I want, 1st SEM syllabus(EEE) for 2010-2011 batch in anna university coimbatore

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   ENGINEERING MATHEMATICS – I Sub Code : 10MAT11 IA Marks : 25 Hrs/ Week : 04 Exam Hours : 03 Total Hrs. : 52Exam Marks : 100 PART-A UNIT – 1 Differential Calculus - 1 Determination of nth derivative of standard functions-illustrative examples*. Leibnitz’s theorem (without proof) and problems. Rolle’s Theorem – Geometrical interpretation. Lagrange’s and Cauchy’s mean value theorems. Taylor’s and Maclaurin’s series expansions of function of one variable (without proof). 6 Hours UNIT – 2 Differential Calculus - 2 Indeterminate forms – L’Hospital’s rule (without proof), Polar curves: Angle between polar curves, Pedal equation for polar curves. Derivative of arc length – concept and formulae without proof. Radius of curvature - Cartesian, parametric, polar and pedal forms. 7 Hours UNIT – 3 Differential Calculus - 3 Partial differentiation: Partial derivatives, total derivative and chain rule, Jacobians-direct evaluation. Taylor’s expansion of a function of two variables-illustrative examples*. Maxima and Minima for function of two variables. Applications – Errors and approximations. 6 Hours UNIT – 4 Vector Calculus Scalar and vector point functions – Gradient, Divergence, Curl, Laplacian, Solenoidal and Irrotational vectors. Vector Identities: div (øA), Curl (øA) Curl (grad ø ) div (CurlA) div (A x B ) & Curl (Curl A) . Orthogonal Curvilinear Coordinates – Definition, unit vectors, scale factors, orthogonality of Cylindrical and Spherical Systems. Expression for Gradient, Divergence, Curl, Laplacian in an orthogonal system and also in Cartesian, Cylindrical and Spherical System as particular cases – No problems 7 Hours 6 PART-B UNIT – V Integral Calculus Differentiation under the integral sign – simple problems with constant limits. Reduction formulae for the integrals of sinn x, cosn x, s i n m x c o s n x and evaluation of these integrals with standard limits - Problems. Tracing of curves in Cartesian, Parametric and polar forms – illustrative examples*. Applications – Area, Perimeter, surface area and volume. Computation of these in respect of the curves – (i) Astroid: 2 2 2 x 3y 3 a 3 (ii) Cycloid: x a sin, y a 1 cosand (iii) Cardioid: r a 1cos 6 Hours UNIT – VI Differential Equations Solution of first order and first degree equations: Recapitulation of the method of separation of variables with illustrative examples*. Homogeneous, Exact, Linear equations and reducible to these forms. Applications - orthogonal trajectories. 7 Hours UNIT – VII Linear Algebra-1 Recapitulation of Matrix theory. Elementary transformations, Reduction of the given matrix to echelon and normal forms, Rank of a matrix, consistency of a system of linear equations and solution. Solution of a system of linear homogeneous equations (trivial and non-trivial solutions). Solution of a system of non-homogeneous equations by Gauss elimination and Gauss – Jordan methods. 6 Hours UNIT – VIII: Linear Algebra -2 Linear transformations, Eigen values and eigen vectors of a square matrix, Similarity of matrices, Reduction to diagonal form, Quadratic forms, Reduction of quadratic form into canonical form, Nature of quadratic forms 7 Hours Note: * In the case of illustrative examples, questions are not to be set. 7 Text Books: 1. B.S. Grewal, Higher Engineering Mathematics, Latest edition, Khanna Publishers 2. Erwin Kreyszig, Advanced Engineering Mathematics, Latest edition, Wiley Publications. Reference Books: 1. B.V. Ramana, Higher Engineering Mathematics, Latest edition, Tata Mc. Graw Hill Publications. 2. Peter V. O’Neil, Engineering Mathematics, CENGAGE Learning India Pvt Ltd.Publishers ENGINEERING CHEMISTRY Sub Code : 10CHE12/ 10CHE 22 IA Marks : 25 Hrs/ Week : 04 Exam Hours : 03 Total Hrs. : 52 Exam Marks : 100 PART – A UNIT – 1 Electrode Potential and Cells Introduction, Differences between galvanic and electrolytic cells, Construction of galvanic cell, EMF of a cell , Origin of single electrode potential, Sign convention and cell notation, Standard electrode potential, Derivation of Nernst equation for single electrode potential. Types of electrodes: Reference electrodes – Primary and secondary, Limitations of standard hydrogen electrode, Construction and working of calomel electrode and Ag – AgCl electrode, Measurement of single electrode potential, Numerical problems on electrode potential and EMF of a cell, Ion selective electrode: Glass electrode – Construction , Determination of pH of a solution using glass electrode, concentration cells, numerical problems. 7 Hours UNIT - 2 Batteries and Fuel Cells Basic concepts, Battery characteristics – primary, secondary and reserve batteries with examples , super capacitors Classical batteries: Construction, working and applications of Zn – MnO2, Lead acid storage andNi – Cd batteries. Modern batteries: Construction , working and applications of Zn – air, Ni – metal hydride and Li – MnO2 batteries. Fuel cells – Differences between battery and fuel cell, construction and working of H2 – O2 and CH3OH– O2 fuel cells. 6 Hours UNIT - 3 Corrosion and its control Electrochemical theory of corrosion, Galvanic series, Types of corrosion- Differential metal corrosion, Differential aeration corrosion (Pitting and water line corrosion), Stress corrosion (caustic embrittlement in boilers), Factors affecting the rate of corrosion Corrosion control: Inorganic coatings – Anodizing and phosphating, Metal coatings – Galvanizing and Tinning, Corrosion inhibitors, cathodic protection. 7 Hours 12 UNIT - 4 Metal Finishing Technological importance, Significance of Polarization, Decomposition potential and Overvoltage in electroplating, Theory of electroplating. Effect of plating variables on the nature of electrodeposit- Electroplating process, Electroplating of gold and Chromium. Distinction between electroplating and electrolessplating, Electolessplating of copper and nickel. 6 Hours PART – B UNIT – 5 Chemical fuels and Photovoltaic cells Introduction, Classification of chemical fuels Calorific value – High and Low calorific values, Determination of calorific value –solid or liquid fuel using Bomb calorimeter - numerical problems . Petroleum – Cracking by fluidized catalytic cracking process, Reformation of petrol, Octane and Cetane numbers. Knocking – mechanism and harmful effects. Antiknocking agents – TEL, Catalytic converters – Principle and working, Unleaded petrol, Power alcohol and Biodiesel. Photovoltaic cells – Production of solar grade silicon, Doping of silicon, Construction and working of photovoltaic cell, Advantages. 7 Hours UNIT – 6 The Phase rule and Instrumental methods of analysis Statement of Gibb’s phase rule and explanation of the terms involved, Phase diagram of one component system – water system, Condensed phase rule , Phase diagram of two component system- Eutectic Pb – Ag system and Fe – C system. Application – Desilverization of lead. Instrumental methods of analysis- Theory , Instrumentation and applications of Colorimetry, Potentiometry , Conductometry and Flame photometry. 6 Hours UNIT - 7 Polymers Types of polymerization – Addition and Condensation, Mechanism of polymerization – Free radical mechanism taking ethylene as example. Glass transition temperature ( Tg) , Structure – property relationship. Types of plastics – Thermosetting and thermoplastics. Manufacture of plastics by compression ,injection and extrusion moulding. Synthesis and applications of Teflon, PMMA, Polyurethane and Phenol – formaldehyde resins. 13 Elastomers: Deficiencies of natural rubber, Vulcanization of rubber. Synthesis and applications of Neoprene and Butyl rubber, Silicone rubbers. Adhesives: Synthesis and applications of epoxy resins. Polymer composites - Synthesis and applications of Kevlar and Carbon fibers. Conducting polymers – Definition, Mechanism of conduction in Polyacetylene, applications. 7 Hours UNIT - 8 Water Chemistry Impurities in water ,Water analysis – Determination of different constituents in water – Hardness, alkalinity, chloride , fluoride , nitrate , sulphate and dissolved oxygen. Numerical problems on hardness and alkalinity. Sewage – BOD and COD, Numerical problems, Sewage treatment. Desalination of water – Reverse Osmosis and Electrodialysis 6 Hours Text Books: 1. Chemistry for Engineering students by B.S. Jai Prakash, R.Venugopal, Sivakumaraiah and Pushpa Iyengar 2. Engineering Chemistry by O.G. Palanna, Tata McGraw Hill Publishing Pvt.Ltd. New Delhi 2009 Reference Books: 1. Principles of Physical Chemistry B.R. Puri , L.R.Sharma & M.S. Pathania, S. Nagin chand and Co. 2. A text book of Engineering Chemistry P.C. Jain and Monica Jain Dhanpatrai Publications , New Delhi. 1 Corrosion Engineering M.G. Fontana Mc. Graw Hill Publications. 2 Chemistry in Engineering and Technology (Vol. 1 &2) J.C. Kuriacose and J. Rajaram. 3 Polymer Science V.R. Gowariker , Wiley Eastern Ltd. COMPUTER CONCEPTS AND C PROGRAMMING Subject Code : 10CCP13/10CCP23 IA Marks : 25 Hrs/Week : 04 Exam Hours : 03 Total Hrs. : 52 Exam Marks : 100 PART – A UNIT-1 Introduction to Computer Systems, Interacting with the Computer, Computer Organization The Computer defined, Early history, Basic parts and structure of a computer, Categorizing Computers, Information Processing life cycle, Essential computer hardware, Essential computer software. Keyboard, Mouse, Inputting data in other ways: Pen-based systems, Data scanning devices, Game controllers, Voice recognition devices, Microphone, Visual input devices, Video and sound, Monitors, Printers, Plotters, Data projectors, Sound systems. Number systems, ASCII, BCD, CPU, Buses, Mother Board, Chip sets, Microprocessors. 7 Hours UNIT-2 Storage Device Concepts, Operating Systems, Networking Storage media, Floppy drive, Hard disks, Optical media, CD-ROM, CD-R, CD-RW, DVD-ROM, Recordable DVD. Software, Custom-made Software, Shrunk-wrapped software, Types of operating systems, Computer processing techniques, Functions of Operating Systems, Management of processor, Memory, Virtual storage, devices, and information. Networking, Convergence of computing with communications, Networking basics, Need for networking, Basic components of a network. 7 Hours UNIT-3 Fundamentals of Problem Solving, Introduction to C Language Creating and running programs, System development, Software Engineering. Introduction to C Language: Background, C Programs, Identifiers, Types, Variables, Constants, Input / Output, Programming example, Software Engineering, Tips and common programming errors. 6 Hours 18 UNIT-4 Structure of a C Program Expressions, Precedence and associativity, Side effects, Evaluating expressions, Type conversion, Statements, Programming examples, Software Engineering, Tips and common programming errors. 6 Hours PART - B UNIT-5 Functions Designing structured programs, Functions in C, User-defined Functions, Inter-function communication, Standard functions, Scope, Programming examples, Software Engineering, Tips and common programming errors. 6 Hours UNIT-6 Selection – Making Decisions, Repetition Logical data and operators, Two-way selection, Multiway-selection, Concept of a loop, pre-test and post-test loops, Initialization and updating, Event controlled and count controlled loops, Loops in C, Other statements related to looping, looping applications, Recursion, Programming examples, Software Engineering, Tips and common programming errors. 7 Hours UNIT-7 Arrays, Strings Concepts, Using arrays in C, Inter-function communication, Array applications, Bubble Sort, Binary search, Two-dimensional Arrays, Multidimensional arrays, String concepts, C strings, String input/output, Programming examples, Software Engineering, Tips and common programming errors. 7 Hours UNIT-8 Basic Concepts of Parallel Programming Motivating parallelism, Scope for parallel computing, Thread basics, Why threads? OpenMP: A standard for directive – based parallel programming, The OpenMP programming model, Specifying concurrent tasks in OpenMP, Synchronization constructs in OpenMP, Data handling in OpenMP, OpenMP library functions, Environment variables in OpenMP. 6 Hours 19 Text Books: 1. Vikas Gupta: Computer Concepts and C Programming, Dreamtech Press/Wiley India, 2009. 2. Behrouz A. Forouzan, Richard F. Gilberg: Computer Science - A Structured Approach Using C, 3rd Edition, Cengage Learning, 2007. 3. Ananth Grama, Anshul Gupta, George Karypis, Vipin Kumar: Introduction to Parallel Computing, 2nd Edition, Pearson Education, 2003. Reference Books: 1. Peter Norton: Introduction to Computers, 7th Edition, Tata McGraw Hill, 2010. 2. E. Balagurusamy: Programming in ANSI C, 4th Edition, Tata McGraw Hill, 2008. 3. Brian W. Kernighan and Dennis Ritchie: The C Programming Language, 2nd Edition, PHI, 1998. Web Reference: http://elearning.vtu.ac.in ********** COMPUTER AIDED ENGINEERING DRAWING Sub Code : 10CED14 / 10CED24 IA Marks : 25 Hrs/ Week : 06 (Instruction 2 hr. + Sketching & Practice 4 hr.) Exam Hours : 03 Total Hrs. : 84 (Instruction 28 hr. +Sketching & Practice 56 hr.) Exam Marks : 100 1. Introduction to Computer Aided Sketching Introduction, Drawing Instruments and their uses, BIS conventions, Lettering, Dimensioning and free hand practicing. Computer screen, layout of the software, standard tool bar/menus and description of most commonly used tool bars, navigational tools. Co-ordinate system and reference planes. Definitions of HP, VP, RPP & LPP. Creation of 2D/3D environment. Selection of drawing size and scale. Commands and creation of Lines, Co-ordinate points, axes, poly-lines, square, rectangle, polygons, splines, circles, ellipse, text, move, copy, off-set, mirror, rotate, trim, extend, break, chamfer, fillet, curves, constraints viz. tangency, parallelism, inclination and perpendicularity. Dimensioning, line conventions, material conventions and lettering. 12 Hours 2. Orthographic Projections Introduction, Definitions - Planes of projection, reference line and conventions employed, Projections of points in all the four quadrants, Projections of straight lines (located in First quadrant/first angle only), True and apparent lengths, True and apparent inclinations to reference planes (No application problems). 12 Hours 3. Orthographic Projections of Plane Surfaces (First Angle Projection Only) Introduction, Definitions–projections of plane surfaces–triangle, square, rectangle, rhombus, pentagon, hexagon and circle, planes in different positions by change of position method only (No problems on punched plates and composite plates). 12 Hours 4. Projections of Solids (First angle Projection only) Introduction, Definitions – Projections of right regular tetrahedron, hexahedron (cube), prisms, pyramids, cylinders and cones in different positions (No problems on octahedrons and combination solid). 24 Hours 5. Sections And Development of Lateral Surfaces of Solids 24 Introduction, Section planes, Sections, Section views, Sectional views, Apparent shapes and True shapes of Sections of right regular prisms, pyramids, cylinders and cones resting with base on HP. (No problems on sections of solids) Development of lateral surfaces of above solids, their frustums and truncations. (No problems on lateral surfaces of trays, tetrahedrons, spheres and transition pieces). 12 Hours 6. Isometric Projection (Using Isometric Scale Only) Introduction, Isometric scale, Isometric projection of simple plane figures, Isometric projection of tetrahedron, hexahedron(cube), right regular prisms, pyramids, cylinders, cones, spheres, cut spheres and combination of solids (Maximum of three solids). 12 Hours Text Books: 1. Engineering Drawing - N.D. Bhatt & V.M. Panchal, 48th edition, 2005-Charotar Publishing House, Gujarat. 2. A Primer on Computer Aided Engineering Drawing-2006, Published by VTU, Belgaum. Reference Books: 1. Computer Aided Engineering Drawing - S. Trymbaka Murthy, - I.K. International Publishing House Pvt. Ltd., New Delhi, 3rd revised edition- 2006. 2. Engineering Graphics - K.R. Gopalakrishna, 32nd edition, 2005- Subash Publishers Bangalore. 3. Fundamentals of Engineering Drawing with an Introduction to Interactive 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, New Age International Publisher, New Delhi. 2009. Conducting classes Classes may be conducted in two slots/ week of 3 hours each (Instruction 1 hr. +Sketching & Practice 2 hr.) Scheme of Evaluation for Internal Assessment (25 Marks) 1. 15 Marks for Class work (Sketching & Computer Aided Engineering drawing printouts in A4 size sheets). 2. 10 Marks for test in the same pattern as that of the main examination.(Better of the two Tests). 25 All the solutions must be valued on the spot by examining the sketches, display and the hard copies. All the sketches including the computer printouts must be submitted and they must be preserved for one year. Scheme of Examination 1. Chapter 1 is only for practice and Internal Assessment and not for examination. 2. Separate Question paper must be set for each batch of students, jointly by the Internal & External examiners. 3. A maximum of THREE questions must be set as per the following pattern (No mixing of questions from different Chapters). Q. No. From Chapters Marks Allotted 1 Chapter 2 or Chapter 3 30 2 Chapter 4 40 3 Chapter 5 or Chapter 6 30 Total 100 Scheme of Evaluation Q. No. Solutions & Sketching on graph book Computer display & printout Total Marks 1 10 Marks 20 Marks 30 2 15 Marks 25 Marks 40 3 15 Marks 15 Marks 30 Total 40 Marks 60 Marks 100 Students have to submit the computer printouts and the sketches drawn on the graph sheets at the end of the examination. Both Internal & External examiners have to jointly evaluate the solutions (sketches) and computer display & printouts of each student for 100 marks (40 marks for solutions & sketches + 60 marks for computer display and printouts) and submit the marks list along with the solution (sketches) on graph sheets & computer printouts in separate covers. 4. Each batch must consist of a minimum of 10 students and a maximum of 12 students. 5. Examination can be conducted in parallel batches, if necessary. ********** BASIC ELECTRONICS Sub Code : 10ELN15 / 10ELN25 IA Marks : 25 Hrs/ Week : 04 Exam Hours : 03 Total Hrs. : 52 Exam Marks : 100 PART - A UNIT-1 SEMICONDUCTOR DIODES AND APPLICATIONS: p-n junction diode, Characteristics and Parameters, Diode approximations, DC load line, Temperature dependence of p-n characteristics, AC equivalent circuits, Zener diodes Half-wave diode rectifier, Ripple factor, Full-wave diode rectifier, Other full-wave circuits, Shunt capacitor filter - Approximate analysis of capacitor filters, Power supply performance, Zener diode voltage regulators, Numerical examples as applicable. 7 Hours UNIT-2 TRANSISTORS: Bipolar Junction transistor, Transistor Voltages and currents, amplification, Common Base, Common Emitter and Common Collector Characteristics, DC Load line and Bias Point. 6 Hours UNIT-3 BIASING METHODS: Base Bias, Collector to Base Bias, Voltage divider Bias, Comparison of basic bias circuits, Bias circuit design, Thermal Stability of Bias Circuits (Qualitative discussions only). 6 Hours UNIT-4 OTHER DEVICES: Silicon Controlled Rectifier (S.C.R), SCR Control Circuits, More S.C.R applications; Unijunction transistor, UJT applications, Junction Field effect Transistors(Exclude Fabrication and Packaging), JFET Characteristics, FET Amplifications, Numerical examples as applicable. 7 Hours PART - B UNIT-5 AMPLIFIERS & OSCILLATORS: Decibels and Half power points, Single Stage CE Amplifier and Capacitor coupled two stage CE amplifier(Qualitative discussions only), Series voltage negative feedback and Additional effects of Negative feed back(Qualitative discussions only), The Barkhausen Criterion for Oscillations, BJT RC phase shift oscillator, Hartley ,Colpitts and crystal oscillator ( Qualitative discussions only) Numerical problems as applicable. 6 Hours 30 UNIT-6 INTRODUCTION TO OPERATIONAL AMPLIFIERS: Ideal OPAMP, Saturable property of an OP AMP, Inverting and Non Inverting OPAMP circuits, Need for OPAMP, Characteristics and applications - voltage follower, addition, subtraction, integration, differentiation; Numerical examples as applicable Cathode Ray Oscilloscope (CRO). 6 Hours UNIT-7 COMMUNICATION SYSTEMS: Block diagram, Modulation, Radio Systems, Superhetrodyne Receivers, Numerical examples as applicable NUMBER SYSTEMS: Introduction, decimal system, Binary, Octal and Hexadecimal number systems, addition and subtraction, fractional number, Binary Coded Decimal numbers. 7 Hours UNIT-8 DIGITAL LOGIC:, Boolean algebra, Logic gates, Half-adder, Full-adder, Parallel Binary adder. 7 Hours Text Books: 1. Electronic Devices and Circuits: David. A. Bell; Oxford University Press, 5th Edn., 2008. Reference Books: 1. Electronic Devices and Circuits: Jacob Millman, Christos C. Halkias TMH, 1991 Reprint 2001. 2. Electronic Communication Systems, George Kennedy, TMH 4th Edition. 3. Digital Logic and Computer Design, Morris Mano, PHI, EEE. 4. Basic Eelctronics, RD Sudhaker Samuel, U B Mahadevaswamy, V. Nattarsu, Saguine-Pearson, 2007. ********** COMPUTER PROGRAMMING LABORATORY Subject Code : 10CPL16 / 10CPL26 I A Marks : 25 Hrs/Week : 03 Exam Hours : 03 Total Hrs. : 42 Exam Marks : 50 PART – A 1. Design, develop and execute a program in C to find and output all the roots of a given quadratic equation, for non-zero coefficients. 2. Design, develop and execute a program in C to implement Euclid’s algorithm to find the GCD and LCM of two integers and to output the results along with the given integers. 3. Design, develop and execute a program in C to reverse a given four digit integer number and check whether it is a palindrome or not. Output the given number with suitable message. 4. Design, develop and execute a program in C to evaluate the given polynomial f(x) = a4x4 + a3x3 + a2x2 + a1x + a0 for given value of x and the coefficients using Horner’s method. 5. Design, develop and execute a program in C to copy its input to its output, replacing each string of one or more blanks by a single blank. 6. Design, develop and execute a program in C to input N integer numbers in ascending order into a single dimensional array and perform a binary search for a given key integer number and report success or failure in the form of a suitable message. 7. Design, develop and execute a program in C to input N integer numbers into a single dimensional array, sort them in ascending order using bubble sort technique and print both the given array and the sorted array with suitable headings. 8. Design, develop and execute a program in C to compute and print the word length on the host machine. PART – B 9. Design, develop and execute a program in C to calculate the approximate value of exp(0.5) using the Taylor Series expansion for the exponential function. Use the terms in the expansion until the last term is less than the machine epsilon defined FLT_EPSILON in the header file <float.h>. Also print the value returned by the Mathematical function exp( ). 10. Design, develop and execute a program in C to read two matrices A (M x N) and B (P x Q) and compute the product of A and B if the matrices are compatible for multiplication. The program must print the input matrices and the resultant matrix with suitable headings and format if the matrices are compatible for multiplication, otherwise the program must print a suitable message. (For the purpose of demonstration, the array sizes M, N, P, and Q can all be less than or equal to 3) 11. Design, develop and execute a parallel program in C to add, elementwise, two one-dimensional arrays A and B of N integer elements and store the result in another one-dimensional array C of N integer elements. 12. Design and develop a function rightrot (x, n) in C that returns the value of the integer x rotated to the right by n bit positions as an unsigned integer. Invoke the function from the main with different values for x and n and print the results with suitable headings. 13. Design and develop a function isprime (x) that accepts an integer argument and returns 1 if the argument is prime and 0 otherwise. The function must use plain division checking approach to determine if a given number is prime. Invoke this function from the main with different values obtained from the user and print appropriate messages. 14. Design, develop and execute a parallel program in C to determine and print the prime numbers which are less than 100 making use of algorithm of the Sieve of Eratosthenes. 15. Design and develop a function reverses (s) in C to reverse the string s in place. Invoke this function from the main for different strings and print the original and reversed strings. 16. Design and develop a function match any (s1,s2) which returns the first location in the string s1 where any character from the string s2 occurs, or – 1 if s1 contains no character from s2. Do not use the standard library function which does a similar job! Invoke the function match any (s1. s2) from the main for different strings and print both the strings and the return value from the function match any (s1,s2). Note: In the practical examination, the student has to answer two questions. One question from Part A and one question from Part B will be selected by the student by lots. All the questions listed in the syllabus have to 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. The allotment of marks is as detailed below: Sl. No. Activity Max. Marks 1. Procedure Part A 5* Writing program & procedure for the assigned problems along with algorithms / flowchart Part B 5* 2. Conduction Execution of the program and Part A 10 34 showing the results in proper format Part B 20 3. Viva-voce** 10 Total Max. Marks 50 Minimum passing Marks (40% of Max. Marks) 20 * To be considered as zero if student has been allowed change of question. ********** ENGINEERING CHEMISTRY LABORATORY Sub Code : 10CHEL17/10CHEL27 IA Marks : 25 Hrs/ Week : 03 Exam Hours : 03 Total Hrs. : 42 Exam Marks : 50 PART – A 1. Potentiometric estimation of FAS using standard K2Cr2O7 solution 2. Colorimetric estimation of Copper 3. Conductometric estimation of an Acid mixture using standard NaOH solution 4. Flame Photometric estimation of Sodium and Potassium in the given sample of Water 5. Determination of pKa of a weak acid using pH Meter 6. Determination of Viscosity co-efficient of a given liquid using Ostwald’s Viscometer. PART – B 1. Determination of Total Hardness of a sample of Water using Disodium salt of EDTA. 2. Determination of CaO in the given sample of Cement by Rapid EDTA method. 3. Determination of Percentage of Copper in Brass using standard Sodium thiosulphate solution. 4. Determination of Iron in the given sample of Haematite ore solution using Potassium dichromate Crystals by external indicator method. 5. Determination of COD of the given Industrial Waste water sample. 6. Determination of Total Alkalinity of a given Water Sample using standard Hydrochloric acid. References Books: 1) Laboratory manual in Engineering Chemistry Sudharani, Dhanpatrai Publishing Company. 2) Vogel’s Text Book of Quantitative Chemical Analysis revised by G.H.Jeffery, J. Bassett, J. Mendham and R.C Denney. Scheme of Examination: One experiment from Part- A and another from Part - B shall be set. Different experiments may be set from Part- A and a common experiment from Part – B. ********** ENVIRONMENTAL STUDIES Sub Code : 10CIV18/10CIV28 IA Marks : 25 Hrs/ Week : 02 Exam Hours : 02 Total Hrs. : 26 Exam Marks : 50 PART – A UNIT-1 Environment -_ Definition, Eco system -- Balanced ecosystem, Human activities - Food, Shelter, Economic and Social Security 3 Hours UNIT-2 Effects of human activities on environment - Agriculture, Housing, Industry, Mining, and Transportation activities, Environmental Impact Assessment. Sustainable Development. 3 Hours UNIT-3 Natural Resources - Water resources - Availability and Quality aspects. Water borne diseases, Water induced diseases, Fluoride problem in drinking water. Mineral Resources, Forest Wealth, Material Cycles - Carbon, Nitrogen and Sulphur Cycles. 4 Hours UNIT-4 Energy - Different types of energy, Electro-magnetic radiation. Conventional and Non - Conventional sources - Hydro Electric, Fossil fuel based, Nuclear, Solar, Biomass and Bio-gas. Hydrogen as an alternative future source of Energy. 4 Hours PART – B UNIT-5 Environmental Pollution and their effects. Water pollution. Land pollution . Noise pollution . Public Health aspects. 3 Hours UNIT-6 Current Environmental issues of importance: Population Growth, Climate change and Global warming - Effects, Urbanization, Automobile pollution 3 Hours 39 UNIT-7 Acid Rain, Ozone layer depletion, Animal Husbandry 3 Hours UNIT-8 Environmental Protection - Role of Government, Legal aspects, Initiatives by Non - Governmental Organizations (NGO), Environmental Education, Women Education. 3 Hours Question paper is of objective type for 50 marks (Fifty questions have to be set with 4 multiple choice answers). Students have to pass the subject compulsorily. However, marks will not be considered for awarding class/ rank. Text Books: 1) Benny Joseph (2005), “Environmental Studies”, Tata McGraw - Hill Publishing Company Limited 2) Ranjit Daniels R.J. and Jagdish Kirshnaswamy, (2009), “Environmental Studies”, Wiley India Private Ltd., New Delhi 3) Rajagopalan R. (2005), “Environmental Studies – From Crisis to Cure”, Oxford Univesity Press Reference Books: 1) Raman Sivakumar, (2005), “Principles of Environmental Science and Engineering”, Second Edition, Cengage learning, Singapore 2) Meenakshi P. (2006), “Elements of Environmental Science and Engineering”, Prentice Hall of India Private Limited, New Delhi 3) Prakash S.M. (2007), “Environmental Studies”, Elite Publishers, Mangalore 4) Erach Bharucha (2005), “Text Book of Environmental Studies”, for UGC, University Press 5) Tyler Miller Jr. G. (2004), “Environmental Science – Working with the Earth”, Tenth Edition, Thomson Brooks/Cole 6) Tyler Miller Jr. G. (2006), “Environmental Science – Working with the Earth”, Eleventh Edition, Thomson Brooks/Cole 7) “Text Book of Environmental and Ecology” by Dr. Pratibha Sing, Dr. Anoop Singh and Dr. Piyush Malaviya. Acme Learning Pvt. Ltd., New Delhi. ********** KANNADA KALI SYLLABUS Lesson 1 : Introducing each other – 1. Personal Pronouns, Possessive forms, Interrogative words. Lesson 2 : Introducing each other – 2. Personal Pronouns, Possessive forms, Yes/No Type Interrogation Lesson 3 : About Ramanaya. Possessive forms of nons, dubitive question, Relative nouns Lesson 4 : Enquiring about a room for rent. Qualitative and quantitative adjectives. Lesson 5 : Enquiring about the college. Predicative forms, locative case. Lesson 6 : In a hotel Dative case defective verbs. Lesson 7 : Vegetable market. Numeral, plurals. Lesson 8 : Planning for a picnic. Imperative, Permissive, hortative. Lesson 9 : Conversation between Doctor and the patient. Verb- iru, negation – illa, non – past tense. Lesson 10: Doctors advise to Patient. Potential forms, no – past continuous. Lesson 11: Discussing about a film. Past tense, negation. Lesson 12: About Brindavan Garden. Past tense negation. 44 Lesson 13: About routine activities of a student. Verbal Participle, reflexive form, negation. Lesson 14: Telephone conversation. Past and present perfect past continuous and their negation. Lesson 15: About Halebid, Belur. Relative participle, negation. Lesson 16: Discussing about examination and future plan. Simple conditional and negative Lesson 17: Karnataka (Lesson for reading) Lesson 18: Kannada Bhaashe (Lesson for reading) Lesson 19: Mana taruva Sangati alla (Lesson for reading) Lesson 20: bEku bEDagaLu (lesson for reading) **********

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