Kurukshetra University Syllabus
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Kurukshetra University Syllabus
Syllabus For Master Of Computer
Applications ((Semester I)
Programming In
C

UNIT – I Overview of C: Structure
& Memory Layout of C Program; Elements of C, Data types; Storage classes
in C: auto, extern, register and static storage class; Header files: Using
predefined and userdefined header files, Operators: Arithmetic, relational,
logical, bitwise, unary, assignment and conditional operators, side effects,
precedence & associativity of operators.

UNIT – II Input/output: Unformatted
& formatted I/O function in C. Control statements: Sequencing, Selection:
if statement, switch statement; Repetition: for, while, and dowhile loop;
break, continue, goto statements. Functions: Definition, prototype,
parameters passing techniques, recursion, builtin functions.

UNIT – III Arrays: Definition, types,
initialization, processing an array, passing arrays to functions, returning
arrays from functions, String handling. Pointers: Declaration, operations on
pointers, pointers and arrays, dynamic memory allocation, pointers and
functions, pointers and strings.

UNIT – IV Structure & Union:
Definition, processing, Structure and pointers, passing structures to
functions, use of union. Data files: Opening and closing a file, I/O
operations on files, Error handling during I/O operation, Random access to
files. Preprocessor commands and Macro definitions.

Computer
Organization

UNIT – I Digital Logic Fundamentals:
Boolean algebra–basic functions, manipulating Boolean functions, Kmaps and
Quine McCluskey procedures. Combination Logic–multiplexers, decoders,
encoders, comparators, adders & subtractors, BCDtoSeven segment decoder.
Basic Sequential Circuits–Flipflops (RS, JK, Ttype and DType), Ripple
counter, Shift Register.

UNIT – II Basic Computer Organization:
Generic computer organization – system bus, instruction cycle, timing diagram
of memory read and write operations, CPU organization, memory subsystem
organization and interfacing – types of memory, chip organization, memory
subsystem configuration, multibyte data organization, I/O subsystem
organization and interfacing, memory subsystem configuration. Register
Transfer Language (RTL): different types of microoperations, using RTL to
specify digital systems – specification of digital components, simple
systems, Modulo6 counter.

UNIT – III CPU Design: design and
implementation of simple CPUfetching, decoding & executing instruction,
establishing required data paths, designing hardwired control unit.
Microsequencer Control Unit Design: microsequencer operations,
microinstruction formats, design and implementation of a simple
microsequencer, reducing number of microinstructions.

UNIT – IV Memory Organization:
Hierarchical memory system, associative memory, cache memory – associative,
direct and set associative mappings, replacing & writing data in cache,
cache performance, virtual memory  paging, segmentation, memory protection.
I/O Organization: Asynchronous data transfer.

Software
Engineering

UNIT – I Introduction: Software
Crisisproblem and causes, Software Processes, Software life cycle models:
Waterfall, Prototype, Evolutionary and Spiral models, Overview of Quality
Standards like ISO 9001, SEICMM, CMMI, PCMM, Six Sigma. Software Metrics:
Size Metrics like LOC, Token Count, Function Count, Design Metrics, Data
Structure Metrics, Information Flow Metrics, cyclomatic complexity, Halstead
Complexity measures.

UNIT – II Software Project Planning:
Cost estimation, static, Single and multivariate models, COCOMO model, Putnam
Resource Allocation Model, Risk management, project scheduling, personnel
planning, team structure, Software configuration management, quality
assurance, project monitoring. Software Requirement Analysis and
Specifications: Structured Analysis, Data Flow Diagrams, Data Dictionaries,
EntityRelationship diagrams, Software Requirement and Specifications,
Behavioral and nonbehavioral requirements.

UNIT – III Software Design: Design
fundamentals, problem partitioning and abstraction, design methodology,
Cohesion & Coupling, Function Oriented Design and User Interface Design.
Coding: Programming style, structured programming. Software reliability:
Metric and specification, Musa and JM reliability model, fault avoidance and
tolerance, exception handling, defensive programming.

UNIT – IV Software Testing: Functional
testing: Boundary Value Analysis, Equivalence class testing, Cause effect
graphing, Structural testing: Control flow based and data flow based testing,
loop testing, mutation testing, load, stress and performance testing,
software testing strategies: unit testing, integration testing, System
testing, Alpha and Beta testing, debugging. Static Testing: Formal Technical
Reviews, Walk Through.

PaperI: Inorganic Chemistry
(Theory)
Section – A

Atomic Structure:Idea of de Broglie matter waves, Heinsenberg’s
uncertainty principle, atomic orbitals, quantum numbers, radial and angular
wave functions, normal and orthogonal wave functions, significance of Ψ and
Ψ2, probability distribution curves, shapes of s, p, d, f orbitals, Aufbau
and Pauli exclusion principles, Hund’s multiplicity rules, Electronic
configuration of elements, effective nuclear charge, Slater’s rules.Periodic
table and atomic properties:Classification of periodic table into s, p, d, f
blocks, atomic and ionic radii, ionisation energy, electron affinity and
electronegativity definition, methods of determination or evaluation, trend
in periodic table (in s and pblock elements), Pauling , Mulliken, Allred
Rachow and Mulliken Jaffe’s electronegativity scale, Sanderson’s electron
density ratio.

Section – B

Covalent Bond:Valence bond theory (HeitlerLondon and Pauling
approach) and its limitation, directional characteristics of covalent bond,
various type of hybridisation andshapes of simple inorganic molecules and
ions (BeF2, BF3, CH4, PF5, SF6, IF7, SO42, ClO41, NO31) valence shell
electron pair repulsion (VSEPR) theory to NH3, H3O+, SF4, ClF3, H2O, SnCl2,
ClO31and ICl21. Molecular orbital theory of homonuclear (N2, O2)
heteronuclear (CO and NO) diatomic molecules and ions, bond energy, bond
angle, bond length and dipole moments, percentage ionic character from dipole
moment and electronegativity difference.Ionic Solids:Ionic structures (NaCl,
CsCl, ZnS (Zinc blende), CaF2) size effects, radius ratio rule and its
limitations, Madelung constant, Stoichiometric and Non stoichiometric defects
in crystals, Lattice energy (mathematical derivation excluded) and Born
Haber cycle, Solvation energy and its relation with solubility of Ionic
solids, Polarizing power and Polarisability of ions, Fajan’s rule.

Discrete
Mathematical Structures

UNIT – I Set Theory: Basic Set Theory,
Operations on Sets, Algebra of sets, Venn Diagrams. Relations: Binary
Relations, Complement of relations, Inverse of relations, Composite
relations, Properties, Equivalence, Partial Order and Total order relations.
Functions: Functions on Set, Domain, Codomain, Representation of Functions,
Types, Identity and Inverse Functions, Composition of Functions, Applications

UNIT –II Propositional Calculus:
Propositional logic, Equivalences, Predicates , Quantifiers, Nested
Quantifiers, Rules of Inference, Normal Forms, Proofs: Methods, Strategy.
Counting: Pigeonhole Principle, InclusionExclusion Principle, Permutations
and Combinations, Binomial Coefficients, Counting Principles, Applications.

UNIT –III Advanced Counting
Techniques: Recurrence Relations, Solving Recurrence Relations, Divide and
Conquer Algorithms and Recurrence Relations, Solution of Recurrence Relations
by the method of Generating Function.. Latices and boolean algebra: Lattices,
Hasse Diagram, Principle of Duality, Types of Lattices, Special Lattices,
Boolean Expression, Equivalent circuits, Dual, Normal Forms.

UNIT –IV Graphs: Introduction,
Terminology, Types of Graphs, Representation of Graphs, Paths and Circuits,
Cutset and Cut  Vertices, Graph Isomorphism, Homomorphism, Connectivity,
Bipartite Graphs, Subgraphs, Operations on Graphs, Euler and Hamiltonian
Paths, Shortest Path Problem, Planar & Dual Graphs, Coloring Covering and
Partitioning. Tree: Tree Notations, Properties of tree, Types of Tree,
Minimum Spanning Tree (MST).

Computer
Oriented Numerical And Statistical Methods

UNIT – I Iterative Methods: Bisection,
False position, NewtonRaphson methods, Discussion of convergences. Solution
of Simultaneous Linear Equations and ordinary Differential Equations: Gauss
elimination method, Illconditioned equations, GaussSeidal iterative method.
Interpolation: Polynomial interpolation, Difference tables, Inverse
interpolation.

UNIT – II Ordinary Differential
Equations: Euler method, Euler’s Modified Method, TaylorSeries Method,
Runge Kutta method, PredictorCorrector methods. Numerical Differentiation
and Integration: Differentiation formulae based on polynomial fit, Pitfalls
in differentiation, Trapezoidal, Simpson's rules. Curve Fitting: Polynomial
fitting and other curve fitting.

UNIT – III Approximation of functions:
Approximation of functions by Taylor series and Chebyshev polynomials. Statistics:
Frequency distributions, Measures of central tendency, dispersion, moments,
skewness and kurtosis. Binomial, Poisson and Normal distributions.
Correlation and Regression.

UNIT  IV Statistical methods: Sample
distributions, Test of Significance: ChiSquare Test, T and F test. Analysis
of Variance: Oneway classification, ANOVA Table, Twoway classification
(with one observation per cell). Time Series Analysis: Components and
Analysis of Time Series, Measurement of Trend, Seasonal fluctuations and cyclic
movement

Chemistry Online Test

Syllabus For B. Tech. Mechanical
Engineering (Auto) (Semester V)
PaperI Microprocessors and
Applications
Unit I

Introduction To Microprocessors And Microcontrollers: Introduction to
Microprocessors and Microcontrollers, Number Systems and Binary arithmetic,
Microprocessor Architecture (8085 and 8086) and Microcomputer Systems, memory
map and addressing, memory classification, review of logic device for
interfacing, Memory Interfacing, Overview of 8085 Instruction Set, stacks and
Interrupts

Unit II

The 8051 Architecture: 8051 Microcontroller hardware, oscillator and
clock, Prog. Counter and Data Pointer, Registers and Program Status word,
Internal Memory RAM, Stack and Stack Pointer, Special Function Registers,
Internal ROM. Input / Output Pins, Ports and Circuits, External Memory,
Counters and Timers, Serial Data Input and Output, Interrupts.

Unit III

Assembly Language & Programming The 8051:Assembly Language
programming, Programming the 8051, Moving Data, Logical Operations,
Arithmetic Operations, Branching Operations, Interrupts.

Unit IV

Microcontroller 8051 design: Microcontroller specification and
Design, External Memory and Memory space decoding, Memory – mapped I/O,
Memory Access times, Timing Subroutines, Lookup Tables for 8051, Serial Data
Transmission. Interfacing Peripheral Devices To 8051 And Applications:
Interfacing A/D Converters and D/A Converters, 8255, 8259. Application to
interfacing Scanned Displays, Matrix Keyboard, Memory Design, Data
Acquisition System Design.

Online Test For Mechanical Engineering

Syllabus for M.Sc Electronic Science
(Semester I)
Paper I Mathematical &
Computational Techniques in Electronics
Unit I

Role of simulation in IC design, DC Analysis of linear networks, Node
analysis, Loop analysis, Hybrid formulation techniques, 2b Method, Tableau
Method, Modified node analysis, Transient analysis of linear and nonlinear
circuits, Possible formulation techniques, Numerical solution of ordinary
differential equations, Associated circuit models for inductors and capacitors,
Use of associated circuit models.

Unit II

DC analysis of NonLinear circuits, DC analysis of Nonlinear
equation in one unknown, Newton Raphson techniques for many variables,
Linearised equivalent for NewtonRaphson technique, General Consideration in
solving Nonlinear Circuits, Network graphs: basic concepts, formation of
incidence matrix and its properties, Cut set matrix, State variable analysis:
Introduction, State Space model, State Space model applicable for electrical
circuits.

Unit III

Laplace transforms: Definition, Fundamental rules, Operational
methods in applied mathematics; Integral transform, Application of the
operational calculus to the solution of partial differential equations,
Evaluation of integrals, Laplace transforms of periodic functions,
Applications of the Laplace transform to the solution of linear integral
equations, Systems of linear differential equations with constant
coefficient, solving electrical circuits using Laplace transform.

Unit IV

Digital signal analysis, Continuous and discretetime signal,
sampling theorem, Fourier series, Examples of Fourier expansions of
functions, Fourier transform and its properties, applications of Fourier
transform in circuit analysis, Discrete Fourier transform and its properties,
DFT and Fourier transform, Relation to the Fourier transform: Aliasing, DFT
and Fourier series, Fast Fourier transform, Redundancy in the DFT,
Ztransform: definition, Ztransforms of some common sequences, Properties of
the Ztransforms

Electrical Engineer Test Question

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