, M. Arumugam, Anuradha Agencies.
4. Introduction to Biomedical Engineering, Domach, Pearson Education
11
Subject Code: 302705 D Subject Name: Fundamental of Digital and Non Linear Control System
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Introduction to digital control: Introduction Discrete time system representation,
Mathematical modeling of sampling process, Data reconstruction Revisiting Z-transform, Mapping
of s-plane to z-plane, Pulse transfer function, Pulse transfer function of closed loop system, Sampled
signal flow graph.
Unit–II: Stability analysis of discrete time systems: Jury stability test, Stability analysis using bi-
linear transformation, Transient and steady state responses, Time response parameters of a prototype
second order system, Design of sampled data control systems: Root locus method, Controller design
using root locus, Bode plot, Lead, leg, lead-leg compensator design using Bode plot
Unit‐III: Discrete state space model: Introduction to state variable model, Various canonical
forms, Characteristic equation, state transition matrix, Solution to discrete state equation
Controllability, observability and stability of discrete state space models
Unit–IV: Non linear system analysis: Introduction, nonlinearities in control system, function of
common non linearity, the describing function method, concept of phase plane analysis, construction
of phase portions, system analysis on the phase plane
Unit–V: Liapunav’s Stability analysis: Introduction to Liapunov’s stability criterion, method of
constructing liapunov function for non linear systems
Recommended Books:
1. B. C. Kuo, Digital Control Systems, Oxford University Press, Indian Edition, 2007.
2. M. Gopal, Digital Control and State Variable Methods, Tata Mcgraw Hill, 2/e, 2003.K. Ogata,
Discrete Time Control Systems, Prentice Hall, 2/e, 1995.
3. Nagrath, I.J., Gopal, M., “Control Systems Engineering”, New Age International, New Delhi.
4. M.Gopal, “Control System Principal and Designe” Tata Mcgraw Hill, 4/e, New Delhi.
5. Digital Control Systems; Benjamin. C Kuo; Oxford University Press, Second edition.
12
Subject Code: 302705 E Subject Name: Environmental Studies
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit-I -Introduction: Source of pollution, classification of pollution and pollutants and their effect
on human health, reactions of pollutants and their effects-smoke, smog and ozone layer disturbance
- greenhouse effect.
Unit-II-Air Pollution and Control: Primary and Secondary Pollutants, Automobile Pollution,
Industrial Pollution, Ambient Air Quality Standards, Meteorological aspects of air pollution, Types
of Air pollution sampling and measurement, Ambient air sampling- collection of gaseous air
pollutants, analysis of air pollutants sulfur dioxide, nitrogen dioxide, carbon monoxide, oxidants
and ozone, and hydrocarbons. Air Pollution Control equipment – Cyclone separator, Filter,
Electrostatic precipitator.
Unit-III-Water Pollution and Control: Water resources, Utilization of water, Origin of water
waste, Types of water waste and effects, Water sampling- DO, BOD, COD, Basic process of water
treatment, pretreatment, sedimentation flotation, biological treatment and softening process.
Unit-IV-Pollution: Nuclear pollution: Nuclear power plants, nuclear radiation, disasters and
impacts, genetical disorders, control of nuclear pollution. Soil pollution: Effects of urbanization on
land degradation, impact of modern agriculture on soil, effect on Environment and life sustenance
control of soil pollution. Noise pollution: Impacts of noise, permissible limits of noise pollution,
measurement of noise and control of noise pollution.
Unit-V Solid Waste management: Source and classification, method of collection and disposal,
potential method of disposal, Environment management system through ISO 14001 standard,
details and implementation of ISO-14001 for neat and clean environment.
E-waste: Sources of generation, Effects and Control measures, Global Strategy, green productivity.
Recommended Books:
1. Environmental pollution control Engineering, C S Rao, New age international Ltd.
2. Text book of Environmental Science and Technology, M. Anji Reddy, BS Publications.
3. Environment Pollution: Hazards And Control, R.D. Gupta, concept publishing company.
4. Environmental Pollution and Health, V. K. Ahluwalia, The Energy and Resources Institute.
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Subject Code: 302706 Subject Code: PSCAD Lab
Practical: 2 hours per week
Detailed Syllabus
Term work: Term work shall consist of record of the experiments out of the following.
List of Experiments:
1. Introduction to PS CAD
2. To determine fault current for L-G faults at the terminals of an alternator
3. To determine fault current for L-L faults at the terminals of an alternator
4. To determine fault current for L-L-G faults at the terminals of an alternator
5. To determine fault current for L-L-L faults at the terminals of an alternator
Any other Experiments which are related to Courses Electrical Machines, Power System,
Control System and Power Electronics.
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Subject Code: 302707 Subject Name: ETAP Lab
Practical: 2 hours per week
Detailed Syllabus
Term work: Term work shall consist of record of the experiments out of the following.
List of Experiments:
1. Introduction to ETAP
2. To determine transmission line performance.
3. To obtain steady state, transient and sub-transient short circuit currents in an alternator.
4. To obtain formation of Y-bus and perform load flow analysis.
5. To perform symmetrical fault analysis in a power system.
6. To perform unsymmetrical fault analysis in a power system.
7. Load flow analysis using ETAP Software.
8. Bus Admittance Matrix.
Any other Experiments which are related to Courses Electrical Machines, Power System,
Control System and Power Electronics.
15
Subject Code: 302708 Subject Name: Switchgear and Protection System Lab
Practical: 2 hours per week
Detailed Syllabus
Term work: Term work shall consist of record of the experiments out of the following.
List of Experiments
1) To study the polarity test and rated burden of CT.
2) Study of differential current relay.
3) Study of Three Phase Alternator Protection.
4) Study of Three Phase Motor Protection.
5) Study of Three Phase Transformer Protection
6) Study of Oil Circuit breaker.
7) Study of Air Circuit breaker.
8) Study of SF6 Circuit breaker.
9) Study of Vacuum Circuit breaker.
10) To study the characteristics of Instantaneous Over Current Relay.
11) To study the characteristics of IDMT Over Current Relay.
12) To study the characteristics of Under Voltage Relay.
13) To study the characteristics of Negative Sequence Relay.
14) To Study the Under Voltage and Over Voltage of a Alternator.
Minimum Any Eight Experiments.
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Subject Code: 302709 Subject Name: Vocational Training-II
Practical: 2 hours per week
Detailed Syllabus
After Completion of Vocational Training each Individual / Group has to submit the Report file in a
University Prescribed Format and followed by a Presentation and Viva
The Evaluation can be conducted by the Respective Department as per their Available Slot in between
the Academic Semester.
S.NO Evaluation Parameters
1 Report Writing
2 Objective of the Industrial Training
3 Working Methodology / Technology
4 Results and Discussion
5 Conclusion
6 Future Scope
7 Presentation Skills
8 Viva Voice
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Subject Code: 302710 Subject Name: General Proficiency-I
Practical: 4 hours per week
Detailed Syllabus
UNIT-I-Personality and its Traits: Various theories of personality, Introduction to Personality
Development. Management Skills: Introduction to Management, Five aspects of managements and
coordination.
UNIT-II-Proficiency in English Language-I: Reading and Comprehension Vocabulary:
Synonyms, Antonyms, Odd Word, One Word, Jumbled letters, Homophones, Spelling, Contextual
meaning, Analogy.
UNIT-III-Proficiency in English Language-II: Writing and Presentation: Writing Business
Cases and Presentations, Different formats of Letters in an organization. Types of Presentations and
Reports, Use of Audio-visual Aids - Report Writing. Group Discussion and Personal Interview.
UNIT-IV-Reasoning Proficiency: Verbal: Number series, Letter & symbol series, Statement and
argument, Logical problems, Alphabet test, Passage and conclusions.
Non-Verbal: Making series / analogy, Classification, Series test, Odd figures, miscellaneous test,
Pattern Perception.
UNIT-V-General Mathematics Proficiency: Number System, HCF, LCM, Profit and Loss,
Number Series, Square roots, Compound, Decimal Fractions, cube roots, proportion, Time &
distance, Simplification, Pipe & Cistern, Boat and Stream, Surd and indices, Area.
Recommended Books: 1. Sharma RC & Mohan K – "Business Corresponding and Report Writing", Tata McGraw Hill, New
Delhi, 1994.
2. Alok Jain, P S Bhatia & A M Shiekh – "Professional Communication Skills; S. Chand & Company
Ltd. 2005.
3. Rajendra Pal and JS Korlahalli – "Essentials of Business Communication", Sultan Chand & Sons,
1997.
4. R.S. Aggarawal, Quantitative Aptitude For Competitive Examinations (English) 7th Edition
5. P.A. Anand, Wiley Quatitative aptitude, Wiley India pvt., ltd. publication, 2015
6. R.S. Aggarawal, A Modern Approach To Verbal & Non-Verbal Reasoning (English) Revised
Edition
7. Quantitative aptitude and reasoning by Prveen, R. V. second edition, PHI publications
8. Dr. S. K. Mandal, How to Succeed in Group Discussions & Personal Interviews (English) 1st
Edition, Jaico publishing house.
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Subject Code: 302711 Subject Name: Project - V
Practical: 4 hours per week
Detailed Syllabus
Term work: Term work shall consist of report submitted based on the topic of one good
Engineering / Research based problem.
1. Formation of team, selection of topic: Presentation on different project topics, Team formation
including students and guide, Literature review in Library and internet on different project topics,
Selection of Project topic and objectives
2. Site Visits (If required): Before undertaking the project design, team should visit sites where the
project is already implemented and get acquainted with different perspectives. They should meet
experienced personalities in the area and take their advice.
3. Preliminary Design: After selection of topic, the team should carry out further literature review
and then come out with the preliminary design of the project in the form of drawing and
explanation.
4. Semester Project Progress Report: A semester project progress report should be prepared
comprising the work done as said above. The report should be presented before the Department
faculty and subject experts.
The Report / Thesis must contain the following:‐
1. Introduction
2. Literature Review
3. Methodology
4. Result and Discussion
5. Application of the Project Work
6. Conclusion
7. Future Scope
References
Please Note: Based on the above work a power point presentation must be given by the
candidate and defended with positive attitude. The candidate will be appreciated if he / she
present his / her work in a Conference or publish his / her work in a reputed Journal.
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