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Bachelor of Engineering in Computer & IT Department (BE)


Atlanta Computer Institute
Bachelor's Degree

by Atlanta Computer Institute


Nagpur
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Subjects Covered & Categories
Category: BE/BTech in Information Technology (IT) | Computers & IT


Basic Details
Medium of instruction:English
Overview, Content & Syllabus

First Semester BE Syllabus Nagpur University All Branches

.Scheme Of Examination For B.E. First Year (All Branches of Engineering) (Semester – I )

New Pattern 2012-13 onwards

  1. Applied Mathematics – I

  2. Engineering Physics

  3. Engineering Chemistry

  4. Basic Electrical Engineering

  5. Basic Civil Engineering

  6. Engineering Graphics – I

  7. Communication Skills

  8. Computational Skills

Engineering and Technology, R.T.M. Nagpur University, Nagpur.

Syllabus for B.E. (First Semester)

Applied Mathematics – I (BESI-1)

(Total Credits: 05)

UNIT- I: Differential Calculus: (12 Hrs)

Successive Differentiation, Taylor?s & Maclaurin?s series for one variable, indeterminate forms, Curvature and Radius of curvature, Circle of Curvature.

UNIT- II: Partial Differentiation: (12 Hrs)

Functions of several variables, First and Higher order derivatives, Euler?s theorem, Chain rule and total differential coefficient, Jaccobians, Taylor?s & Maclaurin?s series for two variables, Maxima & Minima of functions of two variables, Langrage?s method of undetermined multipliers.

UNIT - III: Matrices (06 Hrs)

Matrix, Inverse of Matrix by adjoint method, Inverse by Partitioning method, Solution of system of linear equations, Rank of Matrix, Consistency of linear system of equations

UNIT - IV: First Order Differential Equations (10 Hrs)

First order& first degree differential equations: Linear, Reducible to linear & Exact differential equations (excluding the case of I. F.). First order& higher degree differential equations. Application of First order& first degree differential equations to simple electrical circuits

UNIT - V: Higher Order Differential Equations (14 Hrs)

Higher order differential equations with constant coefficients, P. I. by method of Variation of parameters, Cauchy„s & Legendres?s homogeneous differential equations, Simultaneous differential equations, Differential equations of the type Applications of differential equations to Oscillations of a Spring, Oscillatory Electrical Circuits, Deflection of Beams.

UNIT - VI: Complex Numbers (06 Hrs)

Cartesian & Polar forms of Complex Numbers, Geometrical representation of fundamental operations on complex numbers, De Moivre?s theorem, Hyperbolic functions and their inverse, Logarithm of complex number, Separation of real and imaginary parts.

Engineering Physics (BESI-2T )

(Total Credits: 03)

Unit - I: Quantum Mechanics (10 Hrs)

Plank?s Hypothesis, Properties of Photons, Compton Effect,Wave – particle duality, De-Broglie

Hypothesis, Matter Waves, Davisson - Germer Experiment; Bohr?s Quantization condition.

Unit - II: Wave Packet & Wave Equations (10 Hrs)

Concept of Group and phase velocities, Wave packet, Heisenberg?s uncertainty principle, Thought

experiment on single slit electron diffraction, Wave function and its probability interpretation,

Schrödinger?s Time dependent & time independent equations, Solution of Schrödinger?s equation

for one dimensional infinite potential well, Barrier Tunneling

Unit - III: Crystal Structure (08 Hrs)

Crystal structure, Meaning of lattice and basis, Unit cell: primitive and non primitive unit cell; Cubic crystal structure: Body and Face centered cubic structures, SC, BCC and FCC unit cells. Unit cell

characteristics: Effective number of atoms per unit cell, atomic radius, nearest neighbor distance,

coordination number, atomic packing fraction, void space, density; Crystal planes and Miller indices, Inter-planar distance between adjacent planes, Bragg?s law of X-ray diffraction, Tetrahedral and octahedral voids.

Unit - IV: Semiconductor Physics (12 Hrs)

Qualitative idea on the formation of electron energy bands in solids, Band-theory based

classification of solids into insulators, semiconductors and conductors, Fermi-Dirac distribution

Function, Intrinsic semiconductors: Germanium and silicon; Fermi- energy, Typical energy band

diagram of an intrinsic semi-conductor, Doping and Extrinsic semiconductors, Current conduction in semiconductors. PN- junction diode; Unbiased, Forward baised & Reverse biased mode with Energy band diagram reference, Diode rectifier equation, Bipolar Transistor action, Hall effect, Hall coefficient & Hall Angle, V-I characteristics of i) Tunnel diode, ii) Zener diode iii) LED.

Engineering Chemistry (BESI-3T)

(Total Credits: 03)

Unit 1 Water Technology

Hardness of water and types of hardness Domestic water treatment: Brief discussion of coagulation and sterilization using UV. Ozone, chlorine, Break point chlorination.Softening of water-principle, reactions, advantages, limitations and Comparison of – Lime-Soda process, Zeolite process, and de-mineralization process. Boiler Troubles-(causes, effect on boiler operation and methods of prevention) – Carry over-priming and foaming; Scales and sludges, caustic embrittlement, boiler corrosion; internal conditioningphosphate, carbonate, calgon conditioning. Numericals based on lime-soda and Zeolite process. Desalination-using electro dialysis and reverse osmosis processes.Waste water treatment (introduction and importance) – Brief idea about tertiary treatment methods.

Unit – II: Corrosion Science (10 Hrs)

Introduction, Causes and Consequence of corrosion, brief idea about electrochemical & galvanic series, Factors influencing corrosion) Nature of metal b) Nature of environment, Chemical and electrochemical corrosion, Mechanisms of electrochemical corrosion; Pilling Bed worth rule; Differential aeration theory of corrosion.Types of Corrosion – Pitting, inter granular, stress, waterline and galvanic corrosion.Corrosion Prevention – a) Design and material selection b) Cathodic and anodic protection, c) Protective surface coatings- tinning, galvanizing and powder coating, metal cladding and electroplating.

Unit – III: Construction Materials (08 Hrs)

Cement: Portland cement – Raw material, Dry and wet process of manufacture, Proportion and role of microscopic constituents, Additives of cement, Setting and hardening of cement; heat of hydration, soundness; Types of cement (characteristics & applications) – White, High alumina, Low heat, Rapid hardening cement, Ready Mix Concrete, fly ash as cementing material( properties, advantages, limitations & application)

Unit – IV: Green Chemistry and Battery Technology (10 Hrs)

Green Chemistry: Introduction, Principles and significance, industrial application (supercritical fluids as Solvents, Example-super critical CO2), Biocatalysis and concept of carbon credits.Battery Technology: Types of batteries, primary, secondary and reverse batteries, important definition-energy density, power density.a) Secondary Battery: Lithium ion, Nickel-Cadmium b) Fuel cell application, advantages and limitation (Example: Alkaline fuel Cell).

Basic Electrical Engineering (BESI- 4T)

(Total Credits: 03)

Unit – I: Electric Circuits (10Hrs)

EMF, Potential difference, current, power, Energy (Definition & Units SI), Ohms Law, types of sources (Current & Voltage), Ideal and Practical Sources (Independent Sources only), Source Conversion, Superposition theorem with DC source. Circuit element resistance, factors affecting resistance, series & parallel combination of resistances, Kirchhoff?s Laws (KVL, KCL) statement & Numerical, star Delta transformation, Circuit Element Inductance, Self and Mutual Inductance, Circuit Element Capacitance.

Unit – II: Magnetic Circuits (8Hrs)

Types of Magnetic Materials, flux, flux density, flux intensity, MMF, reluctance, permanence, permeability, analogous electric circuit, calculation for composite magnetic circuit, concept of leakage flux and fringing, B-H curve, phenomena of magnetic hysteresis.

Unit - III: AC Circuits (12Hrs)

Generation of single phase voltage, average and RMS value for sinusoidal waveform, periodic function, phasor representation of sinusoidal electrical quantities, steady state behavior of RLC circuit with excitation, reactance, impedance, power and energy in AC circuit, simple numerical on series and parallel AC circuit, concept and importance of power factor, resonance in series circuits. Principal of Generation of three phase voltage, Phase sequence, Star & Delta Connected three phase system, Voltage, Current & Power relations for Balanced three phase system only (With numericals ).

Unit – IV :Single Phase Transformer (10Hrs)

Basic construction of Transformer (core & shell type), Principle of operation, EMF equation, Transformer ratings, No load & On load operation with leakage reactance, losses, efficiency, Definition & formula for voltage regulation, OC & SC test, equivalent circuit of the Transformer.

Basics of Civil Engineering (BESI-5T)

Total Credits: 03

Unit –I: (10 Hrs)

Introduction to Civil Engineering Introduction and scope of Civil Engineering. Role of Engineers in the infrastructure development.General concepts related to building.Selection of site, basic functions of buildings, types of buildings – Residential, Public, Commercial, and Industrial. Principles of planning, orientation of buildings, introduction to bye-laws regarding building line, Height of building, open space requirement, F.S.I., Carpet area, built up area, setbacks, ventilation.Components of Buildings Introduction to Types of loads on buildings.Substructure – Types of soils; rocks and foundation strata, concept of bearing capacity, Types of foundation and their suitability.Superstructure –Types of construction: Load Bearing, Framed, and Composite.Building Materials Introduction to basic construction materials; cement, bricks, stone, aggregates, reinforcing steel, structural glazing, structural steel; Concrete types: PCC, RCC, Prestressed, Precast and Ready Mix Concrete.Use of various eco- friendly materials in construction.

Unit – II: (10 Hrs)

Surveying Various types of maps and their uses; Introduction to digital mapping; Principles of survey.Introduction to various survey instruments such as EDM, Lasers, Total Station, and digitalplanimeter. Modern survey methods. Introduction to GIS, GPS and their applications. Transportation Engineering Role of transportation in national development; Various modes of Transportation.Classification of Highways: Expressways, NH, SH, MDR, ODR, VR; Types of Pavements, Traffic Signs, signals, Parking system, and Causes of Accidents.

Unit –III: (10 Hrs)

Environment and Natural Resource Management Water supply - Sources, drinking water requirements, impurities in water and their effects; Purification of water, modern purification processes; Standards of purified water.Waste Management: Collection and Disposal methods of Liquid, solid and gaseous wastes. Water Resources Engineering Introduction to Hydraulic structures of storage; water conveyance systems; Watershed management: Definition, Necessity and methods; Roof top rain water harvesting and Ground water recharge: relevance and methods.

Unit –IV: (10 Hrs)

Instrumentation in Civil Engineering Structures: Various Instruments used in construction, water resources, Environmental Engineering, Foundation Engineering, Thermocouples, condition monitoring equipments, Half Cell Potentiometers, Strain Gauges. Management of Utilities using telemetry & SCADA System. Sustainable Development:Role of Engineers in Sustainable Development. Concept of green buildings and LEED Certification

Engineering Graphics – I (BESI-6T)

(Total Credits: 03)

UNIT – I: (08 Hrs)

Introduction to Engg. Drawing & Curves used in Engineering Practice Introduction , Use of various drawing instruments, lettering, Layout of drawing sheets, sizes of drawing sheets, different types of lines used in drawing practice, Dimensioning – linear, angular, aligned system, unidirectional system, parallel dimensioning, chain dimensioning, location dimension and size dimension. Introduction to scales & scale factor (RF).Conic sections - Ellipse, Parabola, Hyperbola, (No Directrix – Focus Method), Cycloid, Involute & Archimedean Spiral.Basics of Orthographic Projections Basic principles of orthographic projection, reference planes, concepts of four quadrants, methods of orthographic projections – First angle projections, Third angle projections, conventions used to represent methods of orthographic projection. Projections of Points and Lines Projections of points in all possible positions w.r.t. reference planes, projections of lines when it is perpendicular to one of the reference planes, when line is inclined to one & parallel to other reference plane, lines inclined to both reference planes. (Lines in First Quadrant Only), simple problems on straight lines.

UNIT – II (08 Hrs)

Projections of Planes Projection of planes when it is parallel to one of the reference planes, lying in reference plane, when it is perpendicular to one & inclined to other reference plane, when it is inclined to both reference planes. Use of Auxiliary Plane method for solving the problems. Projections of Solids Projections of solids when axis is perpendicular to one of the reference planes , when axis is inclined to one & parallel to other reference plane, when axis is inclined to both the reference planes, projections of cube, right regular prisms, right regular pyramids, right circular cylinder, right circular cone, tetrahedron.

UNIT – III (07 Hrs)

Orthographic Projections Conversion of pictorial view into orthographic views.

UNIT – IV ( 07 Hrs)

Isometric Projections Definition of Isometric view/projection, Isometric scale to draw Isometric projection, Non-Isometric lines, construction of Isometric view from given orthographic views and to construct Isometric view of combined two simple solids (axes vertical & coinciding) such as Cube, Pyramid, Prism, Cone, Cylinder & Sphere.

(Note – Only First Angle Method Of Projections Should Be Used)

Communication Skill (BESI-7)

(Total Credits: 02)

Following points are to be covered while demonstration of Communication Skill Practicals:

  • Practical and practice of letter writing: Business, Job and Bank Correspondence.

  • Technical Report Writing.

  • Grammar: 1. Correction of Common Error 2. Exercise on rewrite as directed 3. Correct use of words, idioms, phrases, prepositions etc.

  • 1. Principles of Public Speaking 2. Reading Comprehension

  • 1. Professional Communication Skill (Meaning, Significance, Types, Dimensions & Barriers) 2. Group Discussion (GD) and Personal Interview (PI) (Importance of GD, Modules of GD, How to prepare for GD; Meaning, Types & Techniques of PI, How to prepare for PI)

Computational Skills (BESI-8)

(Total Credits: 02)

Practical Slot – 1:

Fundamentals of Computers and Operating System

Contents:

  1. To demonstrate the internal structure of Computer, its assembly, use of each I/O device and ports.

  2. To demonstrate the use of System Software like: Windows Operating System, Linux Operating System.

  3. To explain about “C” language Complier options and C++ language overview.

Practical Slot – 2:

Fundamentals of “C” language

Contents:

  1. To demonstrate all types of operators ( Arithmetic, Logical and Relational ) of “C” language.

  2. To demonstrate different data types in “C” language.

  3. To demonstrate the use of “printf” and “scanf” with all possible options.

Practical Slot – 3:

Fundamentals of Decision Control Structures

Contents:

  1. To demonstrate the use of if-else structure, nested if structure.

  2. To demonstrate the use of Conditional operators (? Operator ).

  3. To demonstrate the use of Switch.Case construct.

Practical Slot – 4:

Fundamentals of Loop Control Structures

Contents:

  1. To demonstrate the use of “while” control structure.

  2. To demonstrate the use of “do..while” control structure.

  3. To demonstrate the use of “for” control structure.

  4. To demonstrate the use of “break” and “continue” construct.

Practical Slot – 5 and 6:

Fundamentals of One Dimensional Arrays

Contents:

  • To demonstrate the creation of array, addition of an element, deletion of an element and

displaying the elements from one dimensional array.

  • To demonstrate the implementation of bubble sort, selection sort and insertion sort.

  • To demonstrate the implementation of linear search and binary search.

Practical Slot – 7:

Fundamentals of Two Dimensional Arrays

Contents:

  1. To demonstrate the matrix manipulation operations like addition, multiplication.

  2. To demonstrate the operations on row and columns of two dimensional matrix.

Practical Slot – 8:

Fundamentals of Pointers

Contents:

  1. To demonstrate the pointer declaration and its use.

  2. To demonstrate the implementation of pointer on array.

  3. To demonstrate the creation of dynamic arrays using pointer.

Practical Slot – 9:

Fundamentals of Strings

Contents:

  1. To demonstrate the basic operations on string like “length”, “copy”, “reverse”, “truncate”.

  2. To demonstrate the implementation of two dimensional array of characters.Practical Slot – 10:

Fundamentals of Functions

Contents:

  1. To demonstrate the implementation of functions.

  2. To demonstrate the call by value parameter passing method.

  3. To demonstrate the call by reference parameter passing method.

Practical Slot – 11:

Fundamentals of Functions

Contents:

  1. To demonstrate the implementation of recursive function.

  2. To demonstrate the use of library function ( mathematical and string )

Atlanta Computer Institute Nagpur conducts Tuition Classes for IT Information Technology First Semester all engineering colleges in India and nagpur university . The Following syllabus is of RTM Nagpur University. Final Year Projects Training is also given to All Branches Students of engineering students. For Classes and Batches you can contact Atlanta Computer Institute Nagpur.

2nd Semester BE Syllabus Nagpur University All Branches

.Scheme Of Examination For B.E. First Year (All Branches of Engineering) (Semester – I)

New Pattern 2012-13 onward

  1. Applied Mathematics – II (BESII-1)

  2. Advanced Physics (BESII-2T)

  3. Materials Chemistry (BESII-3T)

  4. Engineering Mechanics ( BESII-4T )

  5. Advanced Electrical Engineering (BESII-5)

  6. Engineering Graphics – II (Besii-6)

  7. Workshop (BESII-7)

  8. Ethical Sciences (BESII-8)

Engineering and Technology, R.T.M. Nagpur University, Nagpur

Syllabus for B.E. (Second Semester)

Applied Mathematics – II (BESII-1)

(Total Credits: 05)

Teaching Scheme Examination Scheme Lectures: 4 Hours/ Week Theory

Tutorial: 1 Hour / Week T (U) : 80 Marks T (I) : 20 Marks

UNIT - I : Integral Calculus-I (10 Hrs)

Beta and Gamma functions, Differentiation of definite integral, Mean Value and Root Mean

Square Values.

UNIT - II: Integral Calculus-II (10 Hrs)

Tracing of curves (Cartesian and polar curves), Rectification of simple curves, Quadrature,

volume and surface of solids of revolution (Cartesian, polar and parametric forms).

UNIT- III: Multiple Integrals and their Applications (12 Hrs)

Elementary double integrals, Change of variable (simple transformations), Change of order of

integration, (Cartesian and polar), Applications to find Mass, Area, Volume and Centre of

Gravity (Cartesian and polar forms), Elementary triple integrals.

UNIT - IV:Vector Differential Calculus (08 Hrs)

Vector triple product, Product of four vectors, Scalar point function, Vector point Function,

Vector differentiation, Gradient, Divergence and Curl, Directional derivatives with their

physical interpretation, Solenoidal and irrotational motions.

UNIT- V : Vector Integral Calculus (10 Hrs)

Vector integration, Line, Surface and Volume integrals, Statement (without proof) of Stoke?s

theorem, Gauss divergence theorem and Green?s theorem, Simple applications of these

theorems.

UNIT - VI: (10 Hrs)

(A) Statistics- Fitting of straight line y a bx, Parabola and Exponential curves by method of least squares, Lines of regression and Correlation, Rank correlation.

(B) Finite Differences:Operator E and, Factorial notations, Langrange?s interpolation formula for unequal intervals, Difference equations with constant coefficients

Advanced Physics (BESII-2T)

( Total Credits: 03 )

Teaching Scheme Examination Scheme Lectures: 2 Hours/ Week Theory

Tutorial: 1 Hours / Week T (U) : 40 Marks T (I) : 10 Marks

Duration of University Exam. : 02 Hrs

Unit - I: Lasers & Wave Optics (07 Hrs)

Spatial and temporal coherence of a light wave, Quantum Transitions: Absorption, Spontaneous emission & stimulated Emission, Metastable states, Pumping schemes, Principle of laser, Laser characteristics, Components of a laser, Principle & working of He-Ne, Ruby & Semiconductor lasers, Applications. Interference in thin films, Interference in Wedge shape thin film, Newton?s rings, Anti-reflection coating, advanced applications of interference in thin film.

Unit - II: Electron Ballistics (05 Hrs)

Lorentz force, Motion of changed particles in uniform electric and magnetic fields: parallel,

perpendicular and at an acute angle, Effect of electric and magnetic fields on kinetic energy of

charged particle, Crossed electric and magnetic field configurations, Velocity filter, Electrostatic and magnetostatic deflection.

Unit - III: Electron Optics (06Hrs)

Bethe?s law, Electric and Magnetic focusing, Construction & working of Electrostatic lens,

Devices: CRT, CRO, Block Diagram, Function & working of each block, Bainbridge mass

spectrograph, Cyclotron.

Unit - IV: Optical Fiber & Nanoscience (12Hrs)

Optical fibers: Propagation by total internal reflection, structure and classification (based on

material, refractive index and number of modes), Modes of propagation in fiber, Acceptance

angle, Numerical aperture, Attenuation and dispersion. Light sources and Detectors.

Applications: I) As a Sensors - i) Temperature Sensor ii) Pollution / Smoke detector iii) Liquid

level sensor.

II) As a Detectors- i) PIN detector ii) Avalanche Detector.

Introduction to nanoscience and nanotechnology, Classification of nano materials, Synthesis of Nanomaterials, General idea about physical and chemical methods. e.g; Physical Vapour Deposition and Sol gel method. Comparison of properties of nanomaterials with bulk materials, Some special nanomaterials:

1) Zeolites, 2) Graphine,

Application of nanomaterials in engineering, Impact of Nanoscience and nanotechnology .

Materials Chemistry (BESII-3T)

(Total Credits: 03)

Teaching Scheme Examination Scheme

Lectures: 2 Hours/ Week Theory

Tutorial: 1 Hours / Week T (U) : 40 Marks T (I) : 10 Marks

Duration of University Exam. : 02 Hrs

Unit - I: Energy-I (10 Hrs)

Fuels: Introduction: Calorific value, Higher and lower calorific value; determination of

calorific value by Bomb and Boy?s calorimeter; numerical based on calorific value

determination;

Solid fuels-significance of proximate and ultimate analysis; numerical (Dulong?s formula)

Composition, properties, advantages, limitations and applications of bio-diesel, LPG, CNG

Non-conventional energy sources: General applications advantages and limitations of nonconventional energy sources.

Rocket propellants: Principle and classification of propellants.

Unit – II: Energy-II (10 Hrs)

Liquid fuels –fractional distillation of crude petroleum(boiling point wise separation only)

use of gasoline and diesel in internal combustion engine: knocking and chemical constitution

of fuel, Octane and Cetane number, doping agents, fischer-tropsch process for

manufacturing synthetic gasoline; cracking of petroleum-principle, types, catalysts used,

advantages

Combustion calculations – Numericals based on combustion calculations for solid, liquid and

gaseous fuels.

Unit – III: Lubrication (10 Hrs)

Lubricants- Introduction, mechanisms-Hydrodynamic, boundary and extreme pressure

lubrication; Classification-solid, semisolid and liquid lubricants;

Biodegradable lubricants-properties, application, advantages and limitations;

Synthetic lubricants-Silicones, Lubricating emulsion; Properties of greases-drop point test

and consistency test; Properties of liquid lubricants:-Acid value, saponification number, flash

and fire point, viscosity and viscosity index, Aniline point, Cloud and Pour Point, Criteria for

selection of lubricants-IC engine, refrigeration, gear, transformer, steam turbine, delicate

mechanical system.

Unit – IV :Advanced materials (10 Hrs)

Properties and applications – Biodegradable polymers-polylactic acid (PLA) and Polycaprolactone(PCL).

Conducting polymers – polycetylene, polyaniline. Polypyrrole,

Composite materials-introduction, general classification –Particle reinforced, fibre

reinforced, structural and its industrial applications.

Liquid crystal polymers-general properties and application.

Nanomaterials-Definition, nano scale. Carbon nano tubes (CNT)typses and difference

between Single wall NT, Multi wall NT; applications of nanomaterials in medicine,

environment and electronics.

Engineering Mechanics (BESII-4T)

(Total Credits: 03)

Teaching Scheme Examination Scheme

Lectures: 2 Hours/ Week Theory

Tutorial: 1 Hour / Week T (U) : 40 Marks T (I) : 10 Marks

Duration of University Exam. : 02 Hrs

Unit - I :

Important Vector Quantities: ( 10 Hrs )

Position-vector, moment of a force about a point about an axis, couples, couple moment as a free

vector.

Equivalent force systems:

Resultant of a 2 dimensional distributed loads and three-dimensional general force system

Wrench.

UNIT - II :

Equations of Equilibrium: ( 10 Hrs )

Free body diagrams, Equations of equilibrium coplanar concurrent and Non-concurrent systems,

General spatial force system.

Analysis of simple pin jointed frames by method of joints method of sections.

Friction forces: Law of Coulomb friction, problems involving dry friction, simple applications

like wedges and band brakes.

Unit - III : (10 Hrs)

Centriods and Moments of Inertia:

Second Moment and products of inertia of plane areas, Moment of inertia of masses. Transfer

theorems for moment of inertia and Product of inertia, Polar moment of inertia, Principal axes,

Mohr?s circle of inertia.

Introduction of Virtual work theorem:

Principle of Virtual work applied to equilibrium of Mechanisms, simple beam, Pin jointed

frames.

Unit -IV: (10 Hrs)D'Alembert„s Principle, work Energy method, (Expressions based on center of mass).

Methods of Momentum : Linear impulse momentum, considerations for a system of particles,

Consideration of linear momentums, Elastic impact of two bodies, Direct central impact.

 

Advanced Electrical Engineering (BESII-5)

Total Credits: 03

Teaching Scheme Examination Scheme

Lectures: 2 Hours/Week Theory

Tutorial: 1 Hour/Week T(U) : 40 Marks T (I) : 10 Marks

Duration of University Paper : 02Hrs

Unit – I : Introduction to Electrical Power System : (8Hrs)

Introduction to Power Generation (Thermal, Hydro, Nuclear, Wind, and Solar) with block

schematic presentation only. Single line diagram for Generation, Transmission & Distribution

through different voltage levels; Low voltage distribution system (Over head & Underground,

single phase & three phase)

Necessity of equipment earthings, Fuses (Rewirable & HRC), MCB, ELCB (Elementary

concepts only), Basic operation of UPS & Invertors (Block schematic representation).

Unit – II :DC Machines (12Hrs)

Construction of a D.C Machine (without details of armature winding), Principle of working as a

generator and as a motor, EMF equation of a DC machine, types of DC machines.

Concept of Back EMF, speed and torque equations, characteristics of motors, necessity of

starters, Applications of DC motors.

Unit – III :Utilization of Electrical Energy Tariff (8Hrs)

One part (KWH based) tariff with simple numerical: Students should be able to calculate the

domestic electricity charges.

Illumination:

Definitions of luminous flux, luminous intensity, candle power, illumination, luminance,

luminous efficiency (lumens/watt) of different types of lamps, working principle of Fluorescent/

Sodium Vapour/ Mercury vapour & CFL Lamps. Simple numerical to determine number of

lamps to attain a given average lux level in an area.

Unit – IV :AC motor (12Hrs)Three-phase Induction Motors :

Working principle, types & constructions of three phase

Induction Motor, synchronous speed, torque, slip, torque -speed characteristic, application (No

numerical).

Single Phase Induction Motor: Types of single phase Induction motors, operating principle and

their applications.

Engineering Graphics – II (BESII-6)

Total Credits: 03

Teaching Scheme Examination Scheme

Tutorial: 1 Hour/Week Practical

Practical: 2 Hours/Week P(I) : 25 Marks P(U) : 25 Marks

Duration of University Exam : 03 Hrs

Introduction to CAD (10 Hrs)

Advantages of using Computer Aided Drafting (CAD) packages, applications of CAD, basic

operation of drafting packages, use of various commands for drawing, dimensioning, editing,

modifying, saving and printing/plotting the drawings. Introduction to 3D primitives.

Sections of Solids (08 Hrs)

Types of section planes, types of sectional views i. e. sectional FV, sectional TV, sectional SV,

to project sectional views of above solids cut by different section planes (when solid is in simple

position, when axis is parallel to one & inclined to other reference planes), to find true shape of

sections.

Development of Lateral Surfaces (DLS) of Solids (06 Hrs )

Applications of DLS, method of development, development of lateral surface of above solids,

development of lateral surface of cut solids.

Interpretation of Given Views/Missing Views (06 Hrs)

Identification of lines/edges and surfaces, visualization of given orthographic views, adding a

missing/third view.

WORKSHOP (BESII-7)

(Total Credits: 02)

Teaching Scheme Examination Scheme

Practical: 2 Hours/Week Practical

P (I): 25 Marks P (U) :25 Marks

Duration of University Exam : 03 Hrs

Teachers/Instructors are expected to introduce the tools & equipments used in following shops

with their operations & safety precautions.

1. Fitting - 1 Job

2. Carpentry - 1 Job

3. Welding - 1 Job

4. Smithy - 1 Job

Students are expected to prepare minimum four Jobs during practical periods of workshop.

Text/Reference Books:

Elements of Workshop Technology (Volume - 1): Hajra Choudhury

Ethical Sciences (BESII-8)

(Total Credits: 02)

Teaching Scheme Examination Scheme

Theory: 2 Hours/Week Theory

T (I): 50 Marks

Duration of Internal Examination: 02 Hrs

Unit – I :

  1. Concept of Culture and Civilization.

  2. Applied Humanities and Social Engineering.

  3. Socio-Legal Awareness: Right to Information(RTI), Public Interest Litigation (PIL),

Intellectual Property Rights(IPR) & Parents, Lokpal and Lokayukta .

Unit – II :

  1. Meaning and Scope of Industrial Psychology and Industrial Sociology.

  2. Fatigue, Selection and Training of Workers, Motives for Work in Industry.

  3. Transactional Analysis.

Unit – III :

  1. Sustainable development.

  2. Professional Ethics.

  3. Organizational Behavioral Dynamics: Leadership in Industry.

Unit – IV :

  1. Indian Constitution and Federal System.

  2. Fundamental Rights and Directive Principles.

  3. Role of Bureaucracy in Modern Society.

Unit – V :

  1. Industrial Democracy.

  2. Works Organization: Power, Authority and Status System; Formal and Informal

    Organization.

  3. Industrialization and Urbanization: Study of Slums.

Atlanta Computer Institute Nagpur conducts Tuition Classes for IT Information Technology Second Semester all engineering colleges in India and Nagpur university . The Following syllabus is of RTM Nagpur University. Final Year Projects Training is also given to All Branches Students of engineering students. For Classes and Batches you can contact Atlanta Computer Institute Nagpur.

BE Bachelor of Engineering Information Technology 3rd Semester

  1. Applied Mathematics-III

  2. Programming Logic and Design using 'C'

  3. Ethics in Information Technology

  4. Digital Electronics and Fundamentals of Microprocessor

  5. Data Communication

  6. Environmental Engineering

Syllabus for

Applied Mathematics-III (IT/CE)Scheme

(Theory: 4 hrs, Tutorial: 1 hr)

UNIT -I: LAPLACE TRANSFORM(14 Hrs)

Definition, Properties, Laplace Transform of Derivatives and Integrals, Evaluation of Integrals by Laplace Transform, Inverse Laplace Transform and its Properties, Convolution Theorem(Statement Only), Laplace Transform of Periodic Functions(Statement Only) and Unit Step Function, Applications of Laplace Transform to solve Ordinary Differential Equations, Simultaneous Differential Equations, Integral Equations & Integro-Differential Equations.

UNIT –II: Fourier Transform (06 Hrs)

Definition and Properties(excluding FFT), Fourier Integral Theorem, Relation with Laplace Transform, Applications of Fourier Transform to Solve Integral Equations.

UNIT –III: Z-Transform(08 Hrs)

Definition, Convergence of Z-transform and Properties, Inverse Z-transform by Partial Fraction Method, Power Series Expansion, Convolution of two sequences.Solution of Difference Equations with Constant Coefficients by Z-transform method.

UNIT –IV: Matrices (12 Hrs)

Linear and Orthogonal Transformations, Linear dependence of vectors, Characteristics equation, Eigen values and Eigen vectors, Statement and Verification of Cayley-Hamilton Theorem [without proof], Reduction to Diagonal form, Reduction of Quadratic form to Canonical form by Orthogonal Transformation, Sylvester’s Theorem[without proof], Solution of Second Order Linear Differential Equation with Constant Coefficients by Matrix method. Largest Eigen value and Eigen vector by Iteration method.

UNIT –V: Theory Of Probability (10 Hrs)

Axioms of Probability, Conditional probability, Baye’s Rule, Random variables: Discrete and Continuous random variables, Probability function and Distribution function, Joint distributions, Independent Random Variables, Conditional Distributions.

UNIT –VI: Mathematical Expectation & Stochastic Process (10 Hrs)

Mathematical Expectation, Variance, Standard Deviation, Moments, Moment generating function, Covariance & Correlation Coefficient, Conditional expectation. Stochastic process: Bernoulli and Poisson process.

BEIT302T

PROGRAMMING LOGIC AND DESIGN USING ‘C’

(Theory Credit: 05)

Teaching Scheme: Examination Scheme:Lecture: 4 Hours/week Theory: T (U): 80 Marks T (I): 20 MarksTutorial: 1 Hour/week Duration of University Exam. : 03 Hours

UNIT I:

Introduction and Structure of ‘C’ Programming: Algorithms and Flowchart, Characteristics of algorithm, Basic Techniques, Decision Making, Looping Technique, Multiway Decision Making. Examples through ‘C’.

UNIT II:

Function and Pointers: Introduction to functions, why use function, Scope rule of function, call by value, call by reference, recursion, Iterative versus recursive style, Storage Classes in C. Preprocessor Directives in ‘C’: Macro, File Inclusion. Array: one dimensional array, pointer and array, Searching (Linear and Binary) and Sorting (Selection, Bubble, Insertion). Array of pointers, multidimensional array (2-D array).

UNIT III:

String and Structure: Introduction to string, pointers and strings, standard library function and user defined function, two dimensional array of character, array of pointer to string, limitation. Structure: Declaration, Accessing and memory representation of structure, array of structure, additional features of structure, pointer to structure. Union: Introduction, difference between structure and union, union of structure.

UNIT IV:

Console and File I/O: Types of I/O, console I/O functions, File I/O: data organization, file operation, file opening modes, file copy programming, String I/O files, Text file and binary file, low level disk I/O, Command line argument, detecting errors in reading / writing. Bitwise operators, Enumerated data types, typedef, typecasting, bit-field operator, volatile qualifier.

UNIT V

Dynamic memory allocation and Graphics in ‘C’: Malloc(), Calloc(), free(), realloc(), Sizeof() operator. Setting Text mode: textmode(), textbackground(), textcolor(), gotoxy(), cputs().Setting Graphics Mode: Drawing a Point on Screen, Drawing – lines, rectangle, circles, arcs, polygon. Functions to fill colors. Display Text in Graphics mode, outtext(), outtextxy(), justifying text. Computer animation: getimage (), putimage (), imagesize().

UNIT VI:

Advanced Concept in ‘C: Different types of pointers, ROM – BIOS function, Elementary TSR’s.

BEIT302P

PROGRAMMING LOGIC AND DESIGN USING ‘C’ (Practical Credit: 01)

Teaching Scheme: Examination Scheme: Practical: 2 Hours/week Practical: P (U): 25 Marks P (I): 25 Marks Duration of University Exam. : 02 Hours

Note:

  1. Practicals are based on PROGRAMMING LOGIC AND DESIGN USING ‘C’ syllabus (subject code: BEIT302T)

  2. Practicals have to be performed using ‘C’ language

  3. There should be at the most two practicals per unit

  4. Minimum ten practicals have to be performed

  5. Do not include study experiments

BEIT303T

Ethics In Information Technology

(Theory Credit: 04)

Teaching Scheme: Examination Scheme:

Lecture: 3 Hours/week Theory: T (U): 80 Marks T (I): 20 Marks Tutorial: 1 Hour/week Duration of University Exam. : 03 Hours

UNIT I:

An overview of Ethics: Ethics in business world, Ethics in IT, Ethics for IT professionals and IT users, IT professionals, Ethical behavior, IT professional malpractices, IT users.

UNIT II:

Computer and Internet Crime: IT security incidents: Increasing Complexity Increases Vulnerability, Higher Computer user Expectations, Expanding and changing systems. Introduces new risks, Increased Reliance on Commercial Software with known Vulnerabilities, Types of Exploits, Perpetrators, Reducing Vulnerabilities, Risk Assessment, Establishing a Security Policy, Educating Employees, contractors and part-time Workers, Prevention, Detection, Response.

UNIT III:

Privacy: The right of Privacy, Recent History of Privacy Protection, Key Privacy and Anonymity issues, Governmental Electronic Surveillance, Data Encryption, Identity Theft, Consumer Profiling, Treating Consumer Data Responsibility, Workplace Monitoring, Advanced surveillance Technology, Defamation, Freedom of Expression: Key issues, Controlling Access to Information on the Internet, Anonymity, National, Security Letters, Defamation and Hate Speech.

UNIT IV:

Intellectual Property: Copyrights, Patents, Trade Secret Laws, Key Intellectual Property Issues, Plagiarism, Reverse Engineering, Open Source Code, Competitive Intelligence, Cyber squatting, Software Development, Strategies to Engineer Quality Software, The Importance of Software Quality, Software Development Process, Capability Maturity Model Integration for Software, Key Issues in Software Development, Development of Safety-Critical Systems, Quality Management Standards.

UNIT V:

Ethics of IT Organization: Need for Nontraditional Workers, Contingent Workers H-IB Workers, Whistle-blowing, Protection for Whistle-Blowers, Dealing with Whistle-Blowing Situation.

UNIT VI:

The Impact of Information Technology on the Quality of Life: The impact of IT on the standard of Living and productivity, the Digital Divide, The impact of IT on Health care costs, Electronic Health Records, Use of Mobile and Wireless Technology, Telemedicine. Medical Information Wet Sites for lay people.

BEIT304T

Digital Electronics And Fundamentals Of Microprocessor

(Theory Credit: 05)

Teaching Scheme: Examination Scheme:Lecture: 4 Hours/week Theory: T (U): 80 Marks T (I): 20 MarksTutorial: 1 Hour /week Duration of University Exam. : 03 Hours

UNIT I:

Analog Vs. Digital Systems, Boolean Algebra, D’ Morgan’s Laws. Types of NumberSystem: Decimal, Binary, Octal, Hex, Type of Codes: Reflected (Gray), SelfComplementary (Excess-3), BCD and ASCII codes, Conversion of Codes, Gates andtheir truth tables.

UNIT II:

Forms of Expression: Sum of products and Product of Sums, Standard Sum ofproducts and Product of Sums, Minterms and Maxterms, Canonical Sum of products and Product of Sums. Karnaugh map: simplification of functions using K-map (up to 5variables) and their implementation using logic gates.

UNIT III:

Combinational Circuits: Decoders, Encoders. Priority Encoder, Multiplexers,Demultiplexers, Code converters. Implementation of Functions using Decoder.Arithmetic Circuits: Adder (Half and Full), Subtractor (Half and Full). BCD adder /Subtractor, Concept of ALU.

UNIT IV:

Types Flip Flops: SR, JK, Master Slave JK, D and T. Race around Condition(Racing) and Toggling. Characteristics Table and Excitation Table, Conversion of Flip-Flop. Sequential Circuits: Counters, Modulus of Counter, Types-SynchronousCounter and Asynchronous (Ripple) counter.

UNIT V:

8085 microprocessor architecture, addressing modes, instruction sets.

UNIT VI:

Interrupts, Basic memory organization, Timing diagram, Programming in 8085.

BEIT304P Digital Electronics And Fundamentals Of Microprocessor

(Practical Credit: 01)

Teaching Scheme: Examination Scheme: Practical: 2 Hours/week Practical: P (U): 25 Marks P (I): 25 Marks Duration of University Exam. : 02 Hours

Note:

  1. Practicals are based on Digital Electronics And Fundamentals Of Microprocessor syllabus (subject code: BEIT304T)

  2. There should be at the most two practicals per unit

  3. Minimum ten practicals have to be performed

  4. Do not include study experiments

BEIT305T

Data Communication

(Theory Credit: 05)

Teaching Scheme: Examination Scheme:Lecture: 4 Hours/week Theory: T (U): 80 Marks T (I): 20 MarksTutorial: 1 Hour/week Duration of University Exam. : 03 Hours

UNIT I:

Data Communication: Communication Model, Data Representation, Data Flow(Simplex, Half duplex, Full duplex), Communication networking.

UNIT II:

Protocol Models: Need for protocol architecture, OSI Model fundamentals, TCP/IPModel fundamentals, addressing (Physical, Logical, Port addressing).

UNIT III:

Physical Layer and Media: Data and Signals, Analog and Digital, Periodic AnalogSignals, Digital Signals, Transmission impairment, Data Rate Limits, Performance, DigitalTransmission, Digital-to-Digital Conversion(Line Coding & Block coding), Analog-to-Digital Conversion(PCM & DM), Transmission Modes(Parallel & Serial).

UNIT IV:

Analog Transmission and Multiplexing: Analog Transmission, Digital-to-analog Conversion (ASK, FSK, PSK & QAM), Analog-to-analog Conversion (AM, FM & PM),Multiplexing (Frequency Division Multiplexing and Time Division Multiplexing), Switching:-switching networks, circuit switching, and Packet switching.

UNIT V:

Communication Media: Transmission Media: Guided media (Twisted pair, Co-axialcable, Optical fiber), Connectors (Twisted pair, Co-axial cable, Optical fiber), UnguidedMedia (Radio, microwave, satellite, Infrared).

UNIT VI:

Local Area Networks: The Basics (Topologies, hub, Switch, Bridges, Gateway), LocalArea Networks-Internetworking, Local Area Networks-Software and support System,Introduction to Metropolitan Area Networks and Wide Area Network, Internet.

BEIT306T

ENVIRONMENTAL ENGINEERING

(Total Credits: Nil)

Teaching Scheme: Examination Scheme:

Lecture: 2 Hours/week Theory: (Audit Course)

UNIT I: Introduction:

Definition, scope and importance; Need for public awareness institution in environment, people in environment

UNIT II: Natural Resources:

Renewable and non-renewable and associated problem; Role of an individual in conservation of natural resources; equitable use of resources for sustainable lifestyles

UNIT III: Ecosystems:

Concept of an ecosystem – understanding ecosystrem, ecosystemdegradation, resource utilization Structure and function of an ecosystem-producers, consumers and decomposers, Energy flow in the ecosystem – water, carbon, oxygen, nitrogen, and energy cycle, integration of cycles in nature Ecological Succession; Food chains ,food webs and ecological pyramids ;Ecosystem types-Characteristic features structure and function of forest ,grassland ,desert and aquatic ecosystems.

UNIT IV: Bio-diversity:

Introduction – biodiversity at genetic, species and ecosystem levels Bio-geographic classification of India Value of biodiversity-consumptive use value, productive use value, social, ethical, moral, aesthetic and optional value of biodiversity. India as a mega – diversity nation; hotspots of biodiversity Threats to bio-diversity –habitat loss, poaching of wildlife, man-wild life conflicts. Common endangered and endemic plant and animal species of india. Insitu and Exsitu conservation of biodiversity.

UNIT V: Pollution:

Definition; causes effects and control measures of air, water, soil, marine, noise and thermal pollution and nuclear hazards Solid water management – causes, effects and control measures of urban and industrial waste Role of individual and institution in prevention of pollution Disaster management – floods, earthquake, cyclone, landslides

UNIT VI: Social Issues and the Environment:

Unsustainable to sustainable development; urban problems related to energy; Water conservation, rainwater harvesting, watershed management; problems and concerns of resettlement and rehabilitation of affected people. Environmental ethics ¬issues and possible solutions – Resource Consumption patterns and need for equitable utilization; Equity disparity in Western and Eastern countries; Urban and rural equity issues; need for Gender equity. Preserving resources for future generations The rights of animals; Ethical basis of environment education and awareness; Conservation ethics and traditional value systems of India Climate change, global warming, acid rain, Ozone layer depletion, Nuclear accidents and holocausts. Wasteland Reclamation; Consumerism and Waste products Environment legislations ¬The Environment (protection) Act ; The Water (prevention and control of pollution) Act ; The Wildlife Protection Act; Forest Conservation Act ; Issues involved in enforcement of environmental Legislations – environment impact assessment (EIA), Citizens actions and Action groups. Public awareness – using an environmental calendar of activities, self Initiation.

UNIT VII: Human Population and the Environment:

Global population growth, variation among nations Population Explosion; Family welfare programmes -methods of stetrilization; Urbanization Environment and human health – Climate and health, infectious Diseases, water –related diseases, risk due to chemical in food, cancer and environment. Human Rights – Equity, nutrition and health rights, intellectual property rights(IPRS), Community Biodiversity registration(CBRs).Value education – environment value, valuing nature, valuing culture, social justice, human heritage, equitable use of resources, common property resources, ecological degradation. HIV/AIDS; Women and child welfare; Information technology in environment and human health.

BEIT307P COMPUTER LAB-I (Practical Credit: 02)

Teaching Scheme: Examination Scheme: Practical: 2 Hours/week Practical: P (U): 25 Marks P (I): 25 Marks Duration of University Exam. : 02 Hours

G-01:Demonstration of computer hardware and Bios settings. (North Bridge, South Bridge, PCI slots, ISA slots, AGP slot, memory bank slots, EIDE connector, Floppy connector, Chipset, Power connector, CPU slot, SMPS, Bios cell, Clock) (Ports-Serial, Parallel, PS/2, USB, Types of USB-A, B, Mini-A, Mini-B, Games, Ethernet/RJ42, Modem/RJ11, VGA, S-Video, HDMI, DVI-Mini & Micro DVI, IEEE 1394 Interface, SCSI, Minijack)

G-02:To demonstrate and study the various types I/O devices. (Ex: Printers, Mouse, Scanner, monitor (CRT, LCD) etc.)

G-03:Execution of internal and external dos commands. (Ex: Format, type, copy con, prompt, etc.)

G-04: Batch programming: Command Redirection and Pipelines, Variables and Control constructs.

G-05:Demonstration of system tools for windows operating systems.

G-06:Experiment based on system Registry of windows operating system.

G-07:Demonstration of complete booting process of windows operating system.

G-08:Demonstrate and study of networking accessories and Commands (Hub, Switch, Bridge, Router, LAN Card, CAT cables, Coaxial cable, Fiber Optic cable, Repeater, Modem, Commands: ping, tracert etc.)

G-09:To demonstrate and study the troubleshooting of a computer system. (Power supply problem, Boot failure Problem, Display problem, RAM problem, Motherboard Problem, CPU problem, CMOS battery problem etc.)

Note:

1. Practical sessions based on Any Six/Seven groups may be planned.

BE Bachelor of Engineering Information Technology IT 4th Semester

  1. Discrete Mathematics and Graph Theory

  2. Algorithms and Data Structures

  3. Theory of Computation

  4. Computer Architecture and Organization

  5. Object Oriented Methodology

Syllabus For Discrete Mathematics And Graph Theory

BE IV Semester (CS/CT/CE/IT)

Scheme (Theory: 4 hrs. & Tutorial:1 hr.)

UNIT-I: Mathematical Logic and Set Theory (08 Hrs)

Propositions and Logical Operations, Quantifiers, Conditional Statements and Tautologies, Methods of Proof, Principle of Mathematical Induction. Basic concepts of set theory, Operations on Sets, The power set.

UNIT-II: Relations and Functions(12 Hrs)

Relations: Ordered pairs and n-tuples, Product Sets and Partitions, Relations and Digraphs, Matrix of Relation, Paths in Relations and Digraphs, Properties of Relations, Equivalence Relations & Partitions, Compatible Relation, Manipulation of Relations, Composition of Relations, Transitive Closure of a relation, Partial order relation, Partially ordered set, Hasse Diagrams. Functions: Definition, Composition of functions, Types of Functions, Invertible Function, Permutation Function, Characteristics function of a set with Theorems.

UNIT-III: Group Theory (12 Hrs)

Binary Operations, Properties, Semigroups, Monoids,Subsemigroup,Submonoid, Isomorphism & Homomorphism, , Groups(only definitions and examples) Subgroups and Homomorphism, Cosets

and Lagrange’s Theorem, Normal subgroups.

Unit-IV:Rings, Lattices & Boolean Algebra(10 Hrs)

Rings, Fields, Integral Domain, Ring Homomorphism (definitions & examples), Lattices: Properties, Types of Lattices, Sub lattices, Isomorphic Lattices, Complemented & Modular Lattices (definitions & examples), Boolean Algebra: Definition, Properties, Simplification of Switching Circuits.

Unit-V: Graph Theory (12 Hrs)

Basic concepts of Graph Theory, Digraphs, Basic definitions, Paths and Circuits, Reachability and Connectedness, Matrix representation of graphs, Subgraphs & Quotient Graphs, Isomorphic digraphs & Transitive Closure digraph, Euler’s Path & Circuit (only definitions and examples). Trees, Binary Tree, Labeled Trees, Undirected Trees, Spanning Trees of Connected Relations, Prim’s Algorithm to construct Spanning Trees, Weighted Graphs, Minimal Spanning Trees by Prim’s Algorithm & Kruskal’s Algorithm.

Unit-VI: Combinatorics(06Hrs)

Generating Functions, Recurrence Relations, Counting: Permutations & Combinations, Pigeonhole Principle with Simple Applications.

BEIT402T

ALGORITHMS AND DATA STRUCTURES

(Theory Credit: 05)

Teaching Scheme: Examination Scheme:Lecture: 4 Hours/week Theory: T (U): 80 Marks T (I): 20 MarksTutorial: 1 Hour/week Duration of University Exam. : 03 Hours

UNIT I:

An Introduction to data structure: Introduction, Definition, Classification of data structure, Concept of data, Data types, Abstract data Types (ADT), Features of structured program. Introduction to algorithms: Definition and Characteristics of anAlgorithm, Apriori analysis, Time and space complexity, Average , Best and Worst casecomplexities, Big "O? Notations, Asymptotic notations, Top-Down and bottom-upprogramming techniques, Recursion, Divide and conquer strategy. ( e.g. Quick sort,Tower of Hanoi).

UNIT II:

Stacks and Queue: Definition and Terminology, Concept of stack, Stackimplementation, Operation on stack, Algorithms for push and pop, Implementing stack using pointers, Application of stacks, Evaluation of polish notation, multiple stack.Queue: Queue as ADT Implementation of queue, Operation on queue, Limitations,Circular queue, Double ended queue (dequeue), Priority queue, Application of queues,multiple queues.

UNIT III:

Linked List : Introduction, Linked list, Representation of linear linked list, Operation onlinked list, Types of linked list, Singly linked list, Circular linked list, Doubly linked list,Circular doubly linked list, Application: Addition of Two polynomials, Generalized linkedlist, Sparse matrix.

UNIT IV:

Tree: Introduction to Non Linear Data Structures, Binary tree Concept and terminology,Representation of binary trees, Algorithm for tree traversals (recursive and nonrecursive). Conversion of general tree to binary tree (Implementation not expected). Binary search trees, Extended binary tree, Threaded binary tree. Height balanced andweight balanced binary trees, B-Tree, B+ Tree, AVL tree, Multiway tree, 2-3 Tree.

UNIT V:

Graphs: Concepts and terminology, Representation of graphs using adjacency matrix,adjacency list, Depth First search and Breadth First Search Algorithms, Spanning trees,Minimal cost spanning tree and Shortest path algorithm ( Single Source-all pairs).

UNIT VI:

Searching and sorting Techniques: Importance of searching. Sequential, Binary,Sorting : Bubble sort, selection sort, quick sort, Merge sort, heap sort, Shell sort, Analysis of these algorithms in worst and average cases. Hashing techniques andcollision handing mechanism.

BEIT402P

Algorithms And Data Structures (Practical Credit: 01)

Teaching Scheme: Examination Scheme: Practical: 2 Hours/week Practical: P (U): 25 Marks P (I): 25 Marks Duration of University Exam. : 02 Hours

Note:

  1. Practicals are based on ALGORITHMS AND DATA STRCUTURES syllabus (subject code: BEIT402T)

  2. Practicals have to be performed using "C? language

  3. There should be at the most two practicals per unit

  4. Minimum ten practicals have to be performed

  5. Do not include study experiments

BEIT403T

Theory Of Computation

(Theory Credit: 05)

Teaching Scheme: Examination Scheme:Lecture: 4 Hours/week Theory: T (U): 80 Marks T (I): 20 MarksTutorial: 1 Hour/week Duration of University Exam. : 03 Hours

UNIT I:

Strings, Alphabet, Language operations, Finite state machine definitions, Finite automation model, Acceptance of strings and language, Non deterministic finite automation, Deterministic finite automation, Equivalence between NFA and DFA, Conversion of NFA into DFA, Minimization of FSM, Equivalence between two FSM?s Moore and Mealy machines

UNIT II:

Regular sets, Regular expressions, Identity rules, Manipulation rules, Manipulation of regular expressions, Equivalence between RE and FA, Inter conversion, Pumping lemma, Closure properties of regular sets(proofs not required), Chomsky hierarchy of languages, Regular grammars, Right linear and left linear grammars, Equivalence between regular linear programming and FA, Inter conversion between RE and RG.

UNIT III:

Context free grammar, Derivation trees, Chomsky normal form, Greibach normal form, Push down automata, Definition, Model acceptance of CFL, Equivalence of CFL and PDA, Inter conversion, Closure properties of CFL(Proofs omitted),Pumping Lemma of CFL, Introduction of DCFL and DPDA

UNIT IV:

Turing Machine: Definition, Model of TM, Design of TM, Universal Turing Machine, Computable function, Recursive enumerable language, Types of TM?s (proofs not required), Linear bounded automata and Context sensitive language, Counter machine

UNIT V:

Decidability and Undecidability of problems, Properties of recursive & recursively enumerable languages, Halting problems, Post correspondence problem, Ackerman function, and Church?s hypothesis.

UNIT VI:

Recursive Function: Basic functions and operations on them, Bounded Minimalization, Primitive recursive function, μ-recursive function, Primitive recursive predicates, Mod and Div functions, Unbounded Minimalization, Equivalence of Turing Computable function and μ-recursive function.

BEIT404T

Computer Architecture And Organization

(Theory Credit: 05)

Teaching Scheme: Examination Scheme:Lecture: 4 Hours/week Theory: T (U): 80 Marks T (I): 20 MarksTutorial: 1 Hour/week Duration of University Exam. : 03 Hours

UNIT I:Basic Structure of Computers:

Functional Units, Basic Operational Concepts, Bus Structures, Software, Multiprocessors and Multicomputers.

Machine Instructions:

Memory Locations and Addresses, Memory Operations, Machine program sequencing, addressing modes and encoding of information, Assembly Language ,Stacks, Queues and Subroutine.

UNIT II: Instruction Sets:

Instruction Format, limitations of Short word-length machines, High level language Considerations, Motorola 68000 architecture.

Processing Unit:

Some fundamental concepts, Execution of a complete instruction, Single, two, three bus organization, Sequencing of control Signals.

UNIT III: Micro-programmed Control:

Microinstructions, grouping of control signals, Micro program sequencing, Micro Instructions with next Address field, Perfecting microinstruction, Emulation, Bit Slices, Introduction to Microprogramming, Macro Processor.

UNIT IV: Arithmetic:

Number Representation, Addition of Positive numbers, Logic Design for fast adders, Addition and Subtraction, Arithmetic and Branching conditions, Multiplications of positive numbers, Signed Operand multiplication, fast Multiplication, Booth?s Algorithm, Integer Division, Floating point numbers and operations.

UNIT V:The Memory System:

Some Basic Concepts, Semiconductor RAM Memories, Memory system considerations, Semiconductor ROM Memories, Memory interleaving, Cache Memory, Mapping techniques, Virtual memory, Memory Management requirements.

UNIT VI:Computer Peripherals:

I/O Devices, DMA, Interrupt handling, online storage, File services.

Processors:

Families of microprocessors Chips, Introduction to RISC & CISC Processors, Introduction to Pipelining.

BEIT405T

Object Oriented Methodology

(Theory Credit: 05

Teaching Scheme: Examination Scheme:Lecture: 4 Hours/week Theory: T (U): 80 Marks T (I): 20 MarksTutorial: 1 Hour/week Duration of University Exam. : 03 Hours

UNIT I:

Introduction object-oriented development,Object Oriented Methodology, three Models, object oriented terms, object modeling Technique, object and classes links and associations, generalization and inheritance, grouping constructs a sample object module. Advanced object modeling; aggregation abstract classes, multiple, inheritance, metadata, candidate keys.

UNIT II:

Dynamic modeling, events and states, nested state diagrams, concurrency, advanced dynamic modeling concepts, functional models, data flow diagram, constraints, a sample functional module

UNIT III:

Design methodology overview of analysis, problem statement, ATM network, object modeling, various phases, dynamic modeling, various phases

UNIT IV:

System design, overview, sub systems, allocating subsystems, management of data stores, choosing software control, implementation, handling boundary condition

UNIT V:

Object design, overview, designing algorithms, design optimization, optimization of control, adjustment of inheritance, design of associations, object representation, physical packaging,

UNIT VI:

Implementation, programming languages, database systems, object oriented style, reusability, extensibility, robustness.

BEIT405P OBJECT ORIENTED METHODOLOGY (Practical Credit: 01)

Teaching Scheme: Examination Scheme: Practical: 2 Hours/week Practical: P (U): 25 Marks P (I): 25 Marks Duration of University Exam. : 02 Hours

Note:

  1. Practicals are based on OBJECT ORIENTED METHODOLOGY syllabus (subject code: BEIT405T)

  2. Practicals have to be performed using „C++? language

  3. There should be at the most two practicals per unit

  4. Minimum ten practicals have to be performed

  5. Do not include study experiments

BEIT406P

Teaching Scheme: Practical: 2 Hours/week COMPUTER LAB-II (Practical Credit: 02)

Examination Scheme: Practical: P (U): 25 Marks P (I): 25 Marks Duration of University Exam. : 02 Hours

G-01.Experiment based on MS Office macro programming.

G-02.Installation of OS and Configuring a Desktop for– the Windows Operating System (XP and 7) and the Linux Operating System (Ubuntu/Fedora/Mint).

G-03.Introduction to UNIX Operating System, The UNIX architecture and Command

Usage, The File System, PIPES, Filters using Regular Expressions.

G-04.Introduction to Linux Operating System, flavors of Linux vi Editor, vim Editor

G-05.The Shell -Shell Variables; Scripts; Meta Characters and Environment; if and

case Statements; for, while and until loops; Essential Shell Programming.

G-06.AWK (The Pattern-Action Language) -BEGIN and END Patterns; Variables, Records and Fields; Loops; Handling Text; String Manipulations.

G-07.Introduction to MATLAB Simulator and Programming based on MATLAB Simulator.

Note:

  1. Practical sessions based on Any Four/Five groups from G-01 to G-06 may be planned.

  2. Practical Group G-07 is compulsory.

Atlanta Computer Institute Nagpur conducts Tuition Classes for BE First Year BE Second Year (Semester 3 and Semester 4), BE Third Year (Semester 5 and Semester 6) and BE Final Year (Semester 7 and Semester 8) for all universities in India . The Following syllabus is of Nagpur University. Final Year Projects Training is also given to BE Students.


Course Schedule & Price
Classroom - Regular
When Duration Where Remarks Price
Not Specified Not Specified Dharampeth, Nagpur (Center) Not Specified Price On Request
Not Specified Not Specified Medical Square, Nagpur (Center) Not Specified Price On Request

Venues (Locations)
Nagpur, Dharampeth (Center):- 2nd Floor, Shivaji Complex, Near Coffee House And Bank of Baroda Opposite Titan Eye Showroom, West High Court Road Dharampeth, Nagpur, Maharashtra, India


Nagpur, Medical Square (Center):- 2nd Floor, Selokar Bhavan, Opposite Sangam Sweets Near Petrol Pump Medical Square, Nagpur, Maharashtra, India


About Course Provider

Atlanta Computer Institute


ATLANTA COMPUTER INSTITUTE in Nagpur is Central India's Leading and Best Computer Education Institute in Nagpur. Atlanta Computer Institute Nagpur Centers has been conducting Training Classes from last 15 years. Atlanta Computer Institute Nagpur is An ISO 9001 : 2008 Certified Company. The Computer and IT courses taught are Basics, MS-Office, C, C++, Java, Advance Java, Oracle, Visual Basic, VB.Net, ASP.Net, C#.Net, Animation Courses, Web Page Designing, PHP and MySQL, AutoCAD, 3d Studio Max, Revit, Staad Pro, Pro-e, CATIA, Ansys, Unigraphics NX, CAD CAM, ArchiCAD, Hardware, Networking, Photoshop, Flash, Coreldraw, Graphic Design, Web Site Development, Joomla, Wordpress, Search Engine Optimization, Animation Courses, Software Testing, Primavera, MS Project, Embedded Systems, Programming Courses, Dot Net Courses, Multimedia, Action Script, Illustrator, Google Sketchup, Video Editing, Maya, ISTQB Software Testing, CCNA, CCNP, CCIE, MCSE, MCITP, MCP, MCTS, MCDBA, MCPD, MCTP, Red Hat Linux, E-commerce, Android, Ethical Hacking, Java Hibernate, Java Spring, Java EJB, Java UML, University Syllabus of BE, Poly, BCCA, BCA, MCA, MCM, BSc, MSc, 12th Std State CBSE and Live Projects. Project Guidance is provided for Final Year students. Crash and Fast Track and Regular Batches for every course is available.

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