First Year Syllabus - 2013-14 SSIT

7/18/2019 First Year Syllabus - 2013-14 SSIT

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PREFACE

Sri Siddhartha Institute of Technology, Tumkur (SSIT), is one of thebetter performing self financing Institute, offering technical education in thestate of Karnataka. The Institute was started with the objective of EntrancingEducation to reach the unreached. Recognizing our potential to grow into a

Centre of Excellence, World Bank has chosen our Institute under TechnicalEducation Quality Improvement Programme (TEQIP). Financial assistancehas been granted to the Institute for the advancement in academics,development of laboratories and other infrastructures required for carrying outresearch activities. In this direction the Institute has put-up solid foundation foreducation and research with highly qualified faculty with a vision to groom theleaders of tomorrow.

The Institute offers 09 undergraduate, 07 post graduate and MCAprogrammes. The Institute has an annual intake of 670 students forundergraduate programme, 126 students for Post graduate and 60 students

for MCA.Considering our academic strength and infrastructure, Govt.Of

Karnataka, through Visvesvaraya Technological University(VTU), hasaccorded us AUTONOMY.

Recognition us asa better performing Autonomous institute, UGCConferred us the Deemed-to-be University Status in 2009. We are now aconstituent college of Sri Siddhartha Academy of Higher Education (SSAHE).

Deemed University system provide flexibility to institutes to have theirown curriculum and syllabus. Taking this opportunity the Institute has designedcurriculum and syllabus in consultation with Industries and premier academicinstitutions to ensure that the young Engineers graduating from the Institute areindustry ready.

The academic year is divided into two main semester ( odd semesterSeptember to December, Even semester: February to may ) and a summersemester. The students are required to follow certain procedures and meet theacademic requirements of each semester as stipulated from time to time by the

Academic council.

Committees are formed at various levels for monitoring studentsperformance . The Academic Performance Evaluation Committee (APEC) and

Departmental Performance Evaluation Committee (DPEC), examines thepace and the Learning capabilities of the students based on their overallperformance & academic record and counsels them.

SSIT, takes atmost care to ensure that students get the best andbecome outstanding engineers.

This booklet gives comprehensive information on the suggestedcourse work for the First year.

Principal

2013-14


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2013-2014

13PH0113MA11/21

13CS01

13ME01

13EE01

13CS03

13PH02

13MS01

13IC05

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4

1.5

1.5

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13CY01

13MA11/21

13EC01

13CE01

13ME02

13CY02

13ME03

13IC02

Workshop (Mechanical)

Introduction to Engineering Design

13MA11

13MA21

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3

3

3

3

1.5

Ex.H

3

3

1

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3

3

3

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ENGINEERING MATHEMATICS - 1

Course Code : 13MA11 L T P Cr4 - 2 - 0 - 5

UNIT - I 12 HrsthDifferential Calculus : Determination of n derivative of standardfunctions, Leibnitz's theorem (without proof) and problems. Polar curvesand angle between polar curves. Pedal equations of polar curves. Partialderivatives, Euler's theorem, Total differentiation, Differentiation ofcomposite and implicit functions, Jacobians and their properties.

UNIT - II 12 Hrsn

Integral Calculus : Reduction formulae for the integration of Sin x,n n n n

Cos x, tan x and sin x X cos x and evaluation of these integrals with

standard limits-Problems. Tracing of standard curves in cartesian form,parametric form and polar form. Derivative of arc Length. Application tofind area, length, volume and surface area of given curves.

UNIT-III 9 Hrsst st

Differential Equations of first order : Solution of 1 order and 1 degreedifferential equations, variable separable, Homogeneous, Exact, Linearand reducible to above types. Illustrative examples from Engg. Field.Orthogonal trajectories of Cartesian and polar curves.

UNIT-IV 10HrsDifferential Equations of second and higher order : Linear differential

ndequations of 2 and higher order with constant coefficients. Method ofvariation of parameters. Solutions of Cauchys homogeneous linearequation and Legendres equation - solutions of initial and boundary valueproblems.

UNIT-VAnalytical Solid Geometry : Direction cosines and direction ratios,Planes, Straight lines, Angle between planes & straight lines, coplanarlines, Shortest distance between two skew lines.

Text books:th

1. Higher Engineering Mathematics by Dr.Grewal B.S, 36 Edn.July 2001

2. Rainville, E.D, A short Course in Differential Equationsth

4 Edn.1969

Reference books:1. Advanced Engineering Mathematics by E.Kreyszing,

John Willey & Sons, 6th Edn.2. Differential Calculus by Shanthi Narayan

3. Integral Calculus by Shanthi Narayan3SSIT

I / II Sem Syllabus

9Hrs


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ENGINEERING PHYSICS

Course Code : 13PH 01 L T P Cr4- 0- 0 - 4

Unit-1 52 hrsModern PhysicsWave-Particle dualism, Debroglie hypothisis, Davisson and GermerExperiment., Charecteristics of matter waves, Phase Velocity& groupvelocity, Relation between (a) phase velocity and group velocity (b) groupand particle velocity. Relation between phase velocity, group velocity &velocity of light, Expression for debroglie wavelength using group velocity,Time independent Schrodinger's wave equation in one dimensio, Physicalsignificance of wave function, Eigen Values, Eigen functions,Normalisation of wave functions, Applications of Schrodinger equations;1) For a free particle 2) Particle in one dimensional potential well of infiniteheight, Heisenberg's uncertainty principle (no derivation), applications,Non existence of electrons in the nucleus, Problems. 10 hrs

Unit-IILasersProperties of laser beam. Requisites of a laser system,.comparison ofordinary light and laser light, Condition for Laser action,opticalpumping,population inversion, Review of principles Induced absorption,

spontaneous emission and stimulated emission. metastable state,Einstein's coefficients (expression for energy density at thermalequilibrium), Holography-Principles and applications.Optical FibersPropagation mechanism in optical fibers, Angle of acceptance. Numericalaperture (derivation).V-number, Types optical fibers and mode ofpropagation, Attenuation and its mechanism (absorption, scattering andradiation losses). Problems Application discussion of point to pointcommunication system. Block Diagram, Advantages and disadvantages ofoptical communication system. 10 hrs

Unit-IIIVibrationsReview of SHM (Explanation of displacement, Amplitude, Velocity,Acceleration, Frequency, Phase and Phase difference, Free vibrations,Damped vibrations, Cases of under damped,over damped & dead beats,Forced vibrations, Resonance-Theory of resonant vibrations, Problems,Ultrasonic non destructive testing of materials, Measurement of velocity insolids and liquids, Determination of elastic constants in solids and liquids,Problems. 10 hrs

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Unit-IVDielectric properties of materialsIntroduction, Dielectric materials ,determination of static dielectricconstant, Electrical polarization mechanisms, Internal fields in liquids andsolids, Clausius-Mossotti equation (derivation), Dielectric losses,expression for dielectric loss. 10 hrs

SuperconductivityTemperature dependence of resistivity in normal and superconductingmetals. Effect of magnetic field (Meissner effect), Type I and Type IIsuperconductors, Temperature dependence of critical field. Highlights,Assumptions and results of BCS theory, High temperaturesuperconductors. Applications of superconductors-superconductingmagnets, Maglev vehicles and SQUIDS. Problems. 10 hrs

Unit-VCrystal structure and X-Rays

Definitions of Space lattice,Bravaise lattice-unit cell, primitive cell. Latticeparameter, Crystal systems (Seven systems with fourteen Bravaise lattice),Direction &planes in a crystal, Expression for interplanar spacing(derivation), Coordination number, Atomic packing factor (derivation) forSC, BCC & F.C.C..Crystal, structures of NaCl & Diamond, X-ray defraction,Braggs law (derivation), Determination of crystal structure by Braggs X-rayspectrometer. Problems 10 hrsNano technologyPrinciples,Nanomaterials. Nano scale systems- physical, chemical,biological and hybrid systems. Self-organization, Nano compositematerials. Physics of smart materials, MEMS, Carbon nano-tubes 10 hrs

Text books:1. A text book of engineering physics- M.N avadhanulu and

K.V.S.G. Rao S.chand company Ltd.2. solid state physics-S.O Pillai Fifth edition, New age international3. Engineering Physics-Gaur&Guptha Dhanpathrai sons, New Delhi4. Lasers-K.Thyagarajan and A K Ghatak5. Elements of materials Science and Engineering-Lawrence. H.

Van Vlack.6. A text book of Engineering Physics-S.P.Basavaraju.

REFERENCE BOOKS:1 Nanosystems- Molecular machinery, manufacturing and

computation K.Eric Drexler, John Wiley&Sons2005 Ed.2 Fundamentals & applications of ultrasonic waves-J

David N CheekeN Cheeke CRC Press3 Modern Physics- Beiser

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COMPUTER CONCEPTS AND PROGRAMMING

Course Code: 13CS01 L T P Cr 3 - 2 - 0 - 4

UNIT-I Introduction, Software, Computing Environments 7 Hrs

Basic functional units of a Digital computer, Computers for individual users,Computers for organization. Software-Application Software, SystemSoftware , Types of languages, Operating System- functions, Types ofOperating System, Specific feature of DOS and UNIX Operating System,Networking of computers and its advantages, LAN, WAN, Internet, E-mail.Network topologies and Protocols.

UNIT-II C Programming: Algorithm & Flow charts, C LanguagePreliminaries, Input and Output Functions, Operators in C 8HrsThe meaning of Algorithms and Flow charts and their need, Examplealgorithms and Flowcharts. Character set, C tokens, keywords, identifiers,types of constants, Variables and their rules, Declaration of variables,Fundamental data types. Formatted/Unformatted input/output using formatspecifiers, Basic Structure of C Program, Writing and executing simple Cprograms. Types of operators based on number of operands and the typesof operation being performed, Expressions and their evaluation thatincludes all the operators, Operator precedence and associativity, Specialoperators, Type conversion in expressions. Header files, mathematicalfunctions.

UNIT-III Control structures: Branching and Looping 8 HrsDecision making using if, if.else statements, elseif ladder. Exampleprograms. Switch statement with example programs. While, dowhilestatement with example programs, for statement with example programs,Jump in loops, goto statement, break, and continue statement with exampleprograms.

UNIT-IVArrays and Strings 8 HrsThe meaning of an array, One dimensional array, Declaration and

initialization with examples, Reading and writing One-dimensional arrayswith example programs, Two dimensional arrays, declaration andinitialization with examples, Reading and writing Two dimensional arrayswith example programs.Declaring and initializing string variables with examples programs, Readingand writing strings, string-handling functions with example programs andArithmetic operations on strings.

UNIT-V Functions and Pointers ,Structures and Unions 8 HrsNeed for user defined functions. Defining and using functions, category of


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functions with example programs, Arrays in functions, Recursive functionswith example programs.

Declaring & initializing pointers, Accessing variable using pointers withexamples. Storage classes with examples.

Introduction, Defining a Structure, Declaring Structure Variables, AccessingStructure Members, Structure Initialization, Copying and ComparingStructure Variables, Operations on Individual Members, Arrays ofStructures, Arrays within Structures, Structures within Structures,Structures and Functions, Unions.

TEXT BOOKS:1. Introduction to Computers, Peter Norton, Sixth edition,

Tata McGraw Hill, 2005.2. Programming in ANSI C, E. Balagurusamy, Tata McGraw

Hill - IV Edition.

REFERENCE BOOKS:1. The C Programming language (ANSI C Version), Kernighan &

ndRitchie, 2 edition, PHI India.

2. Let us C, by Yashwant Kanitkar.3. Computers Today, Suresh K.Basandra, Galgotia Publications Pvt

Ltd., Updated Edition, 2002.

BASIC ELECTRICAL ENGINEERING

Course Code : 13EE 01 L T P Cr 4 - 0 - 0 - 4

UNIT - 1 : 12 HoursA) D.C. Circuits:Electric Current, Flow of Current, Potential, Potentialdifference, Resistance, Ohms Law, Calculation of Resistance, Resistivity,Kirchhoff's Laws Applications for the analysis of Series and Parallel Circuits

excited by independent voltage sources, work, power and energy in suchCircuits-Illustrative examples.b) Electromagnetism: Introduction to Magnetic Field, Magnetic fieldIntensity, Flux density and MMF. Faraday's and Lenz's Laws, Flemingsrules, Statically and dynamically induced EMF's, Concept of self andmutual inductance, Co-efficient of coupling, Energy stored in Magneticfield-Illustrative examples.

UNIT - 2 10 HoursSingle Phase A.C. Circuits: AC Waveforms, Definition of average value,

R.M.S value, form factor and Peak factor of Sinusoidal varying Voltage and


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Current, Concept of lagging and leading sinusoids. Phasor representation.Definition of Real Power, Reactive Power, Apparent Power and Powerfactor. Analysis with Phasor diagram of circuits with R, L, C, R-L, R-C, andR-L-C Elements Illustrative examples involving Series and Series ParallelCircuits.

UNIT - 3 10 Hoursa) Three Phase Circuits: Necessity and Advantages of Three PhaseSystems, Meaning of Phase Sequence, Balanced Supply and Load.Obtaining the relationship between Line and Phase Values for balancedStar and Delta Connections. Power in balanced Three Phase Circuits-Illustrative Examples.b)Domestic Wiring:Two-way position and Three way position control ofLamp. Necessity and types of Earthing. Elementary discussion on fusesElectric Shock and precautions against it.c)Measuring instruments:Moving coil, Moving iron, Dynamometer type

wattmeter and Single phase induction type energy meter- Constructionand working principle.

UNIT -4 : 10 HoursD.C. Machines: Introduction, Principle of operation of DC a generator,types, Constructional features, E.M.F. equation of generator , DCgenerators performance characteristics, DC Generators-applicationsandillustrative examples. Principle of operation of DC Motors, Equation forTorque developed, DC motor-Classification, DC motor-performancecharacteristics, Necessity of Starters, DC Motor Applications, Illustrative

Examples.

UNIT - 5 10 Hoursa) Transformers: Construction and principle of Operation of Single PhaseTransformers, Equation for induced EMF, Phasor diagrams onTransformers on Load and Transformers under no load, Voltage regulation,efficiency and Losses, Illustrative Examples on EMF equation andefficiency only. b) Synchronous Generators: Principle of Operation, Types andConstructional features, EMF equation, Concept of Winding factor

(Excluding Derivation), Illustrative Examples on EMF Equation andEfficiency Only.c) Three Phase Induction Motors: Concept of rotating Magnetic Field,Principle of Operation. Constructional features. Slip and its Significance,Applications of Squirrel-Cage and Slip ring Motors. Necessity of Starter.Illustrative Examples on Slip Calculations.

Text Books :1. Dr. K.A. Krishnamurthy and M.R. Raghuveer,Electrical,

ndElectronics and Computer Engineering, 2 Edition, T.M.H, 2001.


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REFERENCE BOOK:1. Electrical Technology, E. Hughes; International Students

th9 Edition, Pearson, 2005.

2. Fundamentals of Electrical engineering, B L Theraja,S Chand Publications

3. Electrical Technolgy, H cotton

Instruction to set the question paper:1. One Question of 20 Marks from each unit2. Each unit has choice.

MECHANICAL ENGINEERING SCIENCE

Course Code : 13ME 01 L T P Cr 4 - 0 - 0- 4

UNIT-1Chapter 01: Energy and Steam (6 Hours)Energy:Forms, Sources and Classification of energy. Utilization of energySolar Energy-Flat Plate collector, hydroelectric power plant, Wind energy,Tidal energy plant.Steam: Types of steam, Properties Specific Volume & Enthalpy. (Simplenumerical problems) Steam boilers classification, Lancashire boiler,Babcock and Wilcox boiler, Boiler mountings, Accessories, (No sketches formountings and accessories)Chapter 02: Turbines (6 Hours)Steam turbines Classification, Principle of operation of Impulse andreaction. Water turbines Classification, Principles and operations of

Pelton wheel, Francis turbine. Gas turbines Classification, Workingprinciples and Operations of Open and Closed cycle gas turbines.(5 Hours)

UNIT-2Chapter 03: Internal Combustion EnginesClassification, I.C. Engines parts, 2/4 Stroke Petrol and 4-stroke dieselengines. P-V diagrams of Otto and Diesel cycles. Simple problems onindicated power, Brake power, indicated thermal efficiency, Brake thermalefficiency, Mechanical efficiency and specific fuel consumption. (6 Hours)Chapter 04: - Refrigeration and Air conditioning

Refrigeration - Definitions - Refrigerating effect, Ton of Refrigeration, Icemaking capacity, COP, Relative COP, Unit of Refrigeration. Refrigerants,Properties of refrigerants, List of commonly used refrigerants. Principle andworking of vapour compression refrigeration and vapour absorptionrefrigeration. Principles and applications of air conditioners, Room airconditioner. (5 Hours)

UNIT-3Chapter 05: - Lathe and Drilling MachinesLathe- Principle of working of a centre lathe. Parts of a lathe. Operations on


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lathe - Turning, Facing, Thread Cutting, Drilling, Taper turning (Tailstockoffset method) Specifications of Lathe.Drilling Machine Principle of working and classification of drillingmachines. Bench drilling Machine, Radial drilling machine. Operations ondrilling machine -Drilling, Boring, Reaming, Tapping, Counter sinking,counter boring and Spot facing. Specification of radial drilling machine.

(6 Hours)Chapter 06 - Milling and Grinding MachinesMilling Machine Principle of milling, Types of milling machines. Principle &working of horizontal and vertical milling machines. Milling Processes -Plane milling, End milling, Slot milling, Specification of universal millingmachine.Grinding Machine Principle and classification of Grinding Machines.

Abrasives- Definition, Types and applications. Bonding materials. Type ofGrinding machines, Principle and working of surface grinding & Cylindricalgrinding. (6 Hours)

UNIT-4Chapter 07 - Joining Processes,Joining Processes-Welding, Soldering & Brazing -Definitions.Classification and method of welding Soldering and Brazing and differences,Brief description of Arc welding & Oxy-Acetylene welding. (5 Hours)Chapter 08 MechatronicsIntroduction and definition, mechatronics systems, closed and loop andopen loop control systems. (3 Hours)

UNIT-5Chapter 09- Power TransmissionBelt Drives Classification and applications, Idler pulley, stepped pulley andfast & loose pulley. Definitions of Velocity ratio, Creep, Slip. Problems onvelocity ratio, length of belt, ratio of belt tensions.Gears- Definitions, Gear Tooth Terminology, Types of gears (Spur, Bevel,Helical, worm and Rack & Pinion). Gear Trains Definitions of Simple,Compound, Reverted Gear Trains, Derivation of Velocity ratio. Simpleproblems. (10 Hours)

Text Books:1. Elements of Mechanical Engineering, Kestoor Preveen,

ndRamesh M R, 2 edition, Interline Publishing, 2006,ISBN-81-7296-089-1.

Reference Books:1. A Text Book of Elements of Mechanical Engineering

K.R. Gopalkrishna,Subhash Publishers, Bangalore.2. A Text Book of Elements of Mechanical Engineering - S.

Triambaka Murthy, 3rd revised edition 2006, I .K. InternationalPublishing House Pvt. Ltd., New Delhi.


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PROBLEM SOLVING TECHNIQUES

Course Code : 13MS01 L T P Cr 1 - 0 - 0 - 1

1. Problems on Mathematical Reasoning : Simple mathematicalproblems based on algebra, simultaneous equations, set theory, simple &compound interest, trigonometry, maxima & minima, permutation &combination, elementary probability theory etc. 4 Hrs2. Problems on Logical Reasoning : Simple problem formulations basedpurely on mathematical logic and geometry, problem of magic squares,bridge crossing with several constraints, simple logical problems on time &clocks, principle of flash mind reader etc. 4 Hrs3. Problems on Interpretation of Physical Concepts : Elementaryproblems based on commonly studied physical mechanical, electrical,

astronomical concepts, simple problems based on Archimedes principle,buoyancy and flotation, universal laws of motion, approaching trains,Fermi's problems / soln., elementary problems on Forensic Science etc.

2 Hrs.4. Problems on Visual and Mental Observations : Problems illustratingthe concept of mental blocks, mind exercises, optical illusions, readingbetween lines, puzzles & brain teasers etc. 3 Hrs.

CIE Component : 25 MarsksParticipation : 15 MarksGroup Test : 10 Marks

( End of Semester )

ENGINEERING PHYSICS LABORATORY

Course Code : 13PH02 L T P Cr

0 - 0 - 3 -1.5

1. LCR frequency Response

2. Verification of Stefan's law

3. Y- Single cantilever

4. Sonometer- Determination of AC frequency5. Energy gap of semiconductor

6. Laser Diffraction grating , Determination of wavelength

7. Moment of Inertia of Irregular body and rigidity modules (n)

8 Determination of Dielectric constant.

9. Determination of Plank's constant

10. Fermi energy

11. I-V Characteristics of Zener diode

12. Transistor Characteristics


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COMPUTER CONCEPTS & PROGRAMMING LAB

Course Code : 13CS03 L T P Cr 0 - 0 -3- 1.5

PART-A

A1. Explain the functionalities of each of the components of computerand assemble them.

A2. Installation of single operating system(Windows-XP) and Dual(Windows-XP and LINUX) Operating System.

A3. Create a document using MS-Word with at least three paragraphsand perform the following operations.a) With left and right margin of 0.5 and Top and Bottom

margin of 0.75.b) Insert page number in every page.

c) Center the heading and make it bold, italic, underline andincrease the font size.

d) Underline the specified words in the document andchange them to italics.

e) Conduct the spell check and correct them suitably.f) Exchange paragraphs 3 and 4 using cut and paste facility.g) Put suitable headers and footers.h) Find and replace the text.i) Demonstrate about auto correcting & auto

Formatting.j) Make your documents protected by a password so that no

body changes it.k) Insert the following table.

Players Team A Team BA 12 13B 11 10C 13 15D 16 17

E 17 18F 20 19A4. (I) Using Excel for above table of scores of basketball

players. Analyze the table and calculate the average-score of each team. Draw a Bar Chart and Column Chartfor the above data

(Ii) Create three slides in Power Point, implement animation,insert pictures and explain how to implement in the slides.

A5. Write a C Program to find and output all the roots of a givenquadratic equation, for nonzero co-efficient. In case of errors, your

program should report, suitable error message.


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A6. Write a C Program to simulate a simple calculator that performs arithmetic like additions, subtraction, multiplication & Division only

on integers. Error messages should be reported, if any attempt ismade to divide by zero. Use switch statement.

A7. Write a C Program to generate & print first 'N' FIBONACCInumbers.

A8 Write a C Program to find the GCD & LCM of 2 integer numbers andoutput the results along with the given integers.A9 Write a C Program to reverse a given integer & check whether it is

palindrome or not. Output the given number with suitablemessage.

A10 Write a C Program to print and count the number of prime numbersbetween N1 and N2.

A11 Write a recursive C Program to find the factorial of a given numberA12 Write a C Program to evaluate the given polynomial

4 3 2F(x) = a X + a X + a X + a X + a using horner's method.4 3 2 1 0

PART-BB1. Write a C Program to N integers or real (zero, +ve, -ve) into an

array and toa. Find the sum of all negative numbersb. Find the sum of all positive numbers.c. Find the average of all input numbers

B2. Write a C Program to sort N numbers in ascending order usingbubble sort and print both given array and the sorted array with

suitable headings.B3. Write a C Program to accept N numbers sorted in ascending orderand to search for given number using binary search. Reportsuccess or failure in the form of suitable message.

B4. Write a C Program to read 2 matrices A(MxN) and B(MxN) andperform addition and Subtraction Of A and B . Find the trace of theresultant Matrix. Output the given matrices, their sum anddifferences and the trace. Use switch statement.

B5. Write a C Program to read 2 string and concatenate them (withoutusing library functions).output the concatenated string along with

the given strings.B6. Write a C Program to read N names stores them in the form of any

array and sort them in alphabetical order output the given namesand the sorted names with suitable headings.

B7. Develop functionsi. To read a given matrix.ii. To compute the product of two matrices.iii. To output a matrix.

B8. Write a C Program to read student information and to print thesame using structures and Functions.


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.Note: In the practical examination, the student has to answer twoquestions. One question from Part A and one question from Part B will beselected by the student by lots. All the questions listed in the syllabus haveto be included in the lots. The change of question (Part A only / Part B only /Both Part A& Part B) has to be considered, provided the request is made for

the same, within half an hour from the start of the examination. Theallotment of marks is as detailed below

Activity

A. Procedure , Writing program & procedure PART-A 5*for the Assigned problems along with PART-B 5*algorithms/ flowcharts

B. Conduction , Execution of the program PART-A 10

and showing the results in proper format PART-B 20

C. Viva-Voce 10Total Marks 50Minimum Passing Masks( 40% of Max. Marks ) 20

* To be considered as zero if student has beenAllowed change of question


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ENGINEERING MATHEMATICS - II

Course Code : 13MA 21 L T P Cr 4- 2 -0 - 5

UNIT - I

Differential Calculus 11 HrsRadius of curvature:- Cartesian, parametric, pedal and polar forms. Rolle'sTheorem (without proof) Lagrange's & Cauchy's mean value Theorems.Taylor's theorem for a function of a single variable and Maclaurin's Seriesexpansions (without proof). Indeterminate forms:- L-Hospital's Rule(without proof), Taylor's Theorem for a function of two variables (Withoutproof). Maxima and Minima for function of two variables.

UNIT - II

Integral Calculus and special functions : 10 HrsMultiple Integrals:- Double and triple Integrals. Evaluation by change oforder of integration, change of variables, Application to Area and Volume.Beta and Gamma functions.

UNIT - IIIVector Calculus 12 HrsVector differentiation, Velocity and acceleration of a vector Point function.Gradient, Divergence, Curl, Laplacian. Solenoidal, Irrotational vectors andtheir properties. Vector integration - Line Integrals, Surface integrals andVolume integrals. Green's, Stoke's and Gauss theorems (Without proof ) &problems.

UNIT - IVLaplace Transforms 11 HrsDefinitions, Transforms of elementary functions, Transforms of Derivatives& Integrals. Properties, Periodic function, Unit step function. InverseTransforms- Properties, Convolution theorem. Solutions of OrdinaryDifferential Equations, Applications to Engineering problems.

UNIT - V

Infinite series. 8 HrsConvergence, divergence and oscillation of an infinite series. Comparisontest, p-series, DAlemberts ratio test, Raabes test, Cauchys root test,Cauchys integral test ( all tests without proof ) for series of positive terms.Alternating series. Absolute and conditional convergence Leibnitzs test (without proof )

Text books:th

1. Dr.Grewal B.S:Higher Engineering Mathematics,36 Edn.July2001


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2. Rainville,E.D,A short Course in Differential Equationsth

4 Edn.1969

Reference books:1. E.Kreyszing, John Willey & Sons, 6th Edn. Advanced

Engineering Mathematics .

2. Shanthi Narayan Differential Calculus3. Shanthi Narayan Integral Calculus

ENGINEERING CHEMISTRY

Course Code : 13CY01 L T P Cr 4- 0- 0- 4

UNIT - I

Electrochemical Energy Systems 6 HrsElectrode Potential & Cells: Single Electrode Potential-Concept,definition, origin, sign conventions. Standard Electrode Potential;Definition, Derivation of Nernst Equation, formation of a cell, EMF of a cell -definition, notation & conventions. Primary, Secondary & Concentration

0Cells, Problems on EMF, E & E. Types of Electrodes. ReferenceElectrodes - Calomel Electrode, Ag-AgCl Electrode, Ion selectiveelectrode- Glass Electrode, Determination of pH using Glass Electrode.Battery Technology 4 Hrs

Batteries: Introduction-Definition, Basic Concepts, Battery Characteristics.Classification of Batteries - Primary, Secondary, Reserve Batteries.Classical batteries: Lead -Acid battery, Ni-Cd Battery. Modern Batteries: Zn-Air, Li MnO Batteries. (Construction, working & applications of these2batteries)

UNIT - IIFuel Cells : 3 HrsIntroduction, Definition, differences between Battery and Fuel Cell,Advantages of Fuel Cells, Types of Fuel Cells Low, Medium and High

temperature, explanation with example, molten carbonate and solid oxidefuel cells (mention of electrodes, electrolyte and applications).Construction Working of H O Fuel Cell & MeOH-O Fuel Cell.2 2 2High Polymers 7 HrsIntroduction, Definition, classification with examples (Natural & Synthetic)Polymerization-Definition, types-addition and condensation withexamples. Mechanism of polymerization - Free radical mechanism takingethylene as an example. Techniques of polymerization - Bulk, Solution,Suspension and Emulsion polymerization. Glass transition temperature-Definition, significances, factors influencing Tg values. Synthesis,

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properties and applications of Teflon, PMMA and Phenolformaldhyde.Elastomers: deficiencies of natural rubber, advantages of synthetic rubber.Manufacture and uses of Buna-S, Neoprene rubber and Butyl rubber.Adhesives: Synthesis & applications of Epoxy resin. Conducting polymers -Definition, chemical synthesis and applications of polyaniline.

UNIT - IIIChemical Energy Sources : 6 HrsIntroduction to energy; Fuels-Definition, classification with examples.Hydrocarbons as fuels. Calorific value - Definition; Gross & Net Calorificvalue, units (SI). Experimental determination of calorific value (Solid fuel byBomb Calorimeter), Numerical problems. Petroleum Cracking-Fluidizedbed catalytic cracking. Reformation of petrol.Knocking: Definition, mechanism, ill effects. Octane Number, CetaneNumber, prevention of knocking. Antiknocking agents, unleaded petrol,power alcohol.

Water Technology : 6 HrsImpurities in water - Water analysis - Determination of different constituentsin water -hardness, alkalinity, chloride, nitrate, sulphate (by gravimetry),fluoride and dissolved oxygen, Definition of BOD and COD, determinationof Chemical Oxygen Demand, Numerical problems on COD, Sewagetreatment, Potable water, purification of water, flash evaporation, electrodialysis and reverse osmosis.

UNIT - IVCorrosion Science 5 Hrs

Metallic Corrosion: Definition, Electrochemical Theory of Corrosion, Typesof Corrosion-Differential metal, Differential aeration (Waterline & Pittingcorrosion), Stress Corrosion, Factors affecting the rate of corrosion.Corrosion control-Inorganic coatings- Anodizing, Phosphating, Metalcoatings-Galvanizing, Tinning , Corrosion inhibitors, Cathodic protection.Metal Finishing : 5 HrsTechnological importance of metal finishing. Polarization, DecompositionPotential and Over Voltage.Electroplating- Process, effects of plating variables on nature of

electrodeposit, surface preparation, electroplating of Chromium & Gold.Electroless Plating- Distinction between electro plating and electrolessplating. Electroless plating of Copper and Nickel.

UNIT - VInstrumental Methods of Analysis 6 HrsIntroduction - Advantages of instrumental methods of analysis overconventional methods of analysis. Colorimetry - Principle, Lambert's law,Beer's Law, Derivation of Beer-Lambert's Law. Instrumentation andapplications of colorimeter, potentiometry - Principle, instrumentation and

applications, Types of potentiometric titrations - neutralization (Acid-Base),


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redox and precipitation titrations, Conductometry - Principle,instrumentation and applications.Phase Rule 4 HrsHomogeneous and Heterogeneous Systems. Gibb's phase ruler,Application of Phase rule to one component system; phase diagram ofwater system. Application of phase rule to two component system; phase

diagram of Lead-Silver System.

Text Books:1. Engineering Chemistry by M.M.Uppal,Khanna Publishers,

Sixth Edition,20012. A Text Book of Engineering Chemistry by Jain & Jain, Dhanpatrai

Publishers, New Delhi3. A Text Book of Engineering Chemistry by S.S.Dara,

Revised Edn,S.Chand & CoReference Books:

1. Principles of Physical Chemistry, B.R.Puri,L.R.Sharma &M.S.Pathania, S.Nagin Chand & Co., 33rd Edition.,1992

2. Polymer Science, V.R.Gowariker, N.V.Viswanathan & JayadevSreedhar

3. Text Book of Polymer Science by F.W.Billmeyer, John Wiley &Sons,1994

4. Corrosion Engineering by M.G.Fontana,Mc Graw HillPublications5. Engineering Chemistry by B.K.Sharma, Krishna Prakashan

Media(P) Ltd, Meerut6. Instrumental methods of Chemical Analysis by B.K. Sharma,

Krishna prakasha Media(P) Ltd., Meerut7. Chemistry for Engg. Students by B.S. Jaiprakash, Venugopal

Shivakumaraiah and Pushpa Iyengar.8. Engineering Chemistry - by Putti.R. Vijayaswarathy.

ELEMENTS OF CIVIL ENGINEERING& APPLIED MECHANICS

Course Code : 13CE 01 L T P Cr

3 - 2 - 0 - 4UNIT-11. Introduction to Civil Engineering, Scope of different fields of CivilEngineering-Surveying, Building Materials, Construction Technology,Geotechnical Engineering, Structural Engineering, Hydraulics, WaterResources and Irrigation Engineering, Transportation Engineering,Environmental Engineering.

Infrastructure: Types of infrastructure, Role of Civil Engineer in theInfrastructural Development, Effect of the infrastructural facilities on socio-economic development of a country.

2. Roads: Type of roads, Components and their functions.


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3. Bridges and Dams: Different types with simple sketches 08 Hours

UNIT-2Introduction to Mechanics, Particle, Rigid body, Elastic body, Force, Units,Characteristics of a force, Principle of transmissibility and its limitations,Composition of forces, Resolution of forces, Principle of resolution,Principle of super position, Force system and its classifications, Moment,Units, Varignon's theorem, Couple and characteristics, Resultant methodsof finding resultant. Determination of resultant of Coplanar concurrent andnonconcurrent force systems. 12 Hours

UNIT-3Types of supports, Types of beams, Types of loads, Concepts of free bodydiagram, Equilibrium, Equilibrant, Equilibrium of coplanar concurrent forcesystem, Principles of moments, Equilibrium of coplanar non concurrentforce system, Static equations of Equilibrium, Problems of equilibriumincluding different types of beams subjected to different types of loads andtheir combinations. Analysis of simple trusses (method of joints and methodof sections). 12 Hours

UNIT-4Centroid: Determination of centroid of simple geometric figures such astriangle, rectangle, and segment of a circle by method of integration,Centroid of combinations of plane Geometric figures, Moment of inertia:Parallel and Perpendicular axis theorems, Radius of gyrationDetermination of moment of inertia and radius of gyration of triangle,rectangle, circular areas by method of integration, Moment of inertia of

combinations of plane geometric figures. 12 Hours

UNIT-5Friction: Types of friction, Laws of friction, Angle of friction, Angle of reposeand Cone of friction, Problems on blocks, wedges and ladders, Numericalproblems. 08 Hours

Text Books:1. Engineering Mechanics by Dr. S.S. Bhavikatti and

K. G Rajashekarappa, New Age International (P) Ltd.

2. A text book of Engg. Mechanics by Dr. R K Bansal,Laxmi Publications (P) Ltd.

Reference Books:1. Engineering Mechanics by K.L. Kumar, Tata McGraw-Hill Publication Ltd.2. A text book of Applied Mechanics by S Ramamurtham

Dhanpath Rai & sons.3. A text book of Applied Mechanics by I.B.Prasad Khanna

Publishers.4. Engg. Mechanics by F.L.I Singer Harper Collins Publishers.5. Engg. Mechanics by Thimoshnko & Young Micgraw Hill publication

Ltd.


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BASIC ELECTRONICS ENGINEERING

Course Code : 13EC 01 L T P Cr4 -0 -0 - 4

UNIT I: Semiconductor Diodes and Applications:

P-N junction diode, characteristics and parameters, diode approximation,DC load line, effect of temperature on diode current, Zener diode, Half-Wave rectifier and Full- wave rectifier, capacitor filter, Zener diode voltageregulator, numerical examples as applicable. 12 Hrs

UNIT II: Transistors:Bipolar junction transistors, voltages and currents, common base, commonemitter and common collector characteristics, Dc load line and Q point.Biasing Methods: Base bias, collector to base bias, voltage divider bias,and comparison of bias circuits, JFET- Construction, principle, workingand characteristics. 10 Hrs

UNIT- III: Amplifiers and oscillators:Single stage and two stage RC coupled CE amplifier, Decibels and Halfpower points (Qualitative discussions only), The Barkhausen criterion foroscillations, feedback - positive and negative, Tank circuit BJT-RC phaseshift, , Hartly, Colpits, crystal oscillators (Qualitative discussions only)Numerical problems as applicable. 10 Hrs

UNIT- IV: Introduction to operational Amplifiers:OPAMP : Characteristics of ideal and practical OPAMP, Inverting and nonInverting OPAMP circuits, Applications of OPAMP:- voltage follower, adderand integrator, differentiator, Numerical examples as applicable.Communication System :Block diagram modulation : need, types : AMand FM brief discussion. Cathode Ray oscilloscope (CRO):- Blockdiagram of CRO and CRT, measurement of amplitude, frequency andphase, LED and LCD 10 Hrs

UNIT- V: Introduction to Digital Electronics:

Number Systems: Introduction, decimal system, binary, octal andhexadecimal number systems, 1's and 2's compliment methods. BCDnumbers Digital logic:Boolean algebra, logic gates, half- adder, full- adder,parallel binary adder. 10 Hrs

Text books:1. Electronic devices and circuits: David A Bell ; PHI,

New Delhi, 2004.2. Electrical and electronic & computer Engineering for Scientists and

engineers, school edition: Dr .K A Krishnamurthy &


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M.R. Raghuveer- New Age International publishers(wiley Eastern) 2001.

Reference Books:1. Electronic devices and circuits: Jacob Millman, Christo C Halkias

TMH, 1991 Reprint 2001.th

2. Electronic communication systems, George kennedy, TMH 4

edition.3. Digital logic and Computer design, Morris Mano, PHI, EEE.

INTRODUCTION TO ENGINEERING DESIGN

Course Code : 13IC02 L T P Cr2- 0 - 0 - 2

The purpose of this course is to expose the beginning student ofengineering to the typical methodology of problem solving used by the

engineer in the design of products, processes or systems for satisfyinghuman needs. While the following course topics will be covered by theinstructors through 20 - 25 lecture sessions and design case studies,major learning by the student will be through a number of tutorialexercises, design problem solving assignments, a group design seminarand group design project.

Syllabus:1. Definition of Engineering Design with illustrations, Place of Design

in Human Activity, Life cycle of product, Design Morphology,Design process methodologies, Basic methodology for problemsolving. 2 Hrs

2. Recognition of design problems, Needs analysis, Designrequirements. Formulation of design problem. 2 Hrs

3. Introduction to Engineering Materials Metals, Non- metals,Plastics, Ceramics, Composites. 5 Hrs

4. Manufacturing considerations in Design A brief overview ofConventional Manufacturing Processes like Casting, Forging,Welding, Machining, Powder metallurgy, Non traditional methodsof manufacture. 5 Hrs

5. Analysis of design problems, Description of inputs & out puts,Weightings & Trade-Offs among requirements, Criteria forcomparison & evaluation of solution, Identification of constraints,Synthesis of alternative solutions, Creativity & Techniques forcreative idea generation & Evaluation of solutions. QualityFunction Deployment Matrix - House of Quality diagram 6 Hrs

6. Design communication & presentation, Design & theEnvironment, Professional Ethics in Engineering Design forManufacture, Design for Assembly, Design for Reliability, Designfor Affordability. 2 Hrs


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Text Books1. Engineering Design, Methods & Strategies for Product Design, by

N. Cross, John Wiley, Publications.2. Product Design & manufacturing, by A.K.Chitale & R.C.Guptha,

Eastern Economy Edition.Reference Books

1. Design Methods in Engineering and Product Design, by Ian Wright,McGraw-Hill Publication.

2. An Introduction to Design Engineering, by M.A. Parameswaran,Narosa Publications.

Scheme of Examination :CIE Components : 50 marks( Midterm Exam: 20 ; Internal Tests : 10 ;

Assignments & Case Studies: 20 )SEE Components : 50 marks(Endterm Exam : 30 ; Project Work : 20.

COMPUTER AIDED ENGINEERING DRAWING (CAED)

Course Code : 13ME03 L T P Cr2- 0 - 4 - 4

Chapter - 1. Introduction to Computer Aided SketchingIntroduction, Drawing Instruments and their uses, BIS conventions,Dimensioning and free hand practicing. Computer screen, layout of thesoftware, standard tool bar/menus and description of most commonly usedtool bars, navigational tools. Co-ordinate system and reference planes.Definitions of HP, VP, RPP & LPP. Selection of drawing size and scale.Commands and creation of Lines, Co-ordinate points, axes, square,rectangle, polygons, circles, ellipse, text, move, copy, off-set, mirror, rotate,trim, extend, break, chamfer, fillet, curves, constraints viz. tangency,

parallelism, inclination and perpendicularity. 12 Hours

Chapter - 2. Orthographic ProjectionsIntroduction, Definitions - Planes of projection, reference line andconventions employed, Projections of points in all the four quadrant,Including Front View, Top View, Left View, Right viewProjections of straight lines(located in First quadrant/first angle only),True and apparent lengths, True and apparent inclinations to referenceplanes (No application & Midpoint problems). 12 Hours


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Chapter - 3. Orthographic Projections of Plane Surfaces (First AngleProjection Only) Introduction, DefinitionsProjections of planesurfacestriangle, square, rectangle, pentagon, hexagon and circle, planesin different positions by change of position method only (No problems onpunched plates and composite plates, VP Resting). Minimum threeproblems to be solved by manual drawing. 12 Hours

Chapter - 4. Projections of Solids (First angle Projection only)Introduction, Definitions Projections of right regular tetrahedron,hexahedron (cube), Prisms, Pyramids of square, pentagon and Hexagon,cylinders and cones in different positions (No problems on octahedronsand combination solid). Minimum three problems to be solved by manualdrawing. 24 Hours

Chapter - 5. Development of Lateral Surfaces of Solids and SectionsIntroduction, Section planes, Sections, Apparent shapes and True shapes

of Sections of right regular prisms, pyramids, cylinders and cones restingwith base on HP. Development of lateral surfaces of above solids, theirtruncations. Division of lines into equal parts method for truncatedcylinders. (No problems on lateral surfaces of trays, tetrahedrons, spheresand transition pieces). Minimum three problems to be solved by manualdrawing. 12 Hours

Chapter - 6. Isometric Projection (Using Isometric Scale Only)Introduction, Isometric scale, Isometric projection of simple plane figures(keeping the lamina on HP), Isometric projection of tetrahedron,hexahedron(cube), right regular prisms, pyramids, cylinders, cones,spheres, cut spheres and combination of solids (Maximum of 2 solids).Minimum three problems to be solved by manual drawing. 12 Hours

Text Books:1. Engineering Graphics - K.R. Gopalakrishna, 32nd edition, 2005-

Subash Publishers Bangalore.2. Engineering Drawing - N.D. Bhatt & V.M. Panchal, 48th edition,

2005-Charotar Publishing House, Gujarat.

3. A Primer on Computer Aided Engineering Drawing-2006,Published by VTU, Belgaum.

Reference Books:1. Computer Aided Engineering Drawing - S. Trymbaka Murthy, -I.K.

rdInternational Publishing House Pvt. Ltd., New Delhi, 3 revisededition- 2006.

2. Engineering Graphics - K.R. Gopalakrishna, 32nd edition, 2005-Subash Publishers Bangalore.


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3. Fundamentals of Engineering Drawing with an Introduction toInteractive Computer Graphics for Design and Production

Luzadder Warren J., Duff John M., Eastern Economy Edition,2005-Prentice-Hall of India Pvt. Ltd., New Delhi.

4. Computer Aided Engineering drawing- Prof. M. H. Annaiah, NewAge International Publisher, New Delhi. 2009.

Conducting classesClasses may be conducted in two slots/ week of 3 hours each

(Instruction 1 hr. +Sketching & Practice 2 hr.)

Scheme of Evaluation for Continues Internal Evaluation (50 Marks)1. 30 Marks for Class work,

a. 20 Marks for (Sketching & Computer Aided Engineeringdrawing printouts in A4 size sheets).

b. 10 Marks for submission of manual drawings.

2. 2 tests of10 Marks in the same pattern as that of the mainexamination.

All the solutions must be valued on the spot by examining thesketches, display and the hard copies.

Scheme of Examination1. Chapter 1 is only for practice and Internal Assessment and not for

examination.

2. A maximum of THREE questions must be set as per the followingpattern (No mixing of questions from different Chapters).

Q. No From Chapters Marks Allotted1. Chapter 2 or Chapter 3 152. Chapter 4 203. Chapter 5 or Chapter 6 15

Total 50


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ENGINEERING CHEMISTRY LABORATORY

Course Code : 13CY 02 L T P Cr 0 -0 - 2 - 1

[ For Examination, one experiment from Part-A and one experiment fromPart-B shall be set selecting different experiments under Part-A and

common experiment under Part-B]

Part-A1. Determination of pKa value of a given weak acid by using pH meter2. Potentiometric estimation of FAS using standard K Cr O solution2 2 73. Colorimetric estimation of copper.4. Flame Photometric estimation of sodium in the given sample of

water

5. Determination of Viscosity Coefficient of given organic liquid usingOstwald's Viscometer

6. Conductometric estimation of strong acid against strong base.

Part-B1. Determination of total hardness of a sample of water using

disodium salt of EDTA2. Determination of Calcium Oxide in the given sample of cement

solution (Rapid EDTA method)3. Determination of percentage of copper in brass using standard

Sodium Thiosulphate solution4. Determination of Iron in the given sample of Haematite Ore

solution (External Indicator method) using K Cr O solution2 2 75. Determination of Chemical Oxygen Demand of the given Industrial

waste water6. Determination of Dissolved Oxygen in the given water sample by

Winkler Method

Reference Book:

1. Vogel's Text Book of Quantitative Inorganic Analysis, revised byJ.Basset, R.C.Denny,G.H.Jaffery,4th Edition.


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WORK SHOP (MECHANICAL)

Course Code : 13ME02 L T P Cr 0 -0 -2 -11. Fitting

i. Study of fitting toolsii. Study of fitting operations & jointsiii. Minimum 3 models involving rectangular, triangular, semi-circular and dovetail joints.

2. Weldingi. Study of electric arc welding tools & equipment'sii. Minimum 3 Models- electric arc welding-Butt joint, Lap joint,

T-joint or L-joint.3. Sheet metal

i. Study and demonstration of Sheet metal and soldering work.

ii. One model of Cone and Cylinder combined to make Funnel.Scheme of Examination:

Fitting 30 MarksWelding 10 MarksViva Voce 10 marks

Reference Book:1. The Elements of Workshop Technology -, Vol 1 & 2, S.K.H.

Choudhury,2. A.K.H.Choudhury, Nirjhar Roy, 11th edition, 2001,

Media Promoters and Publishers, Mumbai.


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***l *l**l1 *ld*lw 2 x xWl*o]B * *C **l

Course Code : 13IC 05 L T P Cr 2 -0 - 0 - 0

*x "* : J]*x 2 *hx

1) J* ( ***) : |*.]J.xh|x2) J.Wx*]*lC *Cw*ld* lw ( *Cw d* ) : .B. *lv]JB3) |x A*yxml*\*r(*J* * **) : O*]J*l J]*hd*4) "**]xx Jl#x ( * h*) : *lxh*5) **l xlx* Rd* Dll*|x (Wx|*) : x]*]*l ]J*lJWl "lChJ]B6) xA* \*|*rA* l*lel]*l( WEJK*#xV* ) : b#B JWl7) xB *h]B ~\*l ( *dx) : x8) ]xfi *ld*lw xW (***) : *l]*h *lhf9) *l^o **l ("h* ]*A*) : P.mhxB10) h* xlq *ld*lwAJ* Wl* l (*y*]*#xV* ): x.P.* v*h|* dxfl11) Jh (*dx) : x**]*A*D ]J*l12) xKlh AJ*l ( ***) : |*h*lC13) mrA* l*lel]** **l (***) : *WdJ J***14) ]*l ( *dx) : **]Jfl *l*]*A*D15) *Jv** h*l *]**( *y*l #xV*) : ]*A**ldB d*yx]x16) d*hd*EJk* *xlr Jx (d*hd*EJk* ]*A* ) : B. *lh|*]B17) xxF* (J*C) : EJ**|*

KANNADA KALI

1. Introduction each other - 1Personal, Possessive forms, Interrogative words.

2. Introduction each other -2Personal, Possessive forms, Yes/No Type interrogation

3. About RamayanaPossessive forms of nouns, dubitive question,Relative nouns

4. Enquiring about a room for rentQualitative and quantitative adjectives

5. Enquiring about the collegePredictive forms locative case


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6. In a hotelPredictive forms, locative case

7. Vegetable marketNumeral, plurals

8. Planning for a picnicImperative, Permissive, hortative

9. Conversion between Doctor and the patientVerb-iru, negation, illa, non-past tense

10. Doctors advise to PatientPotential forms, no past continuous

11. Discussion about a filmPast tense, regation

12. About Brindavan GardenPast tense , negation

13. About routine activities of a studentVerbal participle, reflexive form, negation

14. Telephone conversationPast and present, present past continuous andtheir negation

15. About Belur and HalebiduRelative participle, negation

16. Discussing about examination and future planSimple conditional and negative

17. Karnataka ( Lesson for reading)

18. Kannada Bhaashe ( Lesson for reading )

19. Mana taruva Sangati alla ( Leasson for reading)

20. Beku bedagalu ( Leasson for reading)


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Documents

First Year Syllabus - 2013-14 SSIT