Integral Transform I:
: Laplace Transform Laplace transform, Existence theorem, Laplace
transforms of derivatives and integrals, Initial and final value theorems, Unit step function,
Dirac- delta function. Laplace transform of periodic function, Impulse function.
Inverse Laplace transform, Convolution theorem, Application to solve simple linear and
simultaneous differential equations.
UNIT-II
Integral Transform II: Fourier integral, Complex Fourier transform, Inverse Transforms,
Convolution Theorems, Fourier sine and cosine transform, Applications of Fourier transform
to simple one dimensional heat transfer equation, wave equation.
Z- transform and its application to solve difference equations
UNIT-III
Partial Differential Equations: Partial differential equations of the first order,
Lagrange's solution, Charpit's general method
of solution, Partial differential equations of the second order: Constant coefficient and
reducible to constant coefficient, Classification of linear partial differential equations of
second order.
UNIT-IV
Applications of Partial Differential Equations: Method of separation of variables for
solving partial differential equations, Wave equation up to two-dimensions, Laplace equation
in two dimensions, Heat conduction equations up to two dimensions.
Signals:
Definition, types of signals and their representations: Continuous-time/discrete-time,
Periodic/non-periodic, Even/Odd, Energy/Power, Deterministic/Random, One dimensional
/Multidimensional, Commonly used signals (in continuous-time as well as in discrete-time):
Unit impulse, Unit step, unit ramp (and their interrelationships), Exponential, Rectangular
pulse, Sinusoidal; Operations on continuous-time and discrete-time signals (including
transformations of independent variables). Systems:
Classification, Linearity, Time-invariance and causality, Impulse response,
Characterization of linear time-invariant (LTI) systems, Unit sample response, Convolution
summation, Step response of discrete time systems, Stability, Poles and zeros
UNIT-II
Fourier Series (FS) and Fourier Transforms (FT): (i) Fourier series representation and
some important properties (ii) Definition,
conditions of existence of FT, properties, Magnitude and phase spectra, Some
important FT theorems, Parseval’s theorem, Inverse FT, relation between LT and
FT (iii) Discrete time Fourier transform (DTFT), Inverse DTFT, Convergence,
Properties and theorems, Comparison between continuous time FT and DTFT
UNIT-III
Laplace-Transform (LT) and Z-transform (ZT):
(i) One-sided LT of some common
signals, Important theorems and properties of LT, inverse LT, Solutions of differential
equations using LT, Bilateral LT, Regions of convergence (ROC) (ii) One sided and Bilateral
Z-transforms, ZT of some common signals, ROC, Properties and theorems, Solution of
difference equations using one-sided ZT, s- to z-plane mapping
UNIT-IV
Time and frequency domain analysis of systems: Convolution integral, Co-relations, Signal
energy and energy spectral density, signal power
and power spectral density, Properties of power spectral density, Analysis of first order and
second order systems, continuous-time (CT) system analysis using LT, System functions of
CT systems, Block diagram representations; discrete-time system functions,block diagram
representation, Illustration of the concepts of system bandwidth and rise time through the
analysis of a first order CT low pass filter
Electrostatics: Electrostatic fields, Coulombs law and field intensity, Electric field
due to
charge distribution, Electric flux density, Gausses’s Law – Maxwell’s equation, Electric
dipole and flux lines, Energy density in electrostatic fields. Electric field in material space:
Properties of materials, Convection and conduction currents, conductors, Polarization in
dielectrics, Dielectric Constants, continuity equation and relaxation time, Boundary
condition. Electrostatic boundary value problems: Poisson’s and Laplace’s equations,
General procedures for solving Poisson’s or
Laplace’s equations, Resistance and capacitance, Method of images
UNIT-II
Magnetostatics: Magneto-static fields, Biot-Savart’s Law, Ampere’s circuit law,
Maxwell’s equation, Application of Ampere’s law, Magnetic flux density- Maxwell’s
equation, Maxwell’s equation for static fields, magnetic scalar and vector potential.
Magnetic forces, materials and devices: Forces dueto magnetic field, Magnetic torque and
moment, a magnetic dipole, Magnetization in materials, magnetic boundary conditions,
Inductors and inductances, Magnetic energy. Waves and applications: Maxwell’s equation,
Faraday’s Law, Transformer and motional electromotive forces, Displacement current,
Maxwell’s equations in differential and integral form
UNIT-III
Electromagnetic wave propagation: Wave propagation in lossy dielectrics, Plane waves
in
lossless dielectrics, Plane wave in free space, Plain waves in good conductors, Power and
the
Poynting vector, Reflection and Refraction of a plane wave at normal and Oblique incidence.
UNIT-IV
Transmission lines: Transmission line parameters, Transmission line equations, Input
impedance, Standing wave ratio and power, The Smith chart, Coaxial lines and Waveguides.
1. Study of JFET drain and transfer characteristics. PDF
2. JFET biasing arrangement Graphical method. PDF
3. Build and Test BJT in CE amplifier and find performance parameters - Av,
Ri, Ro, Ai. PDF
4. Study of MOSFET drain and transfer characteristic. PDF
UNIT-I
Crystal Properties and charge Carriers in Semiconductors, Elemental and compound
semiconductor materials, crystal lattice structure, Bonding forces and energy bands in
solids, charge carriers in semiconductors, Donor/Acceptor carrier concentrations, Mobility
and Conductivity, drift of carriers in electric and magnetic fields, Potential variation within
a graded semiconductor, p-n junction behavior, Charge control description of a diode.
Special Diodes: Varactor diode, Zener Diode, Schottky barrier diode, Light Emitting diode,
Photo diode, Characteristics and applications.
UNIT-II
BJT:
Review of device structure operation and V-I characteristics, BJT circuits at DC, BJT
as amplifier and switch, biasing in BJT amplifier circuit, small-signal operation and models,
single stage BJT amplifier, BJT internal capacitances and high frequency model, frequency
response of CE amplifier. Darlington pair, BJT differential pair, Cascode and Cascade
amplifier.
UNIT-III
MOSFET: Review of device structure operation and V-I characteristics. Circuits at DC,
MOSFET as Amplifier and switch, Biasing in MOS amplifier circuits, small-signal
operation and models, single stage MOS amplifier, MOSFET internal capacitances and high
frequency model, frequency response of CS amplifier.
UNIT-IV
Feedback Amplifiers: The general feedback structure, properties of negative feed- back,
the four basic feedback topologies, the series-shunt feedback amplifier, the series-series
feedback amplifier, the shunt-shunt and shunt-series feedback amplifier. Oscillators: Basic principles of sinusoidal oscillators, RC Phase-shift Oscillator
circuits,
Resonant- circuit oscillators.
Nature, scope and the significance of the study of Public Administration, Public
Administration and other Social Sciences, Methodology, Politic-Socioeconomic-Development and
Public Administration, Role of Chief Executive Union Cabinet and Co-ordination of Public
Administration.
UNIT-II
Forms of Organisation department, Public Corporation, Commission and Board,
Administrative Organisation in India Direction, Communication, Decentralisation,
Deconcentration Co-ordination, Methods, Role of O and M Units in an Organisation, Public
Relations.
UNIT-III
Objectives of Personnel Administration; aspects of Personnel Administration Recruitment
Public Service Commission, Training, Terms of Employment, Moral Discipline, Financial
Administration, Financial Organisation, Budgetary Operations and Control: Audit;
Parliamentary Control over Financial Management. Delegated Legislation; Administrative
Tribunals.
UNIT-IV
Accountability of Public Administration to Legislature, Public Administration, Political
Parties, Pressure Groups and the People, Judicial Control over Public Administration,
National Planning in India, Planning Organisation; Administration of Development
Programmes, Administrative aspects of Indian Federalism, Local Self-Government and
Administration-Rural and Urban in India.
1. Create a HTML static web page which shows the use of different tags in that.
2. Insert an image and create a link such that clicking on image takes user to other page.
3. Prepare a sample code to illustrate three types of lists in HTML.
4. Use tables to provide layout to your HTML page describing your university infrastructure.
5. Use frames such that page is divided into 3 frames 20% on left to show contents of pages,
60% in center to show body of page, remaining on right to show remarks.
6. Create a simple form that will show all the INPUT METHODS available in HTML.
7. Create a sample code to illustrate the Embedded, External and Inline style sheets for your
web page.
8. Write an XML example of given tree that demonstrates the creation of user-designed tags
and display it in a browser. fname, lname, joindate, bdate, college, employee, age, salary
(with at least 3 elements).
9. Write a program in XML for creation of DTD which specifies a particular set of rules.
10. Create an e-book having left side of the page name of the chapters and right side of the
page
the contents of the chapters clicked on left side.
Introduction: Management and Industrial Engineering and relation with other fields,
Management concepts. Plant Location and Layout: General considerations, Types of Layout, Cellular
Manufacturing.
UNIT-II
Work Analysis and Measurement: Design of work methods, Time and motion study, Work
sampling, Selection of labour and wage payment, Incentive and motivation. Functional Management: Sources of finance, Balance sheet and Income statement,
Different element of costs, Depreciation, Break-even analysis, Economic appraisal of
projects.
UNIT-III
Production Planning and Control: Methodology, Aggregate Planning, Scheduling, Line of
Balancing. Quality Control: Concepts of quality, Acceptance sampling, Control Charts, Total Quality
Management.
UNIT-IV
Material Management: Inventory management, Deterministic and probabilistic models of
Inventory control, Material requirements Planning, JIT, ERP, SCM Business process
reengineering. Project Management: CPM and PERT, Cost consideration and Crashing