syllabus - iind year me

7/29/2019 Syllabus - IInd Year Me

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MAHAMAYATECHNICALUNIVERSITY,

NOIDA

Syllabus

for

B.TECH.SECONDYEAR

OfMECHANICAL ENGINEERING

PRODUCTION ENGINEERING

MANUFACTURING ENGINEERING

MANUFACTURING TECHNOLOGY

AUTOMOBILE ENGINEERING

(Effective from the Session: 2013-14)


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SCHEMEOFEVALUATIONOFB.TECHSECONDYEAR(MECHANICALSTREAM)

SEMESTERIII

S.NO. Subject

CodeSubjects

Periods

L T P

Evaluation Scheme

Sessional End SemesterTotal Credit

CT TA TOT P Th P

1 HU-301 /

AS-306

Human Behaviour

(Including HumanSociology and

Psychology)/

Technical Writing

3 0 0 10 10 20 - 80 - 100 3

2 AS-301B Mathematics III 3 1 0 30 20 50 - 100 - 150 4

3 ME-301 Thermodynamics 3 1 2 20 10 30 15 100 30 175 5

4 ME-302 Fluid Mechanics 3 1 2 20 10 30 15 100 30 175 5

5 ME-303 Material Science in

Engineering

3 1 2 20 10 30 15 100 30 175 5

6 ME-304 Strength of Materials

and Machine

Drawing - I

3 1 2 20 10 30 15 100 30 175 5

7 AU-301 Human Values and

Professional Ethics

2 1 0 10 10 20 - 80 - 100 Comp

Audit

course

8 GP-301 General Proiciency 50 - - 50 -20/18 6/ 5 8 1000 27

L:Lecture T:Tutorial P:Practical/Project CT:ClassTest TA: TeachersAssessmentTh:Theory TOT:Total

TA=10(5forteachersassessmentplus5forattendance)TA=20(10forteachersassessmentplus10forattendance)P= 15(4marksforpracticalexam.4marksviva.4marksforlab.recordsand3marksforquiz).P= 30(10marksforpracticalexam.10marksviva.5marksforlab.recordsand5marksforquiz).


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SCHEMEOFEVALUATIONOFBTECHSECONDYEAR(MECHANICALSTREAM)SEMESTERIV

L:Lecture T:Tutorial P:Practical/Project CT:ClassTest TA: TeachersAssessmentTh:Theory TOT:Total

TA=10(5forteachersassessmentplus5forattendance)TA=20(10forteachersassessmentplus10forattendance)P =15(4marksforpracticalexam.4marksviva.4marksforlab.recordsand3marksforquiz).P =30(10marksforpracticalexam.10marksviva.5marksforlab.recordsand5marksforquiz).

S.N

OSubject

CodeSubjects

Periods

L T P

Evaluation Scheme

Sessional End SemesterTotal Credit

CT TA TOT P Th P

1 AS-406 /

HU-401

Technical Writing /

Human Behaviour

(Including Human

Sociology andPsychology)

3 0 0 10 10 20 - 80 - 100 3

2 AS-402 Basics of System

Modelling and

Simulation

3 1 0 30 20 50 - 100 - 150 4

3 EE-405 Sensor and

Instrumentation

3 1 2 20 10 30 15 100 30 175 5

4 ME-401 Fluid Machinery 3 1 2 20 10 30 15 100 30 175 5

5 ME-402 Manufacturing Science - I 3 1 2 20 10 30 15 100 30 175 5

6 ME-403 Applied

Thermodynamics and

Machine Drawing - II

3 1 2 20 10 30 15 100 30 175 5

7 AU-401 Human Values and

Professional Ethics

2 1 0 10 10 20 - 80 - 100 Comp

Audit

course

8 GP-401 General Proiciency 50 - - 5018/20 5/6 8 1000 27


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Syllabus of Semester-III

HU-301/HU-401:HUMANBEHAVIOUR(IncludingHumanSociologyandPsychology)

Objective of the Course: The course intends to impart knowledge and learning ofdifferent aspects of human behaviour especially in the organisational context that

directs human behaviour. This has special signiicance to the professionals as these

aspects of human behaviour needs to be accounted for while taking a decision with

respect to enhancement of human productivity.

UNIT-IConcept, Nature, Characteristics, Conceptual Foundations and Importance, Roles &

Skills of Human Capital. Humans Knowing Behaviour- Approaches to understand

Cognitive, Behaviouristic & Social Cognitive behaviour, Pro-social Behaviour Nature and

Determinants (Standard Behaviour, Altruism, Empathy).

UNIT-II

Perception and Attribution: Concept, Nature, Process, Importance. Management and

Behavioural Applications of Perception. Attitude: Concept, Process and Importance,

Attitude Measurement. Attitudes and Workforce Diversity. Personality: Concept, Nature,

Types and Theories of Personality Shaping, Personality Attitude and Job Satisfaction.

Learning: Concept and Theories of Learning.

UNIT-IIIMotivation: Meaning, Maslows, Herzberg, McClellands Theories of Motivation,

Leadership: Style and Theories of Leadership-Trait, Behavioural and Situational

Theories, Conlict Management: Conlict: Concept, Sources, Types, Classiication of

Conlict Intra, Individual, Interpersonal, Intergroup and Organisational, Resolution of

Conlict.

UNIT-IVGroup Dynamics: Types of Group and their development stages, concept, status, norms

size and cohesiveness. Power and Politics: Concept, Sources of Power, Distinction

between Power, Authority and Inluence, Approaches to Power, Political Implications of

Power: Dysfunctional Uses of Power.

References:1. Newstrom John W. - Organizational Behaviour: Human Behaviour at Work (Tata Mc

Graw Hill,

2. Luthans Fred - Organizational Behaviour (Tata Mc Graw Hill, 10th edition)


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3. Mc Shane L. Steven, Glinow Mary Ann Von & Sharma Radha R. - Organizational

Behaviour (Tata Mc Graw Hill)

4. Robbins Stephen P. - Organizational Behaviour (Pearson Education)

5. Hersey Paul, Blanchard, Kenneth H and Johnson Dewey E. - Management of

Organisational Behaviour:

6. Greenberg Jerald and Baron Robert A. - Behaviour In Organisations: Understanding

and Managing the Human Side of Work (Prentice Hall of India)

7. Laurie J. Mullins: Essentials of Organizational Behaviour, Pearson Learning

8. Ian Brooks : Organizational Behaviour, Pearson Learning9. Baron, R.A., Psychology, 5

thEdition, Pearson

10. Lisa Mathewman, A.Rose and A.Hetherington,Work Psychology, An Introduction to

Human Behaviour in the Work Place, Oxford University Press, First Indian Edition,2009.

11. Orren Dale and R. Smith, Human Behaviour and the Social Environment, Social Systems

Theory, Seventh Edition, Pearson


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AS-306/AS-406:TECHNICALWRITINGL:T:P::3:0:0 Credit:3ObjectiveofTheCourse

To impart basic skills in Technical Communication in various formats of technical

writing to MCA and second year UG students in the English language. Having achieved the basic

skills in professional communication in English through laboratory practice teaching, the

students are required to learn various forms of technical writings. Communication is notrestricted to forms of verbal interaction among the professionals. Every professional is required

to be proicient in Technical Communication as well. Such proiciency is desired to be achieved

through class room learning of different formats of technical writing which are usually used in

any technical profession.

DesiredOutcomeofTheCourseThe students must be able to :

(a) Understand Communication as a process and channels of it in general andTechnical Communication in particular.

(b) Learn Technical writing including sentence structure and be able to understandand use technology speciic words.

(c) Write scientiic articles, synopsis, reports (routine and annual) including Projectand Sample Reports.

(d) Write Technical Notes, Proposals and Articles.(e) Learn to records minutes of meetings, Seminars, workshops, make technicalpresentations and learn resume/CV writing.

KeyConceptsCommunication as a process of interaction between originator and receiver.

Context of Technical Communication as means of indulgence in various forms and formats of

technical writings as required in organizations-technological as well as commercial.

Writing Skills : Selection of words and phrases in technical writing leading to sentencestructure as well as length and structure of paragraph. Writing scientiic Articles, Reports,

recording minutes and Notes, authoring and review of Research Articles.

SpeakingSkills: Participation in Meetings, Seminars, Workshops and Technical Presentation.TeachingMethodology1. Equipping the student for competent techno-speciic Technical Communication inEnglish Language and enabling the student to be proicient in technical writing.

2. The teacher is required to teach the course through lectures, tutorials and samples ofwritten technical formats.

3. The teacher must project himself as a proicient expert in technical writing of Englishlanguage.

4. The course has to be taught in small batches so as to give individual attention tostudents both, in the process of learning to write as well as participation in conferences,

seminars, workshops and project presentations.

5. The Books suggested have portions of Technical Communication in each and as such thesame be treated as base texts. Expansion of the parts be undertaken with the help of relevant

matter through internet. Infact, the students be encouraged to enhance their technical writing

skills by self learning.


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Unit-ICommunicationNature and process.

ChannelsofCommunicationDown ward, upward and horizontal Communication.Networks and Barriers to Communication.

Technical CommunicationDeinition, Oral and written Technical Communication.

Importance and Need for Technical Communication

Nature of Technical Communication-Aspects and Forms of Technical Communication

Technical Communication Skills-Listening, Speaking, Reading and Writing (Improving these

with comprehensions).

Unit-IITechniques of Writing, Selection of words and phrases in technical writing.

Difference between Technical Writing and General Writing.

Abstract and speciic words

Sentence structure, Requisites of sentence construction.

Paragraph Length and structure

Jargons and Clich

Unit-IIIScientiic Article Writing.

Synopsis Writing, Project writing and Dissertation /Thesis Writing.

ReportWriting- meaning, signiicance, structure and style.Different type of Reports-routine reports and annual reports.

Project Reports

Sample Reports

TechnicalArticles-nature, signiicance and types.Journal Articles and Conference Papers.

Unit-IVTechnical Note Making

Mechanics and Note Writing Techniques.

Technical Proposals- meaning, structure, types and signiicance.

Types of Proposals

Review and Research Articles.

Elements of Technical Articles.

Unit-VMeetings-Preparation of Agenda, participation, chairing and writing minutes of meetings.

Conferences, Seminars, Technical Presentations and Workshops.

Video Conferencing, technical description of engineering objects/produces and processes.

Slogan Writing, Speech advertising.

CV Writing, difference between Biodata, CV and Resume. Types of resume and tips for resume

writing.

TextBooks&References1. M Ashraf Rizvi, Effective Technical communication, Tata Mc Graw Hill Education Pvt.

Ltd., 2012.

2. Kavita Tyagi, Padma Misra, Basic Technical Communication, PHI Learning Pvt. Ltd,2012.


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3. Sangeeta Sharma, Binod Mishra, Communication Skills for Engineers and Scientist, PHILearning Pvt Ltd, 2012.

4. Felicity O Dell & Michael Mc Carthy, Englsih Collocations in Advanced Use. CambridgeUniversity Press 2010.

5. Raymond Murphy. Essential English Grammar. Cambridge University Press.6. Sharon J. Gerson & Steven M. Gerson. Technical Writing, Eighth Impression, 2013,

Pearson Education, Inc.

7. Meenakshi Raman and Sangeeta Sharma.Technical Communication,Principles andPractice, Oxford University Press, Second Edition, 2012.

Performance&EvaluationSystemThe students shall write two internal sessional tests as for other subjects besides the

end-semester written exams. The internal sessionals will have a weightage of 20 marks and the

end-semester theory examination shall carry 80 marks making the subject of Technical Writing

worth 100 marks.

Assignments are to be given to reinforce the concepts and ensure total understanding of

technical writing.

Suggestedweb-links:http://www.ego4u.com/

http://www.english4today.com/

http://www.learnamericanenglishonline.com/

http://learnenglish.britishcouncil.org/en/

http://www.englisch-hilfen.de/en/

http://www.englishclub.com/

http://www.englishlearning.com/

http://learningenglish.voanews.com/

http://www.usingenglish.com/dictionary.html

http://www.mindtools.com/pages/article/newCS_99.http
http://www.ego4u.com/http://www.ego4u.com/http://www.english4today.com/http://www.learnamericanenglishonline.com/http://learnenglish.britishcouncil.org/en/http://www.englisch-hilfen.de/en/http://www.englishclub.com/http://www.englishlearning.com/http://learningenglish.voanews.com/http://www.usingenglish.com/dictionary.htmlhttp://www.mindtools.com/pages/article/newCS_99.httphttp://www.mindtools.com/pages/article/newCS_99.httphttp://www.usingenglish.com/dictionary.htmlhttp://learningenglish.voanews.com/http://www.englishlearning.com/http://www.englishclub.com/http://www.englisch-hilfen.de/en/http://learnenglish.britishcouncil.org/en/http://www.learnamericanenglishonline.com/http://www.english4today.com/http://www.ego4u.com/


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AS-301B: ENGINEERING MATHEMATICS-III

Group B (ME, Automobile E, MT, MF, PE, TT, TE, TC, FT, CE, CH, etc.)

1. Title of the course: ENGINEERING MATHEMATICS-III (AS-301B)

2. Work load per week

a. Lecture (L): 3 hrs/week Total Lecture Hours per Semester: 42

b. Tutorials (T): 1 hrs/week TotalTutorial Hours per Semester:

12+12

c. Total Credits: L+T+P 4

d. One credit is defined as one lecture load per week and two hours of self-

study

to be connected with tutorial and assignments.

3. Prerequisites of the course: Engineering Mathematics I & II.

4. Why you need to study this course:

Engineering Mathematics is one of the important tools of engineering .It is essential for an

engineering student to know the mathematical terminology, concept and methods used in various

engineering disciplines.

Course Objective:

Basic idea of the course will be to introduce the concept ofComplex analysis, Mathematical

Methods (Fourier analysis, Z-transform and Difference equation), Mathematical Statistics,

Numerical Techniques I and II.

5. Learning outcomes expected from the course:

At the completion of this Course, student will have the basic skills required to:

a. Understand the concept of Complex analysis including complex integration andconformal mapping which are useful to all branches of engineering.

b. The concept of Mathematical Methods helps the students to understand varioustransforms which are useful all branches of engineering.

c. The concept of Mathematical statistics will enable the students to understand modelsof probability distribution to be tested by statistical methods.

d. Numerical Methods enable students to evaluation of definite integrals, the solution ofequations and linear systems, the solution of differential equations etc.


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Unit-I: Complex Analysis

Analytic functions, Cauchy-Riemann equations . Conformal mapping (for

linear transformation) . Cauchys theorem , Cauchy integral formula.

Power Series, Taylor series, Laurent series . Zeros, Singularities, Poles.

Residue theorem , Evaluation of real integrals of the type2

0

(cos ,sin )f x x dx

and-

( ) .f x dx

+

Unit-II: Mathematical Methods

Fourier Transform, Fourier sine and cosine transforms, Properties of

transform, convolution theorem, Applications to boundary value

problems. Difference equations and its solution . Z-transform, some

standard Z-transforms, properties of Z-transform. Application to

difference equations.

Unit-III: Mathematical Statistics

Elements of Probability theory, Bayess Theorem. Random variables,

Distribution function, Probability Mass and Density functions, Joint

distributions and Marginal and Conditional distributions. Expectation .

Moments, Moment Generating function . Skewness , Kurtosis. Binomial,

Poisson and Normal Distributions.

Unit-IV: Numerical Techniques I

Solution of Algebraic and Transcendental equations, Regula-Falsi

method, Newton-Raphson method, Rate of convergence . Solution of

liner simultaneous equations: Crouts method , Gauss-Seidel method.

Interpolation, finite differences, difference tables, relations between

operators, Newtons forward/backward difference formulae , Newtons

divided difference formula, Gausss Central difference formula. Cubic

Spline method.

Unit-V: Numerical Techniques II

Numerical Differentiation and Numerical integration, Newton Cotes

quadrature formula, Trapezoidal rule, Simpsons 1/3rd

& 3/8th

rules .

Numerical solutions of ordinary differential equations , Picards method,

Eulers & Eulers modified methods , Runge-Kutta 2nd

and 4th

order

methods, Milnes Predictor-corrector Method.


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Text Books:

1. Peter ONeil :Advance Engineering Mathematics, Cengage Learning2. S.S. Sastry: Introductory Mathods of Numerical Analysis,Prentice-Hall

of India Pvt.Ltd.

3. B.V.Ramana: Higher Engineering Mathematics, Tata McGraw HillPublishing Co. Ltd.

4. B.S.Grewal: Higher Engineering Mathematics, Khanna Publisher.5. S.R.K. Iyenger, R.K. Jain, Mathematical Methods, Second Edition,

Narosa Publishing House.

Reference Books:

1. Erwin Kreyszig: Advance Engineering Mathematics,Wiley India.2. Michael Greenberg: Advance Engineering Mathematics, Pearson.3. B.S.Grewal: Numerical Methods in Engg. & Science, Khanna

Publisher.


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ME-301 :Thermodynamics

L T P

3 1 2

Unit- I

Fundamental Concepts & Definitions

Thermodynamics: Terminology; definition and scope, microscopic and macroscopic

approaches. Engineering Thermodynamics: Definition, some practical applications of

engineering thermodynamics.System (closed system) and Control Volume (open system);Characteristics of system boundary and control surface; surroundings; fixed, moving and

imaginary boundaries, examples. Thermodynamic state, state point, identification of a state

through properties; definition and units, intensive and extensive various property diagrams,

path and process, quasi-static process, cyclic and non-cyclic processes; Restrained and

unrestrained processes; Thermodynamic equilibrium; definition, mechanical equilibrium;

diathermic wall, thermal equilibrium, chemical equilibrium. Zeroth law of thermodynamics.

Temperature as an important property.

Work and Heat

Mechanics definition of work and its limitations.Thermodynamic definition of work and heat,

examples, sign convention. Displacement works at part of a system boundary and at whole ofa system boundary, expressions for displacement works in various processes through p-v

diagrams. Shaft work and Electrical work. Other types of work.Examples and practical

applications.

Unit- II

First Law of Thermodynamics

Statement of the First law of thermodynamics for a cycle, derivation of the First law of

processes, energy, internal energy as a property, components of energy, thermodynamic

distinction between energy and work; concept of enthalpy, definitions of specific heats at

constant volume and at constant pressure. Extension of the First law to control volume;

steady state-steady flow energy equation, important applications such as flow in a nozzle,

throttling, adiabatic mixing etc., analysis of unsteady processes, case studies.

Unit- III

Pure Substances & Steam Tables and Ideal & Real Gases

Ideal and perfect gases: Differences between perfect, ideal and real gases, equation of state,

evaluation of properties of perfect and ideal gases. Real Gases: Introduction. Van der Waals

Equation of state, Van der Waals constants in terms of critical properties, law of

corresponding states, compressibility factor; compressibility chart, and other equations of

state (cubic and higher orders). Pure Substances: Definition of a pure substance, phase of a

substance, triple point and critical points, sub-cooled liquid, saturated liquid, vapor pressure,

two-phase mixture of liquid and vapor, saturated vapor and superheated vapor states of a pure

substance with water as example. Dryness fraction and its measurement process involving in

closed and open system. Representation of pure substance properties on p-T, h-S and p-V

diagrams, detailed treatment of properties of steam for industrial and scientific use.

Unit -IV

Second Law of Thermodynamics

Identifications of directions of occurrences of natural processes, Offshoot of II law from the I.

Kelvin-Planck statement of the Second law of Thermodynamic; Clasius's statement of


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Second law of Thermodynamic; Equivalence of the two statements; Definition of

Reversibility, examples of reversible and irreversible processes; factors that make a process

irreversible, reversible heat engines; Evolution of Thermodynamic temperature scale.

Basics of Energy conversion cycles

Devices converting heat to work and vice versa in a thermodynamic cycle Thermal

reservoirs. Heat engine and a heat pump; schematic representation and efficiency and

coefficient of performance.Carnot cycle.

Unit -V

EntropyClausius inequality; statement, proof, application to a reversible cycle.(QR/T) as independent

of the path. Entropy; definition, a property, principle of increase of entropy, entropy as a

quantitative test for irreversibility, calculation of entropy, role of T-s diagrams, representation

of heat, T-ds relations, Available and unavailable energy.

Availability and Irreversibility

Maximum work, maximum useful work for a system and a control volume, availability of a

system and a steadily flowing stream, irreversibility.Second law efficiency.

Books and References:

1. Engineering Thermodynamics, P K Nag, McGraw Hill, 2013, 5th Edition.2. Basic and Applied Thermodynamics, P K Nag, McGraw Hill, 2010, 2nd Edition.3. Thermodynamics An Engineering Approach, SI Units, Yunus A. Cenge, Michael A. Boles,

McGraw Hill, 7thand Special Indian Edition 2008.

4. Thermodynamics, C P Arora, McGraw Hill. 1st Edition, 19985. Engineering Thermodynamics, P Chattopadhyay, Oxford, 2010 Revised 1st Edition.6. Engineering Thermodynamics, Lynn D. Russell, George A.Adebiyi. , Oxford,2007, SI

Edition.

7. Engineering Thermodynamics, Gordon Rogers and yon Mayhew, Pearson, 2006, 5thEdition

8. Thermodynamics, S C Gupta, Pearson, 2009, 1st EditionLab. ME-301P

(This lab is to explain the basics of thermodynamics models)

1. Study of Fire Tube boiler2. Study of Water Tube boiler3. Study and working of Two stroke petrol Engine4. Study and working of Four stroke petrol Engine5. Study of Velocity compounded steam turbine6. Study of Pressure compounded steam turbine7. Study of Impulse & Reaction turbine8.

Study of steam Engine model.

9. Study of Gas Turbine Model


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ME- 302 :FLUID MECHANICS

L T P

3 1 2

UNIT -I

Introduction, concept of Fluid and continuum, Physical properties of fluids, Basic laws of

fluid mechanics, Rheology of fluids (3)

Fluid Statics: Pressure-density-height relationship, manometers, pressure transducers,

pressure on plane and curved surfaces, centre of pressure, buoyancy, stability of immersed

and floating bodies, fluid masses subjected to linear acceleration and uniform rotation about

an axis. (5)

UNIT -II

Kinematics of Fluid flow: Types of fluid flows: Continuum & free molecular flows. Steady

and unsteady, uniform and non-uniform, laminar and turbulent flows, rotational and

irrotational flows, compressible and incompressible flows, subsonic, sonic and supersonic

flows, sub-critical, critical and supercritical flows, one, two and three dimensional flows,

streamlines, continuity equation for 3D and 1D flows, circulation, stream function and

velocity potential, source, sink, doublet and half-body. (8)

UNIT- III

Dynamics of Fluid flow: Energy equation, Momentum equation, Linear momentum equation,

Angular momentum equation, Eulers Equation of motion along a streamline and its

integration, Bernoullis equation and its applications- Pitot tube, orifice meter, venturi meter

and bend meter, Hot-wire anemometer and LDA, notches and weirs, momentum equation and

its application to pipe bends, Flow through pipes, losses in pipes, pipe in series and parallel,

power transmission through a pipe, siphon, water hammer. (5)

Dimensional Analysis and Hydraulic Similitude: Dimensional analysis, Buckinghams Pi

theorem, important dimensionless numbers and their significance, geometric, kinematics and

dynamic similarity, model studies. (3)

UNIT- IV

Laminar Flow: Introduction, Reynolds experiment, Equation of motion for laminar flow

through pipes, transition from laminar to turbulent flow, Critical velocity, upper and lower

critical velocities, Stokes law, Momentum correction factor, Kinetic energy correction

factor. (4)

Turbulent Flow: Introduction, types of turbulent flow, measurement of turbulence, eddy

viscosity, mixing length concept and velocity distribution in turbulent flow over smooth and

rough surfaces, resistance to flow. (4)


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UNIT -V

Boundary Layer Analysis: Boundary layer thickness, boundary layer over a flat plate,

laminar boundary layer, application of momentum equation, turbulent boundary layer,

laminar sublayer, separation and its control, Drag and lift, Magnus effect. (3)

Introduction to Computational Fluid Dynamics (CFD): Introduction, Governing equation of

CFD, Computational fluid dynamics as a design tool, Impact of CFD, Discussion of physical

meanings and Presentation of forms particularly suitable to CFD. Practical Application of

CFD- Automobile and Engine application, Industrial manufacturing, Environmental

Engineering Application. (5)


1. Fluid Mechanics John FDouglas, Janusz M. Gasiorek, John A. Swaffield, Lynne BJack, Pearson, 5

thEdition

2. Fluid Mechanics and Hydraulic Machines, S C Gupta, Pearson,2012, 1st Edition3. Fluid Mechanics and Machinery, B C S Rao, McGrawHill,2010, 2nd Edition4. Fluid Mechanics and Machinery, C S P Ojha, R Berndtsson and P N Chandramouli,

Oxford, 2012

5. Elementary Mechanics of Fluids, Hunter Rouse, John Wiley & Sons. Omc. 19466. Fluid Mechanics., Frank M White, McGraw Hill, 2011, 7th Edition7. Computational Fluid Dynamics-The Basics with Applications, John D. Anderson Jr,

McGraw Hill. Inc.,

8. Computational Techniques for Fluid Dynamics, Fletcher C.A.J. Volumes I and II,Springer, Second Edition [2000]

9. www.nptel.iitm.ac.in/courses.Lab.ME-302P

1. To verify the momentum equation using the experimental set-up on diffusion ofsubmerged water jet.

2. To determine the coefficient of discharge of an orifice of a given shape. Also todetermine the coefficient of velocity and the coefficient of contraction of the orifice

mouth piece.

3. To calibrate an orifice meter, Venturi-meter, and bend meter and study thevariation ofthe co-efficient of discharge with the Reynolds number.

4. To study the transition from laminar to turbulent flow and to determine thelowercritical Reynolds number.

5. To study the velocity distribution in a pipe and also to compute the dischargebyintegrating the velocity profile using Pitot tube.

6. To study the variation of friction factor, f for turbulent flow in commercial pipes.7. To study the boundary layer velocity profile over a flat plate and to determine

theboundary layer thickness.

8.

Conduct experiment on Pontoon in order to determine the Metacentric height.
http://www.nptel.iitm.ac.in/courseshttp://www.nptel.iitm.ac.in/courses


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ME-303: MATERIAL SCIENCE IN ENGINEERING

L T P

3 1 2

Unit-IIntroduction: Historical perspective, importance of materials. Brief review of modern &

atomic concepts in Physics and Chemistry. Atomic models, Periodic table,

Chemicalbondings. 4Crystallography and Imperfections:Concept of unit cell, space lattice, Bravais lattices,

common crystal structures, Atomic packing factor and density. Miller indices.X-ray

crystallography techniques.Imperfections, Defects & Dislocations in solids 3

Unit-IIMechanical properties and Testing:Stress strain diagram, Ductile & brittle material, Stress

vs strength. Toughness, Hardness, Fracture, Fatigue and Creep.Testing such as

Strengthtesting, Hardness testing, Impact testing, Fatigue testing, Creep testing, Non-

destructive testing (NDT) 4

Microstructural Exam: Microscope principle, Preparation of samples and Microstructure

exam and grain size determination. Comparative study of microstructure of various metals

&alloys such as Mild steel, CI, Brass. 2

Phase Diagram and Equilibrium Diagram:Uniary and Binary diagrams, Phase rules. Typesof equilibrium diagrams: Solid solution type, eutectic type and combination type. Iron-carbon

equilibrium diagram. 4

Unit-IIIFerrous materials :Brief introduction of iron and steel making furnaces. Various types of

carbon steels, alloy steels and cast irons, its properties and uses.3

Heat Treatment :Various types of heat treatment such as Annealing, Normalizing,

Quenching, Tempering and Case hardening. Time Temperature Transformation (TTT)

diagrams. 2

Non-Ferrous metals and alloys :Non-ferrous metals such as Cu, Al, Zn, Cr, Ni etc. and its

applications. Various type Brass, Bronze, bearing materials, its properties and uses.

Aluminum alloys such as Duralumin. Other advanced materials/alloys. 3

Unit-IVMagnetic properties :Concept of magnetism - Dia, para, ferro Hysteresis. Soft and hard

magnetic materials, Magnetic storages. 2

Electric properties :Energy band concept of conductor, insulator and semi-conductor.

Intrinsic & extrinsic semi-conductors.P-n junction and transistors.Basic devices and its

application.Diffusion of Solid. 3

Super conductivity and its applications.Messier effect. Type I & II, superconductors. High Tc

superconductors. 2

Unit-V

Ceramics : Types and properties and applications of ceramics.Mechanical and Electrical

behaviour and processing of Ceramics. 2

Plastics :Types of polymers/plastics and its applications, Properties of Plasticsand processing

of plastics. Future of plastics. 2

Composite Materials: Types of Composite materials, Properties and its applications.

Smart materials: Properties and applications.Nano-materials: Properties and applications.3


1. Material Science & Metallurgy, U C Jindal, Pearson, 2012, 1st Edition2. Material Science and Metallurgy, Parashivamurthy K l, Pearson, 2012, 1st

Edition

3. Mechanics of Materials, R C Hibbeler, Pearson, 2012, 1st Edition


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4. Materials Science, G K Narula, K S Narula, and V K Gupta, , McGrawHill,2013, 1

stEdition

5. Material Science and Engineering, William F Smith, Javad Hashemi and RaviPrakash, McGraw Hill, 2011, 4

thEdition.

6. MaterialScience & Engineering, W.D. Callister, Jr, Addition-Wesley Publication7. Elements of Material Science & Engineering, Van Vlas, John Wiley & Sons8. Material Science, V Raghavan, Prentice Hall9. Science of Materials Engineering, Srivastava& Srinivasan, NewAge Publication10. Material Science for engineers, Aparna Gupta &Santosh Kumar, CBS

Publishing house, 2012.

Lab.ME-303P

(A). Material Science Lab Experiments: at least 5 of the following:1. Making a plastic mould for small metallic specimen.

2. Specimen preparation for micro structural examination-cutting, grinding, polishing,

etching.

3. Grain Size determination of a given specimen.

4. Heat treatment experiments such as annealing, normalizing, quenching, case hardening and

comparison of hardness before and after.

5. Material identification of, say, 50 common items kept in a box.

6. Faradays law of electrolysis experiment.

7. Study of microstructure of welded component and HAZ. Macro & Micro Examination.8. Suitable experiment on Magnetic/ Electrical/Electronic materials.

(B). Material Testing Lab Experiments : at least 5 of the following1. Tensile strength testing of a given mild steel specimen on UTM with full details and s-e

plot on the machine.

2. Shear strength testing of a given mild steel specimen on UTM with full details and s-e plot

on the machine.

3. Bending strength testing of a given mild steel specimen on UTM with full details and s-e

plot on the machine.

4. Impact testing on impact testing machine like Charpy, Izod or both.

5. Hardness testing of given specimen using Rockwell and Vickers/Brinell testing machines.

6. Spring index testing on spring testing machine.7. Creep testing on creep testing machine.

8. Deflection of beam experiment, comparison of actual measurement of deflection with dial

gauge to the calculated one, and or evaluation of youngs modulus of beam.

9. Torsion testing of a rod on torsion testing machine.


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ME 304 : STRENGTH OF MATERIALS AND MACHINE DRAWING-I

L T P

3 1 2

UNIT-ISimple Stress and Strain: Introduction, Normal and Shear Stress, Relation between elastic

Constants, One dimensional loading of members of varying cross sections, strain energy.

Compound stress and strains: Introduction, state of plane stress, Principal stress and strain,Mohrs stress circle, Impact load & stresses.

UNIT II

Stresses in Beams: Pure Bending and stresses in beams of different cross sections. Direct

and shear stresses in beams due to transverse and axial loads, Composite beams.

Introduction to shear force and bending moment, Differential equation for equilibrium, Shear

force and bending moment diagrams for statically determinate beams. Deflection of Beams:

Equation of elastic curve, Macaulays Method, moment area method, Castigliones Theorem

UNIT-IIITorsion of circular shaft: Review of Torsion, torque and twist, shear stress due to torque

combined bending & torsion of solid & hollow shafts.

Helical and Leaf Springs: deflection of springs by energy method, helical springs under axial

load and under axial twist axial load and twisting moment acting simultaneously both foropen and closed coiled springs, laminated springs.

Columns and Struts: Combined bending and direct stress, middle third and middle quarter

rules. Struts with different end conditions.Eulers theory and experimental results, Ranking

Gardon Formulae, Examples of columns in mechanical equipment and machines

UNIT-IVThin cylinders & spheres: Hoop and axial stresses and strain. Volumetric strain.

Thick cylinders: Radial, axial and circumferential stresses in thick cylinders subjected to

internal or external pressures, Compound cylinders, Stresses due to interference fits.

UNIT-V

Curved Beams: Bending of beams with large initial curvature, position of neutral axis forrectangular, trapezoidal and circular cross sections, stress in crane hooks, stress in circular

rings subjected to tension or compression.

Unsymmetrical Bending: Properties of beam cross-section, slope of neutral axis, stress and

deflection in unsymmetrical bending, shear centre and its application


1. Strength of Materials, S. Ramamrutham and R. Narayanan, Dhanpat Rai, 2013, 17thEdition

2. Strength of Materials, P Purushothama Raj and V Ramaswamy, Pearson, 20123. Mechanics of Solids, Abdul Mubeen, Pearson, 2011, 2nd Edition4. Strength of Materials, W A Nash, , McGrawHill, 2010, 4th Edition5. Strength of Materials, B K Sarkar, , McGrawHill, 2012, 1st Edition6. Strength of materials, S S Rattan, McGraw Hill, 2nd Edition, 2011.7. Strength of materials, R Subramanian, Oxford, 2010 Second Edition.8. Strength of Materials, Timoshenko and &Yungs9. Mechanics of Materials, R C Hibbeler, Pearson, 2012, 1st Edition (Ref)


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Lab. ME-304P

Introduction

Graphics Language, Classification of drawings, Principles of drawing, IS codes for machine

drawing, scales, types of lines, section lines, Dimensioning 2

Orthographic Projections

Revision of Principle of first angle and third angle projection, drawing of machine elementsin first angle projection, selection of views, sectional views 2

Free hand sketching

Introduction, Need for free hand sketching, Free hand sketching practice of foundation bolts,

studs, pulleys, couplings etc. 2

Screwed fasteners

Thread nomenclature, Forms of thread, Thread series, designation, Representation of threads,

Bolted joints, locking arrangement of nuts 2

Keys and Cotters and Pin joint 2

Types of keys, Cotter joint or Knuckle joint

Shaft Couplings 2

Introduction, Rigid coupling or Flexible coupling

Riveted joints

Introduction, rivets and riveting, Types of rivet heads, Types of riveted joints, Boiler joint 2

Assembly Drawing

Introduction, Engine parts-stuffing box, cross head 2


1. Machine Drawing, KL Narayana, P Kannaiah, KV Reddy-New Age

2. Machine Drawing, PS Gill-SK Kataria& sons

3. Machine Drawing, N. Siddeshswar, P Kannaiah, VVS Shastry, Tata McGraw Hill

4. Machine Drawing, Gopalakrishna, Shubas Publications, Bangalore, India

5. Engineering drawing Practice for School and Colleges, SP46-1988 (BIS)


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Human Values & Professional Ethics

(Syllabus for the Value Education Course to be introduced in MTU Colleges/Institutes)

Subject Code-AU-301/AU-401

Course Objective

This introductory course input is intended

a. To help the students appreciate the essential complementarily between VALUESand SKILLS to ensure sustained happiness and prosperity which are the core

aspirations of all human beings.

b. To facilitate the development of a Holistic perspective among students towards life,profession and happiness, based on a correct understanding of the Human reality and

the rest of Existence. Such a holistic perspective forms the basis of value based living

in a natural way.

c. To highlight plausible implications of such a Holistic understanding in terms ofethical human conduct, trustful and mutually satisfying human behavior and mutually

enriching interaction with nature.

Thus, this course is intended to provide a much needed orientational input in Value Education

to the young enquiring minds.

Course Methodology

The methodology of this course is universally adaptable, involving a systematic andrational study of the human being vis--vis the rest of existence.

It is free from any dogma or value prescriptions. It is a process of self-investigation and self-exploration and not of giving sermons.

Whatever is found as truth or reality is stated a proposal and the students arefacilitated to verify it in their own right based on their Natural Acceptance and

Experiential Validation

This process of self-exploration takes the form of a dialogue between the teacher andthe students to begin with and within the student himself/herself family.

This self-exploration also enables them to evaluate their pre-conditionings and presentbeliefs.


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Human Values & Professional Ethics

Course Code-AU-301/AU-401Total No.of Lectures : 28 L-T-P:2-1-

0

Total No.of Practice Sessions: 14 (of 1 hr. each)

Content for Lectures:

Unit-I

Course Introduction - Need, Basic Guidelines, Content and Process for Value

Education

(6)

1. Understanding the need, basic guidelines, content and process for Value Education.2. Self Exploration-what is it? - its content and process; Natural Acceptance and

Experiential Validation-as the mechanism for self exploration

3. Continuous Happiness and Prosperity-A look at basic Human Aspirations4. Right understanding, Relationship and Physical Facilities-the basic requirements for

fulfillment of aspirations of every human being with their correct priority

5. Understanding Happiness and Prosperity correctly-A critical appraisal of the currentscenario

6. Method to fulfill the above human aspirations: understanding and living in harmony atvarious levels.

Unit-II

Understanding Harmony in the Human Being-Harmony in Myself (6)

7. Understanding human being as a co-existence of the sentient I and the materialBody

8. Understanding the needs of Self (I) and Body - Sukh and Suvidha9. Understanding the Body as an instrument of I (I being the doer, seer and enjoyer)10.Understanding the characteristics and activities of I and harmony in I11.Understanding the harmony of I with the Body: Sanyam and Swasthya; correct

appraisal of Physical needs, meaning of Prosperity in detail

12.Programs to ensure Sanyam and Swasthya-Practice Exercised and Case Studies will be taken up in Practice Sessions.

Unit-III

Understanding Harmony in the Family and Society -Harmony in Human-Human

Relationship (6)

13.Understanding harmony in the Family- the basic unit of human interaction14.Understanding values in human - human relationship; meaning of Nyaya and program

for its fulfillment to ensure Ubhay-tripti;

Trust (Vishwas) and Respect (Samman) as the foundational values of relationship

15.Understanding the meaning of Vishwas; Difference between intention andcompetence


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16.Understanding the meaning of Samman, Difference between respect anddifferentiation; the other salient values in relationship

17.Understanding the harmony in the society (society being an extension of family):Samadhan, samridhi, Abhay, Sah-astitva as comprehensive Human Goals

18.Visualizing a universal harmonies order in society-Undivided Society (AkhandSamaj), Universal Order (Sarvabhaum Vyawastha) - from family to world family.

-Practice Exercise and Case Studies will be taken up in Practice Sessions.

Unit-IV

Understanding Harmony in the Nature and Existence - Whole existence as Co-existence

(5)

19.Understanding the harmony in the Nature20.Interconnectedness and mutual fulfillment among the four orders of nature-

recyclability and self-regulations in nature

21.Understanding existence as Co-existence (Sah-astitva) of mutually interacting unitesin all-pervasive space.

22.Holistic perception of harmony at all levels of existence

-Practice Exercise and Case Studies will be taken up in Practice Sessions.

Unit-V

Implications of the above Holistic Understanding of Harmony on Professional Ethics

(5)

23.Natural acceptance of human values24.Definitiveness of Ethical Human Conduct25.Basis of Humanistic Education, Humanistic Constitution and Humanistic Universal

Order

26.Competence in professional ethics;a. Ability to utilize the professional competence for augmenting universal

human order.

b. Ability to identify the scope and characteristics of people friendly eco-friendly production systems

c. Ability to identify and develop appropriate technologies and managementpatterns for above production systems.

27.Case studies of typical holistic technologies, management models and productionsystems

28.Strategy for transition from the present state to universal Human Order;a. At the level of individual: as socially and ecologically responsible

engineers, technologies and mangers.

b. At the level of society: as mutually enriching institutions and organizations


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Content for Practice Sessions:

Unit-I

Course Introduction - Need, Basic Guidelines, Content and Process for Value Education

PS 1: Introduction yourself in detail. What are the goals in your life? How do you set your

goals in your life? How do you differentiate between right and wrong? What have been your

achievements and shortcomings in your life? Observe and analyze them.

Expected Outcome: the students start exploring themselves; get comfortable to each other

and to the teacher and start finding the need and relevance for the course.

PS 2:Now a days, there is a lot of voice about many techno-genic maladies such as energy

and natural resource depletion, environment pollution, global warming, ozone depletion,

deforestation, soil degradation, etc. - all these seem to be man-made problems threatening the

survival of life on Earth- What is the root cause of these maladies & what is the way out in

your opinion?

On the other hand, there is rapidly growing danger because of nuclear proliferation,

arms race, terrorism, criminalization of politics, large scale corruption, scams, breakdown of

relationships, generation gap, depression & suicidal attempts, etc - what do you thing, is the

root cause of these threats to human happiness and peace - what could be the way out in your

opinion?

Expected Outcome: the students start finding that technical education without study of

human values can generate more problems than solutions. They also start feeling that lack of

understanding of human values is the root cause of all problems and the sustained solution

could emerge only through understanding of human values and value based living. Any

solution brought fear, temptation or dogma will not be sustainable.

PS 3:

1. Observe that each one of us has Natural Acceptance, based on which one can verifyright or not right for him. Verify this in case of:

(i) What is Naturally Acceptable to you in relationship-Feeling of respect ordisrespect?

(ii) What is Naturally Acceptable to you - to nurture or to exploit others?Is your living the same as your natural acceptance or different?

2. Out of the three basic requirements for fulfillment of your aspirations-rightunderstanding, relationship and physical facilities, observe how the problems in your

family are related to each. Also observe how much time & effort your devote for eachin your daily routine.

Expected Outcome

1. The students are able to see that verification on the basis of natural acceptance andexperiential validation through living is the only way to verify right or wrong, and


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referring to any external source like text or instrument or nay other person cannot

enable them to verify with authenticity; it will only develop assumptions.

2. The students are able to see that their practice in living is not in harmony with theirnatural acceptance most of the time and all they need to do is to refer to their natural

acceptance to remove this disharmony.

3. The students are able to see that lack of right understanding leading to lack ofrelationship is the major cause of problems in their family and not the lack of physical

facilities in most of the cases, while they have given higher priority to earning of

physical facilities in their life ignoring relationships and not being aware that right

understanding is the most important requirement for any human being.

Unit-II

Understanding Harmony in the Human Being-Harmony in Myself

PS 4: List down all your desires. Observe whether the desire is related to Self (I) or Body. If

it appears to be related to both, see which part of it is related to Self (I) and which part is

related to Body.

Expected Outcome: the students are able to see that they can enlist their desires and the

desires are not vogue. Also they are able to relate their desires to I and Body distinctly. Ifany desire appears related to both, they are able to see that the feeling is related to I while the

Physical facility is related to the body. They are also able to see that I and Body are two

realities , and most of their desires are related to I and not body, while their efforts are

mostly centered on the fulfillment of the needs of the body assuming that it will meet the

needs of I too.

PS 5:

1. (a) Observe that any physical facility you use, follows the given sequence with time:

Necessary & tasteful-unnecessary & tasteful-unnecessary & tasteless-intolerable

(b) In contrast, observe that any feeling in you is either naturally acceptable or not

acceptable at all. If naturally acceptable, you want it continuously and if not

acceptable, you do not want it any moment.

2. List down all your activities. Observe whether the activity is of I or of Body or with

the participation of both I and Body.

3. Observe the activities within I. Identify the object of your attention for different

moments (over a period of say 5 to 10 minutes) and draw a line diagram connecting

these points. Try to observe the link between any two nodes.

Expected Outcome:

1. The students are able to see that all physical facilities they use are required for limitedtime in limited quantity. Also they are able to see that in case of feelings, they want

continuity of the naturally acceptable feelings and they do not want feelings which are

not naturally acceptable even for a single moment.

2. The students are able to see that activities like understanding, desire, thought andselection are the activities of I only, the activities like breathing, palpitation of


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different parts of the body are fully the activities of body with the acceptance of I

while the activities they do with their sense organs like hearing through ears, seeing

through eyes, sensing through touch, tasting through tongue and smelling through

nose or the activities they do with their work organs like hands, legs etc. are such

activities that require the participation of both I and body.

3. The students become aware of their activities of I and start finding their focus ofattention at different moments. Also they are able to see that most of their desires are

coming from outside (through preconditioning or sensation) and are not based on their

natural acceptance.

PS 6:

1. Chalk out programs to ensure that you are responsible to your body-for thenurturing, protection and right utilization of the body.

2. Find out the plants and shrubs growing in and around your campus. Find out theiruse for curing different diseases.

Expected Outcome: The Students are able to list down activities related to proper upkeep of

the body and practice them in their daily routine. They are also able to appreciate the plants

wildly growing in and around the campus which can be beneficial in curing different diseases

Unit-III

Understanding Harmony in the Family and Society -Harmony in Human-

Human Relationship

PS 7: From small groups in the class and in that group initiate dialogue and ask the eight

questions related to trust. The eight questions are:

1 a. Do I want to make myself happy? 1b. Am I able to make myself always happy?

2 a. Do I want to make the other happy? 2b. Am I able to make the other always happy?

3a. Does the other want to make him happy? 3b. Is the other able to make him alwayshappy?

4a. Does the other want to make me happy? 4b. Is the other able to make me always happy?

What is the answer? What is the answer?

Intention (Natural Acceptance) Competence

Let each student answer the questions for himself and everyone else. Discuss the difference

between intention and competence. Observe whether you evaluate your intention &

competence as well as the others & competence.

Expected Outcome: The students are able to see that the first four questions are related to

our Natural Acceptance i.e. intention and the next four to our Competence. They are able to

note that the intention is always correct, only competence is lacking! We generally evaluate

ourselves on the basis of our intention and others on the basis of their competence! We

seldom look at our competence and others intentions as a result we conclude that I am a

good person and other is a bad person.


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PS 8:

1. Observe on how many occasions you are respecting your related ones (by doing theright evaluation) and on how many occasions you are disrespecting by way of under-

evaluation, over-evaluation or otherwise evaluation.

2. Also observe whether your feeling of respect is based on treating the other as yourselfor on differentiations based on body, physical facilities or beliefs.

Expected Outcome: the students are able to see that respect is right evaluation, and onlyright evaluation leads to fulfillment in relationship. Many present problem in the society are

and outcome of differentiation (lack of understanding of respect), like gender biasness,

generation gap, caste conflicts, class struggle, dominations through power play, communal

violence, clash of isms, and so on so forth. All these problems can be solved by realizing that

the other is like me as he has the same natural acceptance, potential and program to ensure a

happy and prosperous life for him and for others though he may have different body, physical

facilities or beliefs.

PS 9:

1.

Write a note in the form of story, poem, skit, essay, narration, dialogue to educate achild. Evaluate it in a group

2. Develop three chapters to introduce social science-its need, scope and content in theprimary education of children

Expected Outcome: The students are able to use their creativity for education children. The

students are able to see that they can play a role in providing value education for children.

They are able to put in simple words the issues that are essential to understand for children

and comprehensible to them. The students are able to develop an outline of holistic model for

social science and compare it with the exiting model.

Unit-IV

Understanding Harmony in the Nature and Existence - Whole existence as Co-existence

PS 10: List down units (things) around you. Classify them in for orders. Observe and explain

the mutual fulfillment of each unit with other orders.

Expected Outcome: The students are able to differentiate between the characteristics and

activities of difference orders and study the mutual fulfillment among them. They are also

able to see that human beings are not fulfilling to other orders today and need to take

appropriate steps to ensure right participants (in terms of nurturing, protection and utilization)in the nature.

PS 11:

1. Make a chart for the whole existence. List down different courses of studies and relate

them to different units or levels in the existence.


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2. Choose any one subject being taught today. Evaluate it and suggest suitable modifications

to make it appropriate and holistic.

Expected Outcome: The students feel confident that they can understand the whole

existence; nothing is a mystery in this existence. They are also able to see the

interconnectedness in the nature, and pint out how different courses of study related to the

different units and levels. Also they are able to make out how these courses can be made

appropriate and holistic.

Unit-V

Implications of the above Holistic Understanding of Harmony on Professional Ethics

PS 12: Choose any two current problems of different kind in the society and suggest how

they can be solved on the basis of natural acceptance of human values. Suggest steps you will

take in present conditions.

Expected Outcome: the students are able to present sustainable solutions to the problems in

society and nature. They are also able to see that these solutions are practicable and draw

roadmaps to achieve them.

PS: 13

1. Suggest ways in which you can use your knowledge of Technology/Engineering/Management for universal human order, from your family to the world family.

2. Suggest one format of humanistic constitution at the level of nation from your side.Expected Outcome: The students are able to grasp the right utilization of their knowledge in

their streams of Technology/Engineering/Management to ensure mutually enriching and

recyclable productions systems.

PS:14 The course is going to be over now. Evaluate your state before and after the course interms of:

a. Thought b. Behavior c. Work and d. RealizationDo you have any plan to participate in the transition of the society after graduating from the

institute? Write a brief note on it.

Expected Outcome: The students are able to sincerely evaluate the course and share with

their friends. They are also able to suggest measures to make the course more effective and

relevant. They are also able to make us of their understanding in the course for a happy and

prosperous society.

Term Paper

Text Book and Reference Material

a. The text book: R.R. Gaur, R Sangal, G P Bagaria, 2009, A Foundation Course in Human Values and

Professional Ethics, Excel Books Private Limited, New Delhi


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b. Teachers Manual: R.R. Gaur, R Sangal, G P Bagaria, 2009, Teachers Manual: A Foundation Course in

Human Values and Professional Ethics, Excel Books Private Limited, New Delhi

Video CD of Teacher Orientation Workshop will be made available on website.

c. Reference Books1. Ivan Illich, 1974, Energy & Equity, The Trinity Press, Worcester, and Haper Collings,

USA.

2. E.F. Schumacher, 1973, Small is Beautiful: a study of economics as if peoplemattered, Blond & Briggs, Britain.3. Sussan George, 1976, How the other Half Dies, Penguin Press, Repreinged 1986,

1991.

4. Donella H, Meadows, Dennis L. Meadows, Jorgen Randders, William W. Behrens III,1972, Limits to Growth-Club of Romes report, Universe Books.

5. A Nagraj, 1998, Jeevan Vidya ek Parichay, Divya Path Sansthan, Amarkantak.6. P.L. Dhar, RR Gaur, 1990, Science and Humanism, Commonwealth Publishers.7. AN Tripathy, 2003, Human Values, New Age International Publishers8. Subhas Palekar, 2000, How to practice Natural farming, Pracheen (vaidik) Krishi

Tantra Shodh, Amravati

9. EG Seebauer & Robert L Berry, 2000, Fundamentals of Ethics for Scientists &Engineers, Oxford University Press

10.M Govindrajran S Natrajan & V.S. Senthil Kumar, Engineering Ethics (includingHuman Values), Eastern Economy Edition, Prentice Hall of India Ltd.

11.B.P. Banerjee, 2005, Foundation of Ethics and Management, Excel Books.12.B.L. Bajpai 2004, Indian Ethos and Modern Management, New Royal Book CO.

Lucknow. Reprinted 2008

d. Relevant websites, CDs, Movies and Documentaries:1. Value Education website, http://www.uptu.ac.in2. Story of stuff, http//www.storyofstuff.com3. AL Gore, An Inconvenient Truth, Paramount Classics, USA4. Charlie Chaplin, Modern Times, United Artists, USA5. IIT Delhi, Modern Technology-the Untold Story6. Anand Gandhi, Right here right now, Cyclewala Production
http://www.uptu.ac.in/http://www.storyofstuff.com/http://www.storyofstuff.com/http://www.storyofstuff.com/http://www.uptu.ac.in/


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SYLLABUS OF SEMESTER -IV

AS-402:BasicsofSystemModelling&SimulationL.T.P:3.1.0

CourseDescription:This course will cover both theoretical & application aspects of mathematical modelling of

existing or new basic systems to demonstrate the concepts of modelling, approach and use ofsimulation techniques and their relationships to the real world systems.

CourseObjectives:1. To present concepts of computer modelling and simulation to various natural, man-

made, social and engineering systems.

2. The course will provide experience of modelling & simulation speciically suited toengineering systems to show how it can help in the analysis, design, performance

evaluation, operational behaviour and assessment of performance & eficiency with

respect to speciic goals.

LearningOutcomes:1. Understand the modelling concepts & types of models used to represent different

classes of real world systems.

2. Applying various mathematical concepts & techniques to deine physical, natural &social systems.

3. Applying concepts of computer simulation for types of inputs, system models, outputbehaviour and performance estimation.

4. Understand how to evaluate, validate & verify models of simple systems.5. Understand how complex and heterogeneous systems can be simpliied and modelled

for a speciic task and thus understand the limitations of modelling & simulation.

CognitiveSkillslearnt:1. Ability to mathematically model any system from various ields.2. Ability to implement simple numerical algorithms to solve various modelling equations

that are used to describe real world systems.

3. Ability to select suitable techniques for generating system models, simulate them oncomputers and evaluate the system performance.

CoursePre-requisites: Probability & Statistical Method

CourseContent:

Unit-I:IntroductiontoSystemModelling&Simulation: (7 lectures)Need & use of Simulation, system models, advantages & limitations of models, simpliied

representation of complex & large systems, Principals & Steps in creating system models,

capturing system environment, components of systems and selection of appropriate modelling

techniques & simulation methodologies; relationships between selected models & simulation

techniques.


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Unit-II:SystemModellingConcepts: (8 Lectures)Types of system models, continuous & discrete systems, comparison of analytical & simulation

methods, Event & Data Modelling, Model building, Data modelling & techniques of building

useful Input Data models, multivariate & time series input models. Steps in system model

building; Monte Carlo Method, veriication, calibration & validation of models for simple

systems.

Unit-III:Probability&RandomNumbergeneration: (7 Lectures)Discrete & Continuous Random Variables, probability functions, descriptive characteristics of a

Distribution. Tests of Hypothesis and Estimation of Conidence Interval, Estimation of Error,

Parameter Estimation, Goodness-of-it Tests. Numerical Computation techniques for Continuous

& Discrete Models. Distributed Lag & Cobweb Models.

UnitIV:QueuingSystems&DiscreteSystemSimulation: (6 Lectures)Modelling & Generation of Arrival Patterns, Exponential & Poisson distribution, Service Times,

Normal Distribution Queuing Systems, Simulation of Single & Multiple Server Queuing Systems,

gathering statistics, Measuring occupancy & Utilization, Service Delay & Transit Times

Estimation.

Unit-V:RealWorldApplicationofSimulation: (12 Lectures)Transfer Line Model, Inventory System Model, Deadlock Detection Model, Computer Center

Model, Job Shop Model, Just-In-Time Model, Pi value estimation, Capital recovery Model,

Economics of Insurance policy, Reliability Estimation, Warranty Problem & Estimation,

Computer Network Model. Interpretation of Conidence Interval of a Parameter.

References&Bibliography:1. Gorden G. , System Simulation, Prentice Hall.2. Law M. Averill, Simulation Modeling & Analysis, Tata MacGraw Hill, New Delhi, 4th

Edition.

3. Sengupta S., System Simulation & Modelling, Pearson Education, 2013.4. Banks, Carson, Nelson & Nocor, Discrete Event System Simulation, Prentice Hall, 4th

Edition, 2005.

5. Kleinrock L. Queueing Systems- Vol I: Theory, John Wiely & Sons Inc, 1975.6. Morris H. DeGroot & Mark J. Schervish , Probability & Statistics, Addison Wiseley, 3rd

Edition, 2002.

7. Pratiksha Saxena, Modeling and Simulation, Narosa Publishing House,20118. Zeigler, Praehofer and Kim, Theory of Modelling and Simulation, 2nd Edition, Elsevier, 2013.9. Banks, Carson, Nelson & Nicol, Discrete Event System Simulation, Pearson, 5th Edition,

2010.

URL: www.insightmaker.com: Free web based Multi-user Modelling & Simulation

Environment.

www.ocw.mit.edu: Course on Introduction to Modelling & Simulation.

www.wolfarm.com/system-modeler: For system modelling software & Visualizer.
http://www.insightmaker.com/http://www.ocw.mit.edu/http://www.wolfarm.com/system-modelerhttp://www.wolfarm.com/system-modelerhttp://www.wolfarm.com/system-modelerhttp://www.ocw.mit.edu/http://www.insightmaker.com/


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Listofexperiments:1. Simulation of Scheduling Algorithms: CPU Scheduling Techniques: FCFS, SJF, &

Priority Scheduling, Using Queuing Theory

2. Simulation of Disk Scheduling Algorithms.3. Modelling Multiplexers & Concentrators and applying queuing theory concepts

to determine operational performance parameters.

4. Simulation of System Reliability of any given system and determine its reliabilityand average failure rate based on the given component reliability.

5. Modelling of Trafic based on given statistics of Trafic Density & vehicleheterogeneity.

6. Telephone Exchange Modelling & Call rate & Call drop estimation based onexchange capacity.

7. Congestion Modelling & Analysing the impact of congestion control algorithms inMobile systems/ Computer networks/ Assembly Line operations.

Note:StudentsshallperformpracticalsintutorialperiodsusingSciLabwhichisfreelydownloadablefromwww.


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EE - 405: SENSOR AND INSTRUMENTATION

L T P

3 1 2

Objective & Outcome of learning

This is intended to be a compulsory course for all branches of Engg. The objective of the

course is to familiarize with different types of main sensors and transducers used in Industry

and to familiarize how signal conditioning is to be carried out for further use. Then how to

acquire this data for computer and to telemeter it over a distance. Some basic fundamental of

virtual instrumentation system and display devices is stressed. This course enables the

students to learn the sensors and transducers & their application course in industry.

Pre-requisite: Basic courses of Electrical and Electronics Engg EE-101/EC-101

Unit-I

Sensors & Transducer, Definition, Classification & Characterization, Displacement Sensors:

Potentiometric, LVDT & Optical Encoder; Accelerometers: Mass & Piezoelectric; Strain

Gauges: Wire & Semiconductor; Pressure Sensor: LVDT based Diaphragm & Piezoelectric,

Temperature Sensor: Thermocouple, RTD, & Liquid in Glass;Flow Sensor: Ultrasonic, Electromagnetic, Laser & Thermal; Level Sensor: Ultrasonic &

Capacitive; Proximity Sensor, Concept of Smart Sensors:

Unit-II

Signals Definition, Analog Signal Processing Circuits: Bridges, Op-amp Amplifiers,

Differential Amplifiers, Active Filters(Low Pass & High Pass), Frequency to Voltage

Convertor, Voltage to Frequency Convertor, Modulator (AM), & Demodulator (Envelop

Detector).

Unit-III

Digital Processing of Analog Signal: Analog Multiplexer Circuit, S/H Circuit, ADC, DAC,Convolution, Digital Filtering, Digital Telemetry System: PCM Display Devices: Analog

(CRT), Digital (LCD, LED) Recorders: Analog (Magnetic, Strip Chart), Digital Printers.

Unit-IV

Virtual Instrumentation

Instrumentation System, DAQ System, Software for Virtual Instrumentation.

Instrumentation System for Flow, Pressure, and Temperature Measurement

Measurement Errors: Gross errors and systematic errors, Absolute and relative errors,

Accuracy, Precision, Resolution and Significant figures.

UNIT VMetrology and Inspection:

Linear and angular measurements devices and systems Comparators: Sigma, Johanssons

Microkrator.Limit gauges classification, Taylors Principle of Gauge Design. Measurement

of geometric forms like straightness, flatness, roundness, Tool makers microscope, profile

project autocollimator Interferometry: principle and use of interferometry, optical flat.

Measurement of screw threads and gears.


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Text Books

1. DVS Murthy Transducers and Instrumentation, PHI 2nd

Edition 2013

2. D Patranabis Sensors and Transducers PHI 2nd

Edition 2013.

3. Ranjan CS (et.al) Instrumentation and Device Systems PHI.

Reference Books

1. Arun K. Ghosh Introduction to measurements and Instrumentation, PHI, 4th Edition2012.

2. A.D. Helfrick and W.D. cooper Modern Electronic Instrumentation & MeasurementTechniques. PHI 2001

3. DAVID A. BELL Electronic Instrumentation & measurement 3rd Edition 2013,Oxford University Press.

4. Hermann K.P. Neubert, Instrument Transducers 2nd Edition 2012, OxfordUniversity Press.

5. Principle of Textile Testing; J.E. Booth; The Textile Institute Publication.6. Instrumental Colour Measurement and Computer Aided Color Matching for Textiles;

H.S. Shah, R.S. Gandhi; Mahajan Book Distributors7. Computer Color Matching, M.L. Gulrajani; Northern India Textile Research

Association (NITRA)

Web Resource: NPTEL course.

EE-405P: List of Experiments:

1. Study of Potentiometric Displacement Sensor.2. Study of LVDT sensor3. Study of Thermocouple & RTD sensors.4. Frequency measurement of supply voltage5. Study of Ultrasonic Flow Sensor6. Study of ADC & DAC7. Study of Proximity Sensors.8. Acquisition of various sensors Output using USB DAQ.9.

Study of Active Low Pass Filter.

10.Study of Strain Gauges.


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ME-401: FLUID MACHINERY

L T P

3 1 2

UNIT-I

Introduction:

Classification of Fluid Machines & Devices, Application of momentum and

momentumequation to flow through hydraulic machinery, Eulers fundamental equation

Impact of jet:

Introduction to hydrodynamic thrust of jet on a fixed and moving surface (flat &

curve),Effect of inclination of jet with the surface

Hydraulic Turbines:

Classification of turbines, Impulse turbines, Constructional details, Velocity triangles,Power

and efficiency calculations, Governing of Pelton wheel4

UNIT-II

Reaction Turbines:

Francis and Kaplan turbines, Constructional details, Velocity triangles, Power andefficiency

calculations, Degree of reaction, Draft tube, Cavitation in turbines, Principlesof similarity,

Unit and specific speed, Performance characteristics, Selection of waterturbines

UNIT-III

Centrifugal Pumps:

Classifications of centrifugal pumps, Vector diagram, Work done by impellor, Efficienciesof

centrifugal pumps, Specific speed, Model testing, Cavitation & separation and theircontrol,

Performance characteristics.

UNIT-IV

Positive Displacement Pumps:

Reciprocating pump theory, Slip and coefficient of discharges, Indicator diagram, Effectand

acceleration, Work saved by fitting air vessels, Comparison of centrifugal andreciprocating

pumps, Positive rotary pumps, Gear and Vane pumps, Performancecharacteristics.

UNIT-V

Other Machines:

Hydraulic accumulator, Special duty pumps, Intensifier, Hydraulic press, Lift and

cranes,Theory of hydraulic coupling and torque converters, Performance characteristics

Water Lifting Devices:Hydraulic ram, Jet pumps and Air lift pumps.


1. Fluid Mechanics and Hydraulic Machines, S C Gupta, Pearson, 2012, 1st Edition2. Fluid Mechanics and Machinery, B C S Rao, McGrawHill,2010, 2nd Edition


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3. Fluid Mechanics and Machinery, C S P Ojha, R Berndtsson and P N Chandramouli,Oxford, 2012

4. Hydraulic Machines, by JagdishLal, Metropolitan book co. pvt ltd.5. Hydraulic Machines: Theory & Design, V.P.Vasandhani, Khanna Pub.6. Hydraulic Machines, R K Rajput, S. Chand& Co Ltd.7. Hydraulics Fluid Mechanics and Fluid Machines, S. Ramamrutham, Dhanpat Rai,

2012, 6th Edition

8. Engineering Fluid Mechanics, P A Aswatha Narayana and K N Seetharamu, NarosaPublishing house, 2012

9. Advanced Engineering Fluid Mechanics, K Muralidhar and G Biswas, NarosaPublishing house, 2012, fourth reprint10.Fluid Mechanics, Fluid Machines & Hydraulics V.P. Gupta, Alam Singh & Manish

Gupta, CBS Publishing house, third edition.

Lab. ME-401P

(Minimum 8 experiments from following)

1. Performance test on a Pelton wheel.2. Performance test on a Francis turbine.3.

Performance test on a Kaplan turbine.

4. Experiment on a Reciprocating pump.5. Experiment on a Centrifugal pump.6. Experiment on Hydraulic Jack/Press7. Experiment on Hydraulic Brake8. Experiment on Hydraulic Ram9. Study through detailed visit of any water pumping station/plant10.Experiment on Compressor


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ME 402: MANUFACTURING SCIENCE-I

L T P

3 1 2

Unit-I

Introduction:

Introduction to manufacturing process, Classification of manufacturing processes,Economic

& technological considerations in manufacturing.manufacturing processes for common

materials. Introduction of Advance Manufacturing Processes: need,

advantagesandapplications

Metal Forming Processes:

Elastic, plastic deformation and yield criterion.Introductions to Hot and Cold working

processes and their differences.

Analysis (equilibrium equation method) of Forging process for load estimation with sliding

friction, sticking friction and mixed condition for slab and disc. Work required for forging,

Hand, Power, Drop Forging, Impact forging, Swaging, Upsetting and Roll Forging. Defects

of forging process and remedies

Unit-II

Metal Forming Processes (continued):

Analysis of Wire/strip drawing and maximum-reduction, Tube drawing, Extrusion and its

application.

Condition for rolling forces and power estimation in rolling processes.Rolling mills and

rolled-sections reduction calculations.

Design, lubrication and defects in metal forming processes

Unit-III

Sheet Metal Forming Process:

Introduction to sheet metal forming processes, presses and their classification. Die & punch

assembly and press work methods and processes. Cutting/Punching mechanism, Blankingvs

Piercing. Compound vs Progressive die. Flat-face vs Inclined-face punch and estimation of

load(capacity) needed for punch.

Analysis of forming process like cup/deep drawing.Bending& spring-back


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Unit-IV

Unconventional Metal Forming Processes:

Need, classification, comparison with conventional processes, Unconventional metal forming

processes such as explosive forming, electromagnetic, electro-hydraulic forming, Advantages

Disadvantages and Limitations.

Powder Metallurgy:

Powder metallurgy processes, Powder preparation, Compaction methods, detail of sintering

process, Secondary operation, the need, advantage and application of Powder metallurgy

processes.

Manufacturing of Plastic Components:

Review of plastics, classification and application of plastics. Injection moulding.Extrusion,

casting and welding processes of plastic.Introduction to Resins &Adhesives.

Unit-V

Casting (Foundry)

Basic principles& survey of casting processes.Types of patterns and allowances.Importance

of moulding sandproperties.Elements of mould and design considerations, Gating, Riser,

Runnes, Core.Solidification of casting, sand casting, defects & remedies and inspection

methods.Introduction of different furnaces and working principle of Cupola furnace.

Die Casting, Centrifugal casting. Investment casting, CO2 casting and Stir casting,

Evaporative pattern casting.


1. Manufacturing Technology, P N Rao, McGrawHill, 2009 Volume 1, 4th Edition2. Introduction to Manufacturing Processes, McGrawHill, John A. Schey, 2012,

3rd

Edition

3. Manufacturing Technology, P N Rao, McGrawHill, 2009 Volume 2, 3rd Edition4. Production Technology, P.N Rao, Vol. 1, McGraw Hill.,5. Manufacturing Process,Jhan, Vol I, Pearson.6. Manufacturing Technology, Singh, Pearson.7. Manufacturing Science, Ghosh and Mallik,8. Production Technology, RK Jain,9. Manufacturing process for Engineering materials, 5th edition Kalpak Jain,

Pearson.

10. Fundamentals of Manufacturing Processes, G K Lal and S K Chaudhary, NarosaPublishing house, 2011, Sixth Edition.


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Lab. ME-402P

Minimum 8 experiments out of following:

1. Pattern design for a desired casting (containing hole) considering all types ofallowances

2. Preparation of wooden pattern for a given casting3.

Preparation of a sand mould (with core) for a given casting and metal casting.

1. Sand testing (at least one such as grain fineness number determination, compressiontest, Permeability tests etc.)

4. Preparation of a plastic component by Injection moulding machine5. Forging calculations and shape conversion of a raw material into other by hand forging

processes

6. Study of power hammer and its operations7. Calculation of parameters of tube bending using tube bending machine.8. Preparation of washer on press working machine9. To perform wire drawing/extrusion on soft material.10. Calculation of roll draft and Rolling of strip on rolling machine11. Bending of wire/sheet and calculation of spring back12. Experiment on powder metallurgy process


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ME 403: APPLIED THERMODYNAMICS AND MACHINE DRAWING- II

L T P

3 1 2

Unit-I

Thermodynamic relations: Mathematical conditions for exact differentials. Maxwell

Relations, Clapeyron Equation, Joule-Thompson coefficient and Inversion curve. Coefficient

of volume expansion, Adiabatic & Isothermal compressibility.

Fuels and Combustion: Combustion analysis, Heating Values, Air requirement, Air/Fuel

ratio, Standard heat of Reaction and effect of temperature on standard heat of reaction, heat

of formation, Adiabatic flame temperature.

Unit-II

Boilers: Steam generators-classifications. Working of fire-tube and water-tube boilers, boiler

mountings & accessories, Draught & its calculations, air pre heater, feed water heater, super

heater.Boiler efficiency, Equivalent evaporation. Boiler trial and heat balance.

Condenser: Classification of condenser, Air leakage, Condenser performance parameters 2

Unit-III

Steam Engines: Rankine and modified Rankine cycles, Working of stream engine,

Classification of steam engines, Indicator diagram, Saturation curve, Missing quantity, Heat

balance.

Steam& Gas Nozzles: Flow through nozzle, Variation of velocity, Area and specific volume,

Choked flow, Throat area, Nozzle efficiency, Off design operation of nozzle, Effect of

friction on nozzle, Super saturated flow.

Unit-IV

Vapour Power cycles: Carnot vapour power cycle, Effect of pressure & temperature on

Rankine cycle, Reheat cycle, Regenerative cycle, Feed water heaters, Binary vapour cycle,

Combined cycles, Cogeneration.

Steam Turbines :Classification of steam turbine, Impulse and reaction turbines, Staging,

Stage and overall efficiency, Reheat factor, Bleeding, Velocity diagram of simple&compound multistage impulse & reaction turbines & related calculations work done

efficiencies of reaction, Impulse reaction Turbines, state point locus, Comparison with steam

engines, Losses in steam turbines, Governing of turbines.


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Unit-V

Gas Turbine:Gas turbine classification Braytoncycle,Principles of gas turbine, Gas turbine

cycles with intercooling,reheat and regeneration and their combinations, Stage efficiency,

Polytropic efficiency. Deviation of actual cycles from ideal cycles

Jet Propulsion: Introduction to the principles of jet propulsion, Turbojet and turboprop

engines& their processes, Principle of rocket propulsion, Introduction to Rocket Engine.


1. Applied Thermodynamics, T D Eastop and A McConkey, Pearson, 2006, 4th Edition2. Applied thermodynamics, Onkar Singh, New Age International (P) Publishers Ltd.3. Basic and Applied Thermodynamics, PK Nag, Tata McGraw Hill, 2010, 2nd edition4. Thermal Engineering, PL Ballaney, Khanna Publisher5. Theory of Steam Turbine, W J Kearton6. Steam & Gas Turbine, R.adav, CPH Allahabad7. Thermal Engineering, RK Rajput, Laxmi Publication8. Gas Turbine, V Ganeshan, Tata McGraw Hill Publishers9. Gas turbine Theory & Practice, Cohen & Rogers, Addison Weslay Long man

Lab. ME-403P

MACHINE DRAWING II

Review of Orthographic Projections:

Orthographic Projection of solids in First angle of projection, missing lines

views,interpretation of views

Part and Assembly Drawing:

Assembly drawing of eccentric, lathe tail stock, air valve, screw jack, connecting rod,safety

valve etc.

Specification of Materials:

Engineering materials, representation, Code designation of steel, copper,aluminium etc.1

Limits, Tolerance and Fits:

Limit system, Tolerances, Method of placing limit dimensions, Fits-types

Surface Roughness:

Introduction, nomenclature, machining symbols, indication of surface roughness

Production Drawing:

Types, Examples of simple machine elements like helical gear, bevel gear, crank,connecting

rod, belt pulley, piston etc.Computer Aided Drafting:

Introduction, input, output devices, introduction to software like AutoCAD, Pro-E,

basiccommands and development of 2D and 3D drawings of simple parts


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1. Machine Drawing, KL Narayana, P Kannaiah, KV Reddy, New Age2. Machine Drawing, K R Gopalakrishna, Shubash Publications, Bangalore, India3. Machine Drawing, PS Gill, SK Kataria& sons4. Machine Drawing, N Siddeshswar, P Kannaiah, VVS Shastry, Tata McGraw Hill5. Computer Aided Engineering Graphics, RajashekharPatil, New Age6. Engineering Drawing,Dhananjay A Jolhe, Tata McGraw Hill7. Machine Drawing Ajeet Singh The Mc Graw Hill Companies

syllabus - iind year me

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