01 Syllabus First Year for Booklet 21 July 07

SUBJECT: ENGINEERING MATHEMATICS – I SUBJECT CODE: EM101

Teaching Scheme Examination SchemeClass Room Contact Hrs

Practical

Activity Based

Learning

Credits

University Examination (Theory)

Mid Sem Examination (Theory)

Continuous

Evaluation(Theory)

University Examination (Practical)

Mid Sem Examination (Practical)

Continuous

Evaluation(Practical)

Total Mark

s

02 Hrs -- 04 Hrs 04 60 Marks 25 Marks 15 Marks -- -- -- 100

Objectives: To provide mathematical knowledge and skills needed to support their concurrent and subsequent

engineering studies. To provide an ability to apply knowledge of basic science and engineering fundamentals. To provide an ability to undertake problem identification, formulation and solution. To profound competencies in mathematical and computational disciplines which are applicable in

industry, business world, and public administration. To provide an ability to analyze different mathematical models within science and technology and work

creatively, systematically and critically. To provide an ability to find strategies for the solution of different types of mathematical models using

knowledge about the possibilities and limitations of the different methods and tools. To provide an ability to interlink various engineering fields with Mathematics. To provide with a thorough grounding in mathematics and to lay a foundation for further studies in

engineering mathematics. To provide an ability to develop abstract, logical and critical thinking and the ability to reflect critically

upon their work and work of others. To provide an ability to communicate effectively with professionals within applied and engineering

mathematics as well as researchers of various field. To provide an ability to insight their strengths and weakness as learners and to appreciate the value of

errors or mistakes as powerful motivators to enhance learning and understanding.

Syllabus of Engineering Mathematics-I

UNIT - I - Differential Calculus Derivatives of nth Derivative of some Elementary Functions Leibnitz’s Theorem Taylor’s Series and Maclaurin’s Series Expansions Indeterminate Forms.

UNIT - II - Partial Differentiation and Maxima & Minima Function of Several Variables: Limit and Continuity Partial Differentiation Variable Treated as Constant Total Derivative Partial Differentiation of Composite Functions: Change of Variable-Differentiation of an Implicit Function -

Euler’s Theorem Jacobian Error and Approximations Taylor’s Theorem for Function of two Variables Maxima and Minima of Functions of two Variables: with and without constraints Lagrange’s Method of Undetermined Multipliers.

UNIT - III – Basic of Matrix algebra & System of Linear equations Inverse of a Matrix Rank of a Matrix Normal Form

System of Linear Non-Homogeneous Equations System of Homogeneous Equations Gaussian Elimination Method.

UNIT - IV - Complex Numbers Complex Numbers Roots of Complex Numbers, Elementary complex functions

UNIT - V - Sequences and Series Sequences Limit of Sequences Convergence, Divergence and Oscillation of a Sequences Infinite Series Necessary Condition for Convergence Standard Infinite Series: Geometric Series and Harmonic Series Tests for Convergence and Divergence Comparison Test : Only for Series with Positive Terms Cauchy’s Integral test D’alembert’s ratio Test Cauchy’s nth Root Test , Alternating Series Leibnitz’s Theorem Absolute Convergence and Conditionally Convergence Power Series.

Text Books:1 B.V.RAMANA, “HIGHER ENGINEERING MATHAMATICS”, TATA McGraw Hill.

2 R K Jain, S R K Iyengar,” Advanced Engineering Mathematics. Third Edition”, Narosa Publishing House

Reference Books:1 Erwin Kreyszig,”Advanced Engineering Mathematics (8th Edition) “,Wiley Eastern Ltd., New Delhi.

2 Dr. B.S. Grewal , “Higher Engineering Mathematics”, Khanna Publishers, New Delhi3 Murray Spiegel ,“Advanced Mathematics for Engineering & Science:Schaum Outline Series” ,Tata - Mcgraw

Hill Publication4 Merel C Potter,J L Goldberg, “Advanced Engineering Mathematics (3rd Edition)”

Oxford India Publication.

Subject - ENGINEERING MATHEMATICS – II Subject Code - EM201

Teaching Scheme Examination Scheme

Class Room Contact Hrs

Practical

Activity Based

Learning

Credits



Continuous

Evaluation

(Theory)

University Examinatio

n (Practical)

Mid Sem Examinatio

n (Practical)

Continuous

Evaluation

(Practical)

Total Mark

s

02 Hrs 04 Hrs 04 60 Marks 25 Marks 15 Marks - - - 100

Objectives: To provide mathematical knowledge and skills needed to support their concurrent and subsequent

engineering studies. To provide an ability to apply knowledge of basic science and engineering fundamentals. To provide an ability to undertake problem identification, formulation and solution. To profound competencies in mathematical and computational disciplines which are applicable in

industry, business world, and public administration. To provide an ability to analyze different mathematical models within science and technology and work

creatively, systematically and critically. To provide an ability to find strategies for the solution of different types of mathematical models using

knowledge about the possibilities and limitations of the different methods and tools. To provide an ability to interlink various engineering fields with Mathematics. To provide with a thorough grounding in mathematics and to lay a foundation for further studies in

engineering mathematics. To provide an ability to develop abstract, logical and critical thinking and the ability to reflect critically

upon their work and work of others. To provide an ability to communicate effectively with professionals within applied and engineering

mathematics as well as researchers of various fields To provide an ability to insight their strengths and weakness as learners and to appreciate the value of

errors or mistakes as powerful motivators to enhance learning and understanding.

Syllabus of Engineering Mathematics-II

UNIT - I - Tracing of Curves & Integral Calculus Curve Tracing: Curves in Cartesian Form Curve Tracing: Polar Curves Curve Tracing: Parametric Curves Reduction Formulae Area of a plane Region: Quadrature Length of Plane Curve : Rectification Volume of Solid of revolution Area of the Surface of Solid of Revolution Double Integral Application of Double Integral Change of order of Integration: Double integral General Change of Variables in Double Integral Triple Integral.

UNIT - II - Vector Calculus Vector Differentiation Directional Derivative, Gradient of a Scalar Function and Conservative Field Divergence Curl Related Properties of Gradient, Divergence and Curl of Sums Second Order Differential Operator Curvilinear Coordinates: Cylindrical and Spherical Coordinates Vector Integration: Integration of a Vector Function of a Scalar Argument

Line Integrals: Work Done, Potential, Conservative Field and Area Surface Integrals: Surface Area and Flux Volume Integrals Green’s Theorem in Plane: Transformation Between Line Integral and Double Integral Area in Cartesian

and Polar Coordinates Stokes’ Theorem Gauss Divergence Theorem

UNIT - III - Ordinary Differential Equations-1st Order Introduction of Mathematical Modeling Basic Definitions First Order First Degree Differential Equations Variable Separable or Separable Equation Homogeneous Equation- Reduction to Separable Form Non-homogeneous Equations Reducible to Homogeneous Form Exact Differential Equations Reduction of Non-exact Differential Equations: Using Integrating Factors Linear Differential Equation: First Order Bernoulli Equation First Order Nonlinear Differential Equations Orthogonal; Trajectories of Curves Law of Natural Growth Law of Natural Decay Simple Electric Circuits.

UNIT - IV - Linear Algebra II Linear Transformation Eigen Values and Eigen Vectors - Properties of Eigen Values and Eigen Vectors Cayley-Hamilton Theorem - Diagonalization Powers of a Matrix Real Matrices: Symmetric, Skew Symmetric, Orthogonal Quadratic Form Complex Matrices: Hermition, Skew Hermition, Unitary Matrices.

UNIT - V - Special Functions Gamma Function Beta Function.

Text Books:1 B.V.RAMANA, “HIGHER ENGINEERING MATHAMATICS”, TATA McGraw Hill.

2 R K Jain, S R K Iyengar,” Advanced Engineering Mathematics. Third Edition”, Narosa Publishing House

Reference Books:1 Erwin Kreyszig,”Advanced Engineering Mathematics (8th Edition) “,Wiley Eastern Ltd., New Delhi.

2 Dr. B.S. Grewal , “Higher Engineering Mathematics”, Khanna Publishers, New Delhi3 Murray Spiegel ,“Advanced Mathematics for Engineering & Science:Schaum Outline Series” ,Tata - Mcgraw

Hill Publication4 Merel C Potter,J L Goldberg, “Advanced Engineering Mathematics (3rd Edition)”

Oxford India Publication.

SUBJECT - ENGINEERING PHYSICS SUBJECT CODE : PH102/202


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s

02Hrs -- 02 Hrs 03 60 Marks 25 Marks 15 Marks - - - 100

Objectives: It is expected that the syllabus will help to create an interest among learners to study Physics as a

discipline and inculcate in learners the abilities, useful concepts of Physics in real-life situations for making learning of Physics relevant, meaningful and interesting.

Developing an ability of problem solving and creative thinking which will gradually facilitate creating and developing an interest in Physics.

Syllabus of Engineering Physics

Unit I: Architectural Acoustics and Ultrasonics Introduction – Characteristics and Properties of Sound – Absorption co-efficient – Reverberation time – Sabine’s formula – Factors affecting architectural acoustics – Acoustic design of hall – Acoustical materials – Introduction of Ultrasonic waves – Generation of ultrasonic waves – Determination of velocity of ultrasonic waves – Detection of ultrasonic waves – Applications of Ultrasonic waves.

Unit II: LASER Introduction (MASER and LASER) – Characteristics of LASER – Einstein’s theory - Basic concepts in LASER physics - Types of LASER - Qualitative Industrial Applications of LASERS - Hologram and Holography (construction and reconstruction)

Unit III: Fiber Optics Introduction - Advantages of Fibre Optics over metallic cable - Principle of Fibre Optics - Acceptance Angle - Numerical Aperture - Types of Fibres based on Materials, Modes of Propagation and Index profile - V-Number – Fabrications – Attenuation - Fibre losses - Optical windows – Dispersion - Bandwidth-Distance product - Fibre communication system – Applications of Fibre Optics.

Unit IV: Semiconductor PhysicsIntroduction - Energy band theory of crystals - Intrinsic semiconductors - Extrinsic semiconductors - Conductivity of semiconductors –Fundamental of magnetism (motion of electrons in magnetic field) - Hall effect and its application - PN junction diodes - Zener diode - Varactor diode – LED – LDR – Photocell - Solar cell - Diode use as rectifier (half wave and full wave) – filters – Non-destructive testing (NDT).

Unit V: Crystal PhysicsIntroduction - Classification of Solids – Fundamental terms of Crystallography – Types of crystals – SC, BCC FCC and HCP structures - Crystallography plane and Miller indices - Interplanner distance and cube edge - Crystal structure analysis- Crystal defects – X-ray diffraction - Bragg’s law for X-ray diffraction

Unit VI: Quantum PhysicsBlack body radiation – Planck’s law (without derivation) – Wien’s displacement law and Rayleigh – Jeans’ law from Planck’s theory – Compton effect (Theory and experimental verification – wave-particle duality – Uncertainty principle - Matter waves – Schrodinger’s wave equation – Time independent and time dependent equations – Physical significance of wave function – Particle in a one dimensional box – Electron microscope – Scanning electron microscope – Transmission electron microscope.

Unit VII: Mechanics Linear motion - curvilinear motion - Relative motion - Circular motion - Newton’s laws of motion - Work, energy and Momentum - Rotational kinematics.

Unit VIII: ThermodynamicsTemperature - temperature scales - Laws of Thermodynamics – Enthalpy - Latent heat - Internal energy – Entropy – Application of laws of thermodynamics,

Unit IX: OpticsReflection and Refraction - systems of lenses - optical instruments – interference – diffraction - grating and polarization

Unit X: Electric and Magnetic FieldsIntroduction - Coulomb’s law - Lorentz equation - Gauss’ law - Applications of Gauss theorem - Differential form of Gauss’ law - Stoke’s theorem - Ampere’s law - Laplace’s equation -Faraday’s law. –Classification of magnetic materials

Unit XI: Modern PhysicsBlackbody radiation - Photoelectric effect – Pauli’s Exclusion principle – four quantum numbers – periodic table - atomic transitions and spectra - radioactivity and decay processes - binding energy and fusion energy – fusion – fission.

Reference Books:1 K. Rajagopal , “Engineering Physics “,Prentice-Hall of India Pvt. Ltd.,

New Delhi

2 G. Vijayakumari ,“Engineering Physics “, Vikas Publishing House Pvt.Ltd.

3 M.N. Aavadhalula , “A Text book of Engg. Physics”, S.Chand Publication

4 Abhijit Nayak ,“Engineering Physics “, S.K. Kataria & Sons

SUBJECT – ENGINEERING PHYSICS LABORATORY SUBJECT CODE – PHL112/212


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s

-- 02 Hrs -- 01 -- -- -- 60 20 20 100

Objectives:- It is expected that the syllabus will help to develop an interest in the learners to study Physics as a

discipline and inculcate in learners the abilities, useful concepts of Physics in real-life situations for making learning of Physics relevant, meaningful and interesting.

Develop ability for problem-solving abilities and creative thinking to develop interest in the learners in the study of Physics

Engineering Physics Laboratory

List of Experiments1) Hall Effect : To calculate Hall co-efficient and mobility of a given semiconductor material (p-type and n-

type).

2) Characteristics of different types of Diodes : To study the forward and reverse characteristics of different

semiconductor diodes (Zener Diode, LED, Germanium Diode, and Silicon Diode).

3) Band gap of a Diode : To determine the band gap of a semiconductor diode using a junction diode.

4) Photocell : To verify the inverse square law.

5) X-ray powder pattern Analysis : To calculate lattice constants of Simple cubic (SC), Body centered cubic

(BCC) and Face centered cubic (FCC).

6) Newton’s Ring : To determine radius of curvature of a given lens.

7) Resolving power of grating : To determine resolving power of a diffraction grating.

8) Refractive index of light : To determine refractive indices of a given light using spectrometer.

9) Hollowprism : To determine refractive indices of different mediums (Air, Water and Glycerin) using hollow

prism.

10) Fibre optics : To study conversion of electrical signal into audio signal using fibre optic kit and calculation of

Numerical Aperture.

11) Radioactivity : To verify exponential law of Radioactivity decay using simple simulation method.

12) Michelson Interferometer :- To study the interference pattern using Michelson Interferometer

13) Measuring instruments : Calculation of inner radius, outer radius and depth of a given sample using vernier

caliper, Calculation of radius of thin wire using micrometer screw ,Calculation of radius of curvature using

Spherometer Calculation of resistance using Multimeter.

14) Simple Pendulum: To determine Relaxation time, Decay constant and acceration due to gravity ‘g’ of

Simple Pendulum.

15) Resonance tube: To measure the unknown frequency of given tuning fork.

Reference Books:1 K. Rajagopal , “Engineering Physics “,Prentice-Hall of India Pvt. Ltd.,

New Delhi

2 G. Vijayakumari ,“Engineering Physics “, Vikas Publishing House Pvt.Ltd.

3 M.N. Aavadhalula , “A Text book of Engg. Physics”, S.Chand Publication

SUBJECT - ELEMENTS OF MECHANICAL ENGG. SUBJECT CODE – EME107/207


Activity based learning/Tutoria

l

Practical

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s

02 Hrs 02 Hrs -- 03 60 Marks 25 Marks 15 Marks -- -- -- 100

Objectives: To provide the understanding of basic science of mechanical engineering. To provide the understanding of basic thermodynamics and gas laws for engineering applications. To provide understanding of converting efficiently energy into work for various applications. To understand the basics of power & motion transfer between various components and systems.

Sr. No. Topics1 INTRODUCTION

Basic units and dimensional analysis & measurement of force and mass, pressure, work, power, energy, heat, temperature, specific heat capacity, Interchange of heat, change of state, mechanical equivalent of heat, Internal energy, enthalpy, entropy, efficiency, statements of Zeroth Law, First law and Second law of Thermodynamics.

2 PROPERTIES OF GASESGas laws, Boyle’s law, combined gas law, gas constant, Internal energy, Relation between Cp and Cv, Enthalpy, Non flow process, constant volume process, Constant pressure process, Isothermal process, Poly-tropic process, Adiabatic process.

3 PROPERTIES OF STEAMIntroduction, steam formation, types of steam, enthalpy, specific volume of steam and dryness fraction of steam, Internal energy, steam tables, Measurement of dryness fraction throttling calorimeter, separating calorimeter, Combined calorimeter.

4. Fuels & Lubricants.Different types of fuels, their properties and applications. Different types of lubricants, their properties and applications.

5. INTERNAL COMBUSTION ENGINESPrime movers, Classifications, Elementary heat engines, Sources of energy, I.C. Engine cycles, Carnot cycle, Otto Cycle, Diesel cycle. Otto four-stroke cycle, Diesel-four-stroke cycle, Difference between Otto cycle and Diesel cycle, Two-stroke cycle, Difference between two- stroke and four-stroke cycle, indicated power (ip), Brake power (bp), Efficiencies. Governing of I.C. Engine

6. STEAM BOILERSIntroduction, Classification, Simple vertical and horizontal boiler, Boiler details, Boiler performance. Functioning of different mountings and accessories.

7 REFRIGERATION AND AIR-CONDITIONINGIntroduction, Refrigerant, Vapor compression & absorption cycles & system, basic applications.

8 TRANSMISSION OF MOTION AND POWER

Introduction, Couplings methods of drive, power transmission elements, shaft and axle, Belt-drive, pulleys, power transmitted by a belt, Chain drive, Friction drive, Gear drive. Text Books

1 Basant Agrawal ‘Basic mechanical Engineering’ Wiley-India, 2008.

2 Shanmugam G and Palanichamy M S, ‘Basic Civil and Mechanical Engineering’, Tata McGraw Hill publishing Co., New Delhi.

Reference1 Elements of Mechanical Engineering by K.P. Roy and Prof. S.K. Hajra Chaudhary, Media Promoters and publishers Pvt.Ltd.Bombat

2 A Text Book of Elements of Mechanical Engineering by S. M. Bhatt, H. G. Katariya, J. P. Hadiya – Books India Publications, New Delhi

3 Basic & Applied Thermodynamics by P K Nag - Tata McGraw Hill Pvt. Ltd., Mumbai

SUBJECT - ELEMENTS OF MECHANICAL ENGINEERING LAB. SUB. CODE – EMEL115/215


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s

-- 02 Hrs -- 01 -- -- -- 60 20 20 100

Objectives: To provide the understanding of basic science of mechanical engineering. To provide the understanding of basic thermodynamics and gas laws for engineering applications. To provide understanding of converting efficiently energy into work for various applications. To understand the basics of power & motion transfer between various components and systems.

Exp. No.

Name of Experiment

Objective of the Experiment

1 2nd Law of Thermodynamics

To verify the 2nd law of Thermodynamics by using perpetual motion machine

2 Dryness Fraction To measure the dryness fraction of wet steam with the help of calorimeter

3 Calorific value To measure the Calorific values of Petrol, Diesel and LPG fuels 4 Petrol Engine To measure the power developed by petrol engine5 Diesel Engine To measure the power developed by a diesel engine and calculate its

thermal efficiency.6 Thermal balance

TestTo draw the energy balance of an IC Engine and estimate the energy used and losses

7 Boiler To estimate the equivalent evaporation and efficiency of the simple vertical boiler .

8 Reciprocating Pump To estimate the power required for the reciprocating pump and calculate its efficiency

9 Centrifugal Pump To estimate the power required for the reciprocating pump and calculate its efficiency

10 Compressor To estimate the power required and Free Air Delivery of a reciprocating compressor

11 Governor To evaluate the performance of Watt, Porter, Proell, Hartnell Governor and compare them

12 Vapor Compression System

To estimate the COP and capacity of Vapor Compression Refrigeration System

13 Vapor Absorption System

To estimate the COP and capacity of Vapor Compression Refrigeration System

14 Power Transmission To estimate the velocity ratio of gear and belt drive systems15 Properties of Gases To study various laws of ideal gases and their application for various

processes16 Heat Engines To study Otto and Diesel cycles

SUBJECT – ENGLISH LANGUAGE COMMUNICATION SUBJECT CODE – EL104/204


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s

02Hrs -- 04 Hrs 04 60 Marks 25 Marks 15 Marks -- -- -- 100

Objectives:

To facilitate the learning of other subjects – both of the Curriculum and co – curricular & extra – curricular ones

To help students develop comprehension and expressional Skills To increase the student’s ability to improve and utilize the skills necessary to be a

competent Interpersonal communicator. To improve the students communication skills in both social and professional contexts.

Syllabus of English Language Communication

Sr. No. Chapter1. Grammar and Vocabulary

2. Listening and Speaking

3. Reading and Writing 4. Verbal and Non Verbal Communication

Chapter 1: GRAMMAR & VOCABULARY

Grammar: Sequence of Tenses, Parallel Structure, Prepositions and Conjunctions, Passive Voice , articles, indirect speech, punctuations

Vocabulary: Specific list of words for Confusable, One Word Substitutes, Idioms and Phrase, Chapter 2: LISTENING AND SPEAKING

Listening: Models of listening ,Listening skills- Features of a good listener, Listening comprehension and conversation, Listening for general content, Listening to fill up information, Intensive listening

Speaking: Phonetics: description of articulation of sound, Phonetic transcription of specific words, Describing Objects/situations/people, Formal/Informal Conversation, Group Discussions, Role Playing, Effective Presentation Strategies.

Chapter 3: READING AND WRITING

Reading: Skimming the text, Understanding the gist of an argument, Identifying the topic sentence, Inferring lexical and contextual meaning, Understanding discourse features, Recognizing coherence/sequencing of sentences, Reading paragraph with critical approach, Reading Comprehensions

Writing: Writing sentences, Use of appropriate vocabulary, Paragraph writing, Coherence and cohesiveness, Narration / description, Note Making, Formal and informal letter writing, Editing a passage, report writing ,précis writing, creating Resume/CV

Chapter 4:VERBAL AND NON-VERBAL COMMUNICATION

Theory on definitions of communications, process of communication, objectives of communication, Importance of Language in the communication set up, Kinesics – Importance of non verbal communication, Paralinguistic, Chronemics, Proxemics, Interpersonal Skills, tips for facing job interviews

Text Books /References1. Raman, Sangeeta Sharma,” Technical Communication Principles and Practice” Meenakshi (OUP).

2. Andrea J. Rutherford,” Basic Communication Skills for Technology”, Pearson Education

3. T.M. Farhathullah , “ Communication Skills for Technical Students “ , Orient Longman

4. Humanities & Social Sciences Division. Anna University, Chennai, “A Textbook of English for Engineers and

Technologists “,Orient Longman

5. – K.R. Lakshminarayanan , “English for Technical Communication “,Scitech Publications, Chennai.

6. – Allan Pease, “Body Language “,Sheldon Press, London

7 – Geoffrey Leech, Jan Swartvik, “. A Communicative Grammar of English “, ELBS – with Longman

8. “LEARNING ENGLISH: A Communicative Approach”, Hyderabad,Orient Longman, 2006. (Six Selected

Lessons)

9. Robert J. Dixson, “Everyday Dialogues in English “,Prentice-Hall of India Ltd., 2006.

10., Francis Soundararaj, “Speaking and Writing for Effective Business Communication”, MacMillan India Ltd.,

2007.

11. John Seely “The Oxford Guide to Writing and Speaking”, Oxford Publication

12. Norman and Lewis, “English Made Easy”, Oxford Publication

13. Sunita Mishra & C.Muralikrishna , “ Communication skills for Engineers”,Pearson Education

SUBJECT – APPLIED MECHANICS SUBJECT CODE – AM106/206


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s

03 Hrs -- 02 Hrs 04 60 Marks 25 Marks 15 Marks - - - 100

Objectives:

The student should be able to understand the vectorial and scalar representation of forces and moments, static equilibrium of particles and rigid bodies both in two dimensions and also in three dimensions.

He should understand the principle of work and energy. He should be able to comprehend the effect of friction on equilibrium. He should be able to understand the laws of motion, the kinematics of motion and the interrelationship. He should also be able to write the dynamic equilibrium equation. All these should be achieved both

conceptually and through solved examples.

SYLLABUS OF APPLIED MECHANICS

1. Basics Introduction-Units and Dimensions. Laws of Mechanics Vectors. Vectorial Representation of Forces and Moments. Vector Operations.

2. Statics of Particles Coplanar Forces Resolution and Composition of Forces. Equilibrium of a particle. Forces in space. Equilibrium of particle in space. Equivalent systems of forces. Principle of transmissibility. Single Equivalent Force.

3. Equilibrium of Rigid Bodies. Free Body Diagram. Types of Supports and their Reactions. Requirements of stable equilibrium. Equilibrium of Rigid bodies in two dimensions. Equilibrium of rigid bodies in three dimensions.

4. Properties of Surfaces and Solids. Determination of Areas and Volumes. First Moment of Area and the Centroid. Second and Product Moments of Plane Area. Parallel Axis and Perpendicular Axis theorem. Polar Moment of Inertia. Principal Moments of Inertia of plane areas. Principal Axes of Inertia. Mass Moment of Inertia. Relation to area moments of inertia.

5. Friction. Theory of Friction. Types of Friction. Static and Kinetic Friction. Cone of Friction. Angle of Repose. Coefficient of Friction. Laws of Friction. Friction on inclined plane. Ladder Friction. Wedge Friction. Belt and Rope Friction.

6. Elements of Dynamics of Particles Displacement, Velocity and Acceleration-their relationships. Rectilinear Motion Under Variable and Constant Accelerations Motion Curves. Relative Motion. Curvilinear Motion using rectangular co-ordinates. Newton’s Law. Work Energy Equation of particles. Impulse and Momentum. Impact of Elastic Bodies.

7. Elements of Rigid Body Dynamics. Translation and Rotation of Rigid Bodies. Velocity and Acceleration. General Plane Motion. Moment of Momentum Equations. Rotation of Rigid Body. Work Energy Equation.

Reference Books :1)Engineering Mechanics By Timoshenko, Tata McGraw Hill Publications2)Engineering Mechanics By A.K.Tayal , Umesh Publications.3)Engineering Mechanics By D.P.Sharma, Pearson Publications.4)Engineering Mechanics By S. Ramamrutham, Dhanpatrai & Sons Publications.

Books (Available At our Library) :1) Engg. Mechanics by A.R.Basu – Dhanpan Rai and Co2) Engg. Mechanics by R.S.Khurmi – S.Chand3) Engg. Mechanics by Dr. D.S.Kumar – S.K.Kararia and Sons4) Engg. Mechanics by Prof.M.N.Patel, C.S.Sanghavi, J.S.Thakkar – Mahajan Publication 5) Engg. Mechanics by Arthur P Boresi

SUBJECT – ENGINEERING GRAPHICS SUBJECT CODE –EGR110/210

Teaching Scheme Examination SchemeClass Room

Contact Hrs

PracticalActivity Based

LearningCredits

University Examination

(Theory)

Mid Sem Examination

(Theory)

Continuous Evaluation(Theory)


(Drawing)

Mid Sem Examination

(Drawing)

Continuous Evaluation(Drawing)

Total Marks

01 Hrs 04 Hrs -- 03 -- -- -- 60 Marks 20 Marks 20 Marks 100

Objectives: To develop the ability to visualize and communicate three-dimensional shapes. To develop the ability to create drawings which follow the engineering graphics conventions. To introduce the modern CAD software that uses solid modelling approach.

Syllabus of Engineering Graphics

1 INTRODUCTION TO ENGINEERING DRAWINGPrinciples of Engineering Graphics and their Significance – Drawing Instruments and their Use – Conventions in Drawing – Lettering – BIS Conventions

2 ENGINEERING CURVES & LOCI OF POINTSCurves used in Engineering Practice & their Constructions

Conic Sections (Ellipse, Parabola & Hyperbola) Cycloid, Epicycloid and Hypocycloid Involute Helix

Path of the points moving on simple arrangements and simple mechanisms, slider crank mechanism, four bar chain mechanism etc.

3 ORTHOGRAPHIC PROJECTIONPrinciples of Orthographic Projections – Conventions – First and Third Angle Projections and sectional orthographic projections.

4 PROJECTIONS OF POINTS & LINESProjections of the points located in same quadrant and different quadrants.Projections of line with its inclination to one reference plane and with two reference planes.True length of the line and its inclination with the reference planes.

5 PROJECTIONS OF PLANES AND SOLIDSProjections of regular Planes, auxiliary planes and Auxiliary projection inclined to both planes. Projections of Regular Solids inclined to both planes – Auxiliary Views.

6 SECTION OF SOLIDS AND DEVELOPMENT OF LATERAL SURFACESSection of such solids and the true shape of the sectionConcept of development of the different surfaces, Parallel Line Development and Radial Line Development.

7 ISOMETRIC PORJECTIONSPrinciples of Isometric Projection , Isometric Scale, Isometric Views, Conventions & Isometric Views of Lines, Plane Figures, Simple Solids

8 INTRODUCTION TO COMPUTER AIDED DRAFTINGIntroduction to Computer aided Drafting: Generation of points, lines, curves, polygons, simple solids, dimensioning.Text Books

1 N.D.Bhatt , “Elementary Engineering Drawing”, Charotar Publishing House, Anand2 P.J.Shah , “A Text Book of Engineering Graphics”, S Chand Publication

Reference1 N.D. Bhat , “Engineering Drawing”, Charotar Publication2 Johle, “Engineering Drawing”, Tata McGraw Hill3 M.B.Shah and B.C.Rana, “Engineering Drawing”, Pearson Education

SUBJECT –WORKSHOP PRACTICE SUBJECT CODE – WSP117/217


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s

-- 04 Hrs -- 02 -- -- -- 60 20 20 100

Objectives: To know basic workshop processes. To read and interpret job drawing. To identify, select and use various marking, measuring, holding, striking and cutting tools & equipments. To inspect the job for specified dimensions. To produce jobs as per specified dimensions. To adopt safety practices while working on various machines. To developing creativity & craft man skill approach to work.

Syllabus of Basic Workshop Practice

1 CARPENTRYCommon carpentry, hand-tools and equipments and their name, use, cares maintenance. Common joints their description and use. Safety precautions.Practice in correct use of carpenter's tools involving sawing, planning chiseling drilling etc. and making simple joints.

2 FITTINGCommon hand-tools and equipments used in fitting work. Their names use, case and maintenance. Hand and power-drilling machines, Fasteners, bolts, nuts, washers, rivet pin, key etc. and their uses. Safety precautions.Practice in the use of common fitter's tools and equipments, Marking, back-saving chipping and filling and piece to the given division practice and drilling machine,

3 WELDINGIntroduction, types of welding, electric arc welding, Gas welding, resistance welding. Elementary symbolic representation Safety precautions in welding, safety equipments and its use in welding processes.Practice cleaning and preparing edges for simple joint such as lap and butt joints, Practice different simple exercise of electric arc and resistance welding.

4 BLACK SMITHYIntroduction, different types, construction, operation care and maintenance furnances, common tools and equipments such as anvil sewerage, block, punches, drifts, snips, callipers, dividers etc, description, use, care and maintenance, safety equipments and its use in smithy processes.Lightening of fire, heating the job, perform the operations like cutting, upsetting drawing, bending to a given dimension. Making the following articles such as hook, bolting - link etc. punching hole in flat iron.

5 TIN SMITHYIntroduction, Various types of tools, equipments and accessories, Different types of operations in sheet metal shop, safety equipments and its use in smithy processes.Making the articles from the thin metal sheet.REFERENCES

1 Choudhary, Hajara “ Elements of Workshop Technology”, Media Promotors & Publishers2 Raghuvanshi B.S. “Workshop Technology” Vol. I & II, Dhanpat Rai & Sons3 Chapman W.A. J and Arnold E. “Workshop Technology” Viva low priced, Student edition

SUBJECT – ENGINEERING CHEMISTRY SUBJECT CODE –CH103/203


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s


Objectives:

1. Bridge the conceptual gap between high school chemistry and those relevant to majority of engineering processes.

2. Provide a mathematical, analytical, mechanism based treatment of the principles of chemistry rather than a factual, descriptive one.

3. Provide a foundation for the relevant and important concepts of chemistry and try to have the students appreciate their importance to engineering.

4. Provide concepts for students to allow them to understand design and perform experiments pertinent to particular engineering processes in order to study them.

5. Students should be able to relate and perceive the relevant chemistry behind engineering processes and systems and troubleshoot them when needed in an appropriate manner.

6. The syllabus has been prepared so as to suit a broad spectrum of engineering fields.

Syllabus of Engineering Chemistry (Theory)

Unit-1: Thermodynamics –

First And Second Law Of Thermodynamics

Concept of Entropy

Entropy Change For An Ideal Gas

Free Energy And Work Functions

Free Energy Change

Carnot’s Cycle

Gibb's Helmholtz Equation

Clausius – Clapeyron Equation

Industry Related Numericals.

Unit- 2: Chemical Kinetics:-

Molecularity And Order of Reaction

Rate of Reaction

First And Second Order Reaction

Factors Affecting Order Of Reaction

Importance of Activation Energy

Effect of Temperature On Rate Of Reaction

Arrhenius Equation

Transition State Theory And Collision Rate Theory

Enzyme Catalyzed Reactions.

Unit-3: Surface Science And Catalysis:

AbsorptionAdsorptionTypes Of Adsorption- Chemical And PhysicalRelation Between Surface Area And Rate Of AdsorptionFreundlich Adsorption IsothermLangmuir Adsorption.Catalysis: Types Of CatalysisHomogeneous And Heterogeneous CatalysisPoison of CatalysisPromoters of CatalysisLatest Industrial Catalyst And Their Applications.

Unit-4 Electrochemistry:

Electrochemical CellTypes Of ElectrodesStandard ElectrodesReference ElectrodesNernst TheoryElectrolysisConductivity Measurements And Applications.Corrosion: Types Of Corrosion ReactionGalvanic CorrosionPitting CorrosionWater-Line CorrosionDifferential Aeration CorrosionFactor Affecting CorrosionProtective MeasuresSacrificial AnodeCathode Protection.

Unit-5: Water Treatment Technology:Sources Of WaterImpurities In WaterHardness Of Water And Its DeterminationAlkalinity Of Water And Its Determination. Scale And Sludge Formation In Boilers And Pipes EtcAnd Preventive Measures. Treatment Of Water For Domestic Use-CoagulationSedimentationFiltration And DisinfectionWater SofteningIon-Exchange ProcessDesalination Through Reverse Osmosis And Electrodialysis.

Unit-6: Industrial Polymers: -Classification of PolymersTypes of PolymerizationAdditionCationicChainFree RadicalCoordination Polymerization. Nature of Plastics – Thermo Plastics And Thermo Setting PlasticsIndustrial Uses of PlasticsManufactureProperties And Uses of PolyethylenePolyvinyl Chloride

Phenol Formaldehyde And Urea FormaldehydeDefinition of RubberTypes of RubberVulcanization of rubberApplication of Rubber.

Unit- 7 Fuels and Combustion:Fuel Types And Their CharacteristicsClassification of Fuels Based On Renewability And Mode of Energy Production (ChemicalNuclear And Photovoltaic Etc.)Grading of Fuels And Petroleum Products.Combustion: Definition And MechanismMathematical Treatment of CombustionComplete And Incomplete CombustionFuel –Oxidant Ratio And Combustion Stoichiometry. Calculation of Calorific Value And Energy Output.

List of Experiments:

1. Volumetric Titration 2. Determination of Atomic Weight of A Metal3. Stoichiometric of Decomposition of Salt4. Rate of Reaction Through Quenching 5. Determination of Dissolved Oxygen6. Determination of Total Dissolved Solids In Water7. Determination of Slandered Electrode Potential8. Ph Meter Calibration And Measurement9. Proximate Analysis of Coal10. TLC Separation of Binary Mixture.

Text Books /References

1. P. W. Atkins, Physical Chemistry, ELBS/Oxford, 7th Edition, 1995.2. B.H. Mahan and R. J. Myers, University Chemistry, 4th edition, Benjamin, California, 1987.3. H.V. Keer, A.Q. Contractor, B. L. Tembe (Editor), R. S. Singh, P. Mathur, G. K. Trivedi, M. Sharan, N. S.

Punekar, et al ET-105 Part B, Chemistry (5 Blocks/booklets): Atoms and Molecules, Energetics and Kinetics, Equilibria and Electrochemistry, Inorganic Chemistry and Organic Chemistry. Written for the First Year B. Tech. Course of the Indira Gandhi National Open University, 1995

4. B I Bhatt, S M Vora, Stoichiometry, Tata McGraw Hill Education, 20045. M. J. Sienko and R. A. Plane, Chemical Principles and Applications, McGraw Hill, 1980.6. J. D. Lee, Concise Inorganic Chemistry, 4th Edition, ELBS, 1991.7. D. D. Ebbing, General Chemistry, Houghton Mi_n Co., 1984.8. Engineering Chemistry by Jain and Jain Publisher Dhanpat Rai Publishing Co.9. Engineering Chemistry by Dr. O.P. Agrawal Khanna Publishers Delhi10. Engineering Chemistry by N. Krishnamurthy, P. Vallinaygam and D. Madhavan Publisher – Prentice – Hall

of India Pvt. Ltd. New Delhi11. Engineering Chemistry by R. Gopalan, D. Venkappaya and Sulochana Nagarjan12. Engineering Chemistry by C. Parameswara Murthy, C.V. Agrawal and Andra Naidu, B.S. Publication,

Hyderabad – A.P.

SUBJECT – ENGG. CHEMISTRY LABORATORY SUBJECT CODE – CHL113/213

Teaching Scheme Examination SchemeClass Room

Contact Hrs


LearningCredits


(Theory)

Mid Sem Examination

(Theory)



(Practical)

Mid Sem Examination

(Practical)

Continuous Evaluation(Practical)

Total Marks

-- 02 Hrs -- 1 -- -- -- 60 20 20 100

Objectives:

1. Bridge the conceptual gap between high school chemistry and those relevant to majority of engineering processes.

2. Provide a mathematical, analytical, mechanism based treatment of the principles of chemistry rather than a factual, descriptive one.

3. Provide a foundation for the relevant and important concepts of chemistry and try to have the students appreciate their importance to engineering.

4. Provide concepts for students to allow them to understand design and perform experiments pertinent to particular engineering processes in order to study them.

5. Students should be able to relate and perceive the relevant chemistry behind engineering processes and systems and troubleshoot them when needed in an appropriate manner.

6. The syllabus has been prepared so as to suit a broad spectrum of engineering fields.

List of Experiments:

1. Volumetric Titration 2. Determination of Atomic Weight of A Metal3. Stoichiometric of Decomposition of Salt4. Rate of Reaction Through Quenching 5. Determination of Dissolved Oxygen6. Determination of Total Dissolved Solids In Water7. Determination of Slandered Electrode Potential8. Ph Meter Calibration And Measurement9. Proximate Analysis of Coal10. TLC Separation of Binary Mixture

SUBJECT – ENGINEERING MATERIALS & APPLICATIONS SUBJECT CODE – EMA109/209


Practical

Activity Based

Learning

Credits



Continuous

Evaluation(Theory)



Continuous


Total Mark

s


Objectives:

1. To make the students aware about the importance of different types of materials.2. To impart knowledge regarding the applications of materials under different conditions.3. To equip the students to be able to select appropriate materials for designing new components/systems

under various duty conditions.

Syllabus of Engineering Materials & Applications

1 INTRODUCTION Engineering requirement of different materials, Classification of Engineering materials. Properties of engineering materials , Criteria for selection of materials for engineering application, Introduction to BIS & other international standard organizations such as ASM

2 Building MaterialsIntroduction, Classification , Chemical properties, Application of building stones, bricks, special bricks ( Including refractory), lime , cement, mortar and concrete.

3 Metallic MaterialsNon Ferrous Metals & alloys- Important non ferrous metals ( Al, Cu, Pb, Zn, Sn, Mg, Ti, Ni) & Non ferrous alloys (Cu -alloys , Al-alloys, Mg-alloys, Ni-alloys)-Composition , properties classification and application.

4 Ceramic MaterialsClassification, Structure, Properties & application Of Ceramics, Conventional Ceramic, Glass, Glass Ceramics, Traditional ceramics, advanced ceramics for electrical and magnetic use, Abrasives.

5 Organic MaterialsProperties, classification & Applications of Polymer, Plastics, Synthetic resins, Rubber, Fibers and Filaments, Protective coatings.

6 Composite MaterialsProperties , classification & Applications of Wood ,Asphalt concrete, Composites -Metal matrix, Polymer matrix and Ceramic matrix , Advanced composites.

7 Electronic & Magnetic MaterialsProperties, classification & Applications of Conductors, Insulators, Ferroelectrics, Piezo electrics, Liquid crystal displays, Photoconductors, Ceramic magnets.

8 Special MaterialsProperties , classification & Applications of High temperature Super Conductors, Cryogenic materials, Conducting polymers, Nuclear material, Heat conducting materials used in electronics and heat resistant materials for spacecrafts , Bio-materials, Nano materials.

Text Books1 Engineering Materials by C.P.Sharma PHI Learning Pvt.Ltd. 20092 Engineering Materials by R. K Rajput. publication S. Chand3 Elements of Metallurgy By D.Swarup. Publication Rastogi Publication4 Engineering Materials by Rangwala, Charutar Publication House

Reference Book:1 Material Science & Engineering –An Introduction by W.D.Callister, John Wiley.2 Introduction to Material Science for engineers by James Shackelford3 Elements of Material Science by L.H.Vanvlack , Addision- Wisley

SUBJECT – ELEMENTS OF ELECTRICAL & ELECTRONICS ENGG. SUBJECT CODE– EEE108/208


Class Room

Contact Hrs


LearningCredits

Univer-sity

Examination

(Theory)

Mid Sem Examina-

tion (Theory)



(Practical)

Mid Sem Examination

(Practical)

Continu-ous


Total Marks


Objectives:

To impart knowledge on the following concepts:

1. Fundamental of DC circuits.2. Generation of AC voltage and current.3. Fundamental of single Phase and Poly-phase circuits.4. Exposition to safety aspects.5. Semiconductors, Transistors, Field effect transistor, etc.

Syllabus of Elements of Electrical & Electronics Engineering

1 D.C. CIRCUITSResistance, Effect of Temperature Upon Resistance, Solutions of series, parallel in brief, star-delta combination of Resistances, Basic circuit theorems and postulates - KVL & KCL, etc. Batteries, life of batteries, charging & discharging of battery.

2 A.C CIRCUITSGeneration of sinusoidal voltage, definition of basic terms of voltage and current, phasor representation of alternating quantities. Analysis, with phasor diagrams, of R, L, C, R-L, R-C and R-L-C circuits, real power, reactive power, apparent power and power factor.Generation of Poly-phase Voltages , Phase Sequence, Inter Connection of 3 Phases Voltage, Current and Power Relationships in Balanced Three Phase Circuits , Power Measurement in Single Phase And 3 Phase Circuits.

3 DOMESTIC ElectricityService mains, meter board and distribution board. Brief discussion on Cleat, Casing & Capping and conduit (concealed) wiring. Two-way and three-way control of a lamp. Elementary discussion on fuse and Miniature Circuit Breaker (MCB’s). Study of electricity bill.

4 SAFETY DEVICES AND PRECAUTION Introduction , electric shock, Safety, First aid for electric shock, Safety rules, Grounding or earthing, Safety protection devices – earth leakage circuit breaker. Electric shock, precautions against shock, earthing: Pipe and Plate.

5 INTRODUCTION OF BASIC ELECTRICAL MACHINES & TRANSFORMERIntroduction of DC machine. Working principle of AC machines Such as Alternator, Induction motor, Synchronous motor. Types and and their characteristic curves.Principle of operation and construction of single-phase transformers (core and shell types). emf equation, losses, efficiency and voltage regulation). Illustrative problems on emf equation and efficiency only. Study of name plate of electrical machine for their various specifications.

6 SEMICONDUCTOR DIODES AND APPLICATIONSp-n junction diode, Characteristics and Parameters, Diode approximations, Zener diodes Half-wave diode rectifier, Ripple factor, Full-wave diode rectifier, Other full-wave circuits, Shunt capacitor filter - Approximate analysis of capacitor filters, Power supply performance, Zener diode voltage regulators, Testing of diodes, transistors etc. Numerical examples as applicable.

7

TRANSISTORS Bipolar Junction transistor, Transistor Voltages and currents, amplification, Common Base, Common Emitter and Common Collector Characteristics, DC Load line and Bias Point. Different biasing methods.Introduction of Field effect transistor. Unijunction Transistor, Thyrister family.

Text books: 1. “Basic Electrical and Electronics Engineering,” V. Jegathesan, K. Vinoth Kumar & R. Saravanakumar, Wiley- India.

2. “Electrical and Electronic Technology,” Edward Hughes, Revised by John Hiley, Kieth Brown, Ian Mc Kezie Smith, Tenth Edition, Pearson Publication.

3. Basic Electrical and Electronics Engineering ByS.K. Bhattacharya, Pearson Publication.4. “Basic Electrical Engineering”, D C Kulshreshtha, TMH, 2009 Edition.5. “Electrical engineering fundamentals” by Vincent Del Toro, Prentice-Hall

Reference Books

1. "Electrical Technology", E. Hughes International Students 9th Edition,Pearson, 2005.

2. “Basic Electrical Engineering”,Abhijit Chakrabarti, Sudipta nath, Chandan Kumar Chanda, TMH, First reprint 2009.

3. Electronic Devices and Circuits: Jacob Millman, Christos C. Halkias TMH. 4. “Basic Electrical Engineering” Second Edition, T.K. Nagsarkar, M.S. Sukhija,

Oxford Higher Education.

SUBJECT–ELEMENTS OF ELECTRICAL & ELECTRO. ENGG. LAB. SUBJECT CODE–EEEL116/216


Theory Practical Tutorial Credits

University Examina-

tion (Theory)

Mid Sem Examination

(Theory)



(Practical)

Mid Sem Examina-

tion (Practical)


Total Marks

-- 02 Hrs -- 01 -- -- -- 60 Marks 20 Marks 20 Marks 100

Objectives:

1. To impart knowledge on the following concepts:2. Fundamental of DC circuits.3. Generation of AC voltage and current.4. Fundamental of single Phase and Poly-phase circuits.

LIST OF EXPERIMENTSSr. No Title

1. To verify the1. (Kirchhoff’s current law)2. (Kirchhoff’s Voltage law)

2. To obtain B-H curve of a given magnetic material & to study the hysteresis Loop.

3 To Measure The resonance frequency in R-L-C Series A.C. circuit.

4 To verify voltage and current relationship of star delta connections of 3-phase AC.

5. Measurement of 3-phase power by two wattmeter method.

6. To study Cathode Ray Oscilloscope (CRO) and its application.

7. To plot the characteristics of PN junction diode.

8. Design full wave Bridge Rectifier using PN junction diode.

9. To plot the characteristics of NPN transistor (CE configuration).

10 To design voltage divider biasing circuit for NPN transistor.

11. To plot the characteristics of Field Effect Transistor

12. To verify transistor as a switch.

13. To Perform different types of wiring connections. *(Optional)

14. Verify the temperature effects on different types of materials. *(Optional)

SUBJECT – COMPUTER CONCEPTS AND PROGRAMMING SUBJECT CODE – CCP105/205




(Theory)

Mid Sem Examination

(Theory)



(Practical)

Mid Sem Examination

(Practical)


Total Marks

03 Hrs 02 Hrs -- 04 60 Marks 25 Marks 15 Marks -- -- -- 100

Objectives:

To understand computer as a machine To introduce basics of computer programming concepts The concepts will be implemented in ‘C’ programming language.

Syllabus of Computer Concepts and Programming

1 Introduction to Computer SystemsThe Computer defined, Early history, Basic parts and structure of a computer, Categorizing Computers, Essential Computer hardware, Essential computer software.

2 Operating SystemFunctions of Operating Systems, Management of processor, Memory

3 NetworkingConvergence of computing with communications, Networking basics, Need for networking, Basic components of a network

4 Introduction to ‘C’Introduction, Importance of C, Sample C programs, Basic structure of C programs, Programming style, executing a C program.

5 Constants, Variables and data Types:Introduction, Character Set, C tokens, Keywords and Identifiers, Constants, Variables, Data types, Declaration of Variables, Defining symbolic constants.

6 Operators and Expression:Introduction, Arithmetic of Operators, Relational Operators, Logical Operators, Assignment Operators, Increment and Decrement Operators, Conditional Operators, Bitwise Operators, Special Operators, Arithmetic Expressions, Evaluation of expressions, Precedence of arithmetic operators, Type conversions in expressions, Mathematical function.

7 Input-Output FunctionsIntroduction, reading a character, writing a character, Formatted input, and Formatted output.

8 Decision Making Branching and loopingIntroduction, Decision making with IF statement, Simple IF statement, the IF ELSE statement, Nesting of IF … ELSE statements, The ELSE IF ladder, The switch statement, the turnery (? :) Operator, the GOTO statement, WHILE statement, the DO statement, The FOR statement, Jumps in loops Break and continue.

9 Array:Introduction, One-dimensional arrays, Two-dimensional arrays, Initialization of two dimensional arrays, Concept of Multidimensional arrays.

10 Handling of Character strings:Introduction, Declaring and initializing string variables, Reading string from terminal, Writing string to screen, Arithmetic operations on characters, Putting string together, String Operations : String Copy, String Compare, String Concatenation and String Length, String Handling functions, Table of strings

11 User-Defined Functions :Introduction, Need for user-defined functions, The form of C function, Return values and their types, Calling a function, category of functions, No arguments and no return values, Arguments with return values, Handling of non-integer functions, Nesting of functions, Recursion, Functions with arrays, The scope and Lifetime of variables in functions, Ansi C functions.

12 Structures and Unions:Introduction, Structure definition, Giving values to members, Structure initialization, Comparison of structures, Arrays of structures, Arrays within structures, Structures within Structures, Structures and functions, Unions,

13 Pointers:Introduction, Understanding pointers, Accessing the address of variable, Declaring and initializing pointers, Accessing a variable through its pointer, Pointer expressions, Pointer increments and scale factor, Pointers and arrays, Pointers and character strings, Pointers and Functions, Pointers and structures

List of Practicals

Sr.No. Program Topic1 Basic C Programs2 Programs based on constants, variable and diff data types.3 Programs based on Operator and Expression4 Programs based on Decision Making and Branching Use of Do While loop5 Programs based on for loop 6 Programs based on if loop, if else if ladder, switch, go to7 Programs based on One dimensional8 Programs based on two dimensional array9 Programs based on character array

10 Programs based on string manipulation function11 Programs based on user-defined functions12 Programs based on Recursion13 Programs based on Structures14 Programs based on pointers

Text Book:

1. Programming in ANSI C, by Balagurusamy, Publisher - Tata McGraw Hill.2. Programming with ANSI and Turbo C, by Ashok N Kamthane, Publisher –

Pearson Education

Ref. Books:

1. Let us C, by Yashwant Kanitkar, Publisher – BPB Publication

SUBJECT – ENVIRONMENTAL ENGINEERING SUBJECT CODE – ENV111/211




(Theory)

Mid Sem Examination

(Theory)



(Practical)

Mid Sem Examination

(Practical)


Total Marks


Objectives:

1. To help the students understand the effect of science and technology on environment.2. To give the students the ability to objectively and quantitatively analyse the impact of engineering designs

and technology on environment.3. To get the students to develop skills needed to perform environmental impact and life-cycle analysis while

designing and operating engineering systems.4. Help the students develop an understanding of the various ways of reducing environmental damage due

to output of engineering systems.5. Give students a background on the concepts of environmental sustainability.

Syllabus of Environmental Engineering

Section – I

1. Introduction

Introduction and definition of pollution, Rationale behind Environmental Engineering, Importance, significance and effect of science and technology on environment, Environmental Ethics.

2. Types of Pollution

Water, air, soil and noise pollution, types, sources of various types of pollution.

3. Impact of Pollution

Causal analysis of pollution, health effects of pollution.

4. Metrics of Pollution

Parameters and analytical techniques used to measure the extent of pollution.

5. Water Resources Engineering and methods of clean-up

Waste water treatment, water cycle and effect of science, technology and industries on water cycle, various techniques for reduction of air, water and soil pollution.

Section – II

1. Life cycle analysis and total environmental footprint.

2. Sustainability and environmental evaluation of engineering designs and technologies.

3. Energy and water solution of environmental engineering.

4. Environmental Issues in India

5. Legal aspects and regulatory bodies in IndiaReference Books

1. Mackenzie Davis, David Cornwell, Introduction to Environmental Engineering, McGraw Hill Education, 5th Edition, 2012

2. Raman Sivakumar, Introduction to Environmental Science and Engineering, McGraw Hill Education, 1st Edition, 2009

3. Anupam MIshra, Radiant Raindrops of Rajasthan, Research Foundation for Science, Technology, and Ecology edition 2001

4. Sunita Narain, Anil Agarwal, Dying Wisdom: Rise, Fall and Potential of India's Traditional Water Harvesting Systems, Centre for Science and Environment, 1997

SUBJECT – PROGRAMMING PRACTICE LAB. SUBJECT CODE – PRL114/214




(Theory)

Mid Sem Examination

(Theory)



(Practical)

Mid Sem Examination

(Practical)


Total Marks

-- 06 Hrs -- 03 - - - 60 Marks 20 Marks 20 Marks 100

Objectives:

To have the understanding of basics of logic building To introduce concepts of how to create , collect, store and analyze the information through Microsoft

Access To introduce basics of documentation using Microsoft word, PowerPoint To study the use of Microsoft Excel in engineering applications.

Syllabus of Programming Practice

1 Fundamentals of ProgrammingWhat is programming?, Problem solving methods with examples-Algorithm and Flowchart, Types of Programming languages ,Characteristics of higher level language, Some Programming languages

2 Understanding database ConceptsData, Information, DatabaseExploring an Access DatabaseThinking about Database DesignWorking with Tables and FieldsBuilding Table Relationships Creating and Using FormsAnalyzing and Reporting Data with Reports

3 Microsoft WordWord Basic FeaturesFormatting text and ParagraphAutomatic formatting and stylesWorking with tableMail MergePrinting Document

4 Microsoft ExcelWorking In Workbooks, Formatting a Worksheet – Entering, Editing, Copy, Cut, Paste, Paste SpecialUsing and formatting tablesData from External SourcesBasic Formulas and Use of FunctionsData Analysis Using Charts and GraphsSaving, Page Setup and PrintingAdvanced Formulas, Macro and FunctionsAdvanced Data Analysis Using PivotTables and PivotCharts

5 Microsoft Power Point Creating a presentation Creating & editing slides Working with Themes and StylesAdding picture & graph Adding sound, video & Animation Packaging and Publishing your Presentation

6 Introduction to InternetIntranet tools: E-mail:, e-mail address, Attaching files, opening attachments,WWW, web browsers, Uploading and downloading files.Search Information

List of Practical:

Sr.No. Topic1 Examples solving on Algorithm.2 Examples solving on flowcharts.3 Practice assignment on create, insert and update tables in MS-Access.4 Practice assignment on design query in MS-Access.5 Practice assignment on design report in MS-Access.6 Practice assignment of letter writing in MS-Word7 Practice assignment on mail merge in MS-Word8 Practice assignment on editing, cut, paste and formatting tables in MS-Excel9 Practice assignment on use of formulas and use of functions in MS-Excel

10 Practice assignments on analysis of data using charts & graphs in MS-Excel11 Practice assignments on advance formulas 12 Practice assignments on Pivote Tables , Pivote charts in MS-Excel13 Create power point presentation on any topic of your interest using features of power point14 Practice assignment of working with E-mail

01 Syllabus First Year for Booklet 21 July 07

Documents

coal tlc separation

mid sem examination

narosa publishing

undertake

mechanism

mcgraw hill

higher engineering

dissolved