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MATHEMATICS-ICourse CodeScheme of InstructionHours/ WeekScheme of ExaminationTOTAL 150 marksFE 110L3IA25T1TW25CreditsP0TM1004TOTAL39 hrs/semPO00Course Outcomes:The student will be able to:CO1Explain the concepts of an infinite series, Beta and Gamma Functions, ordinarydifferential equations and limit and continuityCO2Evaluate integrals using Beta and Gamma functions,CO3Demonstrate various operations on complex numbers & analytic properties offunctions of complex variablesCO4Apply Partial differentiation in engineering applicationsUNIT -1Convergence of sequence and series-tests for convergence: Integral Test, Comparison test,D’Alembert’s Ratio test, Cauchy root test, Raabe’s Test, Leibnitz test for alternate series.Power series: Radius of convergence and Interval of convergence, Taylor's series, seriesfor exponential, trigonometric and logarithm functions.UNIT -2Leibnitz’s theorem, Taylor’s and Maclaurin’s theorems with remainders; Limits:Indeterminate forms and L'Hospital's rule; Maxima and minima. Beta and Gammafunctions and their properties.UNIT -3First order and first degree Ordinary Differential Equations, Method of separation ofvariables, Homogeneous and Non- Homogeneous differential equations, Equationsreducible to Homogeneous form, Linear Differential Equations, Bernoulli’s DifferentialEquation, Exact and Non- Exact Differential Equations.10hrs10hrs10hrsUNIT -4Functions of two variables: Limit and continuity, Partial derivatives, Euler’s Theorem,Maxima, Minima and saddle points; Method of Lagrange multipliers.9 hrsTEXTBOOKS1 B.S. Grewal, Higher Engineering Mathematics, Khanna Publishers, 36th Edition, 2010234Veerarajan T., Engineering Mathematics for first year, Tata McGraw-Hill, New Delhi, 2008.Ramana B.V., Higher Engineering Mathematics, Tata McGraw Hill New Delhi, 11th Reprint,2010.G.B. Thomas and R.L. Finney, Calculus and Analytic geometry, 9th Edition, Pearson,Reprint, 2002.REFERENCES1 D. Poole, Linear Algebra: A Modern Introduction, 2nd Edition, Brooks/Cole, 2005.2 N.P. Bali and Manish Goyal, A text book of Engineering Mathematics, Laxmi Publications,3Reprint, 2008.Erwin kreyszig, Advanced Engineering Mathematics, 9th Edition, John Wiley & Sons, 2006.PHYSICSCourse CodeFE 120 / FE220Credits31

Scheme of InstructionHours/ WeekScheme of ExaminationTOTAL 125 marksL3IA25T0TW0P0TM100TOTAL39 hrs/semPO00Course Outcomes:The student will be able to:CO1Explain the behaviour of light, lasers, x-rays, semiconductors and ultrasonicdevices.CO2Describe the influence of physical system parameters on propagation of light,lasers, x-rays and the properties of magnetic materials and semiconductorsCO3Determine the influence of the physical parameters on behaviour of light, lasers,semiconductors, ultrasonic waves, magnetism and x-raysCO4Compute the dimensions of lenses, wavelength of ultrasonic waves, magneticsaturation, semiconductor characteristics, lasers passing through fibre optics andx-ray diffraction.UNIT -1INTERFERENCE OF LIGHT:Geometric and optical path, Phase change at reflection (only statement),Interference based on division of amplitude, Interference due to reflected andtransmitted light in thin parallel film, Interference in wedge shaped film, Newton’srings for reflected and transmitted light, Determination of radius of curvature ofplano-convex lens, wavelength of light used and refractive index of liquid usingNewton’s ring experiment, applications of interference.ULTRASONICS:Production of ultrasonic waves, Magnetostriction, Piezoelectric oscillator,detection of ultrasonic waves, Properties, Application of ultrasonics in variousfields, Measurement of wavelength and velocity by acoustic diffraction grating.UNIT -2MAGNETISM: Introduction, Origin of magnetization, Classification of magneticmaterials, Magnetic hysteresis, Soft and hard magnetic materials, Applications ofmagnetic materials. Electron Ballistics: Electrostatic and magnetic focusing, CROand applications.SEMICONDUCTORS: Band theory of solids, Energy Gap, Energy bandstructure of semiconductors, Mobility, Drift velocity, Conductivity of chargecarriers, Generation and recombination of charges, Diffusion, Hall effect,UNIT -3LASERS: Interaction of radiation with matter from quantum mechanical point ofview: absorption, stimulated and spontaneous emission of radiation, Activemedium, Metastable state, Einstein’s theory of stimulated emission(no derivation),Condition for light amplification, Population inversion, Pumping, Pumpingschemes, Optical resonator, Properties of laser, He-Ne laser, Ruby laser,Applications.FIBER OPTICS: Total internal reflection, Propagation of light in optical fiber,Structure of an optical fiber and fiber cable, Acceptance angle and cone,Numerical aperture, Modes of propagation, Types of optical fibers: single andmultimode fibers, Applications- fiber optic communication , endoscopy.UNIT -4X-RAYS: Origin of X-rays, characteristic and continuous X-ray spectra,10hrs10hrs10hrs9 hrs1

Mosley’s law, X-ray diffraction: Bragg’s law and Bragg’s spectrometer, propertiesand applications.WAVE-PARTICLE DUALITY: Compton effect, Expression for Compton shift,Wave nature of particle, de Broglie hypothesis, Davisson-Germer experiment.TEXTBOOKS1 M. N. Avadhanulu& P. G. Kshirsagar; A text book of engineering Physics; S. Chand& company Pvt. Ltd. Revised edition 2015.2 A. S. Vasudeva; Modern Engineering Physics; S. Chand & Company Pvt. Ltd.Revised Edition. 2015REFERENCES1 Uma Mukherji; Engineering Physics; Narosa Publications. 20122 R. K. Gaur & S. L. Gupta; Engineering Physics; Dhanpat Rai Publications Pvt. Ltd.Reprint 2013.3 K. Rajagopal; Engineering Physics; PHI Learning Pvt. Ltd. Third Printing 2009.1

BASICS OF ELECTRICAL & ELECTRONICS ENGINEERINGCourse CodeScheme of InstructionHours/ WeekScheme of ExaminationTOTAL 125 marksFE 130L3IA25T0TW0CreditsP0TM1003TOTAL39 hrs/semPO00Course Outcomes:The student will be able to:CO1understand circuit laws, magnetic circuit quantities, single phase and three phasecircuits, diode applications, principles of single phase transformer, Bipolarjunction transistor, MOSFET and IGBT.CO2Describe the concept of Power generation, magnetic circuits, voltage-currentphasor relationships in three phase circuits, working of single phase transformer,Bipolar junction transistor, MOSFET and IGBTCO3Use circuit laws to compute electrical quantities in DC, single phase and threephase circuits, rectifier circuits, voltage regulator circuits and transistor biasingcircuits.CO4Develop phasor diagrams of single phase, three phase ac circuits and singlephase transformer and analyse the performance of voltage regulator circuitsusing Zener diode and phase angle control circuits using SCR.UNIT -1Introduction to Energy sources, DC Circuit Analysis: Kirchoff’s laws, Thevenin’stheorem, Norton’s theorem, Superposition theorem, Maximum Power transfertheorem.Batteries, series and parallel connection of Batteries, Batteryspecifications.Magnetism: Related terms, B-H curve, Faraday’s Laws, Lenz’sLaw,Analogy between Electrical and magnetic circuits, SolenoidUNIT -2A.C Fundamentals: Analysis of R, L, C, R-L, R-C, RLC circuits, Concept ofactive power, reactive power, apparent power.Three phase systems. Star and Deltaconnection, current voltage and power relationship.Single phase transformer:Construction, principle of operation, efficiency, voltage regulationUNIT -3Diodes and Circuits: PN junction diode, V-I characteristics, Zener diode,breakdown mechanism in diodes, light emitting diode.Diode Applications: Half-wave, Full-wave and Bridge Rectifiers, PIV; DC andr.m.s voltages, Ripple Factor. Voltage regulation using Zener diodes.SCR: construction, V-I characteristics, operation and phase controlapplicationsUNIT -4Bipolar Junction Transistor (BJT): Construction; Operation, TransistorAmplifying Action; Common-Emitter Configuration; Common-CollectorConfiguration; Limits of Operation.DC Biasing: Operating Point, Fixed-Bias Circuit; Emitter-Stabilized BiasCircuit; Voltage-Divider Biasing.Field Effect Transistors: Construction and Characteristics of JFETs; TransferCharacteristics; Depletion-Type MOSFET; Enhancement- Type MOSFET,10hrs9 hrs10hrs10hrs1

CMOS. IGBT-Construction and characteristics.TEXTBOOKS1 Vincent Del Tero; Principles of Electrical Engineeringby; PHI Publication.2 Joseph Administer; Electrical Circuits; Schaum Series Publication.3 Hayt, Kemmerly, Durbin ;Engineering Circuit Analysis; Tata McGraw HillPublication.REFERENCES1 Rajendra Prasad; Fundamentals of Electrical Engineering; PHI Publication.2 Boylestad and L. Nashelsky; Electronic Devices and Circuits; PHI3 A. Mottershead; Electronic Devices and Circuits; PHI.4 N.N.Bhargava; Basic Electronics and Linear Circuits; Tata McGraw-Hill.5 Vijay Baru, RajendraKaduskar, Sunil Gaikwad; Basic Electronics Engineering;Dreamtech Textbooks.1

BASICS OF MECHANICAL ENGINEERINGCourse CodeScheme of InstructionHours/ WeekScheme of ExaminationTOTAL 125 marksFE 140L3IA25T0TW0CreditsP0TM1003TOTAL39 hrs/semPO00Course Outcomes:The student will be able to:CO1understand circuit laws, magnetic circuit quantities, single phase and three phasecircuits, diode applications, principles of single phase transformer, Bipolarjunction transistor, MOSFET and IGBT.CO2Describe the concept of Power generation, magnetic circuits, voltage-currentphasor relationships in three phase circuits, working of single phase transformer,Bipolar junction transistor, MOSFET and IGBTCO3Use circuit laws to compute electrical quantities in DC, single phase and threephase circuits, rectifier circuits, voltage regulator circuits and transistor biasingcircuits.CO4Develop phasor diagrams of single phase, three phase ac circuits and singlephase transformer and analyse the performance of voltage regulator circuitsusing Zener diode and phase angle control circuits using SCR.UNIT -1Basic Concepts and Equilibrium: Concept of a rigid body, Laws of motion,Force systems, Principle of Transmissibility of forces, concurrent and nonconcurrent Forces, Composition and resolution of forces, moment of a force,Principle of moments, Resultant of a forces. Equilibrium of forces, Lami’stheorem, Free body diagrams, Applications. Types of beams, Determinate andIndeterminate beams, Types of loads, Types of supports and support reactions ofdeterminate beams.Friction: Theory of friction, Types of friction, Static and kinetic friction, angle offriction, Limiting Friction, Laws of friction, Coefficient of friction, Angle ofrepose, Applications involving rigid body on a horizontal or an inclined plane,ladder and wedge friction.UNIT -2Centroid and Moment of Inertia: First moment of an area and Centroid, Secondmoment of area, radius of gyration, Parallel Axes Theorem, Perpendicular axesTheorem, polar moment of inertia, Finding moment of inertia of built up sections.Kinetics of Rigid Body: Work Energy principle, Impulse Momentum equation,D’Alembert Principle and related applications.UNIT -3Introduction to Thermodynamics: Definition of thermodynamics.Thermodynamic systems—system, boundary and surroundings—closed system—open system—isolated system—adiabatic system—homogeneous system—heterogeneous system, Macroscopic and microscopic points of view.Thermodynamic equilibrium Properties of systems, State, Process, Cycle, Pointfunction. Path function, Temperature, Zeroth law of thermodynamics.10hrs10hrs10hrs1

Heat Work and Energy Interaction:Work Transfer, displacement work,displacement work in various process, P-V representation, other types of worktransfer, net work done by system, Heat transfer- path function, Specific heat andlatent heat concepts, Statements/ corollaries of First, Second and Third law ofthermodynamics.UNIT -4Introduction to manufacturing processes and Their Applications: Casting,Sheet metal forming, Sheet metal cutting, Forging, Fabrication, Metal joiningprocessesMachine Tools (Basic elements, Working principle and types of operations):Lathe Machine – Centre Lathe, Types of lathe, lathe specifications, Parts of lathe,Lathe operations, Plain turning, Step turning, Taper turning, Thread cutting,knurling, Drilling Machine, Grinding machine, Power saw, Milling Machine,Introduction to CNC machines.Working Principles of various Transmission Systems: Belts, Chains, Gears9 hrsTEXTBOOKS1 S.S. Bhavikatti and K.G. Rajshekharappa; Engineering Mechanics, New AgeInternational Publication. 20102 P. K. Nag; Engineering Thermodynamics; Tata McGraw Hill Publications. 20123 S. K. Hajra Choudhury, S. K. Bose, A. K. Hajra Choudhury, Nirjhar Roy, Elementsof Workshop Technology, Media Promotors& Publishers Pvt. Ltd. 2012REFERENCES1 A. K. Tayal; Engineering mechanics; Umesh Publications 20102 Y. a. Cengel, M. A. Boles; Thermodynamics – An Engineering Approach; TataMcGraw Hill Publications. 20123 K.R.Gopalkrishna A Textbook of Elements of Mechanical Engineering, SubhashPublishers 20101

PHYSICS LABORATORYCourse CodeScheme of InstructionHours/ WeekScheme of ExaminationTOTAL 25 marksFE 150/FE250LT00IATW025CreditsP2TM01TOTAL26 hrs/semPO00Course Outcomes:The student will be able to:CO1Explain the applications of concepts like Ultrasonics, X- rays, Superconductivityand Lasers in the different fields of daily lifeCO2Experiment using various apparatus like Cathode ray Oscilloscope and CRT tube.CO3Analyse the concept of physics like interference, semiconductors, ultrasonicsand , Electron Ballistics.CO4Design and develop a simple applications of semiconductors and ultrasonicsMinimum 12 Experiments to be performed from the following on’s RingAir WedgeHall EffectVelocity of Ultrasonic WavesHe/Ne/Diode Lasers – Determination of wavelength & particle sizeEnergy Gap of a SemiconductorPlanck’s Constant by PhotocellB-H CurveThermistor CharacteristicsDispersive power of the material of a prismDetermination of Optical Absorption Co-efficient of materials using lasersHelmholtz ResonatorDetermination of dielectric constant of a parallel plate capacitorPhotodiode characteristics and power responseFrequency of AC mains using Electric VibratorEstimation of Fermi Energy of CopperDetermine the acceptance angle and numerical aperture of an optical fiberDetermination of magnetic field constant along the axis of current carrying coilSeries and Parallel L-C-R circuit – Inductance, Bandwidth and Quality FactorTEXTBOOKS1 M. N. Avadhanulu& P. G. Kshirsagar; A text book of engineering Physics; S. Chand& company Pvt. Ltd. Revised edition 2015.2 A. S. Vasudeva; Modern Engineering Physics; S. Chand & Company Pvt. Ltd.Revised Edition. 20151

ELECTRICAL & ELECTRONICS LABORATORYCourse CodeScheme of InstructionHours/ WeekScheme of ExaminationTOTAL 25 marksFE 160L0IA0T0TW25CreditsP2TM01TOTAL26 hrs/semPO00Course Outcomes:The student will be able to:CO1Understand working of regulators, rectifiers, characteristics of various electronicsdevicesCO2Assemble and test different circuit theorems and characteristicsCO3Analyse and verify power in electric circuit, testing of single phase transformerCO4Apply circuit concept in electrical wiringMinimum 12 Experiments to be performed from the following list.SN12345678910111213Experimental ListVoltage RegulatorHalf, Full and Bridge RectifiersVerification of Kirchoff’s LawZener Diode CharacteristicsOpen and Short Circuit Tests on Single Phase TransformerLoad Test on Single phase TransformerVerification of Thevenin’s theorem and Norton’s theoremVerification of Superposition theorem and Maximum power transfer theoremSilicon-Controlled Rectifier (SCR) CharacteristicsFET CharacteristicsTransistor Common - Emitter Configuration CharacteristicsMeasurement of power in single phase circuitStudy of single phase domestic wiring systemSUGGESTED READING BOOKS1 Rajendra Prasad; Fundamentals of Electrical Engineering; PHI Publication.2 Boylestad and L. Nashelsky; Electronic Devices and Circuits; PHI3 A. Mottershead; Electronic Devices and Circuits; PHI.4 N.N.Bhargava; Basic Electronics and Linear Circuits; Tata McGraw-Hill.5 Vijay Baru, RajendraKaduskar, Sunil Gaikwad; Basic Electronics Engineering;Dreamtech Textbooks.1

WORKSHOP-ICourse CodeScheme of InstructionHours/ WeekScheme of ExaminationTOTAL 50 marksFE 170L0IA0T0TW50CreditsP2TM01TOTAL26 hrs/semPO00Course Outcomes:The student will be able to:CO1Explain the basic workshop skills from raw material stage to finishedproduct.CO2Identify the tools required for fitting, forging, welding and carpentry jobsCO3Demonstrate the use of tools, machines and effort required to complete the jobCO4Demonstrate the skills required to complete fitting, forging, welding andcarpentry jobsSNExperimental ListFitting1a. Demonstration of various tools and equipments used in fitting shop.b. Practical Experiments: at least one job covering simple fitting practice.Carpentrya. Demonstration of wood cutting machines, various tools and equipments used2by a carpenter.b. Practical Experiments: at least one of the following jobsi. Wooden jointii. Wood turningForging3 a. (a) Demonstration of various equipments used in Forging shop.b. (b) Practical Experiments: At least one job covering forging practice.Welding4a. Demonstration of various tools and equipments used by a welder.b. Practical Experiments: At least one job on electric arc welding.1

ENVIRONMENTAL SCIENCECourse CodeScheme of InstructionHours/ WeekScheme of ExaminationTOTAL 0 marksAC180L2IA0T0TW0CreditsP0TM00TOTAL26 hrs/semPO00Course Outcomes:The student will be able to:CO1Describe the Present, past and future status of the Environment.CO2Demonstrate the knowledge of core concepts and components inEnvironmental Science.CO3Explain environment management by equitable handling ofnatural resources, pollution control technologies, biodiversityand ecosystem protection.CO4Identify environmental issues and problems arising due to humanactivities at local, national and global level.UNIT -1The Environment: Definition, Objectives, Principles, Importance, ethics and Scopeof Environmental education, Need for public awareness. Role of an individual inconservation of natural resources.Natural Resources: Renewable and non-renewable resources, Natural resourcesand associated problems.Forest Resources: Use and over-exploitation, deforestation, Timber extraction,mining, dams and their effects on forests and tribal people.UNIT -2Water Resources: Use and over-utilization of surface and ground water, conflictsover water, dams-benefits and problems.Mineral Resources: Use and exploitation, environmental effects of extracting andusing mineral resources, case studies.UNIT -3Food Resources: World food problem, changes caused by agriculture andovergrazing, effects of modern agriculture, fertilizer-pesticide problems, waterlogging, salinity, case studies.Energy Resources: Growing energy needs, renewable and non renewable energysources, use of alternate energy sources. Case studies.Environmental Pollution: Definition, Causes, effects and control measures of- AirPollution, Water Pollution, Marine Pollution and Noise Pollution, Fire works crackers effects and control measures.UNIT -4Solid Waste Management: Causes, effects and control measures of urban andindustrial wastes. Role of an individual in prevention of pollution. Social Issuesand the Environment from Unsustainable to Sustainable development, Urbanproblems related to energy, Water conservation, Rain water harvesting, Watershedmanagement.Disaster Management: Planning, Disaster Preparedness, Response and Recovery.07hrs06hrs07hrs06hrs1

Guidelines of national disaster management division. Rehabilitation policy:Objectives and guidelines.TEXTBOOKS1 S. Deswal, A. Deswal; A Basic Course in Environmental Studies; Dhanpat Rai & Co2Publication. 2015N.K. Uberoi; Environmental Studies, Excel Books Publications New Delhi, first edition;2005.REFERENCES1 D.K. Asthana and Meera Asthana; A Text Book Of Environmental Studies; S. Chand23Publications New Delhi, 1st Edition; 2006.Mrinalini Pandey; Disaster Management; Wile

Convergence of sequence and series-tests for convergence: Integral Test, Comparison test, D’Alembert’s Ratio test, Cauchy root test, Raabe’s Test, Leibnitz test for alternate series. Power series: Radius of convergence and Interval of convergence, Taylor's series, series for exponent

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