It Syllabi Cbcs

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Department

of

Information Technology

School of Technology

North Eastern Hill University

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Course Structure

&

Detail Syllabus

for

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Objectives

This four years B.Tech program aims to prepare Professional engineers for the I.T.

industry. The core part of the curriculum embodies scientific and engineering knowledge

basic to the profession. In addition to these core courses the other ingredients of

professional knowledge both current and emerging technological processes have been

added to it. To provide the students relevant professional knowledge and develop their

capacity to tackle unknown engineering problems, the syllabus has balanced the core,

specialized and elective subjects, integrating the practical and field exercises with

challenging project activities. The paper professional ethics and IPR is also introduced in

the curriculum to help the students to acquire sound professional ethics and an awareness

of their obligation to society.

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Course Structure

Adopted Course Code (XX-

αβγ):

XX-α β γ

Subject number (In case of Practical, this number stands for its corresponding theory subject number. However, where there is no corresponding theory paper, this number will start from 7. E.g. CE - 117)

0: Theory, 1: Practical/Drawing/Design, 2,3: Elective Semester Number

Teaching Subject code

Acronym used in Teaching Subject Code

Acronyms Used in Teaching Subject Code (XX):

BI - BIotechnology

CE - Civil Engineering

CH - CHemistry

EC - Electronics and Communication Engineering

EE - Electrical Engineering HU - HUmanities IT - Information Technology MA - MAthematics ME - Mechanical Engineering PH - PHysics

Example:

IT-205 implies that Teaching subject concern is Information Technology and, it is the

5

th

Theory paper of 2

nd

semester.

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Technica (Total Papers (Tot al s: 27) M (To Theory tal Paper: 46) Management otal Papers: 07) Sub (Total P Basic & Socia (Total Paper

Cou

bject Paper: 68) al Sc. rs:12) Te (Tota

urse Lay

Cou Practic (Total Pape echnical l Papers:20)

yout

urse cal er: 22) Basic & Social Sc (Total Papers:02 Ma (Tot c. ) Proje (Total ajor Project tal Paper:01) ect : 02) Minor Project (Total Paper:01 t 1)

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Year: I Semester I (Common to all branches)

TA-Teachers Assessment CT-Class Test ESE-End Semester Examination Total Marks: 1000 L – Lecture T – Tutorial P – Practical Total Periods: 33 Total Credits: 30

Year: I Semester II (Common to all branches)

Sl. No.

Course No.

SUBJECT PERIODS EVALUATION SCHEME

Credits (THEORY) L T P Sessional Work ES

E

SUB TOTAL TA CT TOT

1 HU-101 Professional Communication

Skills 3 1 - 20 20 40 60 100 4 2 MA-102 Engineering Mathematics-I 3 1 - 30 30 60 90 150 4 3 PH-103 Engineering Physics-I 3 1 - 30 30 60 90 150 4 4 CH-104 Engineering Chemistry 3 1 - 30 30 60 90 150 4 5 BI-105 Fundamentals of

Biotechnology 3 1 - 30 30 60 90 150 4 6 EE-106 Basic Electrical Engineering 3 1 - 30 30 60 90 150 4

PRACTICALS / DRAWING / DESIGN

7 CH-114 Engineering Chemistry

Laboratory - - 3 20 - 20 30 50 2 8 EE-116 Electrical Laboratory - - 3 20 - 20 30 50 2 9 CE-117 Engineering Graphics - - 3 20 - 20 30 50 2

Total 18 6 9 1000 30

Sl. No.

Course No.

SUBJECT PERIODS EVALUATION SCHEME Credits (THEORY) L T P Sessional Work ESE SUB

TOTAL TA CT TOT

1 ES-201 Elements of Environmental

Science 2 1 - 20 20 40 60 100 3 2 MA-202 Engineering Mathematics II 3 1 30 30 60 90 150 4 3 PH-203 Engineering Physics II 2 1 - 20 20 40 60 100 3 4 ME-204 Engineering Mechanics 3 1 - 30 30 60 90 150 4 5 IT-205 Computer Systems and

Programming 3 1 - 30 30 60 90 150 4 6 EC-206 Basic Electronics 3 1 - 30 30 60 90 150 4

7 PH-213 Engineering Physics Laboratory.

- - 3 20 - 20 30 50 2 8 IT-215 Computer Programming

Laboratory - - 3 20 - 20 30 50 2 9 EC-216 Basic Electronic Laboratory - - 3 20 - 20 30 50 2 10 ME-217 Workshop Practice - - 3 20 - 20 30 50 2

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Year: II Semester III

TA-Teachers Assessment CT-Class Test ESE-End Semester Examination Total Marks: 1000

L – Lecture T – Tutorial P – Practical Total Periods: 33 Total Credits: 30

Year: II Semester IV Sl. No. Course No.

SUBJECT PERIODS EVALUATION SCHEME Credits

(THEORY) L T P Sessional Work ESE SUB TOTAL

TA CT TOT

1 HU-301 Organizational Management 3 1 - 20 20 40 60 100 4 2 MA-302 Engineering Mathematics III 3 1 - 30 30 60 90 150 4 3 EC-303 Digital Electronics 3 1 - 30 30 60 90 150 4 4 EC-304 Signals and Systems 3 1 - 30 30 60 90 150 4 5 IT-305 Discrete Mathematics 3 1 - 30 30 60 90 150 4 6 IT-306 Data Structures and Algorithms 3 1 - 30 30 60 90 150 4

7 EC-313 Digital Electronics laboratory - - 3 20 - 20 30 50 2 8 IT-316 Data Structure using C

Laboratory. - - 3 20 - 20 30 50 2 9 IT-317 Numerical Programming

laboratory - - 3 20 - 20 30 50 2 Total 18 6 9 1000 30 Sl. No. Course No.

SUBJECT PERIODS EVALUATION SCHEME

Credits

TA CT TOT

1 HU-401 Organizational Structure 3 1 - 20 20 40 60 100 4 2 MA-402 Statistics and Random

Processes 3 1 - 30 30 60 90 150 4 3 IT-403 Formal Language and

Automata Theory 3 1 - 30 30 60 90 150 4 4 IT-404 Computer Graphics and

Multimedia 3 1 - 30 30 60 90 150 4 5 IT-405 System Programming 3 1 - 30 30 60 90 150 4 6 IT-406 Computer Organization

and Architecture 3 1 - 30 30 60 90 150 4

7 IT-414 Computer Graphics and

Multimedia Lab - - 3 20 - 20 30 50 2 8 IT-415 Systems Programming

Laboratory - - 3 20 - 20 30 50 2 9 IT-416 Computer Organization

and Architecture Laboratory

- - 3 20 - 20 30 50 2

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Year: III Semester V

TA-Teachers Assessment CT-Class Test ESE-End Semester Examination Total Marks: 1000 L – Lecture T – Tutorial P – Practical Total Periods: 33 Total Credits: 30

Year: III Semester VI

TA-Teachers Assessment CT-Class Test ESE-End Semester Examination Total Marks: 1000 L – Lecture T – Tutorial P – Practical Total Periods: 33 Total Credits: 30 Sl.

No.

Course No.

TA CT TOT

1 HU-501 Managerial Economics 3 1 - 20 20 40 60 100 4 2 EC-502 Microprocessor 3 1 - 30 30 60 90 150 4 3 HU-503 Management Information

System 3 1 - 30 30 60 90 150 4 4 IT-504 Object Oriented Programming

and Methodology 3 1 - 30 30 60 90 150 4 5 IT-505 Operating System 3 1 - 30 30 60 90 150 4 6 IT-506 Data Communication 3 1 - 30 30 60 90 150 4

7 EC -512 Microprocessor Laboratory - - 3 20 - 20 30 50 2 8 IT-514 Object Oriented Programming

Laboratory (C++ and Java) - - 3 20 - 20 30 50 2 9 IT-515 Operating System Lab - - 3 20 - 20 30 50 2

Total 18 6 9 1000 30

Sl. No.

Course No.

TA CT TOT

1

HU-601 Accounting and Finance For

Decision Making 3 1 - 20 20 40 60 100 4 2 IT-602 Computer Networks 3 1 - 30 30 60 90 150 4 3 IT-603 Compiler Design 3 1 - 30 30 60 90 150 4 4 IT-604 Algorithm Analysis and

Design 3 1 - 30 30 60 90 150 4 5 IT-605 Information Theory and

Coding 3 1 - 30 30 60 90 150 4 6 IT-606 Relational Data Base System 3 1 - 30 30 60 90 150 4

7 IT-612 Computer Networks

Laboratory - - 3 20 - 20 30 50 2 8 IT-613 Compiler Design Laboratory. - - 3 20 - 20 30 50 2 9 IT-616 Database Laboratory - - 3 20 - 20 30 50 2 Total 18 6 9 20 - 20 30 1000 30

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Year: IV Semester VII

TA-Teachers Assessment CT-Class Test ESE-End Semester Examination Total Marks: 1000 L – Lecture T – Tutorial P – Practical Total Periods: 38 Total Credits: 30 Elective-I: Elective-II:

1. Data Mining (IT-721) 1. Artificial Intelligence(IT-731)

2. Distributed Systems(IT-722) 2.Internet and Its Application Technologies (IT- 732)

Year: IV Semester VIII

TA-Teachers Assessment CT-Class Test ESE-End Semester Examination Total Marks: 1000 L – Lecture T – Tutorial P – Practical Total Periods: 33 Total Credits: 26

Elective-III: Elective-IV:

1. E- Commerce (IT-821) 1. Mobile Computing(IT-831)

2. Bioinformatics(IT- 822) 2.Cryptography and Network Security(IT-832)

Sl. No.

Course No.

TA CT TOT

1 HU-701 Professional Ethics and IPR 2 1 - 20 20 40 60 100 3 2 IT-702 Web Technology 3 1 - 30 30 60 90 150 4 3 IT-703 Software Engineering 3 1 - 30 30 60 90 150 4 4 IT-72X Elective-I 3 1 - 30 30 60 90 150 4 5 IT-73X Elective-II(Open) 3 1 - 30 30 60 90 150 4

6 IT-712 Web Technology Lab - - 3 20 - 20 30 50 2 7 IT-713 Software Engineering Lab 3 20 20 30 50 2 8 IT-717 Visual programming. Lab 3 20 - 20 30 50 2 9 IT-718 Minor Project - - 10 50 - 50 100 150 5

Total 14 5 19 1000 30

Sl. No.

Course No.

TA CT TOT

1 HU-801 Marketing Strategies and

Planning 2 1 - 20 20 40 60 100 3 2 EC-802 Mobile _{Communication 3 1 - 30 30 60 90 150} ₄ 3 IT-803 Internet Protocol _{3 1 - 30 30 60 90} ₁₅₀ ₄ 4 IT-82X Elective III _{3 1 - 30 30 60 90} ₁₅₀ ₄ 5 YY-83X Elective IV(Open)

3 1 - 30 30 60 90 150 4

6 IT-818 Major Project - - 14 100 - 100 200 300 7

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Semester-I

HU – 101 Professional Communication Skills

Subject Code : HU - 101

Subject Name : Professional Communication Skills No. of Hours Per Week : Lecture – 3, Tutorial -1

Marks Distribution : Sessional work: 40, End Semester Exams: 60

Question to be set : 8 (One question from each unit and remaining three covering more than one unit). Question to be answered : Any 5 (five)

Examination duration : 3 hours

UNIT-I

Grammar: Correction of sentences, Verbs and Tenses, Vocabulary/Word Formation, Single word for a group of words, Use of Prepositions: Conjunction: Transformation of sentences: Structure of Sentences: Active/Passive Voice; Direct/Indirect Narration. Listening Skill: Effective Listening, Types of listening, and Traits of a Good Listener.

UNIT- II

Essay: Expository, Descriptive, Narrative, Argumentative; Characteristics of a good Essay: Thesis Statement: Structure of opening/concluding paragraphs, Paragraph writing in brief, Body of the essay.

UNIT- III

Reading Comprehension: Global, Contextual, Inferential, Select passages from recommended text.

UNIT- IV

Business Correspondence: Characteristics of Business Letters; Drafting: Bio-data, Resume, Curriculum vitae. Report Writing: Structure, Types of Reports, Practice Writing

UNIT- V

Communication / Public Speaking skills: Processes of Communication, Types of Communication Features of Effective Speech; Verbal: Public Speaking skills, Presentation Skills; Non-verbal: Body Language.

Group discussion: principle, practice

Text Books:

1. English for Engineers and Technologist Vol.1 and 2 – Orient Longman, 2002. “English for Engineers & Technologists Vol. 1 & 2”- Orient Longman, 2002

Reference Books:

1. M. Ashraf Rizvi, Effective Technical Communication, Delhi, TMH, 2005.

2. R.C. Sharma and K. Mohan, Business Correspondence and Report Writing, TMH, 1994.

3 - L : 1- T: 0-P Total Credit= 4

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MA – 102 Engineering Mathematics – I

Subject Code : MA -102

Subject Name : Engineering Mathematics - I

No. of Hours Per Week : Lecture – 3, Tutorial -1

UNIT -I

Functions, continuity and differentiability, graphs of f(x) = |x| + |x-1| + |x-2|; |x| - |y| = n; y = |n2_{– x}2_{|, Cartesian equation and} graphs of central conics and conicoids tangent frame graphing, Continuity and Uniform continuity in [a, b], monotone and inverse functions, functions of bounded variation. Derivatives of one and higher orders and indeterminate forms.

UNIT-II

Application of derivatives: Mean value theorems and Taylor’s theorem with Lagrange’s form and Cauchy’s form of remainders. Taylor’s and Maclaurin’s series of functions loge (1+x), ex, sin x, cos x; curvature, radius of curvature and centre of curvature of plane curves.

UNIT-III

Riemann integration: fundamental theorem of integral calculus. Reduction formulae. Differentiation and integration of integral functions.

UNIT-IV

Convergence of sequences, series and improper integral: Convergence of real sequences; monotone sequences, Cauchy’s criterion, convergence of infinite series of real and complex numbers. Cauchy’s criterion. Convergence of improper integrals; Tests for absolute and conditional convergence of infinite series and improper integrals. Beta and Gamma functions and their properties.

UNIT-V

Ordinary Differential Equations: Order and degree, exactness and integrating factors. Solutions of first order and first degree O.D.E. of types- variable separable, homogeneous , linear, Bernoulli; and Second order L.D.E. a0 y`` +a1y` +a2y = 0 where a1’s are constants. Nonlinear equations and Clairaut’s equations. Euler’s homogeneous equations and change of variables.

Text Books:

1. Phillips and Andrew, “Mathematical Techniques for Engineering & Scientists”, PHI. 2. E. Mendelson, “Calculus”, Tata Mcgraw Hill.

3. B.S. Grewal, “Higher Engineering Mathematics”, Khanna Publication.

1. E. Kreyszig, J. Willey & Co, “Advance Engineering Mathematics”. 2. Sastry, “Engineering Mathematics”, PHI.

3. H.K. Dass, “Advance Engineering Mathematics” S. Chand & Co.

3 - L : 1- T: 0-P Total Credit= 4

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PH – 103 Engineering Physics – I

Subject Code : PH - 103

Subject Name : Engineering Physics-I

UNIT-1

Classical mechanics-I: Laws of motion, components of velocity and acceleration (radial & transverse and tangential & normal) in different coordinate systems. Conservation laws of energy and momentum (linear and angular), elastic and inelastic collisions. Rigid body motion, moment of inertia, theorems of parallel and perpendicular axes (proof) for both laminar and three dimensional bodies. Compound pendulum and its theory. Bar pendulum/Kater’s pendulum. Composition of two simple harmonic motions along the same line and at right angles. Problems.

UNIT-II

General properties of matter: Interrelation of elastic constants. Torsion of a cylinder. Bending of beams – cantilever and beams supporting at both ends, Problems. Classical mechanics–II: - Degrees of freedom, constrains, generalized coordinates and generalized momenta. Principle of virtual works, D’ Alembert’s principle. Derivation of Lagrange’s equation and Hamilton’s canonical equations. Applications in typical problems.

UNIT-III

Acoustics: Free and forced vibrations, resonance and sharpness of resonance. The human ear and its response, limits of human audibility, intensity and loudness. General equation of vibration- plucked string, struck string and bowed string. Vibrations of a tuning fork. Reverberation, Sabine’s law, theory of reverberation. Ultrasonics, production and applications. Problems. Geometrical Optics: Combination of thin lenses. Cardinal points of coaxial thin lenses. Thick lens, locations and properties of cardinal points. Aberrations, spherical and chromatic, achromatic combination. Problems.

UNIT-IV

Physical Optics: Huygen’s principle and Fermat’s principle. Interference and its conditions. Fresnel’s biprism - theory, wavelength determination. Newton’s rings – theory, wavelength determination. Concept of Diffraction. Fresnel diffraction, Fresnel half period zones, zone plate. Fraunhofer diffraction, single slit, double slit, plane diffraction grating. Polarization, different methods of polarization, Brewster’s law. Geometry of a calcite crystal, optic axis, Nicol prism, circularly and elliptically polarized light, half and quarter wave plates. Polarimeter, specific rotation of a solution. Problems.

UNIT-V

Quantum mechanics: de Broglie’s hypothesis. Davison and Germer experiment, photon interference. Uncertainty principle. Wave packets, phase and group velocities. Schroedinger’s equations, eigen functions and eigen values. Probabilistic interpretation of wavefunction, expectation values. Applications in one dimension, particle in a box, finite potential well, potential steps and barriers. Summary of hydrogen atom and linear harmonic oscillator. Particle in a three dimensional box. Problems.

Text Books:

1. Subramaniam and Brijlal, “A Textbook of Optics”, S Chand & Co. 2. D J Griffith, “Introduction to Quantum mechanics”, Pearson education 3. D S mathur, “Elements of properties of matter”, S Chand & Co. 4. H J Pain, “The Physics of vibrations and waves”, John Wiley & Sons. 5. R G Takwale & P S Puranik, “Introduction to Classical Mechanics”, TMH

3 - L : 1- T: 0-P Total Credit= 4

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CH – 104 Engineering Chemistry

Subject Code : CH -104

Subject Name : Engineering Chemistry

No. of Hours Per Week : Lecture –3, Tutorial -1

UNIT-I

Thermodynamics – First law, internal energy, enthalpy, heat capacity terms, Joule-Thomson coefficient, limitations of the first law, Carnot cycle and its efficiency, Carnot theorem, Second law, entropy, entropy changes of ideal gases, free energy (Gibbs and Helmholtz), criteria in terms of entropy and free energy for reversible and irreversible processes, Maxwell’s relationships, Gibbs-Helmholtz equation, Clapeyron-Clausius equation, concept of chemical potential, equilibrium constant from thermodynamic considerations, Van’t Hoff reaction isotherm, Third law and its implications.

UNIT–II

Chemical Kinetics – Rate and rate constant of chemical reaction, molecularity and order of a reaction, rate expressions of first and second order reactions, pseudo-unimolecular reactions, complex reactions - opposite, parallel, consecutive and chain reactions, rate determining step, effect of temperature on reaction rates and energy of activation, effect of catalyst. Spectroscopy: Fundamentals of microwave, IR, UV-VIS and NMR spectroscopy.

UNIT – III

Electrochemistry 1 – Specific, molar and equivalent conductivity, variation of specific and equivalent conductivity with concentration of strong and weak electrolytes. Electrochemistry 2 – Concept of oxidation – reduction processes, electrolytic and electrochemical cells, reversible and irreversible electrochemical cells, conventional representation of electrochemical cells, electromotive force of a cell and electrode potentials, Nernst equation, standard electrode potential, sign convention, electrochemical series, applications of e.m.f. measurement – determination of activity coefficient, pH, solubility product, commercially important cells, corrosion.

UNIT – IV

Structure and Bonding - Basic idea of valence bond theory and its limitations, concept of hybridization of orbitals involving s, p and d orbitals, valence shell electron pair repulsion (VSEPR) theory, electronic structures and shapes of some organic and inorganic molecules and ions, molecular orbital theory and its application to diatomic molecules, hydrogen bonding with examples. Bio-inorganic Chemistry: Role of metal ions in biological systems (examples of chlorophyll, haemoglobin, and vitamin B12). Coordination Chemistry: Ligands, coordination number, oxidation number, nomenclature of coordination compounds, isomerism in coordination compounds, bonding and stability of coordination compounds, organometallic compounds.

UNIT – V

Stereochemistry of Organic molecules: Concept of isomerism, types of isomerism, configurational and conformational isomerism, geometrical isomerism, configuration of geometrical isomers, E – Z and R – S systems of nomenclature. Bio-organic Chemistry: Chemical structure and functions of carbohydrates, amino acids, peptides, proteins, and nucleic acids. Polymers – Classification of polymers, molecular weights of polymers, some commercially important polymers.

Text Books:

1. Prakash, Tuli, Basu & Madan, “Advanced Inorganic Chemistry – Vol. I & II”, (Diamond Ed), S. Chand, reprinted, 2006. 2. Morrison & Boyd, “Organic Chemistry”, 6th_{Ed., Prentice Hall of India, reprinted, 2006.}

3. Kapoor, “A Text Book of Physical Chemistry”, Vol. 1 – 3, 3e (reprinted, 2006), Vol. 4, 2e (reprinted, 2006), Vol. 5, 1e (reprinted, 2006), Macmillan India Ltd.

3 - L : 1- T: 0-P Total Credit= 4

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4. Banwell & McCash, “Fundamentals of Molecular Spectroscopy”, 4th_{Ed., Tata Mc-Graw Hill, 1962.} 5. Cotton, Wilkinson & Gaus, “Basic Inorganic Chemistry”, 3rd_{Ed., John Wiley & Sons, Inc., 1996.} 6. Mukherji & Singh, “Reaction Mechanism in Organic Chemistry”, 3rd_{Ed., Macmillan India, Ltd., 2006.} 7. I.L.Finar, “A Textbook of Organic Chemistry”, Vol. I & II, 6e, 2006, ELBS.

8. P.W.Atkins, “Physical Chemistry”, 5 ed., Oxford University Press, 2000. 9. Rao, “Problems in Physical Chemistry”, Macmillan India Ltd., 2006.

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BI – 105 Fundamentals of Biotechnology

Subject Code : BI -105

Subject Name : Fundamentals of Biotechnology

No. of Hours Per Week : Lecture –3, Tutorial -1

UNIT- I

Structure of prokaryotic and eukaryotic cells; Bacterial chromosomes and plasmids; Isolation and growth of cells. Cellular organelles: plasma membrane, cell wall, mitochondria, nucleus and other organelles and their organization, golgi bodies and endoplasmic reticulum; Cell cycle and cell division (Mitosis and Meiosis).

UNIT-II

Types of macromolecules in biological systems; Conformational properties of polynucleotide and polysaccharides: Secondary and tertiary structural features and their analysis (theoretical and experimental); Protein folding; Physical techniques in protein, nucleic acids and polysaccharide structural analysis: Gas chromatography, HPLC, crystallography, electron microscopy, electrophoresis and centrifugation.

UNIT-III

Structure of DNA and its physico-chemical properties; Sequence component of eukaryotic genome; Prokaryotic and eukaryotic DNA replication; Mechanism of transcription and post-transcriptional modifications of RNAs; Features of genetic code; Prokaryotic and eukaryotic translation.

Regulation of gene expression: Prokaryotic gene expression with reference to inducible and repressible operons; Concept of eukaryotic gene regulation.

UNIT-IV

Introduction of microbiology and microbes; Isolation, preservation and maintenance of industrial microorganisms. Bioreactors: Media for industrial fermentation; types of fermentation processes; Use of microbes in mineral beneficiation and oil recovery; Industrial production of chemicals (Ethanol, acetic acid and antibiotics).

UNIT-V

Milestones in Genetic Engineering; Molecular tools and their applications; Insertion of DNA molecule into a vector plasmid; The use of reverse transcriptase, cDNA; Detection of recombinant molecules, library construction and screening; Transgenic organisms; Importance of genome project, human genome project, YAC, BAC libraries; Targated gene replacement; Gene therapy. Concept of safety in use of genetic manipulations; Ethics and social concerns associated with gene manipulation and its implications.

Text books:

1. Albert B. et al, “Molecular Biology of Cell”. Garland Publishers (2001) 2. Lodish et al, “ Molecular Cell Biology”, Scientific American Books (2000) 3. Murray RK et al, “Harper’s Biochemistry”. Prentice Hall International (1999) 4. Lewin B, “Gene VIII”. Oxford University Press (2003)

5. D M Glover and B D Hames, “DNA Cloning: A Practical Approach”, IRL Press, Oxford (1995) 6. “Bioprocess Technology: Fundamentals and Applications”. KTH, Stockholm (2000)

3 - L : 1- T: 0-P Total Credit= 4

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EE – 106 Basic Electrical Engineering

Subject Code : EE - 106

Subject Name : Basic Electrical Engineering

UNIT-I

Engineering Circuit Analysis: Circuit elements, Ohm’s law, Kirchoff’s law, Nodal Analysis, Mesh Analysis, Source transformations. Linearity and Superposition, Thevenin and Norton Theorems, Maximum power transfer theorem, Star-Delta and Delta-Star Conversion.

UNIT – II

Simple RL and RC Circuits, Unit Step Forcing Function, source free RLC Circuits, Sinusoidal Forcing Function, Complex Forcing Function, Phasor Concept, Impedance and Admittance, Phasor diagrams, Response as a Function of ω, Instantaneous Power, Average Power, RMS values of Current and Voltage, Apparent Power and Power Factor, Complex Power, Introduction to Three Phase Circuits.

UNIT – III

DC Machines: Principle of DC Generator, Methods of excitation, Characteristics and Applications, Principle of DC Motor, Types, Speed – Torque Characteristic, Speed Control, Motor starting, Applications

UNIT –IV

Transformers and AC Machines: Working principle of Transformers, Ideal Transformer, Equivalent Circuit, Transformer tests, Voltage regulation, Efficiency.

UNIT – V

Three Phase Induction Motor: Construction, Production of rotating field, Slip, Torque and Slip, Equivalent Circuit. Single Phase Induction Motor: Double field revolving theory, Equivalent circuit, Typical Applications, Stepper Motors.

Text Books:

1. W.H. Hayt, J.E. Kemmerly and S.M. Durbin, “Engineering Circuit Analysis”, 6/e, TMH, 2006. 2. V. Del Toro, “Electrical Engineering Fundamentals”, PHI, 1994.

3. D.P. Kothari, I. J. Nagrath, “Theory and Problems of Basic Electrical Engineering”, PHI, 2004. 4. B.L. Thereja and A.K. Thereja, “Electrical Technology”, Vol-II, S. Chand, Reprint 2006.

1. Van Valkenburg, “Network Analysis”, 3/e, PHI, 2005.

2. J.A. Edminister, “Electric circuits”, 2/e, Eleventh reprint, TMH, 1997. 3. D. Roy Choudhury, “Networks and Systems”, New Age Publishers, 1998.

3 - L : 1- T: 0-P Total Credit= 4

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Practicals

CH – 114 Engineering Chemistry Laboratory

Subject Code : CH - 114

Subject Name : Engineering Chemistry Laboratory

No. of Hours Per Week : 3 hours.

Marks Distribution : Sessional work: 20, End Semester Exams: 30 Question to be answered : One will be allotted to a student on lottery basis Examination duration : 4 hours

(At least 8 experiments spread over inorganic, organic and the physical chemistry sections need to be conducted) 1. Volumetric estimation of Mg2+_{and Ca}2+_{ions by EDTA titration (Hardness of water).}

2. Synthesis of a volumetric estimation of Fe2+_{ions by permanganatometry.}

3. Inorganic complex like, potassium chlorochromate, tris(thiourea) copper (I) sulphate, sodium cobaltinitrate, Fe(acac)3, etc. 4. Determination of the concentration of the given liquid mixture by viscosity measurement.

5. Determination of partition-coefficient of iodine between carbon tetrachloride and water.

6. Determination of integral heats of dilution of the sulphuric acid solutions, and to determine the strength of the given unknown acid solution.

7. Standardisation of a strong base by conductometric titration with a strong acid.

8. Determination of dissociation constant of a weak acid by PH measurements in the buffer solutions of the acid. 9. Determination of rate constant of the acid-catalysed hydrolysis of methyl acetate.

10. Verification of Beer-Lambert’s law with potassium dichromate and the estimation of potassium present in the given solution. 11. Systematic qualitative analysis of organic compounds containing one functional group :

(a) Detection of elements N, S, Cl, Br, I

(b) Detection of any of the following functional groups: -COOH, -NO2, -OH (alcoholic or phenolic), >CO carbonyl, -NH2 group.

12. Synthesis and characterization (by m.p. method) of para-nitro acetanilide

Text Books:

1. Pandey, Bajpai & Giri, “Practical Chemistry”, 8 e, S.Chand & Co. Ltd., reprintred, 2006.

2. Gurtu & Kapoor, “Advanced Experimental Chemistry – Vol. I – III”, S.Chand & Co. Ltd., 4e (reprinted), 1989.

1. “Vogel’s Textbook of Quantitative Chemical Analysis”, 5th_{Ed., ELBS, 1991.} 2. “Vogel’s Textbook of Practical Organic Chemistry”, 5th_{Ed., ELBS, 1996.}

3. Athawale & Mathur, “Experimental Physical Chemistry”, 1 ed., New Age International Publishers, 2001 (reprint 2004). 0 - L : 0- T: 3-P Total Credit= 2

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EE – 116 Basic Electrical Engineering Laboratory

Subject Code : EE - 116

Subject Name : Basic Electrical Engineering Laboratory No. of Hours Per Week : 3 hours.

(At least 8 experiments need to be conducted)

List of Experiments:

1. Verification of Network Theorems: Thevenin’s theorem, Norton’s theorem, and Maximum Power Transfer theorem.

2. Verification of the phasor sum of currents at any junction in an A.C. circuit is zero. 3. Measurement of Power and power factor of the load by three ammeters method. 4. Measurement of Power and power factor of the load by three voltmeters method. 5. Perform Open circuit and Short Circuit Tests on a single phase transformer.

6. Determination of Open Circuit Characteristic of D.C. Generator 7. To measure and control the Speed of D.C. motors using Techometer. 8. Calibration of ammeter and voltmeter.

9. Design and Physical model of domestic wiring.

Text Books:

1. W.H. Hayt, J.E. Kemmerly and S.M. Durbin, Engineering Circuit Analysis, 6/e, TMH, 2006. 2. B.L. Thereja and A.K. Thereja, Electrical Technology, Vol-II, S. Chand, Reprint 2006.

0 - L : 0- T: 3-P Total Credit= 2

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CE – 117 Engineering Graphics

Subject Code : CE - 117

Subject Name : Engineering Graphics

Marks Distribution : Sessional work: 20, End Semester Exams: 30 Question to be set : All Questions

Question to be answered : One will be allotted to a student on lottery basis Examination duration : 4 hours

List of Drawing Plates/Sheets:

1. Introduction of Drawing and Geometrical Constructions (Sheet layout and Sketching, Lines, Lettering and Dimensioning, Bisecting a lines, Perpendicular lines, divide a lines, Construction of Polygons).

3. Conics and Engineering Curves (Ellipse, Parabola, Hyperbola).

4. Conics and Engineering Curves (Cycloid, Epicycloid, Hypocycloid, Trochoid, Involute). 5. Projection of Lines.

6. Projection of Planes.

7. Projection of Solid (Cube, Prism, Pyramids). 8. Projection of Solid (Cylinder, Cone and Sphere). 9. Projection on Auxiliary Planes.

10. Section of solids.

11. Isometric projection of solids (Prisms, Pyramids, Cylinders, Cone and Sphere).

12. Development of Surfaces (Truncated Cylinder, Square Prism, Pyramid, Truncated Cone). 13. Introduction to CAD Tools (Scale, Units, Draw, Modifying, Dimension, Sheet Layout, Plotting).

Text Books:

1. T. E. French, C.J. Vierck and R. J. Foster, “Engineering Drawing and Graphics Technology”, TMH, 1987. 2. N. D. Bhatt and V.M. Panchal, “Elementary Engineering Drawing”, Charotar Publishing House, 1996.

1. K.Venugopal, “Engineering Drawing and Graphics”, New Age, 2005.

0 - L : 0- T: 3-P Total Credit= 2

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Semester-II

ES -201 Elements of Environmental Science

Subject Code : ES - 201

Subject Name : Elements of Environmental Science No. of Hours Per Week : Lecture – 2, Tutorial -1

Question to be set : 8 (One question from each unit and remaining three covering more than one unit) Question to be answered : Any 5 (five)

UNIT-I

Concept of environment: components of environment and their interactions; abiotic and biotic factors; Types of ecosystems; ecosystem organization; energy flow and nutrient cycling; conservation of natural resources.

UNIT-II

Environmental problems and issues: green house effect, ozone depletion, acid rain, biodiversity loss; conventional and renewable energy; environmental impact assessment; environment protection act.

UNIT-III

Scope of environmental chemistry, classification and distribution of elements in the earth: Chemistry of acid rain; acid mine drainage; photochemical smog; chemical speciation of Copper, Arsenic, Lead and Mercury.

UNIT-IV

Environmental pollution, sources and types of air, water, soil, radioactive and noise pollution; Industrial pollutants and their impact on environment and human health; safety and prevention of industrial pollution.

UNIT-V

Toxicants and toxicity; toxic chemicals: heavy metals and pesticides, bio-transformation, bio-magnification and bio-remediation; Aerobic and anaerobic treatment of waste water; waste management and cleaner production.

Text book:

1. W.P. Cunningham, and W.B. Saigo, “Environmental Science”, McGraw Hill, New York, 1999. 2. E.P. Odum, and G. W. Barrett, “Fundamentals of Ecology”, Thomson Asia Pvt. Ltd., Singapore, 2005. 3. E. Bacci, “Contaminants in the Environment”, CRC Press, 1994.

4. T. Ingold, “The Perceptions of Environment”, Routledge (Taylor and Francis Group), UK, 2000.

1. N. J. Sell, “Industrial Pollution Control: Issues and Techniques”, Wiley Publ., 1992.

2. Gilbert M. Masters- “Introduction to Environmental Engineering and Science”, (2nd_{ed.) PHI, 1997} 3. Venugopal Rao, “Textbook of Environmental Engineering”, PHI, 2003.

4. S S Dara, A Text Book of Environmental Chemistry and Pollution Control- 7th_{Revised Ed. S Chand and Co. Ltd., 2006} 5. C. Park, “The Environment: Principles and Applications”, Routledge (Taylor & Francis Group), UK, 2001.

2 - L : 1- T: 0-P Total Credit=3

(25)

MA – 202 Engineering Mathematics – II

Subject Code : MA - 202

Subject Name : Engineering Mathematics - II

No. of Hours Per Week : Lecture– 3, Tutorial -1

UNIT-I

Functions of several variables: Partial derivatives. Chain rule, Standard Jacobians for change of variables. Gradient and directional derivatives. Tangent planes and normal. Exact differentials. Euler’s theorem on homogeneous functions. Repeated and multiple integrals, maxima and minima for several variables, method of Lagranges multipliers.

UNIT-II

Vector Calculus: Repeated and Multiple integrals, Gradient, Divergence and Curl. Line, surface, and Volume integrals. Green’s theorem, Gauss’s divergence theorem and Stoke’s theorem in Cartesian, Spherical polar, and cylindrical polar coordinates.

UNIT-III

Analytic functions: Cauchy-Riemann equations, Laplace equations. Elementary functions, Conformal mappings.

UNIT- IV

Cauchy’s integral theorem, Cauchy’s integral formula, Taylor series and Laurent series. Residues and its applications to evaluating real integrals.

UNIT- V

Laplace and Fourier Transforms. Laplace transforms. Inverse transform. Shifting on the s and t axes, convolutions, partial fractions. Fourier series and Fourier transforms. Solutions of ordinary as well as partial differential equations by Laplace and Fourier transforms.

Text Books:

1. Folland, “Introduction of Partial Differentiation Equation”, PHI.

2. Spiegel, “Fourier Analysis with application & Laplace Transforms”, Tata McGraw-Hill. 3. E. Kreyszig, “Advance Engineering Mathematics”, 8th_{Ed, J. Willey & Co, 1999.}

1. S. Narayan, “Vector Calculus”, S. Chand & Co, 1974 2. D. Chatterjee, “Real Analysis”, PHI.

3. T. M. Apostol, “Calculus”, 2nd_{Ed, J. Willey, 1969.}

3 - L : 1- T: 0-P Total Credit= 4

(26)

PH –203 Engineering Physics – II

Subject Code : PH -203

Subject Name : Engineering Physics - II

UNIT-I

Electromagnetism: Review of vector calculus. Gradient of a scalar, divergence and curl of a vector. Gauss’ divergence theorem and Stoke’s theorem (statements and explanations only). Coulomb’s law of electrostatics in vector form. Electrostatic field E and potential Φ, their relation E= - grad Φ. Calculation of E for various distributions of charges at rest; dipole and quadrupole fields, multipole expansions. Gauss’s law and its applications for finding E for various symmetric charge distributions. Maxwell equations, plane wave solutions, orthogonality of E, B and propagation vector. Poynting vector, energy and momentum propagation. Problems.

UNIT-II

Statistical Mechanics: Phase space and phase trajectory, Stirling’s approximation, ensamble, distribution function, volume in phase space, quantum phase space, volume of a quantum state. Density of states. Quantum statistics: BE, FD and MB statistics, application of BE statistics to black body radiation. Problems.

UNIT-III

Solid State Physics: Free electron gas in one and three dimensions, density of states. FD distribution function – its variation with energy at different temperatures. Fermi temperature and Fermi velocity. Band theory of solids (a qualitative treatment), distinction of metals, semi-metals and insulators. Preliminary ideas of superconductivity. Problems.

UNIT-IV

Atomic Physics: Rutherford’s theory of alpha particles scattering, differential cross-section, distance of closest approach, approximate nuclear radius. Vector atom model; one electron atomic spectra. Problems.

Molecular Physics: - Types of molecular spectra, rotational, vibrational and electronic. Frank- Condon principle. Raman effect – its brief quantum mechanical explanation. Problems

Laser Physics: -Spontaneous emission, stimulated emission and absorption. Brief theory of laser action. Helium-Neon laser, Problems.

UNIT-V

Nuclear Physics: Mass defect and nuclear binding energy, semi-empirical mass formula for nuclear mass. Basic ideas of liquid drop model and shell model of nuclear structure. Q-value of a nuclear reaction. Nuclear fission, chain reaction (controlled and uncontrolled), nuclear fusion, stellar energy. Comparison of nuclear fission and nuclear fusion. Problems .

Text Books:

1. K K Tiwari, Electricity and magnetism, S Chand & Co.

2. T A Littlefield & N Thorley, Atomic and Nuclear Physics, E. L. B .S. Publications, 1980. 3. D P Khandelwal, Optics and Atomic Physics. Himalaya

4. S O Pillai, Solid State Physics, 6th_{ed., New Age.}

5. B B Laud, Fundamentals of Statistical Mechanics, New Age.

1. D J Griffiths, “Introduction to Electrodynamics”, Prentice hall.

2. J R Christman, “Fundamentals of Solid State Physics”, John Wiley & Sons.

2 - L : 1- T: 0-P Total Credit= 3

(27)

ME – 204 Engineering Mechanics

Subject Code : ME - 204

Subject Name : Engineering Mechanics

UNIT-I

Force Systems: Moment of a force about a point and about an axis; couple moment; reduction of a force system to a force and a couple. Equilibrium: Free body diagram; equations of equilibrium; problems in two and three dimensions; plane frames and trusses.

UNIT–II

Friction: Laws of Coulomb friction., problems involving large and small contact surfaces; square threaded screws; belt friction; rolling resistance.

UNIT–III

Properties of Areas: Moments of inertia and product of inertia of areas, polar moment of inertia, principal axes and principal moments of inertia.

UNIT–IV

Kinematics and Kinetics of particles: Particle dynamics in rectangular coordinates cylindrical coordinates and in terms of path variables; central force motion.

UNIT–V

Rigid Body Dynamics: Relative velocity, Translation, Pure rotation and plane motion of rigid bodies, D’Alembert’s principle, linear momentum, principle of conservation of momentum, Impact of solid bodies, work, energy, power, principle of conservation of energy

Text Books:

1. R. K. Bansal, A textbook of Engineering Mechanics, Laxmi Publication, 1992. 2. I. H. Shames, Engineering Mechanics: Statics and Dynamics, 4/e, PHI, 1996. 3. F. P. Beer and F. R. Johnston, Mechanics for Engineering, TMH, 1987.

1. R.C. Hibbler, Engineering Mechanics: Static, McMillan, 1998. 2. R.C. Hibbler, Engineering Mechanics: Dynamic, PHI, 1997. 3. K.L. Kumar, Engineering Mechanics, S. Chand. 1997.

4. Timoshenko and Young, Engineering Mechanics, McGraw Hill, 1956.

3 - L : 1- T: 0-P Total Credit= 4

(28)

IT – 205 Computer Systems and Programming

Subject Code : IT - 205

Subject Name : Computer Systems and Programming

UNIT-I:

Digital computer fundamentals: Functional components of computer, Von Newman Architecture, Algorithm and flowcharts, Data representation, Programming languages, Function of system software.

UNIT-II:

Imperative programming (Using C): Overview of C, Constants, Variables and Data Types, Operators and Expressions, Input and Output Operations, Branching and looping operation.

UNIT-III:

Functions: Defining a function, accessing a function, passing arguments to a function, specifying argument data types, function prototypes and recursion, storage classes. Arrays: Defining an array, processing an array, passing arrays to a function, multidimensional arrays, strings, string handling functions.

UNIT-IV:

Structures and Unions: Defining and processing of structure and union, Array of structure, array within structure, passing of structure as argument. Pointers: Fundamentals, pointer declarations, passing pointers to a function, pointer and one dimensional arrays, pointer as function arguments, Functions returning Pointer, Pointer to functions, pointers and structures.

UNIT-V:

File Management: Introduction, Defining and Opening a File, Closing a File, Input/Output Operations on Files, Error Handling during I/O Operations, Random Access to Files, Command Line Arguments.

Text Books:

1. V. Rajraman, “Fundamental of Computer”, PHI 4th_{Edition, 2006.}

2. E. Balaguruswami, “Programming in ANSI C”, 2nd_{Edition, Tata Mcgraw Hill, 2004}

1. Y. Kanetkar, “Let us C”, BPB Publication, 2004.

2. A. Kelley and I. Pohl, “A Book on C”, 4th_{Ed, Pearson Education, 1998.}

3. B. W. Kernighan and D. Ritchie, “The C Programming Language”, 2nd_{Ed, PHI, 2005.}

3 - L : 1- T: 0-P Total Credit= 4

(29)

EC – 206 Basic Electronics

Subject Code : EC - 206

Subject Name : Basic Electronics

UNIT- I

Passive Components: Resistors, Capacitors, and Inductors: types and characteristics and their applications. Semiconductors and PN Junction diodes: Semiconductor Materials, Compound Semiconductors, General idea of a PN junction diode, Reverse and forward biased characteristics, Incremental resistance of a forward biased PN junction, Transition, capacitance and diffusion capacitance.

UNIT- II

PN Junction diode Applications: Half wave rectifier, full wave center tapped and bridge rectifier with and without capacitor filter, Clipping and clamping circuits. Special purpose diode characteristics and applications: Zener diode, Photo diode, Varactor diode, Light emitting diode, Schottky diode, Tunnel diode.

UNIT- III

Transistors: PNP and NPN transistors, Characteristics of current flow across base region of transistor, transistor model. Graphical analysis (DC and AC load line), CE, CB, CC Configurations; Biasing and stabilization: Q- point, fixed bias, self bias, collector bias. Applications of Transistors: BJT as an amplifier, BJT as a Switch.

UNIT – IV

FET & UJT: construction, symbols, principle of operation, V-I characteristics, equivalent circuit, parameter calculations, limitations and applications.

UNIT – V

Digital electronics: Number Systems and Codes, Logic Gates, Boolean Theorems, DeMorgan’s Theorems, Sum-of Product Form, Algebraic Simplification, Karnaugh Map Method.

Text Books:

1. Boylestead and Nashelsky, “Electronic Devices and Circuits Theory”, 9/e, PHI, 2006. 2. Bernard Grob and Mitchel Schultz, “Basic Electronics”, 9/e, TMH, 2003.

3. Morris Mano, “Digital Design”, 3/e, PHI, 2006.

1. A.P.Malvino, “Electronic Principles”, 6/e, TMH, 1998. 2. R. P. Jain, “Modern Digital Electronics”, 3/e, TMH, 2003. 3. R.J. Tocci, “Digital Systems”, 6/e, PHI, 2001.

3 - L : 1- T: 0-P Total Credit= 4

(30)

Practicals:

PH – 213 Engineering Physics Laboratory

Subject Code : PH - 213

Subject Name : Engineering Physics Laboratory

1. To determine the acceleration due to gravity by bar pendulum/Kater’s pendulum.

2. To determine the Young’s modulus of a wire by micrometer method/of a bar by flexural method. 3. To determine rigidity modulus of a wire by statical method/dynamical method.

4. To determine the coefficient of viscosity of a liquid by Poiseulle’s method.

5. To determine the focal length & power of a concave lens by combination with auxiliary convex lens by the displacement method.

6. To determine wavelength of sodium light using Fresnel’s Biprism method. 7. To find the wavelength of monochromatic light by using Newton’s ring method. 8. To determine the wavelength of sodium light by Michelson’s interferometer.

9. To determine the wavelength of prominent lines of mercury by plane diffraction grating. 10. To determine the specific rotation of sugar solution by polarimeter.

11. To determine the Brewster’s angle for a glass surface and hence to determine the refractive index of glass.

12. To determine the magnetic moment of a bar magnet (M) and the earth’s horizontal intensity (H) by deflection and vibration magnetometers.

13. To determine the resistance per unit length of a meter bridge wire by Carey-Foster method. 14. To study decay of current in RC circuit.

15. To determine frequency of a tuning fork by Melde’s method.

16. To determine the thermal conductivity of a bad conductor by Lee’s method.

17. To obtain the hysteresis curves (B- H) for a ferromagnetic material (thin rod or wire) on a CRO using solenoid and then to determine the related magnetic constants.

18. To study the Hall Effect and determine the Hall coefficient. 19. To determine the Planck’s constant by a photocell.

20. To determine the e/m value of an electron by J.J. Thompson’s method.

Text Books:

1. Samir Kumar Ghosh, “A Text Book of Practical Physics”, New Central Book 2. Agency, Kolkata.

3. Gupta & Kumar, “Practical Physics”, Progati Prakashan, Meerut,U.P 4. K G Mazumder, “A Text Book of Practical Physics”, Modern Book Agency, 5. C.L. Arora Advance B.Sc. Practical physics, S. Chand 2004

0 - L : 0- T: 3-P Total Credit= 2

(31)

IT – 215 Computer Programming Laboratory

Subject Code : IT - 215

Subject Name : Computer Programming Laboratory

List of Programs:

1. Assignments on Operators and Expressions: At least three C programs using operators and expressions. 2. Assignments on Branching: At least five C programs using if, switch-case construct of C.

3. Assignments on Looping: At least three C programs (each), incorporating for loop, while loop and do-while loop. 4. Assignments on Array: At least three C programs using array (1D and 2D)

5. Assignments on String: string manipulation and use of standard library functions in C.

6. Assignments on Function: At least three C programs using function, Demonstration call-by-value and call-by-address, passing array (1D and 2D) to a function, at least two C programs related to recursive function.

7. Assignments on Pointer: At least three C programs using pointer, function and array.

8. Assignments on Structure & Union: At least one C program using structure, demonstration of difference between structure and union.

9. Assignments on File handling and Commands line arguments: C programs involving opening, closing, reading/writing a file. Copy content of one file to another file using commands line arguments.

Text Books:

1. B.S Gotfried, “Programming in C”, Schuam Outline Series, TMH, 2005.

0 - L : 0- T: 3-P Total Credit= 2

(32)

EC – 216 Basic Electronics Laboratory

Subject Code : EC - 216

Subject Name : Basic Electronics Laboratory

1. To Study the VI Characteristics of Germanium and Silicon Diodes 2. To Study the VI Characteristics of Zener Diode.

3. Design and Analysis of a Half wave Rectifier using Diode.

4. Design and Analysis of a center-tap Full wave Rectifier using Diodes

5. Design and Analysis of a Bridge Rectifier Circuit.

6. Design and Analysis of a Clipping Circuit with one voltage source. 7. Design and Analysis of a Clamper Circuit.

8. Design and analysis of Fixed-Bias Circuit Using NPN transistor.(DC) 9. Design and analysis of Emitter-Bias Circuit using NPN transistor.(DC) 10. Verification of truth tables of logic gates.

Text Books:

1. Boylestead and Nashelsky, “Electronic Devices and Circuits Theory”, 9/e, PHI, 2006. 2. R. P. Jain, “Modern Digital Electronics”, 3/e, TMH, 2003.

0 - L : 0- T: 3-P Total Credit= 2

(33)

ME – 217 Workshop Practice

Subject Code : ME - 217

Subject Name : Workshop Practice

(At least 8 experiments need to be conducted) Carpentry:

Timber, definition, Engineering applications, seasoning and preservation, plywood and ply-boards

Metal Joining

Definitions of welding, brazing and soldering processes , and their applications. Oxy-acetylene glass welding process, equipment and techniques, types of flames and their applications. Manual metal arc welding technique and equipment, AC and DC welding, electrodes, constituents and functions of electrode coating. Welding positions. Types of weld joint. Common welding defects such as cracks , undercutting , slag inclusion, porosity.

Metal Cutting

Introduction to machining and common machining operations. Cutting tool materials. Definition of machine tools , specification and block diagram of lathe, shaper, milling, drilling machine and grinder. Common lathe operations such as turning , parting , chamfering and facing. Quick return mechanism of shaper. Difference between drilling and boring. Files-material and classification.

List of Jobs to be made in the Workshop 1. T-Lap joint and Bridle joint

2. Welding Practice.

a) Gas welding practice on mild steel flat b) Lap joint by Gas welding

c) MMA welding practice by students d) Square butt joint by MMA Welding e) Lap joint by MMA Welding

f) Demonstration of brazing

3. Tin smithy for making mechanical joints and soldering of joints 4. Job on lathe with one step turning and chamfering operations 5. Job on shaper and milling machine for finishing two sides of a job

a) Drilling two holes of size 5 and 12 mm diameter on job used / to be used for shaping b) Grinding a corner of above job on bench grinder

6. Finishing of two sides of a square piece by filing.

Text Books:

1. Hajra Choudhary , “Elements of Workshop Technology “, Vol.I & Vol.II, Media Promoters & Publishers, 2002 2. M.L. Begeman and B.H. Amstead , “Manufacturing Process”, John Wiley , 1968

3. W.A.J. Chapman and E.Arnold , “Workshop Technology “, Vol. I & III, Viva Low Priced Student Ed. , 1998 4. B.S. Raghuwanshi, “Workshop Technology “, Vol. I & II, Dhanpat Rai and Sons , 1998

5. Khanna , O.P. “Workshop Technology “,Dhanpat Rai Publications , 1998 6. S.Crawford, “Basic Engineering Processes”, Hodder & Stoughton, 1985 7. T. Jeyapoovan- Workshop Practics, Vikas, 2001.

0 - L : 0- T: 3-P Total Credit= 2

(34)

Semester-III

HU–301 Organizational Management

Subject Code : HU - 301

Subject Name : Organizational Management

UNIT-I

Concept and Evolution of Management: Features and Significance of Management, Roles and Responsibilities, Management Process & Function, History of Management Thought, Theories & Approaches to Management (with emphasis on system approach).

UNIT-II

Planning and Decision Making: Characteristics, Significance and Limitations, Purpose and Process of Planning, Types of Managerial Plans, Planning Premises and Forecasting.

Fundamentals & Process of Decision Making, Types of Decisions, Techniques of Decision Making, Limitations of Rational Decisional Making.

UNIT-III

Organizing: Factors Influencing Organizing, Significance and Common Errors in Organizing, Departmentation, Levels of Organisation, Line & Staff Relationship, Delegation and Decentralization.

UNIT-III

Directing & Leading: Aspects of Directing, Principles of Directing, Leadership – Characteristics, Functions and Styles, Types of Leaders and Traits of a good Leader. Basic understanding of various Theories of Motivation and Theories of Leadership. Communication: Meaning, Types, Process and Barriers

UNIT-IV

Coordinating &Controlling: Coordinating, Importance and Principles, External & Internal Co –ordination. Basic Control Process, Pre - requisites of Control, Techniques of Controlling, Recent Trends,

Text Books:

1. H. Koontz & H Weithrich, “Essentials of Management”,Tata McGraw Hill, 2001 2. Stoner, Freeman & Gibert. Jr., “Management”, PHI, N Delhi, 2005

3. Certos, “Modern Management”, Prentice Hall, 2003.

References Books:

1. Robbins and Coulter, “Management”, PHI, N Delhi, 2005 (6th_Edition).

2. P Druchker, “Management Challenges for 21st_{Century” Butterworth& Heinemann, 2002} 3. Massie, “Essentials of Management” PHI, N Delhi, 2005 (4th_Edition).

3 - L : 1- T: 0-P Total Credit= 4

It Syllabi Cbcs

Department

of

Information Technology

School of Technology

North Eastern Hill University

Course Structure

&

Detail Syllabus

for

Objectives

This four years B.Tech program aims to prepare Professional engineers for the I.T.

industry. The core part of the curriculum embodies scientific and engineering knowledge

basic to the profession. In addition to these core courses the other ingredients of

professional knowledge both current and emerging technological processes have been

added to it. To provide the students relevant professional knowledge and develop their

capacity to tackle unknown engineering problems, the syllabus has balanced the core,

specialized and elective subjects, integrating the practical and field exercises with

challenging project activities. The paper professional ethics and IPR is also introduced in

the curriculum to help the students to acquire sound professional ethics and an awareness

of their obligation to society.

Course Structure

Adopted Course Code (XX-

αβγ):

XX-α β γ

Acronyms Used in Teaching Subject Code (XX):

IT-205 implies that Teaching subject concern is Information Technology and, it is the

5

Theory paper of 2

semester.

Cou

urse Lay

yout

Table of Contents

Semester-I

HU – 101 Professional Communication Skills

MA – 102 Engineering Mathematics – I

PH – 103 Engineering Physics – I

CH – 104 Engineering Chemistry

BI – 105 Fundamentals of Biotechnology

EE – 106 Basic Electrical Engineering

Practicals

CH – 114 Engineering Chemistry Laboratory

EE – 116 Basic Electrical Engineering Laboratory

CE – 117 Engineering Graphics

Semester-II

ES -201 Elements of Environmental Science

MA – 202 Engineering Mathematics – II

PH –203 Engineering Physics – II

ME – 204 Engineering Mechanics

IT – 205 Computer Systems and Programming

EC – 206 Basic Electronics

Practicals:

PH – 213 Engineering Physics Laboratory

IT – 215 Computer Programming Laboratory

EC – 216 Basic Electronics Laboratory

ME – 217 Workshop Practice

Semester-III

HU–301 Organizational Management