DEPARTMENT OF MECHANICAL ENGINEERING B.Tech. In MECHANICAL ENGINEERING .
(AMRITAPURI, BANGALORE, COIMBATORE, CHENNAI)DEPARTMENT OF MECHANICAL ENGINEERINGB.Tech. in MECHANICAL ENGINEERING (BTC-MEC)CURRICULUM AND SYLLABI(2019)AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 1 of 228
GENERAL INFORMATIONABBREVIATIONS USED IN THE torialPracticalCreditsEngineering Sciences (including General, Core and Electives)Humanities (includingLanguages and others)Basic Sciences (includingMathematics)Project Work (includingSeminars)Aerospace EngineeringComputer Science and Engineering - Artificial IntelligenceBiologyComputer and Communication EngineeringChemical EngineeringChemistryComputer Science and EngineeringCivil EngineeringCultural EducationElectronics and Computer EngineeringElectronics and Communication EngineeringElectrical and Electronics EngineeringElectrical and Computer EngineeringHumanitiesMathematicsMechanical EngineeringPhysicsCourse Outcome (CO) – Statements that describe what students are expected to know, and are able to do at the endof each course. These relate to the skills, knowledge and behaviour that students acquire in their progress through thecourse.Program Outcomes (POs) – Program Outcomes are statements that describe what students are expected to know andbe able to do upon graduating from the Program. These relate to the skills, knowledge, attitude and behaviour thatstudents acquire through the program. NBA has defined the Program Outcomes for each discipline.PROGRAM OUTCOMES FOR ENGINEERING1.2.3.4.Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, andan engineering specialization to the solution of complex engineering problems.Problem analysis: Identify, formulate, review research literature, and analyze complex engineeringproblems reaching substantiated conclusions using first principles of mathematics, natural sciences, andengineering sciences.Design/development of solutions: Design solutions for complex engineering problems and designsystem components or processes that meet the specified needs with appropriate consideration for thepublic health and safety, and the cultural, societal, and environmental considerations.Conduct investigations of complex problems: Use research-based knowledge and research methodsincluding design of experiments, analysis and interpretation of data, and synthesis of the information toprovide valid conclusions.AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 2 of 228
5.Modern tool usage: Create, select, and apply appropriate techniques, resources, and modernengineering and IT tools including prediction and modeling to complex engineering activities with anunderstanding of the limitations.6. The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal,health, safety, legal and cultural issues and the consequent responsibilities relevant to the professionalengineering practice.7. Environment and sustainability: Understand the impact of the professional engineering solutions insocietal and environmental contexts, and demonstrate the knowledge of, and need for sustainabledevelopment.8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of theengineering practice.9. Individual and team work: Function effectively as an individual, and as a member or leader in diverseteams, and in multidisciplinary settings.10. Communication: Communicate effectively on complex engineering activities with the engineeringcommunity and with society at large, such as, being able to comprehend and write effective reports anddesign documentation, make effective presentations, and give and receive clear instructions.11. Project management and finance: Demonstrate knowledge and understanding of the engineering andmanagement principles and apply these to one’s own work, as a member and leader in a team, to manageprojects and in multidisciplinary environments.12. Life-long learning: Recognize the need for, and have the preparation and ability to engage inindependent and life-long learning in the broadest context of technological change.Program Educational Objectives : Apply their Knowledge in Science, Mathematics and Engineering to address Industrial and Societalproblems with a strong emphasis on creativity, confidence, ethics, and responsibility.Apply latest computational, analytical, simulation tools and techniques to develop and improve productsand processes.Solve multidisciplinary problems by working in cross functional teams.Develop and upgrade technical, intellectual and emotional skills for life-long learning to compete in arapidly evolving world.Nurture entrepreneurial ventures and foster research activities that support sustainable economicdevelopment to enhance the quality of life.Program Specific Outcomes: Apply knowledge acquired in the field of Design, Manufacturing, Thermal, and Fluid sciences tosolve real-world engineering problems using emerging technologies.Extend and implement innovative thinking on product design and development with the aid ofmodern CAD/CAM/CAE tools.Apply the Science and Engineering knowledge for materials design and processing fordevelopment and improvement of products and processesAMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 3 of 228
SEMESTER ICat.CodeTitleCreditSCI19MAT101Single Variable Calculus1SCI19MAT111Multivariable Calculus2SCI19MAT104Basic Linear Algebra2ENGG19CSE100Problem Solving and Algorithmic Thinking4SCI19PHY102/19CHY101Engineering Physics - B /EngineeringChemistry - A3SCI19PHY182/19CHY181Engineering Physics Lab - B / EngineeringChemistry Lab - A1ENGG19EEE100Basic Electrical and Electronics Engineering3ENGG19EEE181Basic Electrical and Electronics EngineeringLab1ENGG19MEE101Engineering Drawing3HUM19CUL101Cultural Education - I2TOTAL22SEMESTER IICat.CodeTitleCreditHUM19ENG111Technical Communication3SCI19MAT114Differential Equation and Transforms4SCI19BIO111Biology for Engineers - B2SCI19PHY102/19CHY101Engineering Physics - B /EngineeringChemistry - A3SCI19PHY182/19CHY181Engineering Physics Lab - B /Engineering Chemistry Lab - A1ENGG19CSE102Computer Programming4ENGG19MEE182Computer Aided Drafting1ENGG19MEE111Engineering Mechanics4ENGG19MEE181Manufacturing Practice1AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 4 of 228
HUM19CUL111Cultural Education - II2TOTAL25SEMESTER IIICat.CodeTitleCreditSCI19MAT210Probability and Complex echanics of solids4ENGG19MEE204Metallurgy and Material science3ENGG19MEE202Manufacturing Process I3ENGG19MEE281Material Testing and Metallurgy Lab1ENGG19CSE282Python Programming1Free Elective I*21HUMHUM19AVP201Amrita Values Program IHUM19ENV300Environmental ScienceP/FTOTAL23SEMESTER IVCat.CodeTitleCreditENGG19MEE211Computational Methods in Engineering3ENGG19MEE212Fluid Mechanics and Machinery4ENGG19MEE213Heat Power Engineering4ENGG19MEE214Kinematics of Machines4ENGG19MEE215Manufacturing Process II3ENGG19MEE283Fluid Mechanics and MachineryLaboratory1ENGGHUM19MEE28419AVP211Thermal Science LaboratoryAmrita Values Program II11HUM19SSK211Soft Skills I2TOTAL23AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 5 of 228
SEMESTER VCat.CodeTitleENGG19MEE301Design of Machine Elements - I3ENGG19MEE302Dynamics of Machines3ENGG19MEE303Heat Transfer4ENGG19MEE306Operations Research3HUM19MNG300Disaster ManagementP/FENGG19MEE304Instrumentation and Control Systems3Free Elective II**2[3]HUMCreditENGG19LIV390[Live in Labs]***ENGG19MEE381Heat Transfer Laboratory1ENGG19MEE382Instrumentation and Control Laboratory1ENGG19MEE305Machine Drawing3HUM19SSK301Soft Skills II2TOTAL25 [3]SEMESTER VICat.CodeTitleCreditENGG19MEE314Introduction to Finite Element Method4ENGG19MEE313Design of Machine Elements - II3ENGG19MEE312Automation and IoT4ENGGProfessional Elective I*3ENGGProfessional Elective II*3ENGG19MEE384Metrology Laboratory1ENGG19MEE383Machine Dynamics Laboratory1ENGG19LIV490[Live in Labs]***[3]ENGG19MEE311Design Thinking2HUM19SSK311Soft Skills III2TOTALAMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 202223 [3]Page 6 of 228
SEMESTER VIICat.ENGGCodeTitle19MEE401Industrial Engineering3Professional Elective III*3ENGGHUM19MEE402CreditResearch MethodologyP/FENGGProfessional Elective IV*3ENGGProfessional Elective V*31ENGG19MEE481CNC and System simulation LaboratoryHUM19LAW300Indian ConstitutionP/FPRJ19MEE490Summer InternshipP/FPRJ19MEE495Project Phase I2TOTAL15SEMESTER VIIICat.CodeENGGPRJ19MEE499TitleCreditProfessional Elective VI*3Project Phase II10TOTAL13TOTAL CREDIT169*Professional Elective - Electives categorised under Engineering, Science ,Mathematics, Livein-Labs, and NPTEL Courses . Student can opt for such electives across departments/campuses.Students with CGPA of 7.0 and above can opt for a maximum of 2 NPTEL courses with thecredits not exceeding 8.** Free Electives - This will include courses offered by Faculty of Humanities and SocialSciences/ Faculty Arts, Commerce and Media / Faculty of Management/Amrita Darshanam (International Centre for Spiritual Studies).AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 7 of 228
*** Live-in-Labs - Students undertaking and registering for a Live-in-Labs project, can beexempted from registering for an Elective course in the higher semester.PROFESSIONAL ELECTIVESDESIGN STREAMCat.ENGGENGGCode19MEE33119MEE332TitleMachine Learning Based Condition MonitoringFailure Analysis and 19MEE33619MEE337Optimization Techniques in EngineeringModeling and Simulation of Engineering SystemsTool DesignNVH and RefinementFundamentals of Fracture Mechanics33333ENGG19MEE33819MEE33933CodeTheory of VibrationsTheory of ElasticityProfessional Electives (Open to all)Title19MEE34019MEE31119MEE333Introduction to Nonlinear Dynamics and ChaosDesign ThinkingOptimization Techniques in EE43919MEE44019MEE44119MEE442AMRITA VISHWA VIDYAPEETHAMMANUFACTURING STREAMTitleCNC MachinesComposite Materials and DesignFundamentals of NanomaterialsIndustrial RoboticsAdditive ManufacturingNano Technology and Surface EngineeringAdvanced Casting TechnologyAdvanced Manufacturing ProcessesAdvanced Materials and ProcessesAdvanced Metrology and Sensing SystemsAdvanced Welding TechnologyMicro-ManufacturingBTECH MEC 2019 Modified Jan 2022Credit33Credit323Credit333333333333Page 8 of 228
ructive TestingProduct Cost EstimationQuality Control and Reliability EngineeringSimulation Modeling of Manufacturing SystemsProfessional Electives (Open to all)TitleIndustrial RoboticsNon-Destructive TestingQuality Control and Reliability Engineering3333Credit333INDUSTRIAL ENGINEERING AND MANAGEMENT STREAMCat.CodeTitleCreditENGG19MEE341Engineering Economic Analysis3ENGG19MEE342Lean Manufacturing3ENGG19MEE343Manufacturing Planning and Control3THERMAL STREAMProfessional 52Computational Fluid DynamicsGas Dynamics and Jet Propulsion33ENGG19MEE353HVAC Systems & Applications3ENGGENGG19MEE35419MEE355Power Plant EngineeringTurbo Machinery33ENGG19MEE356Automotive Technology3ENGG19MEE357Solar and Wind Power Technologies3ENGG19MEE358IC Engines and Emission3ENGGENGG19MEE35919MEE360Advanced Fluid MechanicsElectric Vehicle Design33Professional Electives (Open to all)Cat.CodeTitleENGG19MEE356Automotive Technology3ENGGENGG19MEE35719MEE360Solar and Wind Power TechnologiesElectric Vehicle ss Energy Conversion Techniques3ENGG19MEE345Sustainable Manufacturing3AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 9 of 228
PROFESSIONAL ELECTIVES UNDER SCIENCE tational Chemistry and Molecular Modelling3SCI19CHY236Electrochemical Energy Systems and Processes3SCI19CHY240Fuels and Combustion3SCI19CHY232Green Chemistry and Technology3SCI19CHY239Instrumental Methods of Analysis3SCI19CHY241Batteries and Fuel Cells3SCI19CHY242Corrosion Science3PHYSICSSCI19PHY340Advanced Classical Dynamics3SCI19PHY342Electrical Engineering Materials3SCI19PHY331Physics of Lasers and Applications3SCI19PHY341Concepts of Nanophysics and Nanotechnology3SCI19PHY343Physics of Semiconductor T341Statistical Inference3SCI19MAT342Introduction to Game Theory3SCI19MAT343Numerical Methods and Optimization3FREE ELECTIVESCat.HUMHUMFREE ELECTIVES OFFERED UNDER MANAGEMENT STREAMCodeTitle19MNG331Financial Management19MNG332Supply Chain ManagementHUM19MNG333AMRITA VISHWA VIDYAPEETHAMMarketing ManagementBTECH MEC 2019 Modified Jan 2022Credit333Page 10 of 228
HUM19MNG334Project Management3HUMHUM19MNG33519MNG338Enterprise ManagementOperations Research33HUM19MEE401Industrial Engineering3HUM19MEE346Managerial Statistics3HUM19MEE347Total Quality Management3HUM19MEE342Lean Manufacturing3HUM19CSE358Software Project Management3HUM19CSE359Financial eering Economic AnalysisFinancial ManagementInformation Systems333FREE ELECTIVES OFFERED UNDER HUMANITIES / SOCIAL SCIENCE STREAMSCat.HUMCode19CUL230TitleAchieving Excellence in Life - An Indian PerspectiveCredit2HUMHUM19CUL23119CUL232Excellence in Daily LifeExploring Science and Technology in Ancient India22HUM19CUL233Yoga ss CommunicationIndian Thought through EnglishInsights into Life through English Literature222HUM19ENG233Technical 23119GER23019GER231Indian Short Stories in EnglishProficiency in French Language (Lower)Proficiency in French Language (Higher)German for Beginners IGerman for Beginners II22222HUM19GER232Proficiency in German Language (Lower)2HUM19GER233Proficiency in German Language (Higher)2AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 11 of 228
HUMHUM19HIN10119HIN111Hindi IHindi Emotional IntelligenceGlimpses into the Indian Mind - the Growth of ModernIndiaGlimpses of Eternal IndiaGlimpses of Indian Economy and PolityHUMHUM19HUM23419HUM235Health and LifestyleIndian Classics for the Twenty-first Century22HUMHUM19HUM23619HUM237Introduction to India StudiesIntroduction to Sanskrit Language and HUM241National Service SchemePsychology for Effective LivingPsychology for EngineersScience and Society - An Indian e Message of Bhagwad GitaThe Message of the UpanishadsUnderstanding Science of Food and Nutrition222HUM19JAP230Proficiency in Japanese Language (Lower)2HUM19JAP2313Proficiency in Japanese Language (Higher)2HUMHUMHUM19KAN10119KAN11119MAL101Kannada IKannada IIMalayalam 019SWK231Malayalam IISanskrit ISanskrit IICorporate Social ResponsibilityWorkplace Mental Health22222HUMHUM19TAM10119TAM111Tamil ITamil II22AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 202222Page 12 of 228
Value Added CoursesValue Added Courses are offered to students during the weekend / summer/ winter vacations by the experts.These courses are non-credit courses. Certificates will be issued to the students after successful completionof the course. Additional courses will be added in this list based on the demand from the students and aswell as requirements from the industry.1.2.3.4.5.6.7.8.9.CNC Programming and Simulation using CAM softwareGeometric Dimensioning and TolerancingTool DesignDesign of ExperimentsSimulation of Manufacturing Systems using Discrete event simulation softwareAdvanced CAD Modelling & Engineering AnalysisMATLAB programmingAdvanced Python programmingMaterial CharacterizationMOOC CoursesIn lieu of Professional elective courses students who maintain CGPA of more than 7.0 can choosetwo MOOC courses with the total credits not exceeding 8 after getting the approval from the department.The list of MOOC courses will be informed to the students well in advance. The students can opt for theMOOC courses during the 3rd and 4th year of the study.AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 13 of 228
SYLLABUSSEMESTER I19MAT101SINGLE VARIABLE CALCULUSL-T-P-C: 1- 0 - 0 -1Course Objectives Understand the various functions and their graphs.Understand the basic concept of continuous function and find the extreme values of the continuousfunctions.Understand the definite integral and various integration techniques.Course OutcomesCO1: To understand the concepts of single variable calculus.CO2: To sketch graphs for functions using the concepts of single variable calculus and apply thefundamental theorem of calculus to evaluate integrals.CO-PO MappingPO/PSOPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 O212------2---------------------SyllabusUnit 1CalculusGraphs: Functions and their Graphs. Shifting and Scaling of Graphs. (1.5)Unit 2Limit and Continuity: Limit (One Sided and Two Sided) of Functions. Continuous Functions, Discontinuities,Monotonic Functions, Infinite Limits and Limit at Infinity. (2.1, 2.6)Unit 3Graphing : Extreme Values of Functions, Concavity and Curve Sketching, (4.1, 4.4).Unit 4Integration: Definite Integrals, The Mean Value Theorem for definite integrals, Fundamental Theorem of Calculus,Integration Techniques. (5.2 - 5.3, 8.1 – 8.5)Text BookCalculus’, G.B. Thomas Pearson Education, 2009, Eleventh Edition.Reference‘Calculus’, Monty J. Strauss, Gerald J. Bradley and Karl J. Smith, 3rd Edition, 2002Evaluation patternAt the end of the course, a two-hour test will be conducted for 50 marks. The marks will be converted to 100 forgrading.AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 14 of 228
19MAT111MULTI VARIABLE CALCULUSL-T-P-C: 2-0-0-2Course Objective To understand parameterisation of curves and to find arc lengths.To familiarise with calculus of multiple variables.To use important theorems in vector calculus in practical problems.Course OutcomesCO1: Select suitable parameterization of curves and to find their arc lengthsCO2: Find partial derivatives of multivariable functions and to use the Jacobian in practical problems.CO3: Apply Fundamental Theorem of Line Integrals, Green’s Theorem, Stokes’ Theorem, or Divergence Theoremto evaluate integrals.CO-PO MappingPO/PSOCOPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12 PSO1CO113CO2122CO3223PSO2SyllabusUnit 1Functions of severable variablesFunctions, limit and continuity. Partial differentiations, total derivatives, differentiation of implicit functions andtransformation of coordinates by Jacobian.Taylor’s series for two variables.Unit 2Vector DifferentiationVector and Scalar Functions, Derivatives, Curves, Tangents, Arc Length, Curves in Mechanics, Velocity andAcceleration, Gradient of a Scalar Field, Directional Derivative, Divergence of a Vector Field, Curl of a VectorField.Unit 3Vector IntegrationLine Integral, Line Integrals Independent of Path.Green’s Theorem in the Plane, Surfaces for Surface Integrals, Surface Integrals, Triple Integrals – Gauss DivergenceTheorem, Stoke’s Theorem.Unit 4Lab Practice Problems:Graph of functions of two variables, shifting and scaling of graphs. Vector products. Visualizing different surfaces.Text BookAdvanced Engineering Mathematics, E Kreyszig, John Wiley and Sons, Tenth Edition, 2018.Reference Book(s)AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 15 of 228
Advanced Engineering Mathematics by Dennis G. Zill and Michael R.Cullen, second edition, CBS Publishers, 2012.‘Engineering Mathematics’, Srimanta Pal and Subhodh C Bhunia, John Wiley and Sons, 2012, Ninth Edition.‘Calculus’, G.B. Thomas Pearson Education, 2009, Eleventh Edition.Evaluation patternAssessmentWeightageTest 1 (after 8th Lecture hr)25*Continuous Assessment (CA)25Test 2 (after 15th Lecture hr)50*CA – Can be Quizzes, Assignments, Projects, and ReportsAMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 16 of 228
19MAT104BASIC LINEAR ALGEBRAL-T-P-C: 2-0-0-2Course Objectives To solve simultaneous algebraic equations using methods of matrix algebraTo understand basics of matrix algebra and determinantsTo use vector space methods and diagonalization in practical problemsCourse OutcomesCO1: Apply concepts of matrix algebra for solving simultaneous linear algebraic equationsCO2: Understand the power of mathematical abstraction through introduction and application of concepts likevector spaces inner product spaces and linear transformationsCO-PO MappingPO/PSOCOPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12 PSO1PSO2CO12221112CO23211221SyllabusUnit 1Vectors in Rn, notion of linear independence and dependence, linear span of a set of vectors, vector subspaces ofRn, basis of a vector subspace.Unit 2Linear system of equations, Gauss elimination, Linear independence, Rank of a matrix, row space and columnspace, existence and uniqueness of system of linear equations, Determinants, Cramer’s’ rule, Inverse of a matrix,Gauss-Jordan elimination.Unit 3Vector spaces, subspaces, linear independence, basis, dimension, change of basis, row, column and null spaces,linear transformation, eigen values and eigen vectors, diagonalization, inner product spaces, Gram-Schmidtorthogonalisation.Text BookElementary Linear Algebra, Howard Anton and Chris Rorres, 11th Edition, Wiley, 2015.Linear algebra: A modern introduction, D Poole. Cengage Learning,4thEdition 2015.Engineering Mathematics, Srimanta Pal and Subodh C Bhunia, , John Wiley and Sons, 2012, Ninth Edition.Evaluation patternAssessmentWeightageTest 1 (after 8th Lecture hr)25*Continuous Assessment (CA)25Test 2 (after 15th Lecture hr)50*CA – Can be Quizzes, Assignments, Projects, and ReportsAMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 17 of 228
19CSE100.PROBLEM SOLVING AND ALGORITHMIC THINKINGL-T-P-C: 2-1-3-4Course Objectives To provide the foundations of algorithmic thinking and problem solvingTo focus on principles and methods rather than on systems and tools thus providing transferable skills toany other domainTo provide foundations for developing computational perspective of one’s own disciplineCourse OutcomesCO 1: To apply algorithmic thinking to understand, define and solve problemsCO 2: To Design and implement algorithm(s) for a given problemCO 3: To apply the basic programming constructs for problem solvingCO 4: To understand an algorithm by tracing its computational states, identifying bugs and correcting themCO-PO MappingPO/PSOCOPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 t 1Problem Solving and Algorithmic Thinking Overview – problem definition, logical reasoning; Algorithm –definition, practical examples, properties, representation, algorithms vs programs.Unit 2Algorithmic thinking – Constituents of algorithms – Sequence, Selection and Repetition, input-output; Computation– expressions, logic; algorithms vs programs, Problem Understanding and Analysis – problem definition, inputoutput, variables, name binding, data organization: lists, arrays etc. algorithms to programs.Unit 3Problem solving with algorithms – Searching and Sorting, Evaluating algorithms, modularization, recursion. C forproblem solving – Introduction, structure of C programs, data types, data input, output statements, control structures.Text BookRiley DD, Hunt KA. Computational Thinking for the Modern Problem Solver.CRC press; 2014 Mar 27.ReferencesFerragina P, Luccio F. Computational Thinking: First Algorithms, Then Code. Springer; 2018.Beecher K. Computational Thinking: A beginner's guide to Problem-solving and Programming.BCS Learning &Development Limited; 2017.Curzon P, McOwan PW. The Power of Computational Thinking: Games, Magic and Puzzles to help you become acomputational thinker. World Scientific Publishing Company; 2017.AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 18 of 228
Evaluation PatternAssessmentInternalPeriodical 110Periodical 210*Continuous Assessment (Theory) (CAT)15*Continuous Assessment (Lab) (CAL)30End Semester*CA – Can be Quizzes, Assignments, Projects, and ReportsAMRITA VISHWA VIDYAPEETHAMEndSemester35BTECH MEC 2019 Modified Jan 2022Page 19 of 228
19PHY102ENGINEERING PHYSICS - BL-T-P-C: 2- 1-0- 3Course Objectives To get deeper knowledge and ability to apply concepts of Newtonian mechanics including conservationtheorems to engineering applications.To familiarize the principles of interference, diffraction and polarization and apply in engineering context.To gain knowledge of basic quantum mechanics, crystal structure and classification of solids based on theirproperties and applications.Course outcomesCO1: Be able to apply the concepts of Newtonian mechanics including conservation theorems to engineeringApplications and problem solving.CO2: Understand the principles of interference, diffraction and polarization and apply it in engineering context andto solve numerical problemsCO3: Understand the principles and applications of solid state and gas lasersCO4: Be exposed to the basic principles of Quantum mechanics with elementary applications in one dimensionalpotential wellCO5: Be familiar with crystals structure, free electron theory and basic semiconductor theory.CO-PO MappingPO/PSOCOPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 O2SyllabusUnit 1MechanicsNewton’s laws of motion – forces, frictional forces, dynamics of uniform circular motion, work, kinetic energy,work-energy theorem, potential energy, conservation of energy, Newton’s law of gravitation, motion in uniformgravitational field, centre of mass, conservation of linear and angular momentum.Unit 2Waves and OpticsHuygens’ Principle, superposition of waves and interference of light by wave front splitting and amplitude splitting,Young’s double slit experiment, Newton’s Rings, Michelson interferometer.Fraunhofer diffraction from single slit and circular aperture, Rayleigh criterion for limit of resolution and itsapplication to vision, diffraction gratings and their resolving power.Polarization: Unpolarized, polarized and partially polarized lights, polarization by reflection, double refraction byuniaxial crystals, Polaroid, half wave and quarter wave plates.AMRITA VISHWA VIDYAPEETHAMBTECH MEC 2019 Modified Jan 2022Page 20 of 228
Unit 3LasersEinstein’s theory of matter radiation interaction and A and B coefficients; amplification of light by populationinversion, different types of lasers: gas lasers (He-Ne, CO2), solid-state lasers (Ruby, Neodymium), dye lasers.Unit 4Quantum MechanicsDe Broglie waves, wave functions, wave equation, Schrodinger wave equation: time dependent and timeindependent form, operators – Eigen functions and Eigen values, uncertainty principle, particle in a finite potentialone -dimensional box, tunnelling effect (Qualitative).Unit 5Introduction to SolidsCrystal systems – Miller indices, crystal planes and directions, packing fraction, Classification of solids: Metals,semiconductors and insulators (qualitative), free electron theory of metals, Fermi level, Density of states, KronigPenney model and origin of energy bands.Text BooksHalliday, Resnick, Jearl Walker, “Principles of Physics”, 10th Edition, Wiley,2015.Ajay Ghatak, “Optics”, 6th Edition, McGraw Hill Education India Private Limited, 2017.Eugene Hecht, A R Ganesan, “Optics”, 4th Edition, Pearson Education, 2008.Arthur Beiser, ShobhitMahajan, S RaiChoudhury“Concepts of Modern Physics” McGraw Hill Education IndiaPrivate Limited, 2017.Charles Kittel, “Introduction to Solid State Physics” 8th Edition, Wiley, 2012.Reference BooksDavid Kleppner, Robert Kolenkow, “An Introduction to Mechanics”, 1st Edition, McGraw Hill Education, 2017.F A Jenkins, H E White, “Fundamental of Optics”, 4thEdition,McGraw Hill Education India Private Limited, 2017.David J Griffiths, “Introduction to Quantum Mechanics”,2ndEdition, Pearson Education,2015M A Wahab, “Solid State Physics”, 3rd Edition, Narosa Publishing House Pvt. Ltd., 2015.Evaluation PatternAssessmentInternalPeriodical 115Periodical 215*Continuous Assessment (CA)20End Semester*CA – Can be Quizzes, Assignments, Projects, and ReportsAMRITA VISHWA VIDYAPEETHAMEnd Semester50BTECH MEC 2019 Modified Jan 2022Page 21 of 228
19PHY1821ENGINEERING PHYSICS LABORATORY - BL-T-P-C: 0- 0-3-Course Objective To gain practical knowledge by applying experimental methods to correlate with the theory. Apply the analytical techniques and graphical analysis to the experimental data. To develop intellectual communication skills and discuss the basic understanding of various experimentalprinciples involved.Course OutcomesCO1: Prepare and perform individually a wide spectrum of experiments.CO2: Present experimental data in various appropriate forms like tabulation and plots.CO3: Analyse, interpret and summarize the experimental results.CO4: Communicate clearly the understanding of various experimental principles, instruments/setup, and Procedure.CO-PO O1PSO2222PO92111List of Experiments:1. To determine the Young’s modulus of the given material using non-uniform bending.2. Determination of Rigidity modulus of the given wire using torsional oscillation method.3. To find the dispersive power of the material of the prism.4. Determination of the wavelength of diode laser using diffraction grating and to find the mean size of Lycopodiumparticles5. To find the radius of curvature of given convex lens by Newton’s rings method.6. Determination of Plan
B.Tech. in MECHANICAL ENGINEERING (BTC-MEC) CURRICULUM AND SYLLABI (2019) . ENGG 19MEE304 Instrumentation and Control Systems 3 HUM Free Elective II** 2 ENGG 19LIV390 [Live in Labs]*** [3] ENGG 19MEE381 Heat Transfer Laboratory 1 . ENGG 19MEE436 Nano Technology and Surface Engineering 3
Materials Science and Engineering, Mechanical Engineering, Production Engineering, Chemical Engineering, Textile Engineering, Nuclear Engineering, Electrical Engineering, Civil Engineering, other related Engineering discipline Energy Resources Engineering (ERE) The students’ academic background should be: Mechanical Power Engineering, Energy .
Mechanical Engineering 1 Mechanical Engineering The Department of Mechanical Engineering offers three graduate degree programs: the Master of Engineering (M.Eng), the Master of Science (M.S.), and the Doctor of Philosophy (Ph.D.). Master of Engineering (M.Eng) This accelerated Masters of Engineering Program has been designed
Mechanical Engineering Aerodynamic Design of Vehicles Compute Aided Analysis & Design Analysis & Design. Mechanical Engineering Wind Energy Fuel Cell Energy. Mechanical Engineering UAV Space Shuttle Air & Space. Mechanical Engineering Robotics Utilities Systems. Civil Engineering Foundation Structural Analysis Analysis & Design. Civil Engineering Bridge Skyscraper Tunnel Construction . Civil .
mechanical engineering, Railway mechanical engineering, Welding and welded structures, Engineering of biotechnical systems, Industrial engineering, Information technologies, Motor vehicles, Internal combustion engines, Food industry engineering, Production engineering, Process engineering and environment protection, Weapon systems, Thermal power
The Department of Mechanical Engineering offers eight graduate degree programs: Master of Science (M.S.) in Mechanical Engineering, Nuclear Engineering and Aerospace Engineering; Master of Engineering (M.E.—non-thesis) in Mechanical Engineering, Nuclear Engineering and
The Department of Mechanical, Aerospace and Nuclear Engineering (MANE), is part of Rensselaer's School of Engineering (SOE). MANE offers three collaborative but distinct undergraduate programs leading to a Bachelor of Science degree: Mechanical Engineering (ME), Aerospace Engineering (AE), and Nuclear Engineering (NE).
Mechanical Contractor Redmon Heating & Cooling Grandville (616) 534-9330 Mechanical Contractor D.K.S. Mechanical, Inc. Marne (616) 677-6001 Mechanical Contractor AirFlow Mechanical Services LLC Wyoming (616) 752-0320 Mechanical Contractor Van Antwerp's Mechanical, Inc. Holland (616) 772-1112 Mechanical Contractor Grand Rapids Heating and .
JS Mechanical Engineering 2021-2022 1. Introduction Welcome to the Discipline of Mechanical and Manufacturing Engineering. Mechanical Engineering is perhaps the most expansive and demanding of the engineering disciplines and provides much of the innovation necessary for addressing societal challenges and economic recovery. In Ireland, two vibrant
