Department electives (A minimum of three electives)

НазваниеDepartment electives (A minimum of three electives)
Размер5.03 Mb.
  1   2   3   4   5   6   7   8   9   ...   19

MATHEMATICS (A minimum of two electives)

08O001 Applied Numerical Methods

08O002 Business Statistics

08O003 Mathematical Modeling

08O004 Optimization Techniques

08O005 Statistics and Quality Control

08O006 Stochastic Models


08O016 Micro Machining and Micro Sensors

08O017 Nano Science and Technology

08O018 Integrated Circuit Technology

08O019 Thin Film Technology

08O020 Laser Technology

08O021 Composite Materials

08O022 Electronic Ceramics

08O023 Plasma Technology

08O024 Computational Materials Science

08O025 Quantum Mechanics

08O026 Electro Optic Materials

08O027 Analytical Methods in Materials Science

08O028 Vacuum Science and Deposition Techniques

08O029 Semi Conducting Materials and Device

08O030 Sensors for Engineering Applications


08O031 Energy Storing Devices and Fuel Cells

08O032 Polymers in Electronics

08O033 Organic Electronics

08O034 Functional Coatings by Polymer Micro Encapsulation

08O035 Analytical Methods for textiles and textile Ancillaries

08O036 polymers and composites

08O037 Corrosion science and engineering

08O038 chemistry of Nanomaterials

08O039 Polymer Chemistry and Polymer Processing

08O040 Electro analytical Methods

08O041 instrumental Methods of Chemical Analysis

08O042 Advanced Reaction Mechanism

08O043 Chemical Sensors and Biosensors

08O044 Computational Physical Chemistry

08O045 Molecular Spectroscopy

HUMANITIES (A minimum of one elective)

08O046 Principles of Management

08O047 Human Resource Management

08O048 Introduction to Management

08O049 Organizational Behaviour

08O050 Value Management

08O051 Human Values and Professional Ethics

08O052 Micro Economic Environment

08O053 Marketing Systems

08O054 Entrepreneurship

08O055 Analysis of Manufacturing and Service Systems

08O056 Financial and Management Accounting

08O057 Managerial Finance

08O058 Working Capital Management

08O059 Cost Management

08O060 Technology Incubators and Commercialization of Innovation

LANGUAGE (A minimum of one elective)

08O061 Professional English

08O062 Initiative to German Language

08O063 Basic French

08O064 Basic Conversational Skills in Japanese Language

DEPARTMENT ELECTIVES (A minimum of three electives) #

08I001 Artificial Intelligence and Expert Systems

08I002 Grid Computing

08I003 Software Process Management

08I004 Electronic Commerce

08I005 Enterprise Resource Planning

08I006 Parallel Computer Architecture and Programming

08I007 Digital Image Processing

08I008 Software Testing Methods and Tools

08I009 Health Care Information Systems

08I010 Bioinformatics

08I011 Mobile Computing

08I012 Embedded Systems

08I013 Compiler Design

08I014 Broadband Networks

08I015 Soft Computing

08I016 Decision Support Systems

08I017 Client Server Computing

08I018 Multimedia Computing

08I019 UNIX Internals

08I020 Web Services and Service Oriented Architecture

08I021 Information Storage and Management

# - A candidate may be permitted to take a maximum of two electives in lieu of department elective courses from the list of core and elective courses of other departments / branches of BE / BTech degree programmes with specific permission from the concerned Heads of the Departments.



3 2 0 4

BASIC CONCEPTS: Limits and Continuity-Revision. (2)

MAXIMA AND MINIMA: Maxima and minima of two variables, Constrained maxima and minima- Lagrange multiplier method.


INTEGRAL CALCULUS: Evaluation of multiple integrals, Change the order of integration, Application of multiple integrals to find area and volume- Applications to engineering problems. Beta and Gamma Integrals- Evaluation of definite integrals in terms of Beta and Gamma functions. (8)

ORDINARY DIFFERENTIAL EQUATIONS OF FIRST ORDER: Basic concepts, Geometrical meaning, Separable differential equations. Modeling: Separable equations. Exact differential equations, Integrating factors, Linear differential equations, Bernouli equations- Applications to engineering problems. (8)

LINEAR DIFFERENTIAL EQUATIONS OF SECOND AND HIGHER ORDER: Homogeneous linear equations of second order and higher order equations with constant coefficients. Euler-Cauchy equation, Non-homogeneous equations, Solution by variation parameter, - Applications to engineering problems. (10)

VECTOR CALCULUS: Differentiation of vectors –Gradient, Divergence, Curl, Directional derivatives. Line ,Surface integrals-Statement of Green’s ,Gauss Divergence and Stoke’s Theorems- Applications to engineering problems. (10)

Total 42


1.  Erwin Kreyszig, “Advanced Engineering Mathematics”, John Wiley& Sons, 2004.

2. George B, Thomas Jr. and Ross L Finney, ”Calculus and Analytical Geometry , Addison Wesley, 2004.


1.  Ray Wylie C and Louis C Barrett,” Advanced Engineering Mathematics”, Tata McGraw-Hill Publishing Company

Ltd, 2003.

2. Riely K F, Hobson M P and Bence S J, “Mathematical Methods for Physics and Engineering”, Cambridge University

Press, 2002.


(Also common with 08C102/ 08M102/ 08E102/ 08L102/ 08Y102/ 08P102/ 08Z102/ 08A102/ 08T102/ 08B102/ 08D102/ 08U102)

3 0 0 3

ULTRASONICS:  Introduction. Production – magnetostriction effect, magnetostriction generator, inverse piezoelectric effect, piezoelectric generator. Ultrasonics detection, Properties,  Cavitation.  Industrial applications – drilling, welding, soldering and cleaning.  Non Destructive Testing – pulse echo system, through transmission, resonance system.   Medical applications – cardiology, neurology, ophthalmology, ultrasonic imaging. (9)

LASER TECHNOLOGY:  Introduction.  Principle - spontaneous emission, stimulated emission, Population inversion. Pumping mechanisms.   Types of lasers - He-Ne, CO2, Nd:YAG, Excimer, Dye lasers, Semiconductor laser.  Applications - Spectroscopic analysis of materials, lasers in microelectronics, drilling, welding, heat treatment, cutting, holography, defence and ranging.  (9)

FIBER OPTICS AND SENSORS: Principle.  Modes of propagation.  Fabrication techniques – rod and tube method, crucible-crucible technique.  Classification based on materials, refractive index profile, modes.  Splicing.  Losses in optical fiber.  Light sources for fiber optics.  Detectors.  Fiber optical communication links.  Fiber optic sensors - temperature, displacement, voltage and magnetic field measurement. (8)

QUANTUM PHYSICS AND MICROSCOPY: Development of quantum theory.  Dual nature of matter and radiation - de Broglie wave length. Uncertainty principle. Schroedinger’s equation-Time dependent, Time independent.  Particle in a box.  Limitations of optical microscopy. Electron microscope. Scanning electron microscope, Transmission electron microscope, Scanning Transmission Electron Microscope, applications. (8)

VACUUM SCIENCE AND TECHNOLOGY: Introduction. Concepts of vacuum- Throughput, Pumping speed, Effective pumping speed and Conductance.  Types of pumps - Working principle and construction of rotary pump, diffusion pump, turbo molecular pump.  Operation of pressure gauges - pressure range, measurement of vacuum using Pirani and Penning gauges, merits and limitations. Working of a vacuum system Applications and scope (8)

Total  42


1. Avadhanulu M N and Kshir Sagar P G, “A Text Book of Engineering Physics”, S. Chand & Company Ltd, New

Delhi, 2007.

2. Rao V V, Ghosh T B and Chopra K L, “Vacuum Science and Technology”, Allied Publishers Limited, New Delhi,



1. Jayakumar S, “Engineering Physics”, R K Publishers, Coimbatore, 2007.

2. Kannan M D and Balusamy V, “Engineering Physics”, Vikas Publishing House, New Delhi, 2003.

3. Palanisamy P K, “Engineering Physics”, Scitech Publications, Chennai, 2002.

4. Ageov N, Zuev A I and Kokora A, "Laser and Electron Beam Materials Processing", Mir Publications, Moscow, 1998.


(Also common with 08E103/ 08L103/08Z103 /08U103)

3 0 0 3

PRINCIPLES OF ELECTROCHEMISTRY: Origin of potential – electrical double layer – reversible electrode potential – standard hydrogen electrode – emf series – measurement of potential – reference electrodes (calomel and silver/silver chloride) indicator and ion selective electrodes – Nernst equation – irreversible processes- corrosion principles, types, mechanisms– kinetic treatment– overpotential, activation, concentration and IR overpotential–its practical significance.


ELECTROCHEMICAL PROCESSES IN ELECTRONIC INDUSTRIES: Electroplating in electronic industry – printed circuit boards – electrical contacts and connectors. Anodising –thickness of the anodic film, electrical applications of anodized aluminium-electric transmission, capacitors. Electrophoretic painting. Electroforming of wave guides and CD stampers. Electrochemical etching of PCBS, semiconductors and MEMS devices, Electrochemical etching of copper from PCBs. Electroless plating –PCBs for small devices. (12)

BATTERIES AND FUEL CELLS: Batteries – characteristics- voltage, current, capacity, electricity storage density, power, discharge rate, cycle life, energy efficiency, shelf life. Battery specifications for cars, heart pacemakers, computer standby supplies etc. primary and secondary – dry cell, alkaline, lead- acid battery – open and sealed cells and Ni- Cd batteries. Lithium batteries and silver oxide cells. Hydrogen/oxygen, Carbon/ Oxygen fuel cells. Direct methanol and ethanol fuel cells. (10)

WATER TREATMENT METHODS FOR ELECTRONIC INDUSTRY AND WATER QUALITY STANDARDS: Hardness - estimation by EDTA method. Softening of water – zeolite and ion exchange resin methods. Treatment of water for domestic supply - Water quality parameters for drinking purpose - WHO and Indian standards. Desalination – reverse osmosis and electrodialysis. Ultrapure water for semiconductor processing– guideline for ultrapure water used in semiconductor industry. (10)

Total  42


Atkins P and Paula J D, “Physical Chemistry”, Seventh Edition, Oxford University Press, London, 2002

Pletcher D, “Industrial Electrochemistry”, Chapman and Hall, London, 1993.


1. Aulice Scibioh M.and Viswanathan B, “Fuel Cells – Principles and Applications”, University Press, India, 2006.

2. Lindon David, “Handbook of Batteries”, McGraw Hill, 2002.

3. Trethewey K and Chamberlain K, “Corrosion for Science and Engineering”, Longman Inc, Second Edition, 1996.

4. Curiacose J C and Rajaram J, “Chemistry in Engineering and Technology”, Volume I & II, Tata McGraw Hill,



3 0 2 4

READING: Reading Practice on a variety of subjects to develop - Reading skills such as identifying main ideas and using contexts for vocabulary.(General and semi-technical articles from Newspapers and Science Magazines) (10)

WRITING: Fundamental Principles of clear writing – Style and tone in formal writing with Exercises (5)

MECHANICS OF WRITING: Grammar in context- focus areas – Tenses- Prepositions-Modals-,Adjectives-Transformation sentences (7)

TECHNICAL WRITING: Definition-Description-Instructions - Writing Technical Papers (4)

TRANSCODING: Interpreting Graphics -Writing coherent paragraphs. (2)

Writing for focus (2)

MIND MAP: Organisation of Coherent Paragraphs and essays. (2)

Cloze Test to improve Vocabulary- Syntax-reading skills (4)

Letter Writing and Short reports (6)


SPEAKING: Practice in Speech Making Process –To develop Communicative Ability – Techniques for speaking fluently-using body language-developing fluency and confidence.

Short Speeches (10)

Group Discussions and Role-plays (8)

Listening Activities (10)

Total 70


1. Teaching Material prepared by the Faculty, Department of English

2. Sankaranarayanan V, Sureshkumar S and Palanisamy, “Technical English for Engineering Students”, PHI, 2008


1. Rodney Huddleston and Geoffrey K Pullam, “A Student‘s Introduction to English Grammar”, Cambridge University Press, U K, 2005.

2. Bert Decker, “The Art of Communicating”, Decker Communications, Inc, USA, 2004.

3. Meenakshi Raman and Sangeeta Sharma, “Technical Communication: Principles and Practice”, Oxford University Press, U K, 2004.

4. Ajay Rai, “Effective English for Engineers and Technologies: Reading, Writing & Speaking”, Crest Publishing House, New Delhi, 2003.

5. Paul V Anderson,” Technical Communication: A Reader – Centered Approach”, Asia Pvt. Ltd, Singapore, 2003.

6. Albert Joseph, “Writing Process 2000”, Prentice Hall, New Jersey, 1996


3 0 2 4


INTRODUCTION TO PROBLEM SOLVING: Program development- Analyzing and Defining the Problem- Modular Design- Algorithm d- Flow Chart. (3)
  1   2   3   4   5   6   7   8   9   ...   19


Department electives (A minimum of three electives) iconList of electives for

Department electives (A minimum of three electives) iconList of electives for b. Tech. Biotechnology

Department electives (A minimum of three electives) iconCore options (electives) for specialisation 50

Department electives (A minimum of three electives) icon1 The candidates with B. Sc of any life science subject as one of the Majors/Optionals/Electives for all the 3 years of graduation

Department electives (A minimum of three electives) iconSemester IV 24. Strategic Management 25. Management of Technology 26. Elective IV 27. Elective V 28. Project Work Electives

Department electives (A minimum of three electives) iconAs of today, these are films gse staff plans to use. A few films are required for all students, while most will be used only in particular Area I classes or in optional electives (such as a foreign film series). Any updates to this list will be posted on the gse website (

Department electives (A minimum of three electives) iconMinimum information about a marker gene sequence (mimarks) and minimum information about any (X) sequence (MIxS)

Department electives (A minimum of three electives) iconThese reaction papers will be short minimum of 2

Department electives (A minimum of three electives) iconPrinciple of Minimum Total Potential Energy

Department electives (A minimum of three electives) icon4. (I) Minimum Requirements for Degree Award – 133 Credits

Разместите кнопку на своём сайте:

База данных защищена авторским правом © 2014
обратиться к администрации
Главная страница