5th semester syllabus for Information Technology

ANNA UNIVERSITY :: CHENNAI 600 025 
UNIVERSITY DEPARTMENTS 
REGULATIONS – 2008 
 B.TECH. INFORMATION TECHNOLOGY 


SEMESTER V 
    
CODE NO  COURSE TITLE  L  T  P  C 
THEORY 
IT9301  Software Project Management  3  0  0  3
CS9301  Object Oriented Analysis and Design  3  0  0  3
IT9302  Multimedia Systems  3  0  0  3
IT9303  Computer Networks  3  0  0  3
IT9304  Distributed Systems  3  0  0  3
  Elective I  3  0  0  3
PRACTICAL
CS9306  Computer Networks Laboratory  0  0  3  2
CS9307  Case Tools Laboratory  0  0  3  2
GE9371  Communication Skills and Soft Skills lab  0  0  2  1
  TOTAL  18  0  8  23


IT9301    SOFTWARE PROJECT MANAGEMENT           L T P C 
                                                                                                                             3  0  0 3 

AIM
This course aims at the role of software developers in getting exposure on planning
and controlling aspect of software development
OBJECTIVES 
  To understand the roles of the project manager
 To understand the threats and opportunities in project management
 To gain Expertise in size, effort and cost estimation techniques
  To understand the techniques available with which a project's aims and
objectives, timetable, activities, resources and risks can be kept under control
 To understand the social and political problems a project will encounter--
against which the technical problems pale into insignificance--and to begin to
understand how to approach non-technical problems
  To Appreciate of other management issues like team structure, group
dynamics
 To understand communication

UNIT I    INTRODUCTION TO SOFTWARE PROJECT MANAGEMENT       9
Project Definition  –  Contract Management  – Activities Covered by Software Project
Management – Overview Of Project Planning – Stepwise Project Planning.

UNIT II   PROJECT EVALUATION                        9
Strategic Assessment – Technical Assessment – Cost Benefit Analysis – Cash Flow
Forecasting – Cost Benefit Evaluation Techniques – Risk Evaluation. – software effort
estimation

UNIT III   ACTIVITY PLANNING                       9
Objectives  –  Project Schedule  –  Sequencing and Scheduling Activities  –  Network
Planning Models  –  Forward Pass  –  Backward Pass  –  Activity Float  –  Shortening
Project Duration – Activity on Arrow Networks – Risk Management – Nature Of Risk –
Types Of Risk  –  Managing Risk  –  Hazard Identification  –  Hazard Analysis  –  Risk
Planning and Control.

UNIT IV   MONITORING AND CONTROL                       9
Resource allocation  -  identifying and scheduling resources – publishing resource and
cost schedule – scheduling sequence  - Creating Framework – Collecting The Data –
Visualizing Progress  –  Cost Monitoring  –  Earned Value  –  Priortizing Monitoring  –
Getting Project Back To Target – Change Control – Managing Contracts – Introduction
– Types Of Contract – Stages In Contract Placement – Typical Terms Of A Contract –
Contract Management – Acceptance.

UNIT V   MANAGING PEOPLE AND ORGANIZING TEAMS         9
Introduction  –  Understanding Behavior  –  Organizational Behaviour  -  Selecting The
Right Person For The Job  –  Instruction In The Best Methods  –  Motivation  –  The
Oldman  – Hackman Job Characteristics Model  – Working In Groups  – Becoming A
Team – Decision Making – Leadership – Organizational Structures – Stress – Health
And Safety – Case Studies.
TOTAL:45 PERIODS 
TEXT BOOK:

1. Bob Hughes, Mikecotterell, “Software Project Management”, Third Edition,
    Tata McGraw Hill, 2004.   22
REFERENCES: 
1. Ramesh, Gopalaswamy, "Managing Global Projects", Tata McGraw Hill,
    2001.
2. Royce, “Software Project Management”, Pearson Education, 1999.
3. Jalote, “Software Project Management in Practice”, Pearson Education,
2002.
4. Robert T. Futrell, Donald F. Shefer and Linda I. Shefer, “Quality Software    
Project Management”, Pearson Education, 2003.

CS9301            OBJECT ORIENTED ANALYSIS AND DESIGN         L T P C 
                                                                                                                            3  0 0  3 
AIM: 

To study object oriented analysis and design and the techniques needed to apply
them.
OBJECTIVES:
  To study the concepts of modelling in object oriented contexts
 To learn about the Object Constraint Language
 To study and learn how to apply analysis techniques and methodologies including
Use cases, System Sequence Diagrams
 To study and learn how to apply design techniques and methodologies including
Interaction Diagrams, Class Diagrams
 To study implementation related issues
 To study and learn how to apply advanced techniques including Architectural
Analysis and Design Patterns

UNIT I                 8
Introduction  –  Modelling as a design technique  –UML  diagrams-  Class modeling  –
Object Constraint Language – State modeling – Interaction Modeling  

UNIT II                 9
Inception – Evolutionary Requirements – Use Cases – Other Requirements – Domain
Models – System Sequence Diagrams – Operation Contracts    

UNIT III              10
Requirements to Design – Logical Architecture and UML Package Diagrams – Object
Design  –  Interaction Diagrams  –  Class Diagrams  –  Designing Objects with
Responsibilities – Object Design Examples – Designing for Visibility  

UNIT IV               8
Mapping designs to code – Test Driven development and refactoring – UML Tools and
UML as blueprint          

UNIT V                                              10
More Patterns  –  Analysis update  –  Objects with responsibilities  –  Applying design
patterns – Architectural Analysis – Logical Architecture Refinement – Package Design
– Persistence framework with patterns      
                                                                                            
                                                                                                      TOTAL: 45 PERIODS 
   
TEXT BOOKS:
1.  Michael Blaha and James Rumbaugh,  “Object-oriented modeling and      
     design with UML”, Prentice-Hall of India, 2005. (Unit 1)
2.  Craig Larman. “Applying UML and Patterns – An introduction to Object-  
     Oriented Analysis and Design and Iterative Development”, 3rd ed, Pearson    
     Education, 2005.

REFERENCES:

1.  Booch, Grady. Object Oriented Analysis and Design. 2
nd
 ed. Pearson Education.
2000.  
2. Ali Bahrami, “Object Oriented Systems Development”, McGraw-Hill, 1999.  
3. Fowler, Martin. UML Distilled. 3
rd
 ed. Pearson Education. 2004.
4. Lunn, Ken. Software development with UML. Palgrave Macmillan. 2003.  
5. O’Docherty, Mike. Object-Oriented Analysis & Design. Wiley. 2005.

IT9302               MULTIMEDIA SYSTEMS                     L T P C 
                                                                                                                           3  0 0  3 
AIMS 
  Introduce students to the different media used in multimedia systems.
 Introduce students to the design issues related to multimedia systems.
 Introduce students to Multimedia networking concepts


OBJECTIVES 
  Students will be able to handle all multimedia components efficiently.
 Students will be able to develop Integrated, Collaborative multimedia systems
UNIT I    MULTIMEDIA ELEMENTS            9
Introduction – Definitions – Applications – Elements - Text – Image/Graphics
Audio – video – Animation.

UNIT II   DATA AND FILE FORMATS                       9
Compression Techniques – Lossless, Lossy – JPEG, MPEG, GIF, TIFF, RIFF- H.261,
H.262, H.263 -File formats - Display Technologies (Output) – Input

UNIT III   MULTIMEDIA AUTHORING                       9
Authoring tools  -  Inserting media elements on the Web Pages  - Programming audio,
Video, Image using Java - open gl.  

UNIT IV   MULTIMEDIA STORAGE AND MANAGEMENT                    9
Storage and Retrieval and presentation-Synchronization Issues - Multimedia
Operating  Systems and Multimedia databases  –  Hypertext  -   Hypermedia
Architectures.   24
UNIT V   MULTIMEDIA NETWORKS                                  9
Protocol  - QOS Issues  - RTP, RTCP, RTSP, SIP, Multimedia over ATM Networks  -
Media on demand –ITV  - STB  Broad cast  Schemes for VoD Buffer Management  -
Multimedia over wireless networks.
TOTAL: 45 PERIODS
TEXT BOOKS:

1.  Ralf Steinmetz and Klara, “Multimedia Computing, Communications and
        Applications”, Pearson Education, 2004.
2.  K.Andleigh, Kiran Thakrar , Multimedia Systems Design, PHI, 2007.

REFERENCES: 
1.  Ze Nian Li, S. Drew,  “Fundamentals of Multimedia” , PHI,2006.
2. Fred Halsall, “Multimedia Communications- Applications, Networks, Protocols and
Standards , Pearson Education, 2007.

IT9303                   COMPUTER NETWORKS                     L T P C 
                                                                                                                         3  0 0  3 
AIM:

To understands the concepts of computer networks
OBJECTIVES:
  To understand the layering concepts in computer networks
 To understand the functions of each layer
 To have knowledge in different applications that use computer networks

UNIT I                  7
Network architecture – Layers – Physical links – Channel access on links – SDMA –
TDMA – FDMA – CDMA – Hybrid multiple access techniques - Issues in the data link
layer - Framing – Error correction and detection – Link-level flow control  

UNIT II                            7
Medium access   –  Ethernet  –  Token ring  –  FDDI  – Wireless LAN  –  Bridges and
Switches          

UNIT III               11
Circuit switching – Packet switching – Virtual circuit switching –  IP – ARP – RARP –
DHCP  –  ICMP  –  Routing algorithms   –  RIP  –  OSPF  –  Subnetting  –  CIDR  –
Interdomain routing – BGP –  IPv6 – Multicasting – Congestion avoidance in network
layer

UNIT IV               10
UDP – TCP – Flow control – Congestion control – Queueing discipline – Congestion
avoidance – QoS – RPC        
    25
UNIT V               10
Email (SMTP, MIME, POP3, IMAP) – HTTP – DNS- SNMP – Telnet – FTP – TFTP
        
         TOTAL:45 PERIODS 
TEXT BOOKS: 

1.  Larry L. Peterson, Bruce S. Davie, “Computer Networks: A Systems Approach”,
Fourth Edition, Morgan Kaufmann Publishers Inc., 2007.
2. James F. Kurose, Keith W. Ross, “Computer Networking, A Top-Down Approach
Featuring the Internet”, Third Edition, Addison Wesley, 2005.

REFERENCES:
1.  Nader F. Mir, “Computer and Communication Networks”, First Edition, Pearson
Education, 2007
2. Douglas E. Comer, “Computer Networks and Internets with Internet Applications”,
Fourth Edition, Pearson Education, 2003.
3. Andrew S. Tanenbaum, “Computer Networks”, Fourth Edition, Pearson
Education, 2002.
4. William Stallings, “Data and Computer Communication”, Eighth Edition, Pearson
Education, 2007.

IT9304                  DISTRIBUTED SYSTEMS            L T P C 
                                                                                                                              3  0 0 3 
AIM:  
The aim of the course is to convey an insight into the fundamental concepts,
principles, and state-of-the-art practice underlying the design of distributed systems.

OBJECTIVES:
  To understand the importance of communication in distributed environment and
the actual implementation of various communication mechanisms
 To study how a distributed operating system works and how it differs from the
single processor OS.
 To learn how to manage the resources in a distributed environment
 To learn how to make a distributed systems fault tolerant
 To study how the above-mentioned techniques have been used in actual, real-life
distributed systems.

UNIT I    COMMUNICATION IN DISTRIBUTED ENVIRONMENT                    8
Introduction – Various Paradigms in Distributed Applications – Remote Procedure Call
–  Remote Object Invocation  –  Message-Oriented Communication  –  Unicasting,
Multicasting and Broadcasting – Group Communication.

UNIT II   DISTRIBUTED OPERATING SYSTEMS         12
Issues in Distributed Operating System  –  Threads in Distributed Systems  –  Clock
Synchronization – Causal Ordering – Global States – Election Algorithms –Distributed
Mutual Exclusion  –  Distributed Transactions  –  Distributed Deadlock  –  Agreement
Protocols .

UNIT III   DISTRIBUTED RESOURCE MANAGEMENT        10
Distributed Shared Memory  –  Data-Centric Consistency Models  –  Client-Centric
Consistency Models – Ivy – Munin – Distributed Scheduling – Distributed File Systems
– Sun NFS.

UNIT IV   FAULT TOLERANCE AND CONSENSUS                     7
Introduction to Fault Tolerance  –  Distributed Commit Protocols  –  Byzantine Fault
Tolerance – Impossibilities in Fault Tolerance.

UNIT V   CASE STUDIES                         8
Distributed Object-Based System  –  CORBA  –  COM+  –  Distributed CoordinationBased System – JINI.
TOTAL:45 PERIODS 
TEXT BOOKS: 

 1.   George Coulouris, Jean Dollimore, Tim Kindberg, “Distributed Systems Concepts
       and Design”, Third Edition, Pearson Education Asia, 2002.
2.   Hagit Attiya and Jennifer Welch, “Distributed Computing: Fundamentals,
Simulations and Advanced Topics”, Wiley, 2004.

REFERENCES: 
1.  Mukesh Singhal, “Advanced Concepts In Operating Systems”,  
       McGrawHill Series in Computer Science, 1994.
2. A.S.Tanenbaum, M.Van Steen, “Distributed Systems”, Pearson    Education,2004.
3. M.L.Liu, “Distributed Computing Principles and Applications”, Pearson Addison
       Wesley, 2004.

CS9306    COMPUTER NETWORKS LABORATORY           L T P C 
                                                                                                                              0  0 3 2 

AIM: 
To have hands-on experience in network programming and to use simulation tools to
analyze network protocols.
OBJECTIVES: 
  To learn socket programming
 To use simulation tools.
 To analyze the performance of protocols in different layers in computer networks
using simulation tools.

1.  Applications using TCP Sockets like
a.  Echo client and echo server
b. File transfer
c.  Remote command execution
d. Chat
e. Concurrent server
2.  Applications using UDP Sockets like
a. DNS
b. SNMP  
3.  Applications using Raw Sockets like
a.  Ping
b. Traceroute

4.  RPC
5. Experiments using simulators like OPNET:
a.  Performance comparison of MAC protocols
b. Performance comparison of Routing protocols
c.  Study of TCP/UDP performance
TOTAL:45 PERIODS

CS9307                   CASE TOOLS LAB                     L T P C 
                                                                                                                             0  0 3 2 

AIM: 
Scope of this lab is to understand the application of case tools, which focuses on the
following software engineering activities:
• Software requirements analysis and specification
• Software design
• Software implementation
• Software testing and maintenance
• Communication skills and teamwork
• Modeling techniques and CASE tools
• Software project planning and management

1.  Study of case tools   such as rational rose or equivalent tools  
2. Requirements
      Implementation of requirements engineering activities such as elicitation,  
validation, management using case tools

3.  Analysis and design
Implementation of analysis and design using case tools.

4. Study and usage of software project management tools such cost estimates and
scheduling
5. Documentation generators - Study and practice of Documentation    
      generators.

6.  Data modeling using automated tools.
7. Practice reverse engineering and re engineering using tools.

8. Exposure towards test plan generators, test case generators, test coverage and
software metrics.

9. Meta modeling and software life cycle management.

TOTAL:45 PERIODS   28
GE9371    COMMUNICATION SKILLS AND SOFT SKILLS LAB           L  T P C 
                          FIFTH / SIXTH SEMESTER                                             0  0  2 1 

AIM: 
To enhance the overall capability of students and to equip them with the necessary
Communication Skills and Soft Skills that would help them excel in their profession.
OBJECTIVES:
  To equip students of engineering and technology with effective speaking and
listening skills in English.
 To help them develop their soft skills and interpersonal skills, which will make the
transition from college to workplace smoother and help them excel in their jobs.
 To enhance the performance of students at Placement Interviews, Group
Discussions and other recruitment exercises.


A.   Viewing and discussing audio-visual materials                                (6 periods)  
                                                                                                      

1.  Resume / Report Preparation / Letter Writing:                                            (2)
      Letter writing – Job application with Resume - Project report - Email etiquette.
2.  Presentation skills:                                                                                        (1)
Elements of effective presentation  – Structure of presentation  - Presentation
tools – Body language.
      3.   Soft Skills:                                                                                                      (1)
      Time management – Stress management – Assertiveness – Negotiation
strategies.
4.  Group Discussion:                                                                                         (1)
Group discussion as part of selection process, Structure of group discussion –
Strategies in group discussion – Mock group discussions.
5.  Interview Skills:                                                                                              (1)
Kinds of interviews – Interview techniques – Corporate culture – Mock
interviews.
(Career Lab Software may be used for this section).


       Note: Career Lab software may be used to learn the skills, to be applied in the
practice session.

   B.   Practice session                                                                               (24 periods)
1.  Resume / Report Preparation / Letter writing: Students prepare their    
      own resume and report.                                                                             (4)
2.  Presentation Skills: Students make presentations on given topics.        (8)
3.  Group Discussion: Students participate in group discussions.                (6)
4. Interview Skills: Students participate in Mock  Interviews                        (6)






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5th Semester Syllabus for Mechanical Engineering

SEMESTER – V


CODE NO.  COURSE TITLE  L  T  P  C
THEORY
ME9301  Design of Jigs, Fixtures & Press Tools  3  0  0  3
ME9302  Thermal Engineering  – II  3  0  0  3
ME9303  Hydraulics and Pneumatics  3  0  0  3
ME9304  Modern Machining Processes  3  0  0  3
ME9305  Design of Machine Elements  3  1  0  4
ME9306  Metrology & Measurements  3  0  0  3
PRACTICAL
ME9307  Dynamics Laboratory  0  0  3  2
ME9308  Thermal Engineering Lab. – I  0  0  3  2
ME9309  Metrology & Measurements Laboratory  0  0  3  2
ME9310  Technical Seminar   0  0  2  1




ME9301        DESIGN OF JIGS, FIXTURES AND PRESS TOOLS      L T  P C
                                                                          3 0  0  3


AIM:
To appreciate and understand the importance of tool design in the overall product
cycle.
OBJECTIVES
  To understand the functions and design principles of Jigs, fixtures and press tools
 To gain proficiency in the development of required views of the final design.

UNIT I   LOCATING AND CLAMPING PRINCIPLES                                  8
Objectives of tool design- Function and advantages of Jigs and fixtures  – Basic elements –
principles of location  – Locating methods and devices  – Redundant Location  – Principles of
clamping  – Mechanical actuation  – pneumatic and hydraulic actuation Standard parts – Drill
bushes and Jig buttons – Tolerances and materials used.

UNIT II   JIGS AND FIXTURES              10
Design and development of jigs and fixtures for given component-  Types of Jigs  –  Post,
Turnover, Channel, latch, box, pot, angular post jigs  –  Indexing jigs  – General principles of
milling, Lathe, boring, broaching and grinding fixtures  –  Assembly, Inspection and Welding
fixtures – Modular fixturing systems- Quick change fixtures.

UNIT III  PRESS WORKING TERMINOLOGIES AND ELEMENTS OF CUTTING
  DIES                                                                                                                   10
Press Working Terminologies  -  operations  –  Types of presses  –  press accessories  –
Computation of press capacity  –  Strip layout  –  Material Utilization  –  Shearing action  –
Clearances – Press Work Materials – Center of pressure- Design of various elements of dies –
Die Block  – Punch holder, Die set, guide plates  – Stops  – Strippers  – Pilots  – Selection of
Standard parts – Design and preparation of four standard views of simple blanking, piercing,
compound and progressive dies.

UNIT IV  BENDING FORMING AND DRAWING DIES         10
Difference between bending, forming and drawing – Blank development for above operations –
Types of Bending dies  – Press capacity  –  Spring back  –  knockouts  –  direct and indirect  –
pressure pads  – Ejectors  – Variables affecting Metal flow in drawing operations  –  draw die
inserts – draw beads- ironing – Design and development of bending, forming, drawing reverse
re-drawing and combination dies  –  Blank development for axisymmetric, rectangular and
elliptic parts – Single and double action dies.

UNIT V   MISCELLANEOUS TOPICS               7
Bulging, Swaging, Embossing, coining,  curling, hole flanging, shaving and sizing, assembly,
fine Blanking dies  –  recent trends in tool design-  computer Aids for sheet metal forming
Analysis – basic introduction -  tooling for numerically controlled machines- setup reduction for
work holding – Single minute exchange of dies – Poka Yoke - Course should be supplemented
with visits to industries.
(Use of Approved design Data Book permitted).

TOTAL: 45 PERIODS
TEXT BOOKS
1.  Joshi, P.H. “Jigs and Fixtures”, Second Edition, Tata McGraw Hill Publishing Co., Ltd., New
Delhi, 2004.
2. Donaldson, Lecain and Goold “Tool Design”, III rd Edition Tata McGraw Hill, 2000.

REFERENCES:
1. K. Venkataraman, “Design of Jigs Fixtures & Press Tools”, Tata McGraw Hill, New Delhi,
2005.Kempster,  “Jigs and Fixture Design”, Hoddes and Stoughton – Third Edition 1974.
2. Joshi, P.H. “Press Tools” – Design and Construction”, Wheels publishing, 1996.
3. Hoffman “Jigs and Fixture Design” – Thomson Delmar Learning, Singapore, 2004.
4. ASTME Fundamentals of Tool Design Prentice Hall of India.  Design Data Hand Book,
PSG College of Technology, Coimbatore.

ME9302         THERMAL ENGINEERING – II                                             L  T  P  C
                                                                                           3  0  0  3
AIM :
To inculcate the students with Heat Energy applications

OBJECTIVE :
  To integrate the concepts, laws and methodologies from the first course in thermodynamics
into the analysis of cyclic process.
 To apply the thermodynamic concepts into various thermal applications like boilers,
Compressors and Refrigeration and Air conditioning Systems and waste heat recovery
systems.

UNIT I    BOILERS                                    (9)
Types, Rankine cycle – Analysis – thermal calculations – Heat balance – Accessories – Types
of boilers – Boiler code.

UNIT II   STEAM NOZZLE                        (9)
Flow of steam through nozzles, shapes of nozzles, effect of friction, critical pressure ration,
supersaturated flow.

UNIT III  STEAM TURBINES                         (9)
Types  –  Impulse and reaction principles, compounding, velocity diagrams for simple and
multistage turbines, speed regulations – governors.

UNIT IV  COGENERATION AND WASTE HEAT RECOVERY                   (9)
Cogeneration Principles – Cycle analysis – Applications – source and Utilization of waste heat
systems – Heat exchangers – Economic analysis.

UNIT V   REFRIGERATION AND AIR – CONDITIONING                    (9)
Vapour compression Refrigeration cycle  –  super heat, sub cooling, performance calcualtins.
Working principle of vapour absorption, Air cycle, Ejector, Steam, Thermoelectric refrigeration
systems, Psychrometry, Psychometric chart, Instrumentation, Cooling load calculations and air
circulating systems, Concept of RSHF, GSHF, ESHF – Air conditioning systems.

TOTAL : 45 PERIODS
TEXT BOOKS
1.  Rajput, “Thermal Engineering”, S. chand Puclishers, 2000.
2. Rudramoorthy R, “Thermal Engineering”, Tata MC Graw Hill, New Delhi, 2003.

REFERENCES
1.  Kothandaraman , C.P., Domkundwar .S and A.v. Domkundwar”, a course in thermal
Engineering”, Dhanpal Rai & sons, fifth edition, 2002.
2. Holman .J.P., “Thermodynamics”,  McGraw Hill, 1985.
3. Arora .C.P., “Refrigeration and Air Conditioning”,  TMH, 1994.
4. Charles H Butler : Cogeneration” McGraw Hill, 1984.
5. Sydney Reiter “Industrial and commercial heat recovery systems “ Van Nostrand Reinhols,
1985.
6. David Gunn, Robert Horton, Industrial Boilers  –  Longman Scientific and Technical
Publication, 1986.


ME9303                                HYDRAULICS AND PNEUMATICS                                L  T  P  C                      
3  0   0   3    
AIM:

To understand the basis of fluid power and its application in Industrial automation

OBJECTIVE
  This course will give an appreciation of the fundamental principles, design and operation of
hydraulic and pneumatic machines, components and systems and their application in
recent automation revolution.


UNIT I   FLUID POWER PRINCIPLES AND FUNDEMENTALS (REVIEW)                     3
Introduction to Fluid power-  Advantages and Applications-  Fluid power systems  –  Types of
fluids-  Properties of fluids Basics of Hydraulics  –  Pascal’s Law-  Principles of flow  – Work,
Power and Torque. Properties of air– Perfect Gas Laws.

UNIT II   HYDRAULIC SYSTEM AND COMPONENTS                                 13
Sources of Hydraulic power: Pumping Theory  – Pump Classification- Construction, Working,
Design, Advantages, Disadvantages, Performance, Selection criterion of Linear, Rotary- Fixed
and Variable displacement pumps, Hydraulic Actuators: Cylinders  – Types and construction,
Hydraulic motors Control Components: Direction control, Flow control and Pressure control
valves-  Types, Construction and Operation- Applications  –  Types of actuation. Accessories:
Reservoirs, Accumulators, Intensifiers, Pressure Switches-  Applications-  Fluid Power ANSI
Symbol.

UNIT III  HYDRAULIC CIRCUITS                                                                                    9
Industrial hydraulic circuits-  Regenerative, Pump Unloading, Double-pump, Pressure
Intensifier, Air-over oil, Sequence, Reciprocation, Synchronization, Fail-safe, Speed control,
Hydrostatic transmission, Accumulators, Electro hydraulic circuits, Mechanical Hydraulic servo
systems.

UNIT IV  PNEUMATIC  SYSTEM                                                                                       8
Compressors- Filter, Regulator, Lubricator, Muffler, Air control Valves, Quick Exhaust valves,
Pneumatic actuators, Servo systems. Introduction to Fluidics, Pneumatic logic circuits.

UNIT V  DESIGN OF HYDRALIC AND PNEMATIC CIRCUITS                                      12
Designing the components of hydraulic system for Drilling, Planning, Shaping, Punching,
Press. – Selection, fault finding and maintenance of hydraulic components- Sequential circuit
design for simple application using cascade method, Electro pneumatic circuits. Selection
criteria of pneumatic components  –  Installation fault finding and maintenance of pneumatic
components. Microprocessor and PLC- Applications in Hydraulic and Pneumatics-  Low cost
Automation – Hydraulic and Pneumatic power packs- case studies.
TOTAL: 45 PERIODS
TEXT BOOK
1.  Anthony Esposito,” Fluid Power with Applications”, PHI / Pearson Education, 2005.
REFERENCES
1. Shanmugasundaram.K, “Hydraulic and Pneumatic controls”, Chand & Co, 2006.
2. Majumdar, S.R., “Oil Hydraulics Systems- Principles and Maintenance”, Tata McGraw Hill,
2001
3. Majumdar, S.R., “Pneumatic Systems  – Principles and Maintenance”, Tata McGraw Hill,
2007.
4. Micheal J, Pinches and Ashby, J.G., “Power Hydraulics”, Prentice Hall, 1989.
5. Dudelyt, A Pease and John J Pippenger, “Basic Fluid Power”, Prentice Hall, 1987.

ME9304                              MODERN MACHINING PROCESSES                                      L T P C  
                                                                                                                                           3 0 0  3
AIM:
To provide knowledge on recent developments in unconventional machining process.

OBJECTIVES
  To understand how the material removal by using various Energy.
 To know how the new materials and complex parts are produced with high accuracy by
using new technology.

UNIT I    INTRODUCTION                                                                                                 7
Need of Newer Machining Processes – Classification Based on Energy, Mechanism, source of
energy, transfer media and process   -  Process selection-Based on Physical Parameters,
shapes to be machined, process capability and economics.

UNIT II   MECHANICAL PROCESS                                                                      10
Ultrasonic Machining: Principle- Transducer types – Concentrators - Abrasive Slurry - Process
Parameters – Tool Feed Mechanism – Advantages and Limitations – Applications. Abrasive Jet
Machining: Process- Principle – Process Variables – Material Removal Rate - Advantages and
Limitations – Applications. Water Jet Machining: Principle – Process Variables  - Advantages
and Limitations – Practical Applications

UNIT III  ELECTRICAL  DISCHARGE  MACHINING  AND  ELECTRICAL  DISCHARGE
WIRE CUT                                                                                                     10
Electrical Discharge Machining: Mechanism of metal removal  –  Dielectric Fluid  –  Electrode
Materials  - Spark Erosion Generators  – Electrode Feed System  – Material Removal Rate  –
Process Parameters  –  Tool Electrode Design  –  Characteristics of Spark Eroded SurfacesAdvantages and Limitations  –  Practical Applications Electrical Discharge Wire  Cut and
Grinding: Principle – Wire Feed System  - Advantages and Limitations – Practical Applications

UNIT IV  CHEMICALS AND ELECTRO CHEMICAL MACHINING             10                          
Chemical Machining: fundamentals, Principle –classification and selection of Etchant -chemical
milling, Engraving, Blanking, Drilling and Trepanning-Advantages and limitations  –
Applications. Electro Chemical Machining: Electro-chemistry of the process-Electrolytes  -
Electrolyte and their Properties – Material Removal Rate – Tool Material – Tool Feed System –
Design For Electrolyte Flow – Process Variables - Advantages and Limitations – Applications -
Electro Chemical Grinding: Honing, cutting off, Deburring and turning.

UNIT V  ELECTRON BEAM, LASER BEAM, ION BEAM AND PLASMA ARC
                        MACHINING                                                  8                      
Electron Beam Machining: Principle –Generation and control of electron beam-Advantages and
Limitations – Applications. Laser Beam Machining: Principle –Solid and Gas Laser Application
– Thermal Features of LBM - Advantages and Limitations – Applications. Ion Beam Machining:
Equipment – process characteristics - Advantages and Limitations – Applications. Plasma Arc
Machining: Principle –Gas mixture– Types of Torches – Process Parameters - Advantages and
Limitations – Applications.

TOTAL: 45 PERIODS


TEXT BOOK
1.  P.C Pandey And H.S. Shan, “Modern Machining Process”, Tata Mc Graw – Hill Publishing
Company Limited, New Delhi, 2007
2. V.K. Jain, “ Advanced Machining Process”, Allied Publishers PVT Limited 2007

REFERENCES
1. Amitadha Bhattacharyya , “New Technology”, The Institution Of Engineers , (India)
“Production Technology”, HMT Banglore, Tata Mc Graw–Hill Publishing Company Limited,
New Delhi, 2006.

ME9305     DESIGN OF MACHINE ELEMENTS                                 L T P C
                                 3  0 0 3
AIM:
To impart knowledge on design principles of various components in mechanical  engineering
application.

OBJECTIVES:
  To familiarize the various steps involved in the Design Process
 To understand the principles involved in evaluating the shape and dimensions of a
component to satisfy functional and strength requirements.
 To learn to use standard practices and standard data
 To learn to use catalogues and standard machine components

UNIT I   STEADY STRESSES AND VARIABLE STRESSES IN MACHINE MEMBERS 9
Introduction to the design process -  factors influencing machine design, selection of materials
based on mechanical properties -- Preferred numbers, fits and tolerances –Direct, Bending and
torsional stress equations  –  Impact and shock loading  –  calculationof principle stresses for
various load combinations, eccentric loading – Design of curved beams – crane hook and ‘C’
frame - Factor of safety - theories of failure – stress concentration – design for variable loading
– Soderberg, Goodman and Gerber relations
UNIT II   DESIGN OF SHAFTS AND COUPLINGS              9
Design of solid and hollow shafts based on strength, rigidity and critical speed  – Design of
keys, key ways and splines - Design of crankshafts -- Design of rigid and flexible couplings.

UNIT III   DESIGN OF TEMPORARY AND PERMANENT JOINTS            9
Threaded fastners  - Design of bolted joints including eccentric loading, Knuckle joints,Cotter
joints – Design of welded joints, riveted joints for structures - theory of bonded joints.

UNIT IV   DESIGN OF ENERGY STORING ELEMENTS             9
Design of various types of springs, optimization of helical springs -- rubber springs -- Design of
flywheels considering stresses in rims and arms for engines and punching machines.

UNIT V   DESIGN OF BEARINGS AND MISCELLANEOUS ELEMENTS                      9
Sliding contact and rolling contact bearings  --  Design of hydrodynamic journal
bearings,McKee's Eqn., Sommerfield Number, Raimondi & Boyd graphs, -- Selection of Rolling
Contact bearings -- Design of Seals and Gaskets -- Design of Connecting Rod.

TOTAL : 45 PERIODS
Note: (Use of P S G Design Data Book is permitted in the University examination)
TEXT BOOKS:
1.  Shigley J.E and Mischke C. R., “Mechanical Engineering Design”, Sixth Edition, Tata
McGraw-Hill , 2003.
2. Bhandari V.B, “Design of Machine Elements”, Second Edition, Tata McGraw-Hill
Book Co, 2007.

REFERENCES:
1.  Sundararajamoorthy T. V, Shanmugam .N, "Machine Design", Anuradha
2. Publications, Chennai, 2003.
3. Orthwein W, “Machine Component Design”, Jaico Publishing Co, 2003.
4. Ugural A.C, “Mechanical Design – An Integral Approach, McGraw-Hill Book Co,
5. 2004.
6. Spotts M.F., Shoup T.E “Design and Machine Elements” Pearson Education, 2004.

STANDARDS:
1. IS 10260 : Part 1 : 1982 Terms, definitions and classification of Plain bearings Part 1
: Construction.
2. IS 10260 : Part 1 : 1982 Terms, definitions and classification of Plain bearings Part 2
: Friction and Wear.
3. IS 10260 : Part 1 : 1982 Terms, definitions and classification of Plain bearings Part 3
: Lubrication.

ME9306                    METROLOGY AND MEASUREMENTS                               L T  P  C
                                                                                                                                        3  0  0  3
AIM:
To understand the basics involved in the equipments meant engineering measurements.

OBJECTIVES:
  To provide knowledge on various Metrological equipments available to measure the
 dimension of the components.
 To provide knowledge on the correct procedure to be adopted to measure the dimension of
the components.
 Introduction to Metrology  –  Need  –  Elements  – Work piece, Instruments  –  Persons  –
Environment –  their effect on Precision and Accuracy – Errors – Errors inMeasurements –
Types – Control – Gauges and Comparator - Types of standards.

UNIT II   LINEAR AND ANGULAR MEASUREMENTS           10
Linear Measuring Instruments  –  Evolution  –  Types  –  Classification  –  Limit gauges  –gauge
design –  terminology – procedure –  concepts of interchangeability and selective assembly  –
Angular measuring instruments  –  Types  – Bevel protractor clinometers  angle gauges, spirit
levels sine bar – Angle alignment telescope – Autocollimator – Applications.

UNIT III   ADVANCES IN METROLOGY             12
Basic concept of lasers, advantages of lasers  –  laser interferometers –  types  – DC and AC
lasers interferometer  –  Applications  –  Straightness  –  Alignment, Basic concept of  CMM  –
Types of CMM – Constructional features – Probes – Accessories – Software – Applications –
Basic concepts of Machine Vision System – Element – Applications.

UNIT IV   FORM MEASUREMENT              10
Principles and Methods of straightness – Flatness measurement – Thread measurement, Gear
measurement, Surface finish measurement, Roundness measurement  –  Form and Surface
measurement – Thread and Gear measurement - Applications.

UNIT V   MEASUREMENT OF POWER, FLOW AND TEMPERATURE           8
Force, Torque, Pressure, Power – Mechanical, Pneumatic, Hydraulic and Electrical type.Flow
measurement: Venturimeter, Orifice meter, Rotameter, Pitot tube  –  Temperature:  bimetallic
strip, thermocouples, electrical resistance thermometer  –  Reliability and  calibration  –
Readability and Reliability

TOTAL : 45 PERIODS
TEXT BOOKS :
1. Jain R.K., “Engineering Metrology”, Khanna Publishers, 2005
2. Gupta.I.C., “Engineering Metrology”, Dhanpatrai Publications, 2005.
REFERENCES:
1. Shotbolt, “Metrology for Engineers, McGraw Hill, 1990.
2. Beckwith, Marangoni, Lienhard, “Mechanical Measurements”, Pearson Education,
ME9307                    DYNAMICS LABORATORY                                           L T P C
        0  0 3  2
AIM:
To apply the knowledge gained in kinematics and dynamics of machines to real system.

OBJECTIVES:
To supplement the principles learnt in kinematics and Dynamics of Machinery.
 To understand how certain measuring devices are used for dynamic testing.

LIST OF EXPERIMENTS:
1.  Study of gear parameters.
2. Experimental study of velocity ratios of simple, compound, Epicyclic and
differential gear trains.
3. Kinematics of Four Bar, Slider Crank, Crank Rocker, Double crank, Double rocker,
Oscillating cylinder Mechanisms
4. Kinematics of single and double universal joints.
5. Determination of Mass moment of inertia of Fly wheel and Axle system.
6. Determination of Mass Moment of Inertia of axisymmetric bodies using Turn Table
apparatus.
7. Determination of Mass Moment of Inertia using bifilar suspension and compound
pendulum.
8. Motorized gyroscope – Study of gyroscopic effect and couple.
9. Governor - Determination of range sensitivity, effort etc., for Watts, Porter, Proell,
and Hartnell Governors.
10. Cams – Cam profile drawing, Motion curves and study of jump phenomenon
11. Single degree of freedom Spring Mass System – Determination of natural
frequency and verification of Laws of springs – Damping coefficient determination.
12. Multi degree freedom suspension system – Determination of influence coefficient.
13. Determination of torsional natural frequency of single and Double Rotor systems.-
Undamped and Damped Natural frequencies.
14. Vibration Absorber – Tuned vibration absorber.
15. Vibration of Equivalent Spring mass system – undamped and damped vibration.
16.Whirling of shafts – Determination of critical speeds of shafts with concentrated
loads.
17. Balancing of rotating masses.
18. Balancing of reciprocating masses.
19. a) Transverse vibration of Free-Free beam – with and without concentrated masses.
20. Forced Vibration of Cantilever beam – Mode shapes and natural frequencies.
21. Determination of transmissibility ratio using vibrating table.

Students should be familiar with the use of the following device/equipments depending
upon availability.

1. Tachometers – Contact and non contact
2. Dial gauge
3. Stroboscope
4. Accelerometers – Vibration pickups
5. Displacement meters.
6. Oscilloscope
7. Vibration Shaker
8. F.F.T. Analyzer and
9. Dynamic Balancing Machine.

TOTAL : 45 PERIODS


ME9308    THERMAL ENGINEERING LABORATOR Y – I                        L  T  P  C
                        0  0  3   2


AIM:
To train the students with principle and operation of thermal Energy based systems.
LIST OF EXPERIMENTS    
I.C. ENGINE LAB AND FUELS LAB                   (30)

1.  Valve Timing and Port Timing diagrams.
2. Performance Test on 4 – stroke Diesel Engine.
3. Heat Balance test on 4 – stroke Diesel Engine.
4. Morse Test on Multicylinder Petrol Engine.
5. Retardation Test on a Diesel Engine.
6. Determination of Flash Point and Fire Point.

STEAM LAB                                               (15)
1.  Study of Steam Generators and Turbines.
2. Performance and Energy Balance Test on a Steam Generator.
3. Performance and Energy Balance Test on Steam Turbine.

TOTAL : 45 PERIODS  
ME9309      METROLOGY AND MEASUREMENTS LABORATORY                  L  T  P  C
                                                                                                                                           0  0 3 2

AIM:
To understand the application of linear and angular measuring instruments
OBJECTIVES:
To equip students with knowledge on common metrological Instruments.
EXPERIMENTS
Sine bar & slip guage (Study)
Tool Makers Microscope
Rolling Gear tester – Study. (Study on parbinson gar rolling tester)
Comparator
Co-ordinate Measuring Machine (Study)
Surface Finish Measurement
Machine Vision System (Study)
Force Measurement
Torque Measurement
Bore diameter measurement using micrometer
Bore diameter measurement using telescope gauge
Gear tooth thickness and depth measurement
Taper angle measurement
Study of auto collimator
Mechanical Bevel protractor
Height vernier guage and depth micrometer. (Different height and depth
measurements).
                                                                                                    
 TOTAL : 45 PERIODS


ME9310        TECHNICAL SEMINAR                  L  T  P  C
                                                                                                                                      0  0   2  1


OBJECTIVE
During the seminar session each student is expected to prepare and present a topic on
engineering/ technology, for a duration of about 8 to 10 minutes. In a session of three periods
per week, 15 students are expected to present the seminar. A faculty guide is to be allotted
and he / she will guide and monitor the progress of the student and maintain attendance also.
Students are encouraged to use various teaching aids such as over head projectors, power
point presentation and demonstrative models. This will enable them to gain confidence in
facing the interview.

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3rd Semester Syllabus for Aerounatical Engineering

 ANNA UNIVERSITY :: CHENNAI 600 025
UNIVERSITY DEPARTMENTS
CURRICULUM – R 2008
B.E. AERONAUTICAL ENGINEERING
CURRICULUM FROM III TO VIII SEMESTERS FOR B.E. AERONAUTICAL
ENGINEERING
SEMESTER – III
CODE NO. COURSE TITLE L T P C
THEORY
MA9211 Mathematics III 3 1 0 4
AE9201 Engineering Fluid Mechanics 3 1 0 4
AU9201 Thermodynamics and Thermal Engineering 3 1 0 4
AU9202 Solid Mechanics 3 1 0 4
EI9211 Electronics & Instrumentation 3 0 0 3
AE9202 Elements of Aeronautics 2 0 0 2
PRACTICAL
PR9202 Computer Aided Part and Assembly Drawing 0 0 3 2
PR9203 Mechanical Sciences Laboratory 0 0 3 2
TOTAL 17 4 6 25

 MA9211 MATHEMATICS III L T P C
(Common to all branches of BE / B.Tech) 3 0 0 3
AIM:
To facilitate the understanding of the principles and to cultivate the art of formulation
physical problems in the language of mathematics
OBJECTIVES:
 To introduce Fourier series analysis which is central to many applications in
engineering apart from its use in solving boundary value problems
 To acquaint the student with Fourier transform techniques used in wide variety of
situations in which the functions used are not periodic
 To introduce the effective mathematical tools for the solutions of partial differential
equations that model physical processes
 To develop Z- transform techniques which will perform the same task for discrete
time systems as Laplace Transform, a valuable aid in analysis of continuous time
systems
UNIT I FOURIER SERIES 9+3
Dirichlet’s conditions – General Fourier series – Odd and even functions – Half-range
Sine and Cosine series – Complex form of Fourier Series – Parseval’s identity –
Harmonic Analysis.
UNIT II FOURIER TRANSFORM 9+3
Fourier integral theorem – Fourier transform pair-Sine and Consine transforms –
Properties – Transform of simple function – Convolution theorem - Parseval’s
identity.
UNIT III PARTIAL DIFFERENTIAL EQUATIONS 9+3
Formation – Solutions of first order equations – Standard types and Equations
reducible to standard types – Singular solutions - Lagrange’s Linear equation –
Integral surface passing through a given curve – Solution of linear equations of
higher order with constant coefficients.
UNIT IV APPLICATIONS OF PARTIAL DIFFERENTIAL
EQUATIONS 9+3
Method of separation of Variables – Solutions of one dimensional wave equation and
One-dimensional heat equation – Steady state solution of two-dimensional heat
equation – Fourier series solutions in Cartesian coordinates.
UNIT V Z – TRANSFORM AND DIFFERENCE EQUATION 9+3
Z-transform-Elementary properties-Inverse z transform – Convolution theorem-Initial
and Final value theorems - Formation of difference equation-Solution of difference
equation using z transform.
TOTAL: 45+15=60 PERIODS
TEXT BOOK
1. B.S.Grewal, “Higher Engineering Mathematics”, Khanna Publications (2007)
REFERENCES
1) Glyn James, “Advanced Modern Engineering Mathematics, Pearson
Education (2007)
2) B.V.Ramana, “Higher Engineering Mathematics” Tata McGraw Hill 2007.
3) N.P.Bali, and Manish Goyal, “A Text Book of Engineering 7th Edition (2007)
Lakshmi Publications (P) Limited, New Delhi.
AE9201 ENGINEERING FLUID MECHANICS L T P C
3 1 0 4
AIM:
To introduce the concepts of Fluid Mechanics. Pre-requisite: Basics of Physics
OBJECTIVE:
To introduce the concepts of fluid statics viscosity and buoyancy. To make the
student understand the basic laws namely, mass momentum and energy. To give an
introduction on fluid machinery.
UNIT I BASIC CONCEPTS 15
Introduction – Fluid properties – Newton’s viscosity law – Classification of fluids and
fluid motion – Fluid statics – Hydrostatic force on submerged surfaces – stability of
floating bodies – Dimensional analysis – The Buckingham-Pi theorem – Significant
dimensionless groups – Flow similarity and model studies
UNIT II BASIC EQUATIONS OF FLUID FLOW ANALYSIS 15
Basic laws for a system in integral form – Conservation of mass – Newton’s 2nd law –
Laws of thermodynamics – Application of the basic laws for a control volume –
Kinematics – Motion of a fluid particle – Fluid deformation – Differential analysis of
fluid motion – Continuity equation – Differential momentum equation – The Navier
Stokes equations
UNIT III INCOMPRESSIBLE INVISCID FLOW 8
Euler’s equations of motion – Bernoulli’s equations – Applications – Methods of
pressure measurement – Flow measurement – Orifice plate – Venturi meter –
Irrotational flow – Stream function and velocity potential – Laplace equation –
Elementary plane flows
UNIT IV INCOMPRESSIBLE VISCOUS FLOW 8
Fully developed laminar flow between infinite parallel plates – Laminar and turbulent
flow through pipes – Velocity profiles – Energy considerations in pipe flow –
Calculation of head loss Pipe flow problems – Hydraulic and energy grade lines –
Moody’s diagram
UNIT V FLUID MACHINERY 14
Introduction and classification of fluid machines – Turbo machinery analysis – The
angular momentum principle – Euler turbo machine equation – Velocity triangles –
Application to fluid systems – Working principle of turbines, fans, blowers, pumps and
compressors. L = 45, T = 15, TOTAL = 60 PERIODS
TEXT BOOKS
1. Shames I H, ‘Mechanics of Fluids’, Kogakusha, Tokyo, 1998
2. Robert W Fox & Alan T Mc.Donald, ‘Introduction to fluid Mechanics’, John Wiley
and Sons, 1995
REFERENCE BOOKS
1. Yuan S W, ‘Foundations of fluid Mechanics’, Prentice-Hall, 1987
2. Milne Thompson L M, ‘Theoretical Hydrodynamics’, MacMillan, 1985
3. Rathakrishnan, E, ‘Fundamentals of Fluid Mechanics’, Prentice-Hall, 2007
AU9201 THERMODYNAMICS AND THERMAL ENGINEERING L T P C
3 1 0 4 OBJECTIVE
To introduce fundamental concepts in thermodynamics, heat tramsfer, propulsion
and refrigeration and air conditioning.
UNIT I BASIC THERMODYNAMICS 16 Systems, Zeroth low, First law. Steady flow energy equation. Heat and work transfer
in flow and non-flow processes. Second law, Kelvin-Planck statement - Clausius
statement - Concept of Entropy, Clausius inequality, Entropy change in non-flow
processes. Properties of gases and vapours.
UNIT II AIR CYCLE AND COMPRESSORS 12
Camot, Otto, Diesel, Dual combustion and Brayton cycles. Air standard efficiency .
Mean effective pressure, Reciprocating compressors.
UNIT III STEAM AND JET PROPULSION 12
Properties of steam – Rankine cycle – Steam Nozzles – Simple jet propulsion system
– Thrust rocket motor – Specific impulse.
UNIT IV REFRIGERATION AND AIR-CONDITIONING 10
Principles of Psychrometry and refrigeration - Vapour compression - Vapour
absorption types - Co-efficient of performance, Properties of refrigerants – Basic
Principle and types Air conditioning.
UNIT V HEAT TRANSFER 10
Conduction in parallel, radial and composite wall – Basics of Convective heat transfer
- Fundamentals of Radiative heat transfer – Flow through heat exchangers.
L = 45, T = 15, TOTAL : 60 PERIODS
(Use of standard thermodynamic tables, Mollier diagram and Refrigerant property
tables are permitted)
TEXT BOOKS
1. Nag.P.K., “Engineering Thermodynamics”, Tata McGraw-Hill, New Delhi, 2007.
2. Rathakrishnan E., “Fundamentals of Engineering Thermodynamics”, Prentice-
Hall India, 2005.
REFERENCES
1. Ramalingam K.K. “Thermodynamics”, Sci-Tech Publications, 2006
2. Holman.J.P., “Thermodynamics”, 3rd Ed. McGraw-Hill, 2007.
3. Venwylen and Sontag, “Classical Thermodynamics”, Wiley Eastern, 1987
4. Arora C.P, “ Thermodynamics”, Tata McGraw-Hill, New Delhi, 2003.
5. Merala C, Pother, Craig W, Somerton, “ Thermodynamics for Engineers”,
Schaum Outline Series, Tata McGraw-Hill, New Delhi, 2004.
AU9202 SOLID MECHANICS L T P C
3 1 0 4
UNIT I AXIAL LOADING 12 Stresses and strains – Hooke’s law – stress and strain diagrams - elastic constants
– statically determinate and indeterminate problems in tension & compression –
thermal stresses – impact loading.
UNIT II STRESSES IN BEAMS 10
Shear force & bending moment diagrams – bending stresses – shear stress variation
in beams of symmetric sections – beams of uniform strength.
UNIT III DEFLECTION OF BEAMS 12
Double integration method – Macaulay’s method – moment area method – conjugate
beam method – principle of superposition – Strain Energy in axial, bending, torsion
and shear loadings. Castigliano’s theorems and their applications.
UNIT IV TORSION – SPRINGS – COLUMNS 14
Torsion of solid and hollow circular shafts – shear stress variation – power
transmission in shafts – open and closed-coiled helical springs – stresses in helical
springs – classification of columns – Euler buckling – columns with different end
conditions.
UNIT V BIAXIAL STRESSES 12
Stresses in thin-walled pressure vessels – combined bending, torsion and axial
loading of circular shafts – Mohr’s circle and its construction – determination of
principal stresses.
TEXT BOOK
1. Gere & Timoshenko, ‘Mechanics of Materials’, McGraw Hill, 1993
2. William Nash, Strength of Materials, Tata McGraw Hill, 2004
REFERENCES:
1. Dym,C.L., and Shames,I.H., ‘Solid Mechanics’, McGraw Hill, Kogakusha, Tokyo,
1973.
2. Stephen Timoshenko, ‘Strength of Materials’, Vol I & II, CBS Publishers and
Distributors, Third Edition.
3. R.K.Rajput, ‘Strength of Materials’, S. Chand and Co., 1999.
4. Timoshenko,S. and Young,D.H., Elements of Strength of Materials,
T.Van Nostrand Co. Inc., Princeton, N.J., 1977.
EI9211 ELECTRONICS & INSTRUMENTATION L T P C
3 0 0 3
UNIT I ELECTRONIC COMPONENTS AND DEVICES 10
Resistors, Capacitors, Inductors and Transformers - properties, types. Simple
PN Junction Diodes, Zener diode, Bipolar Junction transistor and Field Effect
Transistors – operating principles and characteristics. Other Devices – UJT, SCR,
LED, Photodetectors.
UNIT II ANALOG CIRCUITS 10
Rectifier and Power Supply Circuits, clipper, clamper using diodes, Operational
Amplifiers (Ideal) – properties and typical circuits like differentiator, integrator,
summer, comparator, single-stage BJT’s and FET’s amplifiers – Multistage Amplifier
Principles(Qualitative Treatment only).
UNIT III DIGITAL CIRCUITS 10
Basics of Boolean Logic – Logic Gates, Flip-Flops, Shift-Registers, Counters,
Decoders/Drivers, Timer, Display Devices, A/D and D/A Converters.
UNIT IV MEASUREMENTS AND INSTRUMENTS 7
Definitions of Accuracy, Precision, Sensitivity, Resolution, Linearity, Range,
Measurement of Electrical Quantities – Voltmeter, Ammeter, Watt-Meter, DMM,
CRO, DSO, Transducers and signal conditioning systems for pressure,
temperature, acceleration measurements (Qualitative Treatment only).
UNIT V MICROPROCESSORS AND APPLICATIONS 8
Architecture of 8085 processors, Address Modes, Instruction set, simple
programming like addition, subtraction, multiplication, logical operation, Peripherals
and Interfacing – 8255, 8251. Applications like motor control, keyboard and PC
interface, Introduction to Microcontrollers.
TOTAL: 45 PERIODS
TEXT BOOK
1. Millman.J. and Halkias.C., “Integrated Electronics”, Tata McGraw Hill, 2004.
2. Paul Horowitz and Wilfred Hill “The Art of Electronics”, Cambridge University
press,1989.
REFERENCES
1. Donald P Leach, Albert Paul Malvino and Goutam Saha,” Digital Principles &
Applications”,6E, Tata McGraw Hill, 2006.
2. A.K.Sawhney, A course in Electrical and Electronic Measurement and
Instrumentation”, Dhanpat Raj. and Sons, New Delhi, 1999
3. Helfrick.A.D., and Cooper.W.D., ‘“Electronic Instrumentation and Measurement
techniques”, Prentice Hall of India, 1998.
4. Gaonkar. Ramesh S, “ Microprocessor Architecture Programming and
Applications with 8085”, 5th Ed. Penram International Publishing (India). 2003 .
5. Kenneth J.Ayala., “The 8051 Microcontroller Architecture Programming and
Applications”, 2ed, Penram International Publishing (India).2004.
AE9202 ELEMENTS OF AERONAUTICS L T P C
2 0 0 2 OBJECTIVE
To introduce the basic concepts of aerospace engineering and the current
developments in the field.
UNIT I HISTORICAL EVALUATION 8
Early airplanes, biplanes and monoplanes, Developments in aerodynamics,
materials, structures and propulsion over the years.
UNIT II AIRCRAFT CONFIGURATIONS 5
Components of an airplane and their functions. Different types of flight vehicles,
classifications. Conventional control, Powered control, Basic instruments for flying,
Typical systems for control actuation.
UNIT III INTRODUCTION TO PRINCIPLES OF FLIGHT 6
Physical properties and structure of the atmosphere, Temperature, pressure and
altitude relationships, Evolution of lift, drag and moment. Aerofoils, Mach number,
Maneuvers.
UNIT IV INTRODUCTION TO AIRPLANE STRUCTURES AND
MATERIALS 6
General types of construction, Monocoque, semi-monocoque and geodesic
construction, Typical wing and fuselage structure. Metallic and non-metallic
materials, Use of aluminium alloy, titanium, stainless steel and composite materials.
UNIT V POWER PLANTS USED IN AIRPLANES 5
Basic ideas about piston, turboprop and jet engines, Use of propeller and jets for
thrust production. Comparative merits, Principles of operation of rocket, types of
rockets and typical applications, Exploration into space.
TOTAL: 30 PERIODS
TEXT BOOKS
1..Anderson, J.D., “Introduction to Flight”, McGraw-Hill, 1995.
REFERENCE 1..Kermode, A.C., “Flight without Formulae”, McGraw-Hill, 1997.
PR9202 COMPUTER AIDED PART AND ASSEMBLY DRAWING L T P C
0 0 3 2
OBJECTIVE
To impart skills in construction of machine elements and assembly drawing. Also to
train the students to read and represent a geometrical tolerances in part drawing.
1. Instruction to machine drawing & production drawing classification of
drawing-BIS conventions – Orthographic and sectional views. Reviews of
the concepts of limits, tolerance, fits, surface roughness, and symbols
terminology used in Production drawing.
2. Machine element joints – Types of joints – Screw fasteners – Pin joints,
couplings welded joints.
3. Computer Aided Production Drafting
Detailed part drawing and assembly drawings (with suitable tolerances,
machine sumbols, specification of fit).
1) Screw jack
2) Shaper tool head
3) Non return valve
4) Plummer block
5) Foot step drawing
6) Machine vice
7) Four jaw chuck of lathe
8) Lathe tail stock
9) Square tool post
10) Universal coupling
11) Hydraulic & Pneumatic Assembly
TOTAL: 45 PERIODS
PR9203 MECHANICAL SCIENCES LABORATORY L T P C
0 0 3 2
OBJECTIVE
To train the students in testing and quantifying the mechanical properties of
Engineering Materials, Engines and Heat Exchangers
`List of Experiments
Tension Test
Torsion Test
Testing of springs
Impact test i) Izod, ii) Charpy
Hardness test i) Vickers, ii) Brinell, iii) Rockwell, iv) Shore
Deflection of Beams
Dye Penetrant Test
Performance test on a 4 storke engine
Viscosity determination of the given fluid
Moment of inertial of connecting rod
Determination of Effectiveness of a parallel and counter flow heat exchangers
Valve timing of a 4 stroke engine and port timing of a 2 stroke engine
TOTAL: 45 PERIODS



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