B.TECH. (CIVIL) FIFTH SEMESTER CEM501 TRANSPORTATION … · 1. Determination of water content by oven drying method 2. Determination of specific gravity by pycnometer 3. Determination

November 11, 2019 1

DAYALBAGH EDUCATIONAL INSTITUTE FACULTY OF ENGINEERING

B.TECH. (ELECTRICAL, MECHANICAL, CIVIL & FOOTWEAR TECH.): 2017-18

Course Code

Course Title Credits End Sem. Yes/No

Theory/ Practical

B.TECH. (CIVIL) FIFTH SEMESTER

CEM501 TRANSPORTATION ENGINEERING-II 3.0 Y T

CEM502 STRUCTURAL ANALYSIS I 3.0 Y T

CEM503 STRUCTURAL ANALYSIS I LAB. 1.0 Y P

CEM504 GEOLOGY AND SOIL MECHANICS 3.0 Y T

CEM505 SOIL MECHANICS LAB 1.0 Y P

CEM506 CONCRETE TECHNOLOGY 3.0 Y T

CEM515 TRANSPORTATION ENGINEERING II LAB 1.0 Y P

MAM581 ENGINEERING MATHEMATICS V 3.0 Y T

PYH581 INDUSTRIAL PSYCHOLOGY 2.0 Y T

EGC581 DESIGN ENGG./ THEME DEVELOP. PROJECT 1.5 N P

EGC582 PRACTICAL TRAINING 2.0 N P

CRC581 COMPARATIVE STUDY OF RELIGIONS 2.0 N T

GKC581 SC. METH., G.K. & CURRENT AFFAIRS II 1.0 N T

RDC581 AGRICULTURAL ENGINEERING 2.5 Y T

Mainstream Civil

CEM509 HYDROLOGY & GROUND WATER ENGG. 3.0 Y T

CEM510 HYDROLOGY & GROUND WATER ENGG. LAB 1.0 Y P

Architectural Technology Specialisation

CEM511 BASIC PRIN. OF ARCHITECTURAL DESIGN 3.0 Y T

CEM512 BASIC ARCHITECTURAL DESIGN LAB 1.0 Y P

Computer Science Specialisation

EEM513 COMPUTER ARCHITECTURE 3.0 Y T

EEM514 ADVANCED PROGRAMMING LAB 1.0 Y P

B.TECH. (ELECTRICAL) FIFTH SEMESTER

EEM501 LINEAR CONTROL ENGINEERING 3.0 Y T

EEM502 CONTROL ENGINEERING LAB. 1.5 Y P

EEM505 ANALOG ELECTRONICS 3.0 Y T

EEM506 DIGITAL SYSTEMS 3.0 Y T








Mainstream Electrical

EEM503 ELECTRICAL MACHINES II 3.0 Y T

EEM504 ELECTRICAL MACHINES LAB. 1.0 Y P

Electronics Specialisation

EEM511 ANALOG ICS & SYSTEMS 3.0 Y T

EEM512 ANALOG ICS & SYSTEMS LAB 1.0 Y P




November 11, 2019 2

B.TECH. (FOOTWEAR TECHNOLOGY) FIFTH SEMESTER

FEM501 LASTING AND MAKING TECHNOLOGY 3.0 Y T

FEM502 LASTING AND MAKING TECHNOLOGY LAB 1.0 Y P

FEM503 FOOTWEAR CONSTRUCTION 3.0 Y T

FEM504 FOOTWEAR CONSTRUCTION LAB 1.0 Y P

FEM505 COMPUTER AIDED FOOTWEAR DESIGNING 3.0 Y T

FEM506 COMPUTER AIDED FOOTWEAR DESGNG. LAB 1.0 Y T

EEM507 ELECTRICAL TECHNOLOGY 3.0 Y T







Mainstream Footwear Technology

FEM509 ADVANCE MANUFACTURING TECHNIQUES 3.0 Y T

FEM510 ADVANCE MANUFACTURING TECHNIQUES LAB 1.0 Y P

Quality Control & Management Specialization

FEM511 QUALITY CONTROL IN FOOTWEAR MANUFACTURING 3.0 Y T

FEM512 QUALITY CONTROL IN FOOTWEAR MANUFACTURING LAB 1.0 Y P

Computer Aided Shoe Designing Specialization

FEM507 FOOTWEAR PERFOR. & CUSTOMER SERVICE 3.0 Y T

FEM508 FOOTWEAR PERFOR.&CUSTOMER SERV. LAB 1.0 Y P

B.TECH. IN FOOTWEAR TECHNOLOGY (FOOTWEAR DESIGN) INTEGRATED WITH B.COM.

FIFTH SEMESTER

IN ADDITION TO ABOVE B.TECH. (FOOTWEAR TECHNOLOGY) COURSES

FCM501 BUSINESS ORGANIZATION 3.0 Yes T

FCM502 FINANCIAL MANAGEMENT 3.0 Yes T

FCM503 INDIAN ECONOMY 3.0 Yes T

FCM504 SEMINAR & GROUP DISCUSSION 3.0 Yes P

B.TECH. IN FOOTWEAR TECHNOLOGY (FOOTWEAR DESIGN) INTEGRATED WITH B.B.A.

FIFTH SEMESTER

IN ADDITION TO ABOVE B.TECH. (FOOTWEAR TECHNOLOGY) COURSES

FBM501 MANAGEMENT ACCOUNTING 4.0 Yes T

FBM502 PRINCIPLES OF MARKETING I 4.0 Yes T

FBM503 SEMINAR & GROUP DISCUSSION 2.0 Yes P

B.TECH. (MECHANICAL) FIFTH SEMESTER

MEM501 FLUID MECHANICS 3.0 Y T

MEM502 FLUID MECHANICS LAB. 1.0 Y P

MEM505 INDUSTRIAL ENGINEERING 3.0 Y T

EEM507 ELECTRICAL TECHNOLOGY 3.0 Y T

EEM508 ELECTRICAL TECHNOLOGY LAB 1.0 Y P








Mainstream Mechanical

MEM503 MECHANICS OF SOLIDS II 3.0 Y T

MEM504 MATERIALS TESTING LAB. 1.0 Y P

Industrial Engineering Specialisation

MEM515 PROBABILITY AND STATISTICS 4.0 Y T




November 11, 2019 3

Course Number: CEM502, Course Title: STRUCTURAL ANALYSIS – I

Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16

Total Credits: 3, Periods (55 mts. each)/week: 4(L:3+T:1+P:0+S:0), Min.pds./sem.: 39

UNIT 1: Analysis of statically determinate beams, frames and trusses, deflection of frames and

trusses, conjugate beam and area moment theorems; unit load method, strain energy method for

slopes and deflections,

UNIT 2: Statically indeterminate structures, static and kinematic indeterminacies, castigliano’s

theorems, theory of least work, use of symmetry and antisymmetry, approximate methods for the

analysis of building frames,

UNIT 3: Analysis of indeterminate structures by flexibility method, consistent deformation method,

strain energy method, influence coefficient method,

UNIT 4: Column analogy method, analysis of three hinged, two hinged and fixed arches,

UNIT 5: Analysis of cables and two hinged suspension bridges, unsymmetrical bending and shear

centre. SUGGESTED READINGS: William F. Riley et al., “Mechanics of Materials”, John Wiley & Sons. Norris, C.H. et.al., “Elementary Structural Analysis”, Tata McGraw Hill Hibbeler, R.C., “Structural Analysis”, Pearson Press Wang, C.K., “Intermediate Structural Analysis”, McGraw Hill Reddy, C.S., “Basic Structural Analysis”, Tata McGraw Hill

Course No: CEM503 Course Title: STRUCTURAL ANALYSIS – I LAB


Total Credits: 1, Periods (55 mts. each)/week: 2(L:+T:0+P:2+S:0), Min.pds./sem.: 26

List of experiments:

1. To verify the Betti’s law.

2. Study of a three hinged arch experimentally for a given set of loading and to compare

the results with those obtained analytically.

3. To obtain experimentally the influence line diagram for horizontal thrust in a three

hinged arch and to compare the same with the theoretical value.

4. To determine the flexural rigidity of a given beam.

5. To study the behavior of different type of struts.

6. To verify moment area theorem for slopes and deflection of a beams.

7. To find the deflection of a pin‐connected truss and to verify the results by calculation

and graphically.

8. To determine the carry over factors for beam with rigid connections.

9. To determine the rotational stiffness of a beam when far end is (a) fixed (b) pinned.

10. Determine experimentally the horizontal displacement of the roller end of a two hinged

arch for a given set of a loading and to compare the results with those obtained

November 11, 2019 4

Course Number: CEM504, Course Title: GEOLOGY AND SOIL MECHANICS



UNIT 1: SOIL FORMATION

Soil types, composition, three phase relations, Physical Properties : Specific gravity, water content,

shape and size, grain size distribution curves, relative density, consistency of soils, Unified soil

classification system, IS soil classification system, field identification tests,

UNIT 2: COMPACTION

General principles, tests, factors affecting compaction, field compaction, compaction techniques,

Capillarity, Permeability : Darcy’s law, determination of permeability, equivalent permeability in

stratified soils, insitu permeability test, 1-D flow, Laplace’s equation, flow nets, seepage, uplift

pressure, confined and unconfined flows, piping, filter criteria.

UNIT 3: COMPRESSIBILITY AND CONSOLIDATION

Fundamentals, 1-D consolidation, normally and over-consolidated clays, void ratio – pressure

relationships, compressibility characteristics, time rate of consolidation, coefficient of consolidation,

curve fitting techniques, settlement, secondary consolidation, 3-D consolidation, vertical sand

drains.

UNIT 4: SHEAR STRENGTH OF SOIL

Principle of effective stress, Mohr-Coulomb failure criterion, direct shear test, unconfined

compression test, Triaxial shear test : consolidated drained, consolidated undrained, unconsolidated

undrained, vane shear test, shear strength of clays and sands, critical void ratio, stress path, pore-

pressure coefficient.

UNIT 5: GEOLOGICAL PROCESSES

Rock forming minerals, rock types and their engineering properties

Structural Geology : Dip, strike, faults, folds, joints, their formation and importance in respect of

civil engineering structures, rock mass movements, causes of landslides.

SUGGESTED READINGS: Holtz, R.D. and Kovacs, W.D., “An Introduction to Geotechnical Engineering”, Prentice Hall Couduto, D.P., “Geotechnical Engineering – Principles and Practices”, Prentice Hall of India Ranjan, G. and Rao, A.S.R., “Basic and Applied Soil Mechanics”, New Age International Publishers Murthy, V.N.S., “Text Book of Soil Mechanics and Foundation Engineering”, CBS Publishers Lambe, T.W. and Whitman, R.V., “Soil Mechanics”, John Wiley and Sons Das, B.M., “Principles of Geotechnical Engineering”, Thomson Asia

Course No: CEM505 Course Title: SOIL MECHANICS LAB


Total Credits: 1, Periods (55 mts. each)/week: 2(L:+T:0+P:2+S:0), Min.pds./sem.: 26


1. Determination of water content by oven drying method

2. Determination of specific gravity by pycnometer

3. Determination of field density and dry unit weight by core cutter method

4. Determination of field density by sand replacement method

5. Determination of grain size distribution by sieve analysis

6. Determination of grain size distribution by hydrometer analysis

7. Determination of liquid limit of soil

8. Determination of plastic limit of soil

9. Determination of compaction properties of soil by standard proctor test

10. Determination of shear parameters of soil by direct shear method

November 11, 2019 5

Course Number: CEM506, Course Title: CONCRETE TECHNOLOGY



UNIT 1: INTRODUCTION

Definition of concrete, brief introduction to properties of concrete, advantage of concrete, uses of

concrete in comparison to other building materials. ingredients of concrete: Properties of Concrete :

Compressive strength, tensile strength, stress-strain behavior, modulus of elasticity, shrinkage,

creep, characteristic strength, grades of concrete, design stress-strain curve of concrete,

reinforcing steel, types and grades, stress-strain behavior, design stress-strain curve.

CEMENT: The chemical ingredients causing changes in properties, situations of use and special

precautions in the use of following types of cements: Ordinary Portland cement, rapid handling

cement, low heat cement, high alumina cement, blast furnace slag cement, quick setting, white and

colored cements, Portland pozzolana cement.

AGGREGATES: Classification of aggregates according to source, size and shape. Characteristic of

aggregates: Particle size and shape, crushed and rounded aggregates, surface texture, specific

gravity of aggregate; bulk density, water absorption surface moisture, bulking of sand, deleterious

material in aggregate, Grading of aggregates, course aggregate, fine aggregate; all in aggregate;

finness modulus; interpretation grading charts and combination of two aggregates.

WATER: Lime on the impurities as per IS; effect of excessive impurities an concrete, ascertaining

the suitability of water with help of concrete cube test.

PROPERTIES OF CONCRETE: Properties in plastic stage, workability, segregation, bleeding.

Properties of hardened concrete: Strength, durability, impermeability, dimensional changes.

UNIT 2: WATER CEMENT RATIO

Hydration of cement, effect of water cement ratios on the physical structure of hydrated cement,

water cement ratio law and the conditions under which the law is valid; internal moisture,

temperature, age and size of specimen. Definition of cube strength of concrete, relations between

water cement ration and strength of concrete.Use of CRRI Charts and BIS cods.

WORKABILITY: Definition, phenomenon of workability, concept of internal friction, segregation and

hardness; factors affecting workability; water content; shape, size and percentage of fineness

passing 300 micron. Measurement of workability; slump test and compaction factor test;

recommended slumps for placement in various condition of placement.

UNIT 3: PROPORTIONING FOR ORDINARY CONCRETE

Object of mix design, strength required for various grades from is 456, proportionate for ordinary

mixes prescribed by BIS and its interpretation. Adjustment onsite for: Bulking water contents,

absorption, workability, design data's for moisture, bulk, absorption and suitable fine aggregate and

coarse aggregate ratio. Introduction to fines concrete.

FORM WORK: Concept of factors affecting the design of form work, materials used for form work,

sketches of form work for column, beam and slab, precautions during and after RCC construction,

Removal of form work.

UNIT 4: SPECIAL CONCRETES

New materials for light weight concrete, Fly ash, materials for high strength concrete, Accelerators

and retarders, air entraining and set controlling agents, water reducing and set controlling agents,

special bonding agents. Polymer concrete, cold and hot weather concreting, under water

concreting.

UNIT 5: CONCRETE OPERATIONS

Storing of cement in warehouse, at site, effect of storage on strength of cement. Determination of

warehouse capacity for storage of cement. Storing of aggregate, Batching of cement, Batching

aggregate by volume, using gauge box, measurement of water, mixing, hand mixing, machine

mixing– types of mixers. Transportation of concrete, placement of concrete.

COMPACTION: Hard Compaction, pavement, narrow and deep members, machine compaction,

types of vibrators, finishing concrete slabs, floating and trowel ling. Curing, objectives, methods of

curing, shading concrete works, steam curing, etc. Location of construction joints, treatment of

joint before concrete is poured, concreting and expansion joints in concrete in buildings.

SUGGESTED READINGS: M S Shetty, Concrete Technology: Theory and Practice, S Chand & Company A M Neville, Concrete Technology, J J Brooks, Pearson Education P D Kulkarni, R K Ghosh, Y R Phull, Concrete Technology, New Age International Ltd A R Snthakumar, Concrete Technology, Oxford M L Gambhir, Concrete Technology, Tata McGraw-Hill Education

November 11, 2019 6

Course Number: CEM501, Course Title: TRANSPORTATION ENGINEERING-II



UNIT 1: INTRODUCTION, PERMANENT WAY AND COMPONENTS

History and administrative setup of Indian Railways; rail gauges, permanent way – functions,

requirements, sections in embankment and cutting (single/double track), electrified tracks,

locomotives, wheel and axle arrangement, coning of wheels, components – rails, sleepers, ballast

and formation.

UNIT 2: RESISTANCES AND STRESSES IN TRACKS, HAULING CAPACITY

Types of resistances to traction, stresses in different components of track, hauling capacity of a

locomotive, tractive effort.

Joints and Fastenings:Types of joints, short welded rails, long welded rails and continuous welded

rails, rail to rail and rail to sleeper fastenings, elastic fastenings.

UNIT 3: TRACK GEOMETRICS, TURNOUTS AND CROSSINGS

Railway alignment, vertical alignment – gradients and grade effects, horizontal alignment –

horizontal curves, super-elevation, concepts of cant excess and deficiency, safe permissible speed,

transition curves, widening of gauges and track clearances, points and crossings – terminologies,

types of turnouts, design of turnouts, types of crossings, design of crossings.

Track Safety, High speed tracks, Urban railways: Signals classification and their functions, train

operation control systems – absolute, automatic block systems, centralized train control system,

ATS, interlocking of tracks – principle of interlocking, types of interlocking, high speed tracks -

track

requirements, speed limitations, high speed technologies, urban railway - railway systems in urban

areas.

UNIT 4: INTRODUCTION, AIRCRAFT CHARACTERISTICS AND AIRPORT SELECTION

Air transport development in India, national and international organizations in air transport, aircraft

characteristics and their impact on planning of an airport, selection of site for an airport, airport

obstruction, imaginary surfaces, runway orientation clam period and wind coverage.

UNIT 5: GEOMETRIC DESIGNS

Runway and taxiway geometric designs, exit taxiway, its design and fillet curves, runway

configuration, separation clearance, design of apron and their layouts.

Airport Traffic control Aids:Visual aids, marking and lighting of runway and apron area, wind and

landing direction indicator. SUGGESTED READINGS: Chandra, S. and Agarwal, M. M., “Railway Engineering”, Oxford.

Arora, S. P. and Saxena, S. C., “A Text Book of Railway Engineering”, Dhanpat Rai Publications. Mundrey, J. S., “Railway Track Engineering”, Tata Mcgraw Hill. Khanna, S. K., Arora, M. G. and Jain, S. S., “Airport Planning & Design”, Nem Chand and Bros. Horonjeff, Robert and McKelvey, Francis X., “Planning & Design of airports’, 4th Ed., McGraw Hill. Saxena, S.C., “Airport Engineering – Planning and Design”, CBS Publishers.

Course No: CEM515 Course Title: TRANSPORTATION ENGINEERING-II LAB

Class: B.Tech., Status of Course: CORE COURSE, Approved since session: 2015-16

Total Credits: 1, Periods (55 mts. each)/week: (L:0+T:0+P:0+S:0), Min.pds./sem.:

Tests for Subgrade soils

Tests on Aggregates used in Road construction

Tests on Bituminous mixex

Tests for cement concrete

Field test on Pavement layers

November 11, 2019 7

Course Number: CEM509, Course Title: HYDROLOGY AND GROUND WATER ENGG.




Ground water utilization & historical background, ground water in hydrologic cycle, ground water

budget, ground water level fluctuations & environmental influence, literature/ data/ internet

resources.

UNIT 2: OCCURRENCE AND MOVEMENT OF GROUND WATER

Origin & age of ground water, rock properties affecting groundwater, groundwater column, zones of

aeration & saturation, aquifers and their characteristics/classification, groundwater basins &

springs. Darcy's Law, permeability & its determination, Dupuit assumptions, heterogeneity &

anisotropy. Ground water flow rates & flow directions, general flow equations through porous

media.

UNIT 3: ADVANCED WELL HYDRAULICS

Steady/ unsteady, uniform/ radial flow to a well in a confined/ unconfined /leaky aquifer, well flow

near aquifer boundaries/ for special conditions. Partially penetrating/horizontal wells & multiple well

systems, well completion/ development/ protection/ rehabilitation/ testing for yield. Pollution and

Quality and Quality Analysis of Ground Water.

UNIT 4: SURFACE/SUB SURFACE INVESTIGATION OF GROUND WATER

Geological /geophysical exploration/ remote sensing / electric resistivity /seismic refraction based

methods for surface investigation of ground water, test drilling & ground water level measurement.

Sub-surface ground water investigation though geophysical / resistivity /spontaneous potential

/radiation / temperature / caliper / fluid conductivity / fluid velocity /miscellaneous logging.

Unit 5

Artificial Ground Water Recharge, Saline Water Intrusion in Aquifers, Modeling and Management of

Ground Water.

SUGGESTED READINGS: D. K. Todd and L. F. Mays, "Groundwater Hydrology", John Wiley and sons. K. R. Karanth, "Hydrogeology", TataMcGraw Hill Publishing Company. S. Ramakrishnan, "Ground water", S. Ramakrishnan.

Course No: CEM 510 Course Title: HYDROLOGY AND GROUND WATER ENGG. LAB



1. Friction Head Loss in Smooth and Rough Pipe

2. To study the velocity distribution in an open channel and to estimate the energy and momentum

connection.

3. To study the characteristics of Hydraulic Jump

4. Ground Water Tests

5. To study the sediment distribution

Course Number: CEM511, Course Title: BASIC PRINCIPLE OF ARCHITECTURAL DESIGN



Course Number: CEM512, Course Title: BASIC ARCHITECTURAL DESIGN LAB



November 11, 2019 8

Course Number: EEM501, Course Title: LINEAR CONTROL ENGINEERING



UNIT 1: MATHEMATICAL MODELING OF PHYSICAL SYSTEMS

Introduction, Definitions. Closed loop control and open loop control Examples.

Modelling of electrical, mechanical, hydraulic, pneumatic and thermal systems. Transfer functions.

Transfer matrices. Electrical analogies. Block diagram. Signal flow graphs.

UNIT 2: CONTROL COMPONENTS AND SYSTEMS AND CONTROL ACTIONS

Sensors, Error Detectors and Actuators. Potentiometers, Synchrous, Tachogenerators, A.C. & D.C.

Servomotors, Position Servomechanisms, Speed Control Systems etc.

Proportional, Integral and Derivative control. Effect of Integral and Derivative Control Actions on

System Performance.

UNIT 3: TIME DOMAIN RESPONSE AND STABILITY

Transient response of first, second and higher order systems to standard inputs. Steady state error

and dynamic error coeffiecients.

Concept of stability, Routh's stability criterion. Nyquist's criterion and stability analysis.

UNIT 4: ROOT LOCUS TECHNIQUES AND FREQUENCY RESPONSE

Concept of root locus. Rules for construction of root locii. Root locus analysis of control systems.

Introduction. Polar, Nyquist and Bode plots. Gain and phase margin. M & NY circles. Nichol's chart.

Approximation of transient response from closed loop frequency response.

UNIT 5: DESIGN OF CONTROL SYSTEMS AND STATE SPACE MODELLING

Specifications, Lead, Lag & Lag-Lead compensation in S plane using Bode plot and root locus.

Concept of state of system, state space representation of systems. Solution of state equation. State

transition matrix, its properties and evaluation.

SUGGESTED READINGS: K Ogata: MODERN CONTROL ENGINEERING IJ Nagrath & DP Kothari: CONTROL SYSTEMS ENGINEERING BC Kuo: AUTOMATIC CONTROL SYSTEMS J Nagrath & M Gopal: CONTROL SYSTEM ENGINEERING

Course Number: EEM502, Course Title: CONTROL ENGINEERING LAB.


Total Credits: 1.5, Periods (55 mts. each)/week: 3(L:0+T:0+P:0+S:0), Min.pds./sem.: 39

1. To study the principle and operation of synchros in various modes of operation and also to (a)

plot the variation f stator voltages with angular position in position transducer mode (b) plot the

variation of receiver rotor voltage (error) in error detector mode keeping receiver shaft

stationary and changing transmitter shaft displacement (c) plot variation of receiver rotor

position due to change in transmitter shaft position in position transmission mode.

2. To determine the transfer function of a separately exited d.c. motor to be used as an actuator in

d.c. position control systems.

3. To study the construction and operation of an a.c. servomotor used as actuator in a.c.

servomechanisms and also determine its transfer function by plotting its torque-speed

characteristic.

4. To study the d.c. position control system and the effect of positive and negative feedback on

the system.

5. To study the principle, construction and operation of the magnetic amplifier and also plot the

variation of load current with control current in (a) series connected, (b) parallel connected

(c) self saturated configurations

6. To study MATLAB and CONTROL SYSTEM TOOLBOX and perform time-domain and frequency

domain analysis on various types of systems.

November 11, 2019 9

Course Number: EEM503, Course Title: ELECTRICAL MACHINES II

Class: B.Tech., Status of Course: Major, Approved since session: 2015-16

Total Credits: 3, Total pds. (55 mts each)/week: 4(L:3+T:1+P:0+S:0) Min. pds./sem.: 39

UNIT 1: STARTING OF MOTORS

Starting of DC motors, Starters, Starting of poly-phase induction motor, Starters for Induction

motors, Starting of Synchronous motors.

UNIT 2: TESTING AND SPEED CONTROL OF MACHINES

Speed control of DC motors and three phase induction motors. Testing of DC motor, three phase

induct motors, three phase alternators. Efficiency of DC machine, induction motor and alternator.

UNIT 3: SINGLE PHASE MOTORS

Induction Type, Cross Field and Double Revolving Field Theory, Equivalent Circuit, characteristics,

methods of starting of single phase motor.

UNIT 4: SPECIAL ELECTRIC MOTORS

Stepper motors, Switched reluctance motor, Hysteresis Motors, Universal Motors, Permanent

magnet Type Brushless dc motor.

UNIT 5: ENCLOSURES AND COOLING METHODS

Enclosures for motors, Types of insulations and causes of insulation failure, Temperature rise,

Methods of cooling.

SUGGESTED READINGS: H Cotton: ELECTRICAL TECHNOLOGY J Hindmarsh: ELECTRIC MACHINES & THEIR APPLICATIONS PS Bhimbra: GENERALIZED THEORY OF ELECTRICAL MACHINES Veinot Martin: FRACTIONAL AND SUB-FRACTIONAL HORSEPOWER MOTORS DO Kelly & Simmons: INTRODUCTION TO GENERALIZED MOTORS Kosow: ELECTRICAL MACHINES Fitzerland & Kingsley: ELECTRICAL MACHINES

Course Number: EEM504, Course Title: ELECTRICAL MACHINES LAB.

Class: B.Tech., Status of Course: Major, Approved since session: 2015-16

Total Credits: 1.0, Total pds. (55 mts each)/week: 2(L:0+T:0+P:2+S:0) Min. pds./sem.: 39

List of Experiments:

1. To perform load test on 3 Induction motor and to plot the following characteristics (a)

Efficiency-output (b) Stator current-output (c) Speed-output (d) P.F.-output.

2. To perform no-load and blocked rotor test on 3 induction motor and to draw circle diagram.

3. To perform speed control of a separately excited dc motor.

4. To determine the regulation of alternator by synchronous impedance method.

5. To determine efficiency of dc machine by Hopkinson’s test.

6. To connect two single phase transformer in (open delta) to verify that output is a true 2 phase.

Scott connection and hence to verify that the output voltage are 90 apart.

7. To perform open circuit and short circuit tests on a single phase transformer and to determine

parameters of equivalent circuit.

November 11, 2019 10

Course Number: EEM505, Course Title: ANALOG ELECTRONICS


Total Credits: 3, Periods (55 mts. each)/week: 4(L:3+T:1+P:0+S:0), Min.pds./sem: 39

UNIT 1: BJT MODELS AND CIRCUITS

BJT Large signal model & characteristics. Biasing circuits for BJT. Bias stability. Small signal models

for BJT and at low & high frequencies. Early Effect. Current mirror principle. Analysis of Simple and

Widlar current sources. Power Amplifiers fundamentals: Class-A, Class-AB, Class-B, Amplifier

Analysis. Specification of Power Transistors, Thermal Derating.

UNIT 2: REVIEW OF MOSFET FUNDAMENTALS

MOSFET: VDS-IDS Characteristics derivation. Threshold voltage. Channel length modulation. MOSFET

capacitances. Biasing circuits. Analysis of common-source, common-drain & common gate

amplifiers using small signal models at low & high frequencies. CMOS fundamentals: Analysis of

CMOS current sources.

UNIT 3: SINGLE AND MULTIPLE TRANSISTOR CIRCUITS

Two post modeling of transistors. Different configurations of BJT and MOS amplifiers Multiple

Transistor Circuits Darlington, Cascade Configuration. Differential pair DC. Transfer characteristic of

differential pair, small signal analysis of balanced differential pair.

UNIT 4: FEEDBACK & OSCILLATORS

Feedback: Series-Shunt Feedback, Shunt-Shunt Feedback, Shunt-Series Feedback, Series-Series

Feedback, Feedback Circuit Analysis using Return Ratio. Phase Shift and Wien-Bridge Oscillators. LC

oscillators.

UNIT 5: BIPOLAR, MOS FABRICATION

Introduction, Basic Processes in IC fabrication. High voltage bipolar IC fabrication. Passive

components in bipolar ICs. MOS IC fabrication. Passive components in MOS. BICMOS technology.

Packaging consideration of ICs.

SUGGESTED READINGS: Gray, Meyer et.al: ANALYSIS AND DESIGN OF ANALOG INTEGRATED CIRCUITS. Johns & Martin: ANALYSIS AND DESIGN OF ANALOG INTEGRATED CIRCUITS. Schilling & Belove: ELECTRONIC CIRCUITS-DISCRETE AND INTEGRATED. RC Jaeger: MICRO-ELECTRONIC CIRCUIT DESIGN.

Course Number: EEM506, Course Title: DIGITAL SYSTEMS



UNIT 1: COMBINATIONAL SYSTEMS

Review of Boolean Algebra, logic gates. Minimization: Quine-McCluskey Method. Design of

Combinationl Systems such as Comparators, Incrementers etc., using Gate Networks. Design using

Standard Combonational Modules such as Encoders, Decoders, Multiplexers and Demultiplexers.

Shifters, Barrel Shifters. Programmable Logic Modules-PLAs, PALs and FPGAs.

UNIT 2: ARITHMETIC COMBINATIONAL MODULES

Fixed Point and Floating Point Arithmetic. Half Adders and Full Adders Ckts. Carry Ripple and Carry-

Look-Ahead (CLA) modules. Network of Adder modules. Addition and Subtraction of Signed

Integers in Twos Complement. ALU, Comparators, Multiplier Circuits.

UNIT 3: SEQUENTIAL CIRCUITS AND REGISTER TRANSFER

Flip-Flops, Registers. State Diagrams. Various types of Counters (Ripple, Synchronous, Johnson,

Ring, Presettable), Design of Counters and Sequence Detectors. Tri-state Logic and Register

Transfers via Bus. Register Transfer & Micro Operations.

UNIT 4: INTERGRATED CIRCUIT LOGIC FAMILIES

Digital IC Terminology: Fan-in, Fan-out, Propagation Delays, Effect of Loading, Power Dalay

Product. The TTL Logic Family and its Variants, their Salient Features, Totem Pole and Open

Collector Outputs-Wired OR, Wired and Connections. MOS Ics- Basic Characteristics, MOS Gates.

CMOS Inverter Characteristics. Complex CMOS Gates Transmission Gates. Transmission Gate-its

uses. ECL Family and its Basic Features.

UNIT 5: MEMORIES

General Concepts, Terminology, Operations and Organization, ROMs-their Types, Architecture,

Timings, Applications. Flash Memory. RAM, Architecture and Timings. Static RAM Organization of

Large Memories. Dynamic RAM-structure and Operation, Refreshing Scheme. Basic Computer

Organization. Instruction Codes. Stored Program Organization. Addressing Modes. Computer

Registers. Instructions Timing & Control Unit.

SUGGESTED READINGS: TOCCI: INTRODUCTION TO DIGITAL SYSTEM Morris Mano: COMPUTER SYSTEM ARCHITECTURE Ercegovac, Lang & Moreno et.al.: INTRODUCTION TO DIGITAL SYSTEM


Course Number: EEM507, Course Title: ELECTRICAL TECHNOLOGY



UNIT 1: DC MOTOR

Armature reaction, methods to eliminate undesirable effects of armature reaction. Commutation,

resistance commutation, reactance voltage. Starting of DC motor, three point and four point

starters, Speed control of DC motor.

UNIT 2: TRANSFORMERS

Types, difference between distribution and power transformers. Three phase connections, Parallel

operation, and concept of transformer harmonics. Brief idea about cooling methods.

UNIT 3: INDUCTION MOTOR

No load and blocked rotor test, starting methods, methods of speed control, crawling, Double cage

induction motor, Applications.

UNIT 4: FRACTIONAL HORSE POWER (FHP) MOTORS

Single Phase Induction Motor, Shaded pole motor, Reluctance motor, Hysteresis motor operation

and applications.

UNIT 5: SYNCHRONOUS MACHINES

Types, constructional details, emf equation, synchronous reactance, voltage regulation-

synchronous impedance method, Power angle characteristics. Power factor improvement. V-curve

Applications. SUGGESTED READING: MG Say: ELECTRICAL MACHINARY H Cotton: ELECTRICAL MACHINE SK Pillai: ELECTRICAL DRIVES

Course Number: EEM508, Course Title: ELECTRICAL TECHNOLOGY LAB.




1. To study the Manetization or open circuit characteristics of separately exited D.C. generator and

to trace the Hysteresis loop

2. the operation of a D.C. shunt motor starter and to find the variation in speed of a D.C. shunt

motor by (I) Field control (ii) Armature resistance control

3. To study the drum controller and draw the Speed-Torque characteristics at different notches of

drum controller of a D.C. Traction motor.

4. To find the efficiency of a single phase Transformer by open circuit and short circuit tests.

5. To find the efficiency of a D.C. motor by Indirect Method (Swinburn’s Test)

6. To study the parallel operation of two single phase Transformer.

7. To perform no load and block rotor tests on three phase Induction motor and to determine

efficiency.

8. To synchronize two three phase 230 volts, 50 Hz Alternator.

9. To determine the Regulation of Alternator by Synchronous Impedance Method.


Course Number: EEM511, Course Title: ANALOG ICs & SYSTEMS



UNIT 1: D.C. POWER SUPPLY DESIGN

Conventional D.C. Power Supply Rectifier & filter design zener based regulators. Analog I.C.

Regulators Switching regulators. Switched mode power supply design. High voltage D.C. Circuits.

UNIT 2: OPERATIONAL AMPLIFIERS AND OP AMP BASED DESIGN

Analysis of differential amplifier, current mirror, Widlar and Wilson current mirror, Low current

biasing supply independent biasing. Op-amp specifications and design of simple functional blocks

using of op-amp.

UNIT 3: SPECIAL PURPOSE ANALOG ICs AND CIRCUIT DESIGN BASED ON THEM

555 timer I.C. Audio-amplifier IC. Operational transconductance Amplifier (OTA) based circuits.

UNIT 4: FILTER DESIGN

Approximations: Butterworth & Chebyshev. Active, R-C Filter Design, switched-capacitor principles

and design of switched capacitor filter.

UNIT 5: OPERATIONAL AMPLIFIER BASED NON-LINEAR CIRCUITS

Precision Rectifiers, voltage to frequency converters, Analog multipliers. Amplitude stabilization

circuits for oscillators.

SUGGESTED READING: Gayakwad: OPERATIONAL AMPLIFIERS Sidney Sodof: APPLICATIONS OF ANALOG INTEGRATED CIRCUITS

Course Number: EEM512, Course Title: ANALOG ICs & SYSTEMS LAB.



1. Design of analog systems using the procedures discussed in theory and their implementation.

2. SPICE Simulation of Circuits.

Course Number: EEM513, Course Title: COMPUTER ARCHITECTURE




Evolution of Computers, Stored program concept, Generation of computers, Types of Computer

systems. Comparison of various computers, measures for comparison of various systems,

performance criteria, problems in specifying performance.

UNIT 2: ARITHMETIC UNIT

Serial and parallel arithmetic unit. Carry look ahead circuits. Realisation of Binary multiplication and

division. Algorithms of fast arithmetic operations.

UNIT 3: MEMORY UNIT

Memory device characteristics, Classification and various types of memories and their properties.

Concept of memory hierarchy-need and utility. Design of IC RAMs, 2D and 2.5 D memories,

Implementation of ROMs. Virtual memory concept. Design objectives. Address mapping. Memory

protection schemes. Interleaved memories. Cache Memories – types and organization. Memory

management hardware.

UNIT 4: I/O SUBSYSTEM

Addressing of I/O devices, data transfer, synchronisation, interrupt handling, I/O interfaces, I/O

channels.

UNIT 5: CPU CONTROL UNIT

CPU organization, Internal structure of the CPU, Register organization, Instruction cycle, Instruction

pipelining, Interrupts, processor organization. Microinstructions, Microprogrammed control units,

microprogram sequencing, microinstructions with next address field, prefetching of micro-

instructions.

SUGGESTED READINGS: COMPUTER ORGANIZATION AND DESIGN PATTERSON AND HENNESEY: 2nd Edition, Morgan Kaufmann, 1998. Heuring And Jordan: COMPUTER SYSTEM ARCHITECTURE, Prentice – Hall of India. W. Stallings: COMPUTER ORGANISATION AN ARCHITECTURE, Maxwell Macmillan International edition. J.P. Hayes: COMPUTER ARCHITECTURE AND ORGANISATION.


Course Number: EEM514, Course Title: ADVANCED PROGRAMMING LAB.



1. Write a program in Java to sort strings in ascending order. User should be prompted to enter

the input strings.

2. Print a table that lists the values of the powers xy for all x between 1 and 10 and y between 1

and 8 with all the columns neatly lined up.

3. Write a program in Java to read all the characters of an input file and write them to an output

file after capitalizing each character.

4. Use a HashMap to store the names of bank depositors and their current account balances. (Add

some entries). Now display all the balances in the hash table along with the depositor’s name.

Modify the balance of one of your entries and display.

5. Write a Java applet that enables the user to make free hand drawing with the mouse.

6. Write Java applets to draw the following geometric shapes

(a) a hollow ellipse

(b) a filled ellipse

(c) a hollow ellipse in a filled rectangle

7. Write a Java applet that displays a control button and runs as follows. Initially, the label on the

button is “Click Me”. When the mouse moves from outside and enters the component, the

button label changes to “Go Away”. When the mouse moves out of the button, the button label

changes to “Stay Here”. If the button is clicked, then the label is “Clickes”.

8. How can parameters be passed to an applet? Pass a string parameter “Hello world” which is to

be displayed at the center of the window.

9. Write a Java applet that asks the user to enter numbers from the user and prints the average,

smallest and largest of the numbers.

10. Write an applet in Java that displays HAPPY BIRTHDAY continuously. The text should give the

illusion to the user that it is continuously moving. Also display ‘moving text’ in place of ‘applet

started’.

11. Create a frame in Java that looks like a chess board.

12. Write a Java program to create an applet that contains the following GUI components (i) a

button with ok on it (ii) a checkbox labeled as SHOW (iii) a label with heading ‘Name’ (iv)

a list displaying three items ‘itemone’, ‘itemtwo’ and ‘itemthree’ (v) a horizontal scrollbar (vi) a

textfield with text JAVA written in it. (vii) A text area of size 530 with ‘JAVAGUI’ written in it.

13. Write a Java applet for loading and displaying an image ‘logo.gif’ assuming that it is present in

your current working directory.

14. Write a Java program for handling mouse events.

15. Write a Java program for creating multiple threads.

16. Write a Java program that lets users create Pie charts. Design your own user interface (Use

Swings & AWT)

17. Write a Java program that allows the user to draw lines, rectangles and OU.als.

18. Write a Java program that implements a simple client/server application. The client sends data

to a server. The server receives the data, uses it to produce a result, and then sends the result

back to the client. The client displays the result on the console. For ex: The data sent from the

client is the radius of a circle, and the result produces by the server is the area of the circle.

19. Write a Java program that illustrates run time polymorphism.


Faculty of Engineering, D.E.I. Dayalbagh, Agra Course Number: FEM501 Lasting and Making Technology

Class: B.Tech.(Footwear Technology), Status of the Course: MAJOR, Approved Session: 2014-15 Credits: 3, Periods (55 mts. each) per week: 3 (L:3+T:0+P:0), Min. Periods/Sem.: 39 This course aims to describe and develop awareness on the essentials for lasting an upper well down to last and making a permanent bond using different methods. To provides a practical understanding on the requirements for ancillary material such as threads and needles (and/ or bristles) and thread to material relationship. UNIT - 1 INTRODUCTION

Introduction, Various types of machines and tools related to Bottom section.

UNIT – 2 Introduction and preparation of bottom components such as toe-puff, Stiffener insole, shank, welt, re-enforcements, outsole and their proper placements.

UNIT – 3 Introduction and importance of lasting, importance of hoisting and drafting, heat setting, importance and placement of different types of shank laying and importance of bottom filling. UNIT – 4 Roughing and buffing of lasted upper and outsole, method of sole attachment, application of adhesive on upper and sole. Proper sole attachment by hand and machine, single sole attachment, nailing and riveting attachments. UNIT – 5

Introduction and preparation of single construction in slippers, ladies belly, casual shoe, derby shoe, moccasin, veldtschoen construction, slip lasting, turn shoe etc.

SUGGESTED READINGS:

1. Harvey, A.J., “Footwear Materials and Process Technology”, LASRA Publications, New Zealand, 1982.

2. S.N. Gongly, ‘Comprehensive footwear technology”

Faculty of Engineering, D.E.I. Dayalbagh, Agra

Course Number: FEM503 Footwear Construction

Class: B.Tech.(Footwear Technology), Status of the Course: MAJOR, Approved Session: 2014-15

Credits: 3, Periods (55 mts. each) per week: 3 (L:3+T:0+P:0), Min. Periods/Sem.: 39

This course aims to describe and develop awareness on the essentials for lasting an upper well down to last and making a permanent bond using different methods. To provides a practical understanding on the requirements for ancillary material such as threads and needles (and/ or bristles) and thread to material relationship.

UNIT - 1 Direct Attachment construction

Introduction and preparation of different methods used for direct attachment like machine

sewing, little way construction, cemented construction, riveted construction and stroble

construction etc.

UNIT – 2 Indirect Attachment constructions

Introduction and preparation of different methods used for indirect attachment like good year

welted construction, silhouette construction, staple welted construction and welted construction.

UNIT – 3 Moulded and Vulcanized constructions

Introduction and preparation of moulded constructions, DVP (Direct Vulcanization process),

Injection moulding, PVC and PU. Introduction and preparation of California slip lasted.

UNIT – 4 Safety Precautions

Introduction to Safety Precautions, Their Safety Codes and norms for tools, equipments and

machines and conveyer system used in footwear industry.

UNIT – 5 Finishing and final inspection

Object of finishing, Process involved in finishing of complete footwear, inspection of complete shoe, description of packing material and packing techniques.

SUGGESTED READINGS: 1. Harvey, A.J., “Footwear Materials and Process Technology”, LASRA Publications, New Zealand, 1982. 2. S.N. Gongly, ‘Comprehensive footwear technology”


Faculty of Engineering, D.E.I. Dayalbagh, Agra Course Number: FEM505 Computer Aided Footwear Designing

Class: B.Tech.(Footwear Technology), Status of the Course: MAJOR, Approved Session: 2014-15 Credits: 3, Periods (55 mts. each) per week: 3 (L:3+T:0+P:0), Min. Periods/Sem.: 39 This course aims to describe and develop awareness about computer aided design(CAD) in footwear industry. The course is also supported by the lab for hands on experience.

UNIT - 1 Introduction Definition and advantages of CAD/CAM, study of different CAD/CAM systems available, ADC and DAC, 2D and 3D coordinate system, digitization, different types of graphic file formats, colour and fill patterns.

UNIT – 2 Hardware and peripherals

Computer system, digitizer, scanner, plotter, laser cutter, printers, LAN, WAN, CNC and its implementation in last modeling.

UNIT – 3 CAD Software

Different Operating systems, structured and non-structured programs, system software and utilities, Application software, compliers, FEM in footwear.

UNIT – 4 Pattern generation, grading, costing

Mean forme digitization for 3D, Shell modification, pattern extraction, pattern marking and allowances, pattern matching, grading the shell, pattern plot out /cutout, pattern testing, wastage calculations first, second and third wastage.

UNIT – 5 Image processing

Transfer of 2D Design to 3D Transfer of 3D Design to 2D.

Principles and strategies for collection of data or imaging data reduction and processing techniques with special reference to footwear designs.

SUGGESTED READINGS:

1. Aki Choklat, “Footwear Design”, 2.


Course Number: MEM501, Course Title: FLUID MECHANICS



UNIT 1: INTRODUCTION & KINEMATICS

INTRODUCTION: Properties of fluids, ideal and real fluids. Newtonian and non-newtonian fluids

KINEMATICS: Lagrangian and Eulerian approaches, Classification of different types of flows, Path

lines, Streak lines-Stream lines, Stream tubes, Uniform and non-uniform flows, steady and

unsteady flows, laminar and turbulent flows, Compressible and incompressible flows, Rotational and

irrotational flows, acceleration of fluid particles, equation of continuity, system and control volume

approaches, Reynold’s transportation theorem (no derivation), Introduction to turbulent flow.

UNIT 2: CONSERVATION OF MASS MOMENTUM AND ENERGY

Application of law of conservation of mass, momentum and energy equation to a control volume,

The differential forms of the continuity, momentum and energy equations, Equation of motion,

Navier strokes equation, Euler’s equation, general energy equation, kinetic head, pressure head

and potential head, Bernoulli’s equation, integration of Euler’s equation to Bernoulli’s equation,

energy correction factor, Practical applications of Bernoulli’s equation, orifice, mouth piece, orifice

meter, venture meter, pitot tube. Time of emptying tanks through orifices, head lost due to sudden

expansion and contraction, losses due to pipe fittings.

UNIT 3: STREAM FUNCTIONS & VISCOUS EFFECTS

Stream function and its physical concept, properties of stream lines, concept of velocity potential

and potential lines, relation between stream function and velocity potential, Circulation and

vorticity, Irrotational vortex flow-free and forced, Source and sink flows.

VISCOUS EFFECTS: Navier stokes equation and its application to simple flows, Couette and

Poiseuille flows, pressure drop, discharge and skin friction drag, Introduction to boundary layers,

displacement thickness, momentum thickness and energy thickness.

UNIT 4: PIPE AND CHANNEL FLOW

PIPE FLOW: Flow through pipes with friction, friction factor, the Darcy-Weisbach equation, Total

energy line and hydraulic gradient line, Series, parallel and branching pipes, Moody’s diagram,

Equivalent Pipe Length, Transmission of power through pipes, Condition for maximum efficiency.

CHANNEL FLOW: Uniform and non-uniform flow, General equation, Velocity distribution, Most

economical section Rectangular Trapezoidal and Circular sections.

UNIT 5: COMPRESSIBLE FLOW

COMPRESSIBLE FLOWS: Basic thermodynamic relationship, Equation of continuity and energy

equation of flowing gases, Mach number, Compressible flow regimes, Introduction to Mach cone,

Mach line and shock waves, Stagnation pressure and temperature, Adiabatic flow through pipes and

ducts of varying area-nozzle and venturimeter.

SUGGESTED READINGS; J Lal: HYDRAULICS AND FLUID MECHANICS AK Jain: FLUID MECHANICS Strecter: FLUID MECHANICS Shames: FLUID MECHANICS Yuan: FOUNDATIONS OF F.M. KL Kumar: ENGINEERING FLUID MECHANICS


Course Number: MEM502, Course Title: FLUID MECHANICS LAB.



1. Obtain the experimental value of coefficient of discharge of a given orifice meter having

diameter of orifice as 9/16” attached with a G.I. pipe of 1”dia. (a) discuss the variation of discharge

with drop in head at orifice meter (b) discuss the variation of coefficient of discharge with Reynold’s

number (c) assuming the value of coefficient of discharge as 0.9 compare the theoretical and

experimental actual discharges for all readings.

2. Determine the value of coefficient of friction, ‘f’ for the given G.I. pipe and compare its value

obtained from Moody’s chart (a) pipe of ½”diameter (b) pipe of 1”diameter (c) pipe of 1-

½”diameter. The value of ‘t’ for G.I. pipe is given as 0.0005 feet and the kinematics viscosity of

water at 20C is given as 1.08 x 10-5 feet2/sec.

3. Obtain the value of coefficient of discharge of a Venturimeter having throat diameter as 5.0 cm.

(a) discuss the variation of discharge with drop of head at Venturimeter (b) assume the average

value of K=0.98 for above Venturimeter compare the theoretical and experimental actual

discharge.

4. Obtain the value of coefficient of discharge at six different heads for ¾” cylindrical mouthpiece

(a) discuss the variation of actual C with head (b) discuss the variation of actual C with H (c)

assuming the value of coefficient of discharge as 0.82 for the ¾” cylindrical mouthpiece compare

theoretical and experimental actual discharge for all readings.

5. Obtain the value of coefficient of discharge at six different heads for 7/8” circular orifice (a)

discuss the variation of actual discharge with head (b) discuss the variation of actual Q with H

(c) assuming the value of coefficient of discharge as 0.62 compare theoretical and experimental

actual discharges for all readings.

6. Obtain the value of coefficient of discharge for 60 notch. (a) discuss the variation of actual

discharge with H 5/2 (b) obtain the values of constant K and to satisfy the equation Q=KH (c)

assuming the value of coefficient of discharge as 0.65 compare theoretical and experimental actual

discharges for all readings.

7. Obtain the value of coefficient of discharge for 90 V notch. (a) discuss the variation of actual

discharge with H d/2 (b) obtain the values of coefficient K and to satisfy the equation Q=KH.


Course Number: MEM503, Course Title: MECHANICS OF SOLIDS II



UNIT 1: ANALYSIS OF STRESS AND STRAIN

The 3-dimensional state of stress and strain. Stress tensor. Stress invariants. Principal stresses.

Differential equations of equilibrium. Plane stress in Cartesian and cylindrical coordinates. Strain

tensor. Principal strains. Plain stain state in Cartesian and cylindrical coordinates. Generalized

Hooke’s law, application to isotropic materials.

UNIT 2: THEORIES OF FAILURE & AXISYMMETRIC PROLEMS

Theories of failure (maximum normal stress, maximum normal strain, maximum shear stress,

octahedral shear stress, maximum strain energy, maximum distortion energy) and their

significance.

Thick-walled cylinders. Compound cylinders. Rotating discs of uniform thickness. Discs of variable

thickness. Rotating shafts and cylinders.

UNIT 3: INELASTIC BEHAVIOUR IN BENDING AND TORSION & ENERGY METHODS

Deformation, stresses and residual stresses in the Inelastic range in bending of beams and in

torsion of circular bars.

Strain energy in uniaxial and biaxial loading. Principle of superposition. Maxwell’s reciprocal

theorem. Castigliano’s theorems, applications to statically determinate & indeterminate structures.

UNIT 4: BENDING OF BEAMS & TORSION

Asymmetrical bending of straight bars. Bending of curved beams. Winkler-Bach formula for

circumferential stresses.

Torsion of bars of non-circular cross-sections. Membrane analogy. Thin-walled tubes. Thin

rectangular sections.

UNIT 5: STRAIN GAGES AND EXPERIMENTAL STRESS ANALYSIS

Principle of electrical resistance strain gages. Gage factor. Wheatstone bridge circuit. Temperature

compensation. Principle of photoelastic analysis. Stress optic law. Plane and circular polariscopes.

Isoclinics and Isochromatics. Calibration. SUGGESTED READINGS: Srinath LS: ADVANCED MECHANICS OF SOLIDS Cook RD: ADVANCED MECHANICS OF MATERIALS Borest, Sidebottom: ADVANCED MECHANICS OF SOLIDS Riey Dally: EXPERIMENTAL STRESS ANALYSIS Srinath et al: EXPERIMENTAL STRESS ANALYSIS

Course Number: MEM504, Course Title: MATERIAL TESTING LAB.



1. Stiffness test

2. Sheet metal test

3. Notch bar test

4. Brinnel hardness test

5. Universal testing with UTM

6. Photoelastic Bench


Course Number: MEM505, Course Title: INDUSTRIAL ENGINEERING




Introduction to Industrial Engineering. Competitiveness and Strategy. Productivity and its

Measurement. Product Design and Development. Capacity Planning. Process Selection.

UNIT 2: FACILITY LOCATION AND LAYOUT

Facility location factors and evaluation. Location models. Types of plant layouts: Product, Process,

Project, and Cellular. Design of Product and Process Layouts. Line Balancing Methods. Operations

Sequence Analysis. Computerized Approaches.

UNIT 3: WORK STUDY

Job Design: Behavioural Approaches. Method Analysis. Motion Study. Therbligs. SIMO Chart. Work

Measurement. Standard Time Measurement. Predetermined Time Standards.

UNIT 4: OPERATIONS PLANNING AND CONTROL

Demand forecasting. Process Planning. Inventory Management and Control: Economic Order

Quantity, MRP, and MRP II. Sequencing, GANTT Charts, Scheduling, Routing, Dispatching,

Expediting, and Control.

UNIT 5: PROJECT MANAGEMENT

Elements of Project Management. Work Breakdown Structure. Project Planning & Scheduling.

Critical Path Method (CPM). Program Evaluation & Review Technique (PERT). Project Crashing.

SUGGESTED READINGS: Adam Jr. EE & RJ Ebert: PRODUCTION AND OPERATIONS MANAGEMENT, PHI, ND-1997 ES Buffa & Rakesh K Sarin: MODERN PRODUCTION/OPERATIONS MANAGEMENT, John Wiley Sons Inc., Singapore, 1987. Ralph Barnes: TIME & MOTION STUDY

Course Number: MEM515, Course Title: PROBABILITY AND STATISTICS


Total Credits: 4, Periods (55 mts. each)/week: 4(L-3+T-1+P-0+S-0), Min.pds./sem: 52

UNIT 1

Basic concepts of measurement: sensitivity, accuracy, precision, calibration etc. Experimental

errors-types, Uncertainty analysis, Problems. Measure of central tendency dispersion. Review of

basic probability concepts, mathematical expectation.

UNIT 2

Discrete and continuous random variables, probability density function, CDF. Binomial, Poisson and

Normal distributions and their applications. Checking data for normality.

UNIT 3

Sampling distribution, Central Limit Theorem, t- distribution, 2- distribution and F-distributions

Estimation problems, confidence and significance level. Point and interval estimation of mean and

variance.

UNIT 4

Hypothesis testing based on means, Hypothesis testing based on variances. One Way ANOVA

UNIT 5

Linear Regression analyses, Curve fitting, Methods of least square, and its validity using ANOVA.

Coefficient of determination. Correlation analyses. SUGGESTED READING: Holman, J. P., “Experimental Methods for Engineers” 7th Edition, McGraw Hill Walpole, R. E., Myers, R. L., Myers, S. L. and Ye K., “Probability and statistics for engineers and scientists”, Pearson Education Johnson, R.A., “Probability and Statistics for Engineers”, PHI.


Course Number: MAM581, Course Title: ENGINEERING MATHEMATICS V


Total Credits: 3, Periods (55 mts. each)/week: 4(L:4-0+P:0+S:0), Min.pds./sem: 39

UNIT 1: ALGEBRAIC AND TRANSIDENTAL EQUATION

Numerical solution, Method of bisection, Newton-Raphson Iteration, Acceleration of Convergence by

Aitken Triangle Square Process.

UNIT 2: LINEAR SIMULTANEOUS ALGEBRAIC EQUATION

Solution. Cholesky’s, Jacobi’s and Gauss-Seidal methods. Largest Eigen Value and corresponding

Eigen Vector. Relaxation Techniques.

UNIT 3: INTERPOLATION

Difference Table. Forward, Backward, Central and Shift operators. Gregory-Newton, Sterling,

Everett’s and Bessel’s Formulea. Lagrange’s formula. Inverse interpolation.

UNIT 4: NUMERICAL DIFFERENTIATION AND INTEGRATION

Newton-Cotes Formula. Gaussien Quadrature Formula, Extention of trapizoidal and Simpsons rule

to multiple integrals.

UNIT 5: ORDINARY DIFFERENTIAL EQUATIONS & PARTIAL DIFFERENTIAL EQUATIONS

Numerical Solution, Methods of Taylor, Picard, Euler, Range-Kutta, Adams-Bashforth and Milne’s

method. Simultaneous differential equations.

Numerical Solution. Laplace and one dimensional heat conduction equation.

SUGGESTED READINGS: SS Sastry: NUMERICAL ANALYSIS Conte DeBoor: NUMERICAL ANALYSIS Hildebrand: NUMERICAL ANALYSIS RG Stantom: NUMERICAL METHODS FOR SCIENTISTS AND ENGINEERS

Course Number: FBM501, Course Title: MANAGEMENT ACCOUNTING

Class: B.B.M., Status of Course: MAJOR COURSE, Approved since session: 2013-14 Total Credits:4, Periods(55 mts. each)/week:4(L-4+T-0+P/S-0),Min.pds./sem.:52


Definition, scope, functions, importance and limitations of management accounting, Distinction

between Management accounting, Financial Accounting and Cost Accounting, role and

responsibilities of Management Accountant.

UNIT 2: FUND FLOW ANALYSIS

Fund flow statement – meaning, objective, users and limitations.

UNIT 3: CASH FLOW ANALYSIS

Cash Flow Statement– Meaning, Objective, users and limitations of Cash flow statement, Problems

in Cash Flow analysis.

Unit 4: ANALYSIS OF FINANCIAL STATEMENTS

Meaning, significance, limitations, types, measurement and interpretation. Common size

statements, Trend analysis and Ratio Analysis.

UNIT 5: BUDGET AND BUDGETARY CONTROL

Meaning, Functions, objectives of Budgets, budget and Forecasting, types of budget, preparation of

Cash, fixed and flexible budgets, elements of Budgetary Control system. SUGGESTED READINGS: Khan and Jain: MANAGEMENT ACCOUNTING Anthony RN : MANAGEMENT ACCOUNTING Anthony and Reece: MANAGEMENT ACCOUNTING Gupta SP: MANAGEMENT ACCOUNTING Sharma DC: MANAGEMENT ACCOUNTING Vinayakam N: MANAGEMENT ACCOUNTING Hingorani & Grewal: MANAGEMENT ACCOUNTING


Course Number: FBM502, Course Title: PRINCIPLES OF MARKETING I

Class: B.B.M., Status of Course: MAJOR COURSE, Approved since session: 2008-09

Total Credits:4, Periods(55 mts. each)/week:4(L-4+T-0+P/S-0),Min.pds./sem.:52


Marketing in a Changing World, Strategic Planning and Marketing Process.

UNIT 2: MARKETING ENVIRONMENT AND ANALYSIS

The Marketing Environment, Marketing Research & Information Systems.

UNIT 3: UNDERSTANDING CONSUMERS

Consumer Markets and Buying Behaviour, Business Markets and Business Buyer Behaviour Market

Segmentation, Targeting and Positioning for Competitive Advantage.

UNIT 4: PRODUCT STRATEGY

Product & Service Strategy, New Product Development, Product Life Cycle Strategies.

UNIT 5: PRICING STRATEGY

Pricing Products, Pricing Considerations & Approaches, Pricing Strategies.

SUGGESTED READINGS: Kotler & Amstrong: PRINCIPLES OF MARKETING William J Stanton, Michael J Ethol & Bruce J Walker: FUNDAMENTALS OF MARKETING

E Jerome Mc Carthy, Wiilliam D Perreault Jr. : ESSENTIALS OF MARKETING

Course Number: FBM503, Course Title: SEMINAR & GROUP DISCUSSION

Class: B.B.M., Status of Course: MAJOR COURSE, Approved since session: 2002-2003

Total Credits:2, Periods(55 mts. each)/week: 3(L-0+T-0+P/S-3),Min.pds./sem.:39

Group Discussion course.

Course Number: FCM501, Course Title: BUSINESS ORGANISATION

Class: B. TECH-B.COM., Status of Course: MAJOR, Approved since session: 2016-17

Total Credits: 3, Periods (55 mts. each)/week: 3(L-3+T-0+P/S-0), Min.pds./sem:39


Meaning, Characteristics, Objectives, Nature, Scope and Importance, Social Responsibilities &

Business Ethics.

UNIT 2: FORMS OF BUSINESS

Introduction and Main Features of Sole Proprietorship, Partnership, Joint Stock Company and Co-

operative Society

UNIT 3: LOCALISATION OF BUSINESS AND BUSINESS COMBINATION

Meaning, Factors and Theories of Localization, Meaning, Factors and Types of Business Combination

UNIT 4: PRODUCTION AND BUSINESS FINANCE

Meaning, Factors and Types of Production, Production Planning and Inventory Control, Meaning and

Different Source of Business Finance

UNIT 5: STOCK EXCHANGE AND COMMODITY EXCHANGE

Meaning, Features, Functions and Importance of Stock Exchange and Commodity Exchange

SUGGESTED READINGS: Jagdish Prakash: BUSINESS ORGANISATION AND MANAGEMENT CB Gupta: BUSINESS ORGANISATION SA Sharlekar: MODERN BUSINESS ORGANISATION & MANAGEMENT YK Bhushan & GL Tayal: BUSINESS ORGANISATION & MANAGEMENT RC Agarwal: BUSINESS ORGANISATION & MANAGEMENT (HINDI) MC Shukla: BUSINESS ORGANISATION & MANAGEMENT (HINDI)


Course Number: FCM502, Course Title: FINANCIAL MANAGEMENT


Total Credits: 3, Periods (55 mts. each)/week: 3 (L-3+T-0+P/S-0), Min.pds./sem:39


Financial Management: Meaning, Objectives, Scope and Significance, Finance Functions: Meaning

and Type, Capitalization: Meaning and Theories, Over-capitalisation and Under-capitalisation: An

Overview.

UNIT 2: CAPITAL STRUCTURE AND COST OF CAPITAL

Capital Structure: Meaning, Determinants and Role in Decision Making, Sources of Capital: Short

and Long Term, Cost of Capital Components and Weighted Average Cost of Capital, Leverage

Analysis.

UNIT 3: MANAGEMENT OF WORKING CAPITAL

Working Capital: Meaning and Determinants, Sources of Working Capital, Management of Working

Capital and its Components, e.g., Cash, Stock and Receivable.

UNIT 4: CAPITAL BUDGETING: PROCESS & PRACTICES

Capital Budgeting: Meaning, Characteristics, Principles and Scope, Time Value of Money, Methods

of Appraising Capital Budgeting Proposals.

UNIT 5: FINANCIAL ANALYSIS

Break Even Analysis, Ratio Analysis, Cash Flow Analysis.

SUGGESTED READINGS: Brealey and Myres: Principles of Corporate Finance E J Mc Lancey: Business Finance: Theory and Practice James C Van Horne: Financial Management and Policy Kuchhal SC: Financial Management: An Analytical & Conceptual Approach Prasanna Chandra: Financial Management MY Khan and PK Jain: Financial Management PV Kulkarni and SP Kulkarni: Corporate Finance IM Pandey: Financial Management

Course Number: FCM503, Course Title: INDIAN ECONOMY




Nature and Structure of Indian Economy – Historical Context (Pre and Post- Independence), Mixed

Economy as a special dimension of Indian Economy, Outline of Different Sectors of Indian

Economy– Industrial, Agriculture, Services

UNIT 2: NATURAL AND HUMAN RESOURCES

Status and Role of Natural Resources in Indian Economy – Forest, Water & Mineral, Population

dynamics in Indian Economy – Demographic Structure and Transition.

UNIT 3: AGRICULTURE AND INDUSTRIES

Issues and Challenges of Agriculture in India – Status of Farm Production, Status of Farmers in

Indian Economy, Micro, Small and Medium Enterprises in India, Issues and Challenges of Large

Scale Industries. Financial Institutions – Role and Status

UNIT 4: ECONOMIC PLANNING

Economic Planning in India – History and Development, Liberalization Policy and Post Liberalization

Status of Indian Economy

UNIT 5: FOREIGN SECTOR - OVERVIEW

Foreign Trade Policy in India – History and Development, Export and Import pattern of Indian

Economy, Balance of Payment, Foreign Exchange, Status of Indian Economy in relation to Foreign

Economies.

SUGGESTED READINGS: Indian Economy, Ruddra Dutt and KPM Sundaram Indian Economy, M B Shukla Indian Economy – Agenda for the 21st Century, Raj Kumar Sen and Biswajit Chatterjee

Course Number: FCM504, Course Title: SEMINAR & GROUP DISCUSSION



Students are required to present one seminar paper in each major paper for internal evaluation. In

addition to this he is allotted one more topic for presentation in external seminar for end semester

evaluation.


Course Number: RDC581, Course Title: AGRICULTURAL ENGINEERING

Class: B.Tech., Status of Course: Core Course, Approved since session: 2015-16

Total Credits: 2.5, Periods (55 mts. each)/week: 3(L:3+T:0+P:0+S:0), Min.pds./sem: 39

UNIT 1: AGRICULTURAL IMPLEMENTS

Primary and secondary tillage implements. Crop planting and seeding implements. Harvesting

equipment. Combines. Special purpose machines like cotton pickers etc.

UNIT 2: FARM POWER & MECHANICS OF FARM TRACTORS

Tractor types. Functions of a farm tractor. Human engineering in tractor design. Traction. Various

terms. Traction model. Tread design. Effect of lug and spacing. Radial ply construction.

UNIT 3: GRAIN STORAGE AND DRYING

Equation of motion, Assumptions, Force analysis. Hitches and drawbar.

Post Harvest Engineering: Properties of grain. Theory of grain drying, Effect of different factors in

drying process. Deep bed drying. Mass and heat balance in grain drying. Method of grain drying.

UNIT 4: DAIRY ENGINEERING

Milk-its properties. Various processes of milk preservation, viz. Pasteurization and homogenization.

Milk Products.

UNIT 5: IRRIGATION ENGINEERING

Concept of infiltration. Irrigation Methods. Border Irrigation. Lacey and Kennedy theory of

Irrigation-Channel design. Sprinkler and drip irrigation systems.

Suggested readings: Michael & Ojha: AGRICULTURAL ENGINERING I & II Smith: FARM MACHINERY AND EQUIPMENT Chakraborty & DS De: PHT OF CEREALS AND PULSES BL John et. al.: TRACTORS AND THEIR POWER UNITS

Course Number: PYH581, Course Title: INDUSTRIAL PSYCHOLOGY

Class: B.Tech., Status of Course: NF Half Course, Approved since session: 2015-16


UNIT 1

Human factors in work and efficiency. Indices of efficiency. Physical factors affecting efficiency.

Psychological problems in display and control.

UNIT 2

Fatigue and monotony. Benefits of psychological testing procedure in industry. Types of Tests.

UNIT 3

Human relations and work: Motives, Incentives, Job Satisfaction, Morale, Supervisory Practices and

Training.

UNIT 4

Psychological factors in unionization. Relations of unions and management.

UNIT 5

Mental health factors in mal-adjustment, absenteeism and accident. Personnel Counseling.

Consumer Psychology. SUGGESTED READINGS: NF Maier: PSYCHOLOGY IN INDUSTRY Blum & Nayler: INDUSTRIAL PSYCHOLOGY MS Vitoles: MOTIVATION AND MORALE IN INDUSTRY DN Sinha: STUDIES IN INDUSTRIAL PSYCHOLOGY CS Mayers: INDUSTRIAL RELATIONS IN INDIA

Course Number: EGC581, Course Title: DESIGN ENGG./THEME DEVELOP. PROJECT


Total Credits: 1.5, Periods (55 mts. each)/week: 3 (L:0+T:0+P:3+S:0), Min.pds./sem: 39

The students submit projects connected to Design Engineering Concept and Theme development of

real life industrial problems. The evaluation in the following topics will constitute 40% of the total

marks in EGC581:

1. Design methods, Design process, Identification of need, Design concepts, Design decisions

and Development of design.

2. Economics in Engineering Design, Optimization and reliability.


Course Number: EGC582, Course Title: PRACTICAL TRAINING(SURVEY CAMP)


Total Credits: 2.5

The students are expected to undergo practical training in different industries allotted to them at

different places, in order to acquaint themselves. The various shop floor activities, industrial

environment, problems faced in industries. They are required to submit a report on the training and

the evaluation through internal and external viva voce.

Course Number: CRC581, Course Title: COMPARATIVE STUDY OF RELIGION


Total Credits: 2, Periods (55 mts. each)/week: 3(L-2+T-1+P/S-0), Min.pds./sem.: 39

1. INTRODUCTION: (a) Meaning of Religion-Importance and value of religion in human life. (b)

Primitive Religious ideas and beliefs. (c) Historical Religions: Theistic religions: Non-Theistic

religions and secular humanism. (d) Religion and Science: Faith and reason.

2. THE HINDU RELIGIOUS TRADITIONS: (a) Pre-Vedic Indus Religious ideas: Yoga, Sakti, Cult and

other forms of religious life. (b) The Vedic Religion: Gods, Sacrifices, Priests. (c) Upanishadic

religion: Brahama-atman, Knowledge, Moral virtues.

3. THE BUDDHIST RELIGIOUS TRADITIONS: (a) Sramana thought and the origins of Buddhism: Life

of Buddha. (b) The basic teachings of the Buddha: Four Holy truths, Sila, Samadhi, Prajuna, Middle

ways, Nirvana, Samsars. (c) Spread of Buddhism in India and the world.(Sects and schools of

Buddhism, Ashoka) (d) Mahayana and the Buddhisttva, Doctrine of Karuna and Universal liberation.

4. JAINISM: (a) Antiquity of Munis: Parsvanatha’s teachings. (b) Life of Mahavira, His teachings:

Great vows. (c) Jain doctrine of self and liberation, Ahimsa.

5. JUDAISM AND CHRISTIANITY: (a) Prophets of Israel: Moses and His teachings. (b) Life of Jesus

Christ and Ten Commandments, the Bible. (c) Christian Doctrine of God and Salvation. (d) Sects of

Christian Church with special reference to India.

6. ISLAM: (a) Life of Prophet Mohammed. (b) The teachings of the Islam and Muslim creed. (c)

Sects of Islam and Sufism.

7. THE SANT TRADITIONS OF INDIA: (a) Bhakti Renaissance. (b) Kabir and Guru Nanak:

Teachings. (c) Radhasoami Faith.

8. MODERN RELIGION MOVEMENTS: Arya Samaj, Brahma Samaj, Theosophical Society etc.

9. LESSONS FROM COMPARATIVE RELIGIONS AND INTER-RELIGIOUS UNDERSTANDING: Note: The teacher while discussing the principles of Religions will also touch upon Major scriptures and lives of important religious leaders.

SUGGESTED READINGS: Joshi LM & Singh Harbans: AN INTRODUCTION TO INDIAN RELIGIONS Tagore, Ravindranath: RELIGION OF MAN.

Misra, Brahm Shanker: DISCOURSES ON RADHASOAMI FAITH Bhagwan Das: SAB DHARMON KI BUNIYADI EKTA

Bhagwandas: ESSENTIAL UNITY OF ALL RELIGIONS Singh GR & Devis CW: VISHWA KE PRAMUKH DHARM Chaturvedi, Parashuram: UTTARI BHARAT KI SANT PARAMPARA


Course Number: GKC581, Course Title: SC. METH., G.K. & CURRENT AFFAIRS II



Geography: India-State and Union territories-Population. Literacy. Capitals. India- Major Dams and

Rivers, Important towns and rivers on which they are located. Some important places, national

parks and wild life sanctuaries. Major imports and exports. Railways. Civil Aviation. Major Crops.

Minerals. Chief producing states.

History: History of India’s independence. Famous historical places in India. Important dates and

days.

Political Science: Indian Constitution (continued from fourth semester)- Mode of amendments.

Some important amendments. General Elections in India. Presidents and Prime Ministers of India

and their tenure. Defence forces and Awards in India.

Economics: Industrial development in India- Principal Manufacturing Industries of India. Industrial

financial institutions in India.

Science: Indian Space Programme. Development of Atomic Energy in India. Some inventions and

discoveries. Indian industrial institutes. Research centres and laboratories.

Games: Cricket. Hockey. Footbal. Table Tennis. Lawn Tennis. Volley-ball.

Current Affairs: From News papers.

SUGGESTED READING: NCERT- Text books on History, Geography, Civics and General Science for Secondary Schools Publication Division Government of India- India; Times of India- Directory; Manorama Year Book; Vikas General Knowledge Encyclopaedia; Readers Digest- Great World Atlas; Guinness- Book of World Records News Papers and Magazines: Indian Express; Hindustan Times; India Today; Science Digest; Sunday; Readers Digest; Competition Success Review; Careers and Competitions; Time; Newsweek; Illustrated Weekly of India.

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B.TECH. (CIVIL) FIFTH SEMESTER CEM501 TRANSPORTATION … · 1. Determination of water content by oven drying method 2. Determination of specific gravity by pycnometer 3. Determination

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