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IT: INFORMATION TECHNOLOGY
COMBINED FIRST AND SECOND SEMESTER
Code SubjectHours/Week Internal
Marks
UniversityExamination
EN04 -101
EngineeringMathematics I
3 - - 50 3 100
EN04 -102
EngineeringMathematics II
3 - - 50 3 100
EN04 -103A
EngineeringPhysics(A)
2 - - 50 3 100
EN04 -104A
EngineeringChemistry(A)
2 - - 50 3 100
EN04 -105
Humanities 2 - - 50 3 100
EN04 -106A
EngineeringGraphics(A)
1 - 3 50 3 100
EN04 -107A
EngineeringMechanics(A)
2 1 - 50 3 100
IT04 -108
ComputerProgramming in C
2 - - 50 3 100
IT04 -109
Basic ElectricalEngineering
2 - - 50 3 100
IT04 -110(P)
Civil andMechanicalWorkshop
- - 3 50 - -
IT04 -111(P)
Electrical andElectronicsWorkshop
- - 2 50 - -
TOTAL 19 1 10 550 - 900
DETAILED SYLLABUS
ENO4- 101 : MATHEMATICS I
(Common for all B. Tech. Programmes)
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3 hours lecture per week
Module I: Differential Calculus (15 hours)
Indeterminate forms-L' hospital's rule- radius of curvature-centre ofcurvature - evolute -functions of more than one variable-idea ofpartial differentiation-Euler's Theorem for homogeneous functions-chain rule of partial differentiation-applications in errors andapproximations-change of variables-Jacobians-maxima and minimaof functions of two -method of Litgrange multipliers.
Module II: Infinite series (15 hours)
Notion of convergence and divergence of infinite series-ratio test-comparison test-Raabe's test- root test-series of positive andnegative terms-absolute convergence-test for alternating series-power series -interval of convergence-Taylors and Maclaaurinsseries expansion of functions-Leibnitz formula for the nth derivativeof the product of two functions-use of Leibnitz formula in the Taylorand Maclaurin expansions.
Module III: Matrices (21 hours)
Rank of a matrix- reduction of a matrix to echelon and normalforms- system of linear equations- consistency of linear equations-
Gauss elimination- homogeneous linear equations-fundamentalsystem of solutions- solution of a system of equations using matrixinversion -Eigen values and eigen vectors - Cayley-Hamiltontheorem- Eigen value of Hermitian, skew-hermitian and unitarymatrices- Digitalization of matrix using Eigen values and Eigenvectors-quadratic forms-matrix associated with a quadratic form-definite, semidefinite and indefinite forms.
Module IV: Fourier series and harmonic analysis (15 hours)
Periodic functions-trigonometric series-Fourier series-Euler
formulae-even and odd functions-functions having arbitrary period-half page expansions-approximation by trigonometric polynomials-minimum square error- numerical method for determining FourierCoefficients- harmonic analysis
Reference Books
Michael D. Greenberg, Advanced Engineering Mathematics
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(second edition),Pearson Education Asia. Wylie C.R. and L.C. Barrent, Advanced Engineering
Matematics, McGraw Hill Kreyszig E, Advanced Engineering Mathematics, Wiley
Eastern Piskunov N, Differential and Integral calculus, MIR Publishers Ayres F, Matrices, Schaum's Outline Series, McGraw Hill Sastry, S.S, Engineering Mathematics -Vol.1 and 2, Prentice
Hall of India
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by the
teacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions A and B of 15 marks from module I with choice to
answer anyone
QIII - 2 questions A and B of 15 marks from module II with choiceto answer anyone
QIV - 2 questions A and B of 15 marks from module II with choiceto answer anyone
QV - 2 questions A and B of 15 marks from module IV with choiceto answer anyone
EN04-102 : MATHEMATICS II
(Common for all B.Tech. Programmes)
3 hours lecture per week
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Module I: Ordinary diferential equations (21 hours)
Equations of first order-seperable, homogeneous and linear types-exact equations -orthogonal trajectories-linear second order
equations-homogeneous linear equation of the second order withconstant coefficients-fundamental system of solutions-Solutions ofthe general linear equations of second order with constantcoefficients- method of variation of parameters-Cauchy's equation-simple applications of differential equations in engineeringproblems, including problems in mechanical vibrations, electriccircuits and bending of beams
Module II: Laplace transforms (15 hours)
Gamma and Beta functions- definitions and simple properties-Laplace transform -Inverse transform-Laplace transform-shiftingtheorems-Transforms of derivatives and Integrals- differentiationand integration of transforms -transforms of unit step function andimpulse function-transform of periodic functions -solution ofordinary differential equations using Laplace transforms
Module III: Vector differential calculus (15 hours)
Vector function of single variable -differentiation of vectorfunctions-scalar and vector fields- gradient of scalar field-
divergence and curl of vector fields-their physical meanings-relations between the vector differential operators
Module IV: Vector integral calculus (15 hours)
Double and triple integrals and their evaluation -line, surface andvolume integrals-Green's theorem- Gauss divergence theorem-Stocke's theorem (proofs of these theorems not expected)- lineintegrals independent of the path.
Reference Books
Michael D. Greenberg, Advanced Engineering Mathematics(second edition), Pearson Education Asia
Wylie C.R. and L.C. Barrent, Advanced EngineeringMathematics, McGraw Hill
Kreyszig E, Advanced Engineering Mathematics,WileyEastern
Piskunov N, Differential and Integral calculus, MIR Publishers
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Ayres F, Matrices, Schaum's Outline series, McGraw Hill Sastry, S.S, Engineering Mathematics - Vol 1 and 2, Prentice
Hall of India
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions A and B of 15 marks from module I with choice toanswer anyone
QIII - 2 questions A and B of 15 marks from module II with choiceto answer anyone
QIV - 2 questions A and B of 15 marks from module II with choiceto answer anyone
QV - 2 questions A and B of 15 marks from module IV with choiceto answer anyone
EN04-103A : ENGINEERING PHYSICS(A)
(Common for AI, CS, EE, EC, IT, IC, BM, BT, PT)
2 hours lecture per week
Module I: (11 hours)
Semi conductor Physics- Formation of energy bands in solids-Classification of solids on the basis of energy band gap-Intrinsicand extrinsic semiconductors -Elemental and compoundSemiconductors -Fermi level in intrinsic semiconductor-Electronand hole concentrations in intrinsic semiconductor in thermalequilibrium -law of mass action Eectrical conductivity of intrinsic
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semi conductor-Fermi level in n-type and p-type semiconductors-Electrical conductivity of extrinsic semi conductor-Diffusion andtotal current. Application of semiconductors-Band model of p-njunction- Junction diode and its characteristics - characteristics of a
transistor in common emitter configuration -Input, outputresistance and current amplification factor -light emitting diode,photo diode, solar cell, photo resistor (LDR) , photo transistor, liquidcrystal display (LCD) and zener diode-Avalanche and zenerbreakdown-Application of zener diode as a voltage regulator.
Hall effect in semi conductors - Derivation of Hall coefficient-Detremination of Hall coefficient by measuring Hall voltage-Applications of Hall effect.
Super conductivity -Properties of super conductors (critical
magnetic field, Meisnner effect, critical current, flux quantization)- Types of super conductors-BCS theory of super conductivity of(Qualitative)- Josephon's effect-Theory of d.c. Josephon's effect-SQUID- Applications of super conductivity.
Module II: (11 hours)
Interference of light- Interference due to division of amplitude -Interference from plane parallel thin films-Colours of thin films inreflected and transmitted light-Newton's rings-measurement ofWavelength and refractive index-Thin wedge shaped film-Air wedge
-testing of optical planeness of surfaces.
Interferometry-Michelson's interferometer-Types of fringes-Visibility of fringes-Application of Michelson's interferometer indetermination of wavelength of monochromatic light, resolution ofspectral lines and refractive index of gase.
Diffraction of light-Introduction of Fresnel and Fraunhoffer class ofdiffraction and their distinction Fresnels diffraction and rectilinearpropogation of light - Diffraction pattern due to straight edge andexpression for intensity maximum and minimum-Fraunhofferdiffraction- Simple theory of diffraction grating, its construction andworking -Rayleigh's criteria. For resolution of spectral lines-resolving power and dispersive power of grating.
Module III: (11 hours)
Poarisation of light-Double refraction-Huygen's explanation of
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double refraction in uniaxial crystals-Positive and negative crystals-Nicol prism, construction and working -quarter and half wave plates-Theory of circularly and elliptically polarized light, their productionand detection -Rotatory polarization -Laurent's half shade (brief
expansion)-laurent's half shade polarimeter-Applications ofpolarized light. Laser physics-Basic concepts and properties oflaser-Spontaneous and stimulated emission - Expression for ratio oftheir coefficients- Absorption, population inversion and opticalpumping -Construction and components of a laser -Ruby, Heliumand Neon and semiconductor lasers-Application of lasers.
Basic principles of holography and its application.
Fibre optics-Basic principle-fibre dimensios and construction-Stepindex single mode and multi mode fibre- Graded index fibre-
Numerical aperature and acceptance angle- Signal distortion inoptical fibres and transmission losses (brief ideas only)-optic fibrecommunication (block diagram) and it's advantages-Applications ofoptic fibres.
Module IV: (11 hours)
Planck's quantum theory -Absorbing power, reflecting power andtransmitting power of body or surface- perfect black body-Distribution energy in the spectrum of a black body -Wein'sdisplacement law- Planck's hypotheses-Derivation of Planck's law
of radiation.
Quantum mechanics-Distinction between Newtonian and quantummechanics-Schroedinger wave equation for free particle-Potentialin Schrodinger equation-Time dependent and time independentschroedinger equations and their derivations-Expectation values-Applications-Particles in a box( motion in one dimension)
Ultrasonics-Piezo electric effect -Piezo electric crystal -Production ofultrasonics by piezo-electric oscillator-detecton of ultrasonics-general properties and applications of Ultrasonics-Ultrasonicdiffractometer and determination of velocity of ultrasonic in aliquid.
Text
Sreenivasan M.R, Physics for Engineers, New AgeInternational
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Vasudeva A.S, modern Engineering Physics, S.Shand S.O. Pillai, Solid state Physics, New Age International
Reference books
Tyagi, M.S. Introduction to semi conductor materials anddevices,John Wiley and sons Mayer, Introduction to classical and modern optics, Arendt John Senior, Fibre optic communication G Aruldhas, Quantum mechanics, Prentice Hall of India Murukesan R, Modern Physics- s.Chand and Co Brijlal and Subrahmanyam N, Text Book of Optics, S.Chand Kale Gokhale; Fundamentalspf Solid State Electronics, Kitab
Mahal Guptha S.L. and Kumar, V; Solid State Physics, K. Nath
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions A and B of 15 marks from module I with choice toanswer anyone
QIII - 2 questions A and B of 15 marks from module II with choiceto answer anyone
QIV - 2 questions A and B of 15 marks from module III with choice
to answer anyone
QV - 2 questions A and B of 15 marks from module IV with choiceto answer anyone
EN04-103A : ENGINEERING PHYSICS(A)
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spectral lines and refractive index of gase.
Diffraction of light-Introduction of Fresnel and Fraunhoffer class ofdiffraction and their distinction Fresnels diffraction and rectilinear
propogation of light - Diffraction pattern due to straight edge andexpression for intensity maximum and minimum-Fraunhofferdiffraction- Simple theory of diffraction grating, its construction andworking -Rayleigh's criteria. For resolution of spectral lines-resolving power and dispersive power of grating.
Module III: (11 hours)
Poarisation of light-Double refraction-Huygen's explanation ofdouble refraction in uniaxial crystals-Positive and negative crystals-Nicol prism, construction and working -quarter and half wave plates
-Theory of circularly and elliptically polarized light, their productionand detection -Rotatory polarization -Laurent's half shade (briefexpansion)-laurent's half shade polarimeter-Applications ofpolarized light. Laser physics-Basic concepts and properties oflaser-Spontaneous and stimulated emission - Expression for ratio oftheir coefficients- Absorption, population inversion and opticalpumping -Construction and components of a laser -Ruby, Heliumand Neon and semiconductor lasers-Application of lasers.
Basic principles of holography and its application.
Fibre optics-Basic principle-fibre dimensios and construction-Stepindex single mode and multi mode fibre- Graded index fibre-Numerical aperature and acceptance angle- Signal distortion inoptical fibres and transmission losses (brief ideas only)-optic fibrecommunication (block diagram) and it's advantages-Applications ofoptic fibres.
Module IV: (11 hours)
Planck's quantum theory -Absorbing power, reflecting power and
transmitting power of body or surface- perfect black body-Distribution energy in the spectrum of a black body -Wein'sdisplacement law- Planck's hypotheses-Derivation of Planck's lawof radiation.
Quantum mechanics-Distinction between Newtonian and quantummechanics-Schroedinger wave equation for free particle-Potentialin Schrodinger equation-Time dependent and time independent
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schroedinger equations and their derivations-Expectation values-Applications-Particles in a box( motion in one dimension)
Ultrasonics-Piezo electric effect -Piezo electric crystal -Production of
ultrasonics by piezo-electric oscillator-detecton of ultrasonics-general properties and applications of Ultrasonics-Ultrasonicdiffractometer and determination of velocity of ultrasonic in aliquid.
Text
Sreenivasan M.R, Physics for Engineers, New AgeInternational
Vasudeva A.S, modern Engineering Physics, S.Shand S.O. Pillai, Solid state Physics, New Age International
Reference books
Tyagi, M.S. Introduction to semi conductor materials anddevices,John Wiley and sons
Mayer, Introduction to classical and modern optics, Arendt John Senior, Fibre optic communication G Aruldhas, Quantum mechanics, Prentice Hall of India Murukesan R, Modern Physics- s.Chand and Co Brijlal and Subrahmanyam N, Text Book of Optics, S.Chand Kale Gokhale; Fundamentalspf Solid State Electronics, Kitab
Mahal Guptha S.L. and Kumar, V; Solid State Physics, K. Nath
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module I with choice to
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answer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
EN04-103(P) : PHYSICS LAB(A)
(Common for AI, EE,EC, IC, BM, BT)
1 hour lab per week or 2 hours lab per alternate weeks
Band gap energy in a semi conductor using a reverse biasedp-n junction.
Static characteristics of a transistor(p-n-p or n-p-n) incommon emitter configuration.
Characteristic of a Zener diode Characteristic of a LED and wave length of emitted radiation Characteristic of a Photo diode Characteristics of a photo resistor (LDR) Voltage regulation using Zener diode
Wavelength of mercury spectral lines using diffractiongrating and spectrometer.
Refractive indices of ordinary and extra ordinary rays incalcite or in quarts prisms.
Wave length of sodiumlight by Newton's rings method. Diameter of a thin wire or thickness of a thin paper by air
wedge method. Specific rotatory power of cane sugar solution using
polarimeter Frequency of an electrically maintained tuning fork
(transverse and longitudinal mode)
Wave length and velocity of ultrasonic waves usingultrasonic difractometer.
Divergence of laser beams using He-Ne laser or diode laser Wave length of laser using transmission grating. Resolving and dispersive power of a grating. Wave length of monochromatic light by straight edge using
laser beam. Characteristics of a solar cell.
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Planck's constant using photo-electric cell or solar cell Hall coefficient by measuring Hall voltage in a semi
conductor Measurement of numerical aperature, acceptance angle and
attenuation in an optical fibre.
Measurement of displacements using optic fibre. Michelson's interferometer-Determination of wavelength of a
monochromatic source, resolution of spectral lines andrefractive index of gas.
(Any 12 experiments should be done)
Reference Books
Practical Physics with viva voice- Dr. S.L. Guptha and Dr. V.Kumar -Publishers- Pragati Prakashan
Experiments in Engineering Physics- M.N. Avadhanulu, A.A.Dani and R.M. Pockley-Publishers-S.chand.
Internal work assessment
Lab practicals and record = 15
Test/s = 10
Total Marks = 25
EN04-104A: ENGINEERING CHEMISTRY(A)
(Common for AI, CS, EE, EC, IT, IC, BM, BT, PT)
2 hours lecture per week
SECTION -1
CHEMISTRY OF ENGINEERING MATERIALS
Module 1 (13 hours)
Solids: Classification of solids with examples-(crystalline-Polycrystalline-Amorphous-Partially melted solids-(KCN)-Supercooled liquids-(Glass) - liquid crystals) (1 hour)
Crystalline state: Steno's law -Internal structure-Space lattices-Crystallographic axes-law of rational indices -Crystal systems-Elements of symmetry -X-ray study-Bragg's equation (derivation)
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single crystal and powder method -(Deybe -Scherrer Camera) Cubicsystems-Structure elucidation- d100:d110:d111 ratio (problems to beworked out)-crystal imperfections (point-line-surface-volume-burgers vector- dislocations-edge and screw) Physical properties,
bonding characteristics and Structure relation of - (covalent solids-Ionic solids-metals)- metallic bonding-stacking of atoms-(ABCABC.), (ABAB..)- tetrahedral and octahedralvoids -Alloys-Hume Rothery rule -Conductivity-resistivity -(Freeelectron theory -explanation with Fermi-Dirac statistics ) - Fermilevel-Applications of conductors-(transmission lines-OFHS Copper,ACSR, contact materials, Precision resistors- heating elements-Resistance thermometers)- Super Conductors(type I and IIexamples) (5 hours)
Semiconductors- Band theory -(MOT) Valence band-Conduction
band-intrinsic and extrinsic semiconductors-Fabrication ofsemiconductor materials - Crystal Growth -ultra pure Siliconproduction -zone refining -fabricationof Integrated Circuits(IC) (2hours)
Dielectric materials - Polarization - Ferro - Electricity -Piezoelectricity-Applications with examples-Introduction to NanoScience -carbon nano tubes and nano wires (1 hour)
Non-crystalline state -glass- properties- (applications- conductingglasses-solid supported liquids-(stationary phases in reverse phase
chromatography)-Optical fibre (1 hour)
Liquid crystals -characterization-Nematic phase Smectic Phase-Cholestric Phases -Columnar Phases-Chemical Properties-thermotropic-lyotropic-epitaxial-growyh-Freedericksz transition-applications-Liquid crystal thermometers-LCD displays (3 hours)
Reference
J.D. Lee (1996) Concise Inorganic Chemistry, Chapman andHall Ltd. London, pp-1032
S. Glasstone (1997) Textbook of Physical ChemistryMacmillan, New Delhi, pp-1320
P.W. Atkins (1987) Physical Chemistry Oxford UniversityPress, Oxford, pp-857
P.W. Atkins and J. Depaula (2001) Physical Chemistry W.H.Freeman and Co, pp-1000
V. Raghavan (2000) Material Science and Engineering-Afirst Course Fourth edition, Prentice Hall of India Pvt. Ltd.,
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New Delhi, pp-485 L.H. Van Vlack (1998) Elements of Materials Science and
Engineering Sixth Edition, Addison-Wesley, London pp-598 J.W. Goodby (1997) Chemistry of liquid crystals VCH
Publishing, pp-400
K.W. Kolasinski (2002) Surface Science: Foundations ofCatalysis and Nano science John-Wiley and Sons, pp-326 K.J. Klaubunde (2001), Nano Scale materials in Chemistry
Wiley- interscience, pp-304 J.I. Gersten and F.W. Smith (2001) The Physics and
Chemistry of Materials Wiley-Interscience, pp-856
Module 2 (13 hours)
High Polymers and Lubricants-Classification of Polymers- (Naturaland Synthetic, Organic and Inorganic, Thermoplastic and
Thermosetting, plastics, Elastomers, Fibres and liquid resins)Polymerization (Chain polymerization Polythene-PVC-Teflon-Polystyrene-Poly-methylmethacrylate) Condensationpolymerization (Polyamide and polyesters) Co-polymerization(Buna-S, Buna-N, PVC-Co-polyvinyl acetate, PAN- Co-polyvinyl chloride), Coordination polymerization (Zeigler -NattaPolymerization) - Electro chemical Polymerization-Metatheticalpolymerization -Group transfer Polymerization (3 hours)
Mechanism of polymerization (Cationic, anionic and free radical).Polymerization techniques ( Bulk polymerization, Solution
polymerization, Suspension polymerization, Emulsionpolymerization, Melt poly condensation, solution poly condensation,Interfacial condensation, Solid and Gas Phase Polymerization (2hours)
Structure relation to properties (Chemicalresistance,Strength,plastic deformation, Extensibility, Crystallinity)-Mol.Wt of polymers-Number average Molecular wt. Weight averageMol. Wt- Gel Permeation Chromatography. (1 hour)
Thermosetting resins (Bakelite, Urea-Formaldehyde, Silicones),
Thermoplastic resins|(Acrylonitrile, PVC, PVA, PS, PMMA,PE)- Fibres(Nylon6, nylon66, 10, Cellulose fibres, dacron, Kevlar) Applicationof polymers in electronic and electrical industry. Elastomers-Natural rubber-Structure-Vulcanization-Synthetic rubbers(Neoprene, Buna-S, Buna-n, Thiokol, Silicon rubber) (3 hours)
Compounding of Plastics (Filters, Plasticizers, lubricants, pigments,antioxidants, Stabilizers) and Fabrication (Calendaring, Die casting,
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film casting, Compression, injection, Extrusion and Blow moulding,Thermoforming, Foaming, Reinforcing) (1 hour)
Lubricants: Theory of friction-Mechanisms of Lubrication-Fluid film
or hydrodynamic, thin film or boundary lubrication, extremepressure lubrication-Classification of Lubricants-(Liquid (animal andvegetable oils, Petroleum oils), Semi-solid, (Ca-soap grease, Li-soap grease, Al-soap grease, Axle soap grease) Solid lubricants (Di-basic acid esters, Poly glycol ethers, Organo phosphates, Organosilicones). Properties of Lubricants (Viscosity index, Cloud point andpour point, flash point and fire point, Corrosion stability,emulsification, Aniline point). Additives and their functions (Fattyacids, Sulphurised fats, Phenols, Calcium sulphonates, Organo-metallics, Hexanol, Amine phosphates, Tricresyl phosphates, Siliconpolymers) (3 hours)
Reference
B.R. Gowariker et al (2002), Polymer Science, New AgeInternational pp-505
B.W. Gonser et al (1964), Modern Materials-advances indevelopment and application Vol 1-7, Academic Press, NewYork.
Module 3 (9 hours)
Electrochemistry: Single Electrode potential (theory-Nernstequation, derivation from thermodynamic principles)-types ofelectrodes (M|M+|, M|MA|A-, M|A+, A+2, Pt|Cl2|Cl-, Pt|O2|OH- -glasselectrode) Electrochemical cells -concentration cells- Salt bridge-Liquid junction potential -emf measurements -Poggendorf'scompensation method-digital method -electrochemical series -overvoltage -theory - application in corrosion control-Polarogarphy-storage cells-lead acid, Ni/Cd- Fuel cells- H2/O2 fuel cells (Baconcell), Hydrocarbon/air fuel cell -Bio-chemical fuel Cell (5 hours)
Acid-Bases- (Lowry-Bronsted and Lewis concepts-examples)-
concept of pH -pH measurement- (instrumental details recquired)-Dissociation constants -Potentiometric titrations - (Neutralization,Oxidation-reduction and Preciptation) Buffer solutions -Henderson'sequation for calculation of pH (4 hours)
Reference
S. Glasstone (1997) Text book of Physical Chemistry
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Macmillan, New Delhi, pp-1320 P.W. Atkins (1987) Physical Chemistry Oxford University
Press, Oxford, pp-857 C.A. Hampel (Ed) (1964) encyclopedia of the Electro
chemistry, Reinhold Publishing Corportation, Newyork,pp.1206 A.Standen (Ed) (1964) Kirk-Othmr Encyclopaedia of
Chemical Technology, Vol. 3, John Wiley and Sons, Inc, NewYork, pp-925
SECTION-2
CHEMISTRY OF MATERIAL AND ENVIRONMENTAL DAMAGE
Module -4 (9 hours)
Material damages and prevention: Corrosion-theoreticalaspects- (electrochemical; theory) - galvanic series-Pourbiaxdiagram-assessment of corrosion potential of materials- Types of corrosion-Dry corrosion-direct chemical-Wet Corrosion-Electrochemical-differential aeration-Corrosion of Iron in acidicneutral, basic condition (Corrosion in boilers)-Galvanic corrosion-(corrosion at contact points in computers-Ag/Au)-Inter granularcorrosion (18-8 Steel). Microbial corrosion-factors influencingcorrosion.
Corrosion protection-Self protecting corrosion products-Pilling-Bedworth rule-Coatings -organic -(paints and polymesr)-InorganicCoatings-Galvanizing (dip coating, Sherardizing, Wire-gun method)- Tinning-Electroplating- (Chromium, Nickel), Anodizaion ofAluminium-Passivation of metals by chemical treatment-Protectionby Sacrificial Anode-Impressed current. (4 hours)
Environmental damages and prevention:
Pollution-Definitions-Classification of pollutants(Global, regional,Local; Persistent and Non persistent; Pollutants-Eg: CO2, CO, SOx,
NOx, VOC, SPM, CFC, POP, Dissolved metals)-effects onenvironments -Air pollution-Fossil fuel burning-Automobileexhausts-Photchemical smog-PAN, PBN formation, chemicalequations required)-Stratospheric Ozone depletion-CFCs-Nomenclature CFC's - Chapman cycle of Ozone formation -CFCdissociation and its reaction with Ozone-Alternate refrigerants-Monitoring of pollution -gases (CO, SO2, NOx) and particulate (Highvolume sampler )- Pollution from thermal power plants-Caol
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composition- fly ash-Thermal pollution.
Methods of control of Air pollution-Bag filters, cyclones, Scrubbing,ESP, Catalytic converters-composition and action with CO, NOx.
Water pollution-pollutant classification- (Organic, Inorganic,Suspended and dissolved-Toxic metal waste-BOD-COD)-Monitoring(analytical methods- brief discussion) and control-waste watertreatment- aerobic, Anaerobic- USAB process-industrial wastewater treatment- solid pollution-solid waste- radio nuclides-Toxicmetals-Monitoring and control -incineration-Dioxins-hazardouswaste-deep-well injection (5 hours)
Reference
L.L Shreir (Ed) Corrosion Control Vol I and II, Newnes-
Butterworths, London C.A. Hampel (Ed), Encyclopaedia of Electrochemistry
Reinhold Publishing corporation, pp-1206 V. raghavan (2000), Material Science and Engineering- A
First Course, Prentice Hall of India Pvt. Ltd, New Delhi, pp-485
A.K. De (1996), Environmental Chemistry, New AgeInternational Pvt. Ltd, New Delhi, pp-364
C.N. Sawyer and P.L.McCarty (1989), Chemistry forEnvironmental Engineering McGraw Hill Book company, NewDelhi, pp-530
H.S. Peavi, D.R. Rowe and G.Tchobangoglous (1985),Environmental Engineering McGraw hill International, pp-720
S.P. Mahajan (1985) Pollution Control in Process IndustriesTata McGraw Hill, New Delhi, pp-273
S.E. Manahan (1975) Environmental Chemistry, WillardGrant Press, Boston, pp-532.
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
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Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module I with choice toanswer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
EN04-104A (P): CHEMISTRY LAB (A)
(Common for AI, EE, EC, IC, BM, BT)
1hour lab per week or 2 hour lab per alternate weeks
List of experiments
Estimation of purity of Copper (Iodometric method) Estimation of purity of Aluminium (EDTA method) Crystal growth (melt grouth, solution grouth-CuSO4,KDP,ADP
crystals) Phenol formaldehyde-preparation and study of properties Urea formaldehyde-preparation and study of properties Flash and fire point-Martens apparatus Measurements of Single Electrode potential-Poggendorf's
method (M|M+ M|MA|A-, Salt bridge preparation, calculation
of Junction potential) Corrosion potential measurement of certain metal and alloys
in 3.5% salt solution (steel (18-8), AI, CU, Brass, Bronze,Monel metalor alloys of industrial use)- Potentiodynamics andPotentiostatics methods.
.pH meter-Caliberation and measurement of pH-preparationof Buffers- Calculation of pH by Henderson's equation andverification.
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Potentiometric titration of acid and base-plots ofE/V,E/V,2E/V2 plots.
electrodepostion- plating of Copper-detection of thethickness or the layer deposited. Anodizing of aluminium-characteristics of the coating.
Estimation of SO2, NO2, H2S. calculation of concentration inppm and microgram per M3 and comparison of data withpermitted levels.
Estimation of Pb, Cd in water-colourimetric method. Estimation of Fluoride(Alizarin dye method),Nitrate in water-
colourimetric method Estimation of Dissolved oxygen (Winklers method) Identification tests for certain common plastics(PE, PVC,
Nylon, PET, etc) Preparation of some liquid crystals and study of their
properties.
(At least 12 experiments should be done)
Internal work assessment
Lab practical and record = 10+5
(Lab performance to be evaluated by the thoroughness of theprocedure practices, results of each experiments and punctualityin the submission of rough and fare records)
Test/s = 10
Total marks = 25
EN04-105: HUMANITIES
(Common for all B.Tech Programmes)
2 Hours Lecture Per Week
Module I: (10 hours)
Introduction to english usage and grammar-review of grammar-affixes, prefixes, suffixes, participles and gerunds-transformation ofsentences-commonly misspelt words -correction of mistakes-punctuation-idioms-style-vocabulary building
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Reading comprehension -exposure to a variety of readingmaterials, articles, essays-graphic representation, journalisticarticles, etc.
Writing comprehension-skills to express ideas in sentences,paragraphs and essays.
Module II: (10 hours)
Technical communication and report writing
Need, importance and characteristics of technical communication-correspondence on technical mattres-aspects of technicaldescription of machinery, equivalent and processes-givinginstructions in an industrial situation-note taking and note making-
correspondence on technical topics-different types of technicalreports
Module III: (14 hours)
History of science and technology
Science and technology in the primitive society-the development ofhuman civilization from primitive to modern society -impact ofsciences and technology on societies-cultural and industrialrevolutions-the rise and development of early indian science-
contribution of indian scientist-j c boss, c v raman, visweswaraya-ramanujan and bhabha-gandhian concepts-recent advances inindian science.
Moduel IV: (10 hours)
Humanities in a technological age
Importance of humanities to technology, education and society-relation of career interests of engineers to humanities-relevance ofa scientific temper-science, society and culkture
Reference Books
Huddleston R, English Grammar-An Outline, CambridgeUniversity Press
Pennyor, Grammar Practice Activities,Cambridge UniversityPress
Murphy, Intermediate English Grammar, Cambridge
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University Press Hashemi, Intermediate English Grammar-Supplementary
Exercises With Answers, Cambridge University Press Vesilind; Engineering, Ethics And The Environment,
Cambridge University Press
Larson E; History Of Inventions,Thompson Press India Ltd. Bernal J.D, Science In History, Penguin Books Ltd Dampier W.C, History Of Science, Cambridge University
Press Encyclopaedia Britannica, History Of Science, History Of
Technology Subrayappa; History Of Science In India, National Academy
Of Science, India Brownski J, Science And Human Values, Harper And Row Schrodinger , Nature And Greeks And Science And
Humanism, Cambridge University Press
Bossel H, Earth At A Crossroads-Paths T A SustainableFuture, Cambridge University Press
Mccarthy, English Vocabulary In Use, Cambridge UniversityPress
Anna University, English For Engineers Andtechnologists,.Orient Longman
Meenakshi Raman Et Al, Technical Communication-PrinciplesAnd Practice, Oxford University Press
Internal assessment
One essay relevant topic 10
One technical report 10
2 test 2x15 30
Total marks = 50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module i with choice toanswer anyone
QIII - 2 questions of 15 marks each from module ii with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice to
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answer anyone
QV - 2 questions of 15 marks each from module iv with choice toanswer anyone
EN04-106A : ENGINEERING GRAPHICS (A)
(Common for AI, CS, EE, EC, IT, PT, BM, PT)
1 hour lecture and 3 hours drawing
Module 0: (8 hours- I drawing exercises)
Drawing instruments and their use-different types of lines-letteringand dimensioning-familiarizationwith current Indian standard code
of practice for general engineering drawing. Construction of ellipse,parabola and hyperbola. Construction of cycloid, involute and helix.Introduction to computer aided drafting. (For practice only, not foruniversity examination)
Module I: (12 hours- 3 drawing exercises)
A) Introduction to orthographic projections -vertical, horizontal andprofile palne-principles of first angle and third angle projections.Projections of points in different quadrants. Orthographicprojections of straight lines parallel to one plane and inclined to the
other plane-straight lines inclined to both the planes and occupiedin one quadrants-traces of lines.
B) True length and inclination of a line with reference planes. Lineoccupied in more than one quadrant. Line inclined to the tworeference planes but parallel to the profile plane. Line dimensionedin surveyor's unit.
Module II: (16 hours- 3 drawing exercises)
A) Projections of plane laminae of geometrical shapes parallel to
one plane and inclined to other plane- plane laminae inclined toboth the planes.auxiliary projections of plane laminae. Projectionsof laminae inclined to the two reference planes but perpendicularto the profile plane.
B) Projections of polyhedra and solids of revolution -frustums-projections of solids with axis parallel to one plane and inclined toother plane. Projections of solids with the axis inclined to both the
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planes. (solids to be drawn: cube, prisms, pyramids, tetrahedron,cone and cylinder). Projections of solids on auxiliary planes.Projection of combinations of solids. (solids to be drawn: prisms,pyramids, tetrahedron, cube, cone, and sphere)
Module III: (12 hours- 3 drawing exercises)
A) Sections of solids -sections by planes parallel to the horizontal orvertical planes and by planes inclined to the horizontal or verticalplanes. True shape of section by projecting on auxiliary plane,(solids to be drawn: cube, prisms, pyramids, tetrahedron, cone andcylinder)
B) Development of surfaces of solids -method of parallel line, radialline, triangulation and approximate developments. Development of
polyhedra, cylinder, cone and sectioned solids. Developments ofsolids having hole or cut.
Module IV: (12 hours- 3 drawing exercises)
A) Introduction to isometric projection-isometric scale-isometricprojections of prisms, pyramids,cylinder,cone, spheres,sectionedsolids and combinations of them. Principle of oblique projection-cavalier, cabinet and general oblique projections of solids andsimple objects
B) Introduction to perspective projections-classification ofperspective views-parallel, angular and oblique perspectives-visualray method and vanishing point method of drawing perspectiveprojection-perspective views of prisms, pyramids and circles
Module V: (12 hours- 6 drawing exercises)
A) Introduction to multiview projection of objects-the principle ofthe six orthographic views -conversion of pictorial views of simpleengineering objects into orthographic views.
B) Conventional representation of threaded fasteners. Drawing ofnuts, bolts, washers and screws. Locking arrangements of nuts.Bolted and screwed joints. Foundation bolts of eye end type hookend type and split end type.
Note: All drawing exercises mentioned above are for class work.Additional exercise where ever necessary may be given as home
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assignments.
Text Books
John K.C, Engineering Graphics,Jet Publications P.I. Varghese, Engineering Graphics, Vip Publications Bhatt N.D, Elementary Engineering Drawing, Charotar
Publishing House
Reference Books
Luzadder W.J., Fundamentals Of EngineeringDrawing,Prentice Hall Of India
Narayana K.L and Kannaiah P, Engineering Graphics, TataMcgraw Hill
Gill P.S., Geometrical Drawing, Kataria And Sons
Internal work assessment
Drawing exercise (best10) 10x3 =30
2tests 2x10=20
Total marks = 50
University examination pattern
No question from module 0
QI - 2 questions A and B of 20 marks from module I with choice toanswer anyone
QII - 2 questions A and B of 20 marks from module II with choice toanswer anyone
QIII - 2 questions A and B of 20 marks from module III with choiceto answer anyone
QIV - 2 questions A and B of 20 marks from module IV with choiceto answer anyone
QV - 2 questions A and B of 20 marks from module V with choiceto answer anyone
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EN04-107A : ENGINEERING MECHANICS(A)
(Common for AI, CH, CS, EE, EC, IT, IC, BM, BT, PT)
2 hour lecture and 1 hour tutorial per week
Objectives
To acquaint the student with general method of analyzingengineering problems
To illustrate the application of the method to solve thepractical engineering problems.
Module I: (17 hours)
Principles of static-free body diagrams-Coplanar forces and forcesand force system-resultant and equilibrium conditions forconcurrent, parallel and general system of forces-solutions ofproblems by scalar approach. Introduction vector approach(application to simple problems only)- concurrent forces in space -resultant-equilibrium of a practical in space -Non-concurrent forcesin space-resultant of force of system
Module II: (17 hours)
Friction-loss of friction-simple contact friction problem-wedge,
screw jack and its efficiency. Properties of surfaces-first momentand centroid of curve and area-centroid of composite plane figures-theorems of Pappus-guldinus-second moments of plane figures andcomposite sections-transfer theorem-polar moments of areas-product of areas and principal access (Conceptual level treatmentonly). Moment of inertia of rigid body-M.I of a lamina-M.I of 3dimensional bodies (cylinder, circular rod, sphere)
Module III: (17 hours)
Introduction to structural mechanics-different types of support,
loads and beams-reactions and support. Shear forces and bendingmoments diagrams for Cantilever and simply supported beams(only for concentrated and uniformly distributed load cases).
Plane trusses-types of trusses (perfect, deficient and redundant,trusses)-Analysis of trusses-Method of joints-Method of sections.
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Module IV: (15 hours)
Kinetics of rectilinear motion-Newton's second law-D'Alembert'sprinciple- Motion on horizontal and inclined surfaces-Analysis of lift
motion- Motion of connected bodies.
Curvilinear motion-equation of motion-Tangential and normalacceleration-Centripetal and centrifugal forces-Motion of vehicles ofcircular path.
Work, power and energy-Work done by a force -work of the forcegravity and force of spring-Work-energy equation-Transformationand conservation of energy-Applications to problems.
Kinematics of rotation-rigid body rotation about a fixed axis-
rotation under the action of constant moment.
Introduction to mechanical vibrations-simple harmonic motion-freevibration-Oscillation of spring-Torsional vibration
Text books
Timoshenko and Young, Engineering Mechanics, McGrawHill Publishers
Hibbler, Engineering Mechanics, Vol.I statics, Vol IIDynamics, Pearson
Shames. I.H, Engineering Mechanics-Statics and Dynamics,Prentice Hall of India
Reference Books
Beer.F.P and Johnson E.R, Mechanics for Engineers-Staticsand Dynamics, McGraw Hill Publishers.
Rajasekharan and Sankarsubrahmanian, EngineeringMechanics, VIkas Publishing House
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher. (At least one assignment should be computer based usingspreadsheet or suitable tools)
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10% - Other measures like Regularity and Participation in Class.
Total Marks = 50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module (inwhich, at least 5 questions to be numerical)
QII - 2 questions of 15 marks each from module I with choice toanswer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
(QII toV can have subdivisions and at least 80% weightage fornumerical problems)
Module I: Differential Calculus (15 hours)
Indeterminate forms-L' hospital's rule- radius of curvature-centre ofcurvature - evolute -functions of more than one variable-idea ofpartial differentiation-Euler's Theorem for homogeneous functions-chain rule of partial differentiation-applications in errors andapproximations-change of variables-Jacobians-maxima and minimaof functions of two -method of Litgrange multipliers.
Module II: Infinite series (15 hours)
Notion of convergence and divergence of infinite series-ratio test
-comparison test-Raabe's test- root test-series of positive andnegative terms-absolute convergence-test for alternating series-power series -interval of convergence-Taylors and Maclaaurinsseries expansion of functions-Leibnitz formula for the nth derivativeof the product of two functions-use of Leibnitz formula in the Taylorand Maclaurin expansions.
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Module III: Matrices (21 hours)
Rank of a matrix- reduction of a matrix to echelon and normalforms- system of linear equations- consistency of linear equations-
Gauss elimination- homogeneous linear equations-fundamentalsystem of solutions- solution of a system of equations using matrixinversion -Eigen values and eigen vectors - Cayley-Hamiltontheorem- Eigen value of Hermitian, skew-hermitian and unitarymatrices- Digitalization of matrix using Eigen values and Eigenvectors-quadratic forms-matrix associated with a quadratic form-definite, semidefinite and indefinite forms.
Module IV: Fourier series and harmonic analysis (15 hours)
Periodic functions-trigonometric series-Fourier series-Eulerformulae-even and odd functions-functions having arbitrary period-half page expansions-approximation by trigonometric polynomials-minimum square error- numerical method for determining FourierCoefficients- harmonic analysis
Reference Books
Michael D. Greenberg, Advanced Engineering Mathematics(second edition),Pearson Education Asia.
Wylie C.R. and L.C. Barrent, Advanced Engineering
Matematics, McGraw Hill Kreyszig E, Advanced Engineering Mathematics, WileyEastern
Piskunov N, Differential and Integral calculus, MIR Publishers Ayres F, Matrices, Schaum's Outline Series, McGraw Hill Sastry, S.S, Engineering Mathematics -Vol.1 and 2, Prentice
Hall of India
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
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University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module I with choice toanswer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
EN04-102 : MATHEMATICS II
(Common for all B.Tech. Programmes)
3 hours lecture per week
Module I: Ordinary diferential equations (21 hours)
Equations of first order-seperable, homogeneous and linear types-exact equations -orthogonal trajectories-linear second order
equations-homogeneous linear equation of the second order withconstant coefficients-fundamental system of solutions-Solutions ofthe general linear equations of second order with constantcoefficients- method of variation of parameters-Cauchy's equation-simple applications of differential equations in engineeringproblems, including problems in mechanical vibrations, electriccircuits and bending of beams
Module II: Laplace transforms (15 hours)
Gamma and Beta functions- definitions and simple properties-Laplace transform -Inverse transform-Laplace transform-shiftingtheorems-Transforms of derivatives and Integrals- differentiationand integration of transforms -transforms of unit step function andimpulse function-transform of periodic functions -solution ofordinary differential equations using Laplace transforms
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Module III: Vector differential calculus (15 hours)
Vector function of single variable -differentiation of vectorfunctions-scalar and vector fields- gradient of scalar field-
divergence and curl of vector fields-their physical meanings-relations between the vector differential operators
Module IV: Vector integral calculus (15 hours)
Double and triple integrals and their evaluation -line, surface andvolume integrals-Green's theorem- Gauss divergence theorem-Stocke's theorem (proofs of these theorems not expected)- lineintegrals independent of the path.
Reference Books
Michael D. Greenberg, Advanced Engineering Mathematics(second edition), Pearson Education Asia
Wylie C.R. and L.C. Barrent, Advanced EngineeringMathematics, McGraw Hill
Kreyszig E, Advanced Engineering Mathematics,WileyEastern
Piskunov N, Differential and Integral calculus, MIR Publishers Ayres F, Matrices, Schaum's Outline series, McGraw Hill Sastry, S.S, Engineering Mathematics - Vol 1 and 2, Prentice
Hall of India
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module I with choice to
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answer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
EN04-103A : ENGINEERING PHYSICS(A)
(Common for AI, CS, EE, EC, IT, IC, BM, BT, PT)
2 hours lecture per week
Module I: (11 hours)
Semi conductor Physics- Formation of energy bands in solids-Classification of solids on the basis of energy band gap-Intrinsicand extrinsic semiconductors -Elemental and compoundSemiconductors -Fermi level in intrinsic semiconductor-Electronand hole concentrations in intrinsic semiconductor in thermalequilibrium -law of mass action Eectrical conductivity of intrinsicsemi conductor-Fermi level in n-type and p-type semiconductors-
Electrical conductivity of extrinsic semi conductor-Diffusion andtotal current. Application of semiconductors-Band model of p-njunction- Junction diode and its characteristics - characteristics of atransistor in common emitter configuration -Input, outputresistance and current amplification factor -light emitting diode,photo diode, solar cell, photo resistor (LDR) , photo transistor, liquidcrystal display (LCD) and zener diode-Avalanche and zenerbreakdown-Application of zener diode as a voltage regulator.
Hall effect in semi conductors - Derivation of Hall coefficient-Detremination of Hall coefficient by measuring Hall voltage-Applications of Hall effect.
Super conductivity -Properties of super conductors (criticalmagnetic field, Meisnner effect, critical current, flux quantization)- Types of super conductors-BCS theory of super conductivity of(Qualitative)- Josephon's effect-Theory of d.c. Josephon's effect-
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SQUID- Applications of super conductivity.
Module II: (11 hours)
Interference of light- Interference due to division of amplitude -Interference from plane parallel thin films-Colours of thin films inreflected and transmitted light-Newton's rings-measurement ofWavelength and refractive index-Thin wedge shaped film-Air wedge-testing of optical planeness of surfaces.
Interferometry-Michelson's interferometer-Types of fringes-Visibility of fringes-Application of Michelson's interferometer indetermination of wavelength of monochromatic light, resolution ofspectral lines and refractive index of gase.
Diffraction of light-Introduction of Fresnel and Fraunhoffer class ofdiffraction and their distinction Fresnels diffraction and rectilinearpropogation of light - Diffraction pattern due to straight edge andexpression for intensity maximum and minimum-Fraunhofferdiffraction- Simple theory of diffraction grating, its construction andworking -Rayleigh's criteria. For resolution of spectral lines-resolving power and dispersive power of grating.
Module III: (11 hours)
Poarisation of light-Double refraction-Huygen's explanation ofdouble refraction in uniaxial crystals-Positive and negative crystals-Nicol prism, construction and working -quarter and half wave plates-Theory of circularly and elliptically polarized light, their productionand detection -Rotatory polarization -Laurent's half shade (briefexpansion)-laurent's half shade polarimeter-Applications ofpolarized light. Laser physics-Basic concepts and properties oflaser-Spontaneous and stimulated emission - Expression for ratio oftheir coefficients- Absorption, population inversion and opticalpumping -Construction and components of a laser -Ruby, Heliumand Neon and semiconductor lasers-Application of lasers.
Basic principles of holography and its application.
Fibre optics-Basic principle-fibre dimensios and construction-Stepindex single mode and multi mode fibre- Graded index fibre-Numerical aperature and acceptance angle- Signal distortion inoptical fibres and transmission losses (brief ideas only)-optic fibrecommunication (block diagram) and it's advantages-Applications of
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60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module I with choice toanswer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
EN04-103(P) : PHYSICS LAB(A)
(Common for AI, EE,EC, IC, BM, BT)
1 hour lab per week or 2 hours lab per alternate weeks
Band gap energy in a semi conductor using a reverse biasedp-n junction.
Static characteristics of a transistor(p-n-p or n-p-n) incommon emitter configuration.
Characteristic of a Zener diode Characteristic of a LED and wave length of emitted radiation
Characteristic of a Photo diode Characteristics of a photo resistor (LDR) Voltage regulation using Zener diode Wavelength of mercury spectral lines using diffraction
grating and spectrometer. Refractive indices of ordinary and extra ordinary rays in
calcite or in quarts prisms. Wave length of sodiumlight by Newton's rings method.
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Diameter of a thin wire or thickness of a thin paper by airwedge method.
Specific rotatory power of cane sugar solution usingpolarimeter
Frequency of an electrically maintained tuning fork
(transverse and longitudinal mode) Wave length and velocity of ultrasonic waves using
ultrasonic difractometer. Divergence of laser beams using He-Ne laser or diode laser Wave length of laser using transmission grating. Resolving and dispersive power of a grating. Wave length of monochromatic light by straight edge using
laser beam. Characteristics of a solar cell. Planck's constant using photo-electric cell or solar cell Hall coefficient by measuring Hall voltage in a semi
conductor Measurement of numerical aperature, acceptance angle and
attenuation in an optical fibre. Measurement of displacements using optic fibre. Michelson's interferometer-Determination of wavelength of a
monochromatic source, resolution of spectral lines andrefractive index of gas.
(Any 12 experiments should be done)
Reference Books
Practical Physics with viva voice- Dr. S.L. Guptha and Dr. V.Kumar -Publishers- Pragati Prakashan
Experiments in Engineering Physics- M.N. Avadhanulu, A.A.Dani and R.M. Pockley-Publishers-S.chand.
Internal work assessment
Lab practicals and record = 15
Test/s = 10
Total Marks = 25
EN04-104A: ENGINEERING CHEMISTRY(A)
(Common for AI, CS, EE, EC, IT, IC, BM, BT, PT)
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2 hours lecture per week
SECTION -1
CHEMISTRY OF ENGINEERING MATERIALS
Module 1 (13 hours)
Solids: Classification of solids with examples-(crystalline-Polycrystalline-Amorphous-Partially melted solids-(KCN)-Supercooled liquids-(Glass) - liquid crystals) (1 hour)
Crystalline state: Steno's law -Internal structure-Space lattices-Crystallographic axes-law of rational indices -Crystal systems-Elements of symmetry -X-ray study-Bragg's equation (derivation)
single crystal and powder method -(Deybe -Scherrer Camera) Cubicsystems-Structure elucidation- d100:d110:d111 ratio (problems to beworked out)-crystal imperfections (point-line-surface-volume-burgers vector- dislocations-edge and screw) Physical properties,bonding characteristics and Structure relation of - (covalent solids-Ionic solids-metals)- metallic bonding-stacking of atoms-(ABCABC.), (ABAB..)- tetrahedral and octahedralvoids -Alloys-Hume Rothery rule -Conductivity-resistivity -(Freeelectron theory -explanation with Fermi-Dirac statistics ) - Fermilevel-Applications of conductors-(transmission lines-OFHS Copper,ACSR, contact materials, Precision resistors- heating elements
-Resistance thermometers)- Super Conductors(type I and IIexamples) (5 hours)
Semiconductors- Band theory -(MOT) Valence band-Conductionband-intrinsic and extrinsic semiconductors-Fabrication ofsemiconductor materials - Crystal Growth -ultra pure Siliconproduction -zone refining -fabricationof Integrated Circuits(IC) (2hours)
Dielectric materials -Polarization-Ferro-Electricity -Piezoelectricity-Applications with examples-Introduction to Nano Science -carbon
nano tubes and nano wires (1 hour)
Non-crystalline state -glass- properties- (applications- conductingglasses-solid supported liquids-(stationary phases in reverse phasechromatography)-Optical fibre (1 hour)
Liquid crystals -characterization-Nematic phase Smectic Phase-Cholestric Phases -Columnar Phases-Chemical Properties-
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thermotropic-lyotropic-epitaxial-growyh-Freedericksz transition-applications-Liquid crystal thermometers-LCD displays (3 hours)
Reference
J.D. Lee (1996) Concise Inorganic Chemistry, Chapman andHall Ltd. London, pp-1032
S. Glasstone (1997) Textbook of Physical ChemistryMacmillan, New Delhi, pp-1320
P.W. Atkins (1987) Physical Chemistry Oxford UniversityPress, Oxford, pp-857
P.W. Atkins and J. Depaula (2001) Physical Chemistry W.H.Freeman and Co, pp-1000
V. Raghavan (2000) Material Science and Engineering-Afirst Course Fourth edition, Prentice Hall of India Pvt. Ltd.,
New Delhi, pp-485 L.H. Van Vlack (1998) Elements of Materials Science and
Engineering Sixth Edition, Addison-Wesley, London pp-598 J.W. Goodby (1997) Chemistry of liquid crystals VCH
Publishing, pp-400 K.W. Kolasinski (2002) Surface Science: Foundations of
Catalysis and Nano science John-Wiley and Sons, pp-326 K.J. Klaubunde (2001), Nano Scale materials in Chemistry
Wiley- interscience, pp-304 J.I. Gersten and F.W. Smith (2001) The Physics and
Chemistry of Materials Wiley-Interscience, pp-856
Module 2 (13 hours)
High Polymers and Lubricants-Classification of Polymers- (Naturaland Synthetic, Organic and Inorganic, Thermoplastic and Thermosetting, plastics, Elastomers, Fibres and liquid resins)Polymerization (Chain polymerization Polythene-PVC-Teflon-Polystyrene-Poly-methylmethacrylate) Condensationpolymerization (Polyamide and polyesters) Co-polymerization(Buna-S, Buna-N, PVC-Co-polyvinyl acetate, PAN- Co-polyvinyl chloride), Coordination polymerization (Zeigler -Natta
Polymerization) - Electro chemical Polymerization-Metatheticalpolymerization -Group transfer Polymerization (3 hours)
Mechanism of polymerization (Cationic, anionic and free radical).Polymerization techniques ( Bulk polymerization, Solutionpolymerization, Suspension polymerization, Emulsionpolymerization, Melt poly condensation, solution poly condensation,Interfacial condensation, Solid and Gas Phase Polymerization (2
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hours)
Structure relation to properties (Chemicalresistance,Strength,plastic deformation, Extensibility, Crystallinity)-
Mol.Wt of polymers-Number average Molecular wt. Weight averageMol. Wt- Gel Permeation Chromatography. (1 hour)
Thermosetting resins (Bakelite, Urea-Formaldehyde, Silicones),Thermoplastic resins|(Acrylonitrile, PVC, PVA, PS, PMMA,PE)- Fibres(Nylon6, nylon66, 10, Cellulose fibres, dacron, Kevlar) Applicationof polymers in electronic and electrical industry. Elastomers-Natural rubber-Structure-Vulcanization-Synthetic rubbers(Neoprene, Buna-S, Buna-n, Thiokol, Silicon rubber) (3 hours)
Compounding of Plastics (Filters, Plasticizers, lubricants, pigments,
antioxidants, Stabilizers) and Fabrication (Calendaring, Die casting,film casting, Compression, injection, Extrusion and Blow moulding,Thermoforming, Foaming, Reinforcing) (1 hour)
Lubricants: Theory of friction-Mechanisms of Lubrication-Fluid filmor hydrodynamic, thin film or boundary lubrication, extremepressure lubrication-Classification of Lubricants-(Liquid (animal andvegetable oils, Petroleum oils), Semi-solid, (Ca-soap grease, Li-soap grease, Al-soap grease, Axle soap grease) Solid lubricants (Di-basic acid esters, Poly glycol ethers, Organo phosphates, Organosilicones). Properties of Lubricants (Viscosity index, Cloud point and
pour point, flash point and fire point, Corrosion stability,emulsification, Aniline point). Additives and their functions (Fattyacids, Sulphurised fats, Phenols, Calcium sulphonates, Organo-metallics, Hexanol, Amine phosphates, Tricresyl phosphates, Siliconpolymers) (3 hours)
Reference
B.R. Gowariker et al (2002), Polymer Science, New AgeInternational pp-505
B.W. Gonser et al (1964), Modern Materials-advances in
development and application Vol 1-7, Academic Press, NewYork.
Module 3 (9 hours)
Electrochemistry: Single Electrode potential (theory-Nernstequation, derivation from thermodynamic principles)-types ofelectrodes (M|M+|, M|MA|A-, M|A+, A+2, Pt|Cl2|Cl-, Pt|O2|OH- -glass
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electrode) Electrochemical cells -concentration cells- Salt bridge-Liquid junction potential -emf measurements -Poggendorf'scompensation method-digital method -electrochemical series -overvoltage -theory - application in corrosion control-Polarogarphy-
storage cells-lead acid, Ni/Cd- Fuel cells- H2/O2 fuel cells (Baconcell), Hydrocarbon/air fuel cell -Bio-chemical fuel Cell (5 hours)
Acid-Bases- (Lowry-Bronsted and Lewis concepts-examples)-concept of pH -pH measurement- (instrumental details recquired)-Dissociation constants -Potentiometric titrations - (Neutralization,Oxidation-reduction and Preciptation) Buffer solutions -Henderson'sequation for calculation of pH (4 hours)
Reference
S. Glasstone (1997) Text book of Physical ChemistryMacmillan, New Delhi, pp-1320
P.W. Atkins (1987) Physical Chemistry Oxford UniversityPress, Oxford, pp-857
C.A. Hampel (Ed) (1964) encyclopedia of the Electrochemistry, Reinhold Publishing Corportation, Newyork,pp.1206
A.Standen (Ed) (1964) Kirk-Othmr Encyclopaedia ofChemical Technology, Vol. 3, John Wiley and Sons, Inc, NewYork, pp-925
SECTION-2
CHEMISTRY OF MATERIAL AND ENVIRONMENTAL DAMAGE
Module -4 (9 hours)
Material damages and prevention: Corrosion-theoreticalaspects- (electrochemical; theory) - galvanic series-Pourbiaxdiagram-assessment of corrosion potential of materials- Types of corrosion-Dry corrosion-direct chemical-Wet Corrosion-Electrochemical-differential aeration-Corrosion of Iron in acidic
neutral, basic condition (Corrosion in boilers)-Galvanic corrosion-(corrosion at contact points in computers-Ag/Au)-Inter granularcorrosion (18-8 Steel). Microbial corrosion-factors influencingcorrosion.
Corrosion protection-Self protecting corrosion products-Pilling-Bedworth rule-Coatings -organic -(paints and polymesr)-InorganicCoatings-Galvanizing (dip coating, Sherardizing, Wire-gun method)-
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Tinning-Electroplating- (Chromium, Nickel), Anodizaion ofAluminium-Passivation of metals by chemical treatment-Protectionby Sacrificial Anode-Impressed current. (4 hours)
Environmental damages and prevention:
Pollution-Definitions-Classification of pollutants(Global, regional,Local; Persistent and Non persistent; Pollutants-Eg: CO2, CO, SOx,NOx, VOC, SPM, CFC, POP, Dissolved metals)-effects onenvironments -Air pollution-Fossil fuel burning-Automobileexhausts-Photchemical smog-PAN, PBN formation, chemicalequations required)-Stratospheric Ozone depletion-CFCs-Nomenclature CFC's - Chapman cycle of Ozone formation -CFCdissociation and its reaction with Ozone-Alternate refrigerants-Monitoring of pollution -gases (CO, SO2, NOx) and particulate (High
volume sampler )- Pollution from thermal power plants-Caolcomposition- fly ash-Thermal pollution.
Methods of control of Air pollution-Bag filters, cyclones, Scrubbing,ESP, Catalytic converters-composition and action with CO, NOx.Water pollution-pollutant classification- (Organic, Inorganic,Suspended and dissolved-Toxic metal waste-BOD-COD)-Monitoring(analytical methods- brief discussion) and control-waste watertreatment- aerobic, Anaerobic- USAB process-industrial wastewater treatment- solid pollution-solid waste- radio nuclides-Toxicmetals-Monitoring and control -incineration-Dioxins-hazardous
waste-deep-well injection (5 hours)
Reference
L.L Shreir (Ed) Corrosion Control Vol I and II, Newnes-Butterworths, London
C.A. Hampel (Ed), Encyclopaedia of ElectrochemistryReinhold Publishing corporation, pp-1206
V. raghavan (2000), Material Science and Engineering- AFirst Course, Prentice Hall of India Pvt. Ltd, New Delhi, pp-485
A.K. De (1996), Environmental Chemistry, New AgeInternational Pvt. Ltd, New Delhi, pp-364
C.N. Sawyer and P.L.McCarty (1989), Chemistry forEnvironmental Engineering McGraw Hill Book company, NewDelhi, pp-530
H.S. Peavi, D.R. Rowe and G.Tchobangoglous (1985),Environmental Engineering McGraw hill International, pp-720
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S.P. Mahajan (1985) Pollution Control in Process IndustriesTata McGraw Hill, New Delhi, pp-273
S.E. Manahan (1975) Environmental Chemistry, WillardGrant Press, Boston, pp-532.
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module I with choice toanswer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
EN04-104A (P): CHEMISTRY LAB (A)
(Common for AI, EE, EC, IC, BM, BT)
1hour lab per week or 2 hour lab per alternate weeks
List of experiments
Estimation of purity of Copper (Iodometric method) Estimation of purity of Aluminium (EDTA method)
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Crystal growth (melt grouth, solution grouth-CuSO4,KDP,ADPcrystals)
Phenol formaldehyde-preparation and study of properties Urea formaldehyde-preparation and study of properties Flash and fire point-Martens apparatus
Measurements of Single Electrode potential-Poggendorf'smethod (M|M+ M|MA|A-, Salt bridge preparation, calculationof Junction potential)
Corrosion potential measurement of certain metal and alloysin 3.5% salt solution (steel (18-8), AI, CU, Brass, Bronze,Monel metalor alloys of industrial use)- Potentiodynamics andPotentiostatics methods.
.pH meter-Caliberation and measurement of pH-preparationof Buffers- Calculation of pH by Henderson's equation andverification.
Potentiometric titration of acid and base-plots of
E/V,E/V,2
E/V2
plots. electrodepostion- plating of Copper-detection of the
thickness or the layer deposited. Anodizing of aluminium-characteristics of the coating.
Estimation of SO2, NO2, H2S. calculation of concentration inppm and microgram per M3 and comparison of data withpermitted levels.
Estimation of Pb, Cd in water-colourimetric method. Estimation of Fluoride(Alizarin dye method),Nitrate in water-
colourimetric method Estimation of Dissolved oxygen (Winklers method)
Identification tests for certain common plastics(PE, PVC,Nylon, PET, etc)
Preparation of some liquid crystals and study of theirproperties.
(At least 12 experiments should be done)
Internal work assessment
Lab practical and record = 10+5
(Lab performance to be evaluated by the thoroughness of theprocedure practices, results of each experiments and punctualityin the submission of rough and fare records)
Test/s = 10
Total marks = 25
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EN04-105: HUMANITIES
(Common for all B.Tech Programmes)
2 Hours Lecture Per Week
Module I: (10 hours)
Introduction to english usage and grammar-review of grammar-affixes, prefixes, suffixes, participles and gerunds-transformation ofsentences-commonly misspelt words -correction of mistakes-punctuation-idioms-style-vocabulary building
Reading comprehension -exposure to a variety of readingmaterials, articles, essays-graphic representation, journalisticarticles, etc.
Writing comprehension-skills to express ideas in sentences,paragraphs and essays.
Module II: (10 hours)
Technical communication and report writing
Need, importance and characteristics of technical communication-correspondence on technical mattres-aspects of technicaldescription of machinery, equivalent and processes-givinginstructions in an industrial situation-note taking and note making-correspondence on technical topics-different types of technicalreports
Module III: (14 hours)
History of science and technology
Science and technology in the primitive society-the development ofhuman civilization from primitive to modern society -impact ofsciences and technology on societies-cultural and industrialrevolutions-the rise and development of early indian science-contribution of indian scientist-j c boss, c v raman, visweswaraya-ramanujan and bhabha-gandhian concepts-recent advances inindian science.
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Moduel IV: (10 hours)
Humanities in a technological age
Importance of humanities to technology, education and society-relation of career interests of engineers to humanities-relevance ofa scientific temper-science, society and culkture
Reference Books
Huddleston R, English Grammar-An Outline, CambridgeUniversity Press
Pennyor, Grammar Practice Activities,Cambridge UniversityPress
Murphy, Intermediate English Grammar, Cambridge
University Press Hashemi, Intermediate English Grammar-Supplementary
Exercises With Answers, Cambridge University Press Vesilind; Engineering, Ethics And The Environment,
Cambridge University Press Larson E; History Of Inventions,Thompson Press India Ltd. Bernal J.D, Science In History, Penguin Books Ltd Dampier W.C, History Of Science, Cambridge University
Press Encyclopaedia Britannica, History Of Science, History Of
Technology
Subrayappa; History Of Science In India, National AcademyOf Science, India
Brownski J, Science And Human Values, Harper And Row Schrodinger , Nature And Greeks And Science And
Humanism, Cambridge University Press Bossel H, Earth At A Crossroads-Paths T A Sustainable
Future, Cambridge University Press Mccarthy, English Vocabulary In Use, Cambridge University
Press Anna University, English For Engineers Andtechnologists,.
Orient Longman
Meenakshi Raman Et Al, Technical Communication-PrinciplesAnd Practice, Oxford University Press
Internal assessment
One essay relevant topic 10
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One technical report 10
2 test 2x15 30
Total marks = 50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module i with choice toanswer anyone
QIII - 2 questions of 15 marks each from module ii with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module iv with choice toanswer anyone
EN04-106A : ENGINEERING GRAPHICS (A)
(Common for AI, CS, EE, EC, IT, PT, BM, PT)
1 hour lecture and 3 hours drawing
Module 0: (8 hours- I drawing exercises)
Drawing instruments and their use-different types of lines-letteringand dimensioning-familiarizationwith current Indian standard codeof practice for general engineering drawing. Construction of ellipse,parabola and hyperbola. Construction of cycloid, involute and helix.Introduction to computer aided drafting. (For practice only, not foruniversity examination)
Module I: (12 hours- 3 drawing exercises)
A) Introduction to orthographic projections -vertical, horizontal andprofile palne-principles of first angle and third angle projections.Projections of points in different quadrants. Orthographicprojections of straight lines parallel to one plane and inclined to theother plane-straight lines inclined to both the planes and occupied
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in one quadrants-traces of lines.
B) True length and inclination of a line with reference planes. Lineoccupied in more than one quadrant. Line inclined to the two
reference planes but parallel to the profile plane. Line dimensionedin surveyor's unit.
Module II: (16 hours- 3 drawing exercises)
A) Projections of plane laminae of geometrical shapes parallel toone plane and inclined to other plane- plane laminae inclined toboth the planes.auxiliary projections of plane laminae. Projectionsof laminae inclined to the two reference planes but perpendicularto the profile plane.
B) Projections of polyhedra and solids of revolution -frustums-projections of solids with axis parallel to one plane and inclined toother plane. Projections of solids with the axis inclined to both theplanes. (solids to be drawn: cube, prisms, pyramids, tetrahedron,cone and cylinder). Projections of solids on auxiliary planes.Projection of combinations of solids. (solids to be drawn: prisms,pyramids, tetrahedron, cube, cone, and sphere)
Module III: (12 hours- 3 drawing exercises)
A) Sections of solids -sections by planes parallel to the horizontal or
vertical planes and by planes inclined to the horizontal or verticalplanes. True shape of section by projecting on auxiliary plane,(solids to be drawn: cube, prisms, pyramids, tetrahedron, cone andcylinder)
B) Development of surfaces of solids -method of parallel line, radialline, triangulation and approximate developments. Development ofpolyhedra, cylinder, cone and sectioned solids. Developments ofsolids having hole or cut.
Module IV: (12 hours- 3 drawing exercises)
A) Introduction to isometric projection-isometric scale-isometricprojections of prisms, pyramids,cylinder,cone, spheres,sectionedsolids and combinations of them. Principle of oblique projection-cavalier, cabinet and general oblique projections of solids andsimple objects
B) Introduction to perspective projections-classification of
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perspective views-parallel, angular and oblique perspectives-visualray method and vanishing point method of drawing perspectiveprojection-perspective views of prisms, pyramids and circles
Module V: (12 hours- 6 drawing exercises)
A) Introduction to multiview projection of objects-the principle ofthe six orthographic views -conversion of pictorial views of simpleengineering objects into orthographic views.
B) Conventional representation of threaded fasteners. Drawing ofnuts, bolts, washers and screws. Locking arrangements of nuts.Bolted and screwed joints. Foundation bolts of eye end type hookend type and split end type.
Note: All drawing exercises mentioned above are for class work.Additional exercise where ever necessary may be given as homeassignments.
Text Books
John K.C, Engineering Graphics,Jet Publications P.I. Varghese, Engineering Graphics, Vip Publications Bhatt N.D, Elementary Engineering Drawing, Charotar
Publishing House
Reference Books
Luzadder W.J., Fundamentals Of EngineeringDrawing,Prentice Hall Of India
Narayana K.L and Kannaiah P, Engineering Graphics, TataMcgraw Hill
Gill P.S., Geometrical Drawing, Kataria And Sons
Internal work assessment
Drawing exercise (best10) 10x3 =30
2tests 2x10=20
Total marks = 50
University examination pattern
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No question from module 0
QI - 2 questions A and B of 20 marks from module I with choice toanswer anyone
QII - 2 questions A and B of 20 marks from module II with choice toanswer anyone
QIII - 2 questions A and B of 20 marks from module III with choiceto answer anyone
QIV - 2 questions A and B of 20 marks from module IV with choiceto answer anyone
QV - 2 questions A and B of 20 marks from module V with choice
to answer anyone
EN04-107A : ENGINEERING MECHANICS(A)
(Common for AI, CH, CS, EE, EC, IT, IC, BM, BT, PT)
2 hour lecture and 1 hour tutorial per week
Objectives
To acquaint the student with general method of analyzing
engineering problems To illustrate the application of the method to solve the
practical engineering problems.
Module I: (17 hours)
Principles of static-free body diagrams-Coplanar forces and forcesand force system-resultant and equilibrium conditions forconcurrent, parallel and general system of forces-solutions ofproblems by scalar approach. Introduction vector approach(application to simple problems only)- concurrent forces in space -
resultant-equilibrium of a practical in space -Non-concurrent forcesin space-resultant of force of system
Module II: (17 hours)
Friction-loss of friction-simple contact friction problem-wedge,screw jack and its efficiency. Properties of surfaces-first momentand centroid of curve and area-centroid of composite plane figures-
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theorems of Pappus-guldinus-second moments of plane figures andcomposite sections-transfer theorem-polar moments of areas-product of areas and principal access (Conceptual level treatmentonly). Moment of inertia of rigid body-M.I of a lamina-M.I of 3
dimensional bodies (cylinder, circular rod, sphere)
Module III: (17 hours)
Introduction to structural mechanics-different types of support,loads and beams-reactions and support. Shear forces and bendingmoments diagrams for Cantilever and simply supported beams(only for concentrated and uniformly distributed load cases).
Plane trusses-types of trusses (perfect, deficient and redundant,trusses)-Analysis of trusses-Method of joints-Method of sections.
Module IV: (15 hours)
Kinetics of rectilinear motion-Newton's second law-D'Alembert'sprinciple- Motion on horizontal and inclined surfaces-Analysis of liftmotion- Motion of connected bodies.
Curvilinear motion-equation of motion-Tangential and normalacceleration-Centripetal and centrifugal forces-Motion of vehicles ofcircular path.
Work, power and energy-Work done by a force -work of the forcegravity and force of spring-Work-energy equation-Transformationand conservation of energy-Applications to problems.
Kinematics of rotation-rigid body rotation about a fixed axis-rotation under the action of constant moment.
Introduction to mechanical vibrations-simple harmonic motion-freevibration-Oscillation of spring-Torsional vibration
Text books
Timoshenko and Young, Engineering Mechanics, McGrawHill Publishers
Hibbler, Engineering Mechanics, Vol.I statics, Vol IIDynamics, Pearson
Shames. I.H, Engineering Mechanics-Statics and Dynamics,Prentice Hall of India
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Module - I: (15 hours)
Programming and problem solving-Functional units of a computer-high level and low level languages-steps involved in computer
programming-developing algorithms and flowcharts-efficiency ofalgorithms -running, debugging and testing of programs-Programdesign methods-top-down modular programming-measures ofprogram performance -introduction to operating system.
Modular - II: (15 hours)
Overview of C-Introduction-Basic structure of C programs-Executinga C program-constants, Variables and DataTypes and sizes-operators and Expression-Implicit type conversion, explicit typecasting -precedence-syntax notations-managing input and output
-formatted I/O-decision making and Branching-break and continue-Looping.
Module - III: (16 hours)
Arrays- one dimensional and multidimensional arrays-handling ofcharacter string-Functions- introduction- user defined functions-form of C functions-Return values and their types-Calling afunction-Category of functions-handling of non-integer functions-Recursion-Functions- with arrays-Scope and lifetime of variables infunctions-Structures and Unions-Pointers-Declaring and initializing
pointers-Pointers and arrays-Pointers and functions-Dynamicmemory allocation-malloc, calloc, free, ralloc-basic concepts oflinked lists-Bit fields.
Module - IV: (20 hours)
File Management in C- Introduction-Defining and opening a file-Closing a file-Input/output operations on files formatted I/O files-The unix system interface: File descriptors, Low level I/O-read andwrite -open, create, close, unlink-Random access-Iseek-I/O errorhandling-stderr-exit- An implementation of fopen and getc-
Implementation of sequential access file of records-random accessfile records.
Progarmme development-command line arguments-Scope andlinkage in the context of a project-Environmental variablesprovided by OS-Preprocessing and portability of program tomultiple platforms-Standardised C library header files-Programmingwith standard I/O -Assessing environment from within program-
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unix system calls-Handling processes, signals and interrupts asexamples-Debugging runtime errors-Diagnostic header fileassert.h-introduction to Unix 'make' utility -Introduction to Unix'version control system'
Text books
E. Balaguruswamy; Programming in Ansi C. 2.1 editio; TataMcGraw Hill
Brian W Kernighan and Rob Pike, The Unix programmingenvironment, Prentice Hall of India
Brian W Kernighan, Dennis M Ritchie; C programminglanguage; 2nd edition; Prentice Hall of India
Reference books
G. Michael Schneider, Steven W Weingart, David M Perlman,An Introduction to programming and Problem solving withPascal;2nd edition;John Wiley
Byron Gottfried, Programming with C; 2nd edition , John Wiley K.R Venugopal, Sudeep R Prasad, Programming with C;Tata
McGraw Hill Yashavant Kanektar, Let us C; 3rd edition; BPB Publications. Barret & Wagner; C and Unix:Tolls for Program Design ;John
Wiley Deitel H .M & Deitel P. J, C How to Program; Pearson
Education Asia
Internal work assessment
60% - Test papers (minimum 2)
30% - Assignments/Term project/any other mode decided by theteacher.
10% - Other measures like Regularity and Participation in Class.
Total Marks=50
University examination pattern
QI - 8 short type questions of 5 marks, 2 from each module
QII - 2 questions of 15 marks each from module I with choice to
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answer anyone
QIII - 2 questions of 15 marks each from module II with choice toanswer anyone
QIV - 2 questions of 15 marks each from module III with choice toanswer anyone
QV - 2 questions of 15 marks each from module IV with choice toanswer anyone
IT04-109: BASIC ELECTRICAL ENGINEERING
(Common for CS, IT, PT)
2 hours lecture and 1 hour tutorial per week
Module - I: (16 hours)
Elementary concepts-Voltage, current, Electric energy and power,Basic Circuit Elements, Independent sources, Modeling, Linearcircuits.
Resistive Circuits-Resistances in series and parallel, voltage andcurrent division, Star-delta Conversion, Network reduction, sourceRepresentation and Conversion, Mesh Analysis, Superposition,
Thevenin and Norton Theorems.
Reactive Circuits-Inductance and capacitance, RL/RC CircuitTransients, Quiescent Circuit, Duality of Networks, RLC transients,Circuit Analysis, Circuit response to pulse and impulse Excitations.
Module - II: (18 hours)
AC single phase circuits-Sinusoidal Voltage and current, RMS andaverage Values, Form factor and Peak factor, phasorrepresentation, Kirchoff's Voltage and current laws, RLC series and
parallel circuits, power in steady state, Resonance in series andparallel circuits.
Three-phase Circuits-Three phase Voltages and Currents, Phasordiagram, Star & delta connections, Threephase power , Threephase Circuit Analysis, Star- delta conversions ,measurement ofthree phase Power using single and two wattmeter methods.
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Electrical engineering,