Syllabus Of Second Semester Computer Science And Engineering( II Semester - C.S.E. - Polytechnic)
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| Syllabus Of Second Semester Computer Science And Engineering( II Semester - CSE - Polytechnic) |
II Semester :
1. INTEGRAL CALCULUS - I : (14 Marks)
Methods of Indefinite Integration :-
1.1 Integration by substitution.
1.2 Integration by rational function.
1.3 Integration by partial fraction.
1.4 Integration by parts.
2. INTEGRAL CALCULUS -II :(14 Marks)
2.1 Meaning and properties of definite integrals, Evaluation of
definite integrals. Integration of special function.
2.2 Application : Finding areas bounded by simple curves, Length
of simple curves, Volume of solids of revolution, centre of
mean of plane areas.
2.3 Simposns 1/3rd and Simposns3/8th rule and Trapezoidal Rule :
their application in simple cases.
3. CO-ORDINATE GEOMETRY (2 DIMENSION):(14 Marks)
3.1 CIRCLE :
Equation of circle in standard form. Centre - Radius form,
Diameter form, Two intercept form.
3.2 Standard form and simple properties
Parabola x2=4ay, y2=4ax,
Course / Subject : APPLIED PHYSICS-II
[ Common to All Engineering Courses]
1. Optics (4 Marks)
Nature of light, Laws of Reflection and Refraction, Snell's
Law, Interference (Constructive and Deotructive),
Diffraction and Polarization (Concept Only), Law of Mallus
and Polaroids.
2. Introduction To Fibre Optics :(5 Marks)
Critical angle, Total internal reflection, Principle of
fibre optics, Optical fibre, Pulse dispersion in step-index
fibres, Graded index fibre, Single mode fibre, Optical
sensor.
3. Lasers and its Applications (4 Marks)
Absorbtion and Emission of energy by atom, Spontaneous and
Stimulated Emission, Poluation inversion, Main component of
laser and types of laser- Ruby Laser, He-Ne laser and their
applications. Introduction to MASER.
4. Electrostatics :(4 Marks)
Coutomb's Law, Electric field, Electric potential, Potential
energy, Capacator, Energy of a charged capacitor, Effect of
dielectric on capacators.
5. D.C. Circuits (5 Marks)
Ohm's Law, Kirchoff's Law and their simple application,
Principle of Wheat Stone bridge and application of this
principle in measurement of resistance (Meter bridge and
Post Office Box); Carey Foster's bridge, potentiometer.
6. Magnetic Materials and Their Properties: (5 Marks)
Dia, Para and Ferro-magnetism, Ferrites, Magnatic Hysteresis
Curve and its utility. Basic idea of super conductivity,
Meissner's effect.
7. Semiconductor Physics (4 Marks)
Concept of Energy bands in soldis, classification of solids
into conductors, insulators and semiconductors on the basis
of energy band structure. Intrinsic and extrinsic semi
conductors, Electrons and holes as charge carriers in
semiconductors, P-type and N-type semiconductors.
8. Junction Diode and Transister : (6 Marks)
Majority and Minority charge carriers,P-N junction
formation, barrier voltage, Forward and reverse biasing of a
junction diode, P-N junction device characteristics,
Formation of transistor, transistor-action, Base, emitter
and collector currents and their relationship LED's.
9. Introduction To Digital Electronics : (6 Marks)
Concept of binary numbers, Interconversion from binary to
decimal and decimal to binary. Concepts of Gates (AND, NOT,
OR).
10. Non-conventional energy sources: (7 Marks)
(a) Wind energy : Introduction, scope and significance,
measurement of wind velocty by anemometer, general
principle of wind mill.
(b) Solar energy: Solar radiation and potentiality of
solar radiation in India, uses of solar energy:
Solar Cooker, solar water heater, solar photovoltaic
cells, solar energy collector.
Course / Subject : APPLIED CHEMISTRY
[ Common to All Engineering Courses]
1. ATOMIC STRUCTURE :(3 MARKS)
Basic concept of atomic structure, Matter wave concept,
Quantum number, Haisenberg's Uncertainty Principle, Shaples
of orbitals.
2. CHEMICAL BONDING :(4 MARKS)
Covalent bond, Ionic & Co-ordinate, Hydrogen bonding,
Valence bond theory, Hybridisation, VSEPR theory, Molecular
orbital theory.
3. CLASSIFICATION OF ELEMENTS :(3 MARKS)
Modern classification of elements (s,p,d and f blcok
elements), Periodic properties : Ionisation potential
electro negativity, Electron affinity.
4. ELECTRO CHEMISTRY-I:(3 MARKS)
Arrhenius Theory of electrolytic dissociation, Transport
number, Electrolytic conductance, Ostwald dilution law.
Concept of Acid and bases : Bronsted, Arrhenius and Lewis
theory. Concept of pH and numericals. Buffer solutions,
Indicators, Solubility product, Common ion effect with their
application,
5. ELECTRO CHEMISTRY-II:(3 MARKS)
Redox reactions, Electrode potential(Nernst Equation),
Electro-chemical cell (Galvanic and Electrolytic). EMF of a
cell and free energy change. Standard electrode potential,
Electro chemical series and its application. Chemical and
Electrochemical theory of corrosion, Galvenic Series.
Prevention of corrosion by various method.
6. CHEMICAL KINETICS :(3 MARKS)
Law of mass action, order and molecularity of rection.
Activation energy, rate constants, Ist order reactions and
2nd order reactions.
7. CATALYSIS :(2 MARKS)
Definition Characteristics of catalytic reactions, Catalytic
promotors and poison , Autocatalysis and Negative catalysis,
Theory of catalysis, Application.
8. SOLID STATE :(2 MARKS)
Types of solids (Amorphous and Crystalline), Classification
(Molecular, Ionic, Covalent, Metallic), Band theory of
solids (Conductors, Semiconductors and Insulators), types of
Crystals, FCC, BCC, Crystal imperfection.
9. FUELS :(3 MARKS)
Definition, its classification, high & low Calorific
value.Determination of calorific value of solid and liquid
fuels by Bomb calorimeter.
Liquid fuel - Petroleum and its refining, distillate of
petroleum (Kerosene oil, Disel and Petrol), Benzol and Power
alchol. Knocking, Anti-knocking agents, Octane number and
Cetane number.
Cracking and its type, Gasoling from hydrogenation of coal
(Bergius process and Fischer tropsch's process)
Gaseous Fuel - Coal gas, Oil gas, Water gas, Producer gas,
Bio gas, LPG and CNG.
Numerical Problems based on topics
10. WATER TREATMENT :(3 MARKS)
Hardness of water, Its limits and determination of hardness
of water by EDTA method. Softening methods (Only Sods lime,
Zeolote and Ion exchange resin process). Disadvantage of
hard water in different industries, scale and sludge
formation, Corrosion, Caustic embritlement, primming and foarming in biolers.
Disinfecting of Water By Chloramine-T, Ozone and Chlorine.
Advantage and disadvantage of chlorinational, Industrial
waste and sewage, Municipality waste water treatment,
Definition of BOD and COD. Numerical Problems based on
topics.
11. COLLOIDAL STATE OF MATTER :(3 MARKS)
Concept of collidal and its types, Different system of
colloids, Dispersed phase and dispersion medium.
Methods of preparation of colloidal solutions, Dialysis and
electrodialysis. Properties of colloidal solution with
special reference to absorption, Brownian Movement, tyndal
effect, Electro phoresis and coagulation. relative stability
of hydrophillic and hydrophobie colloids. Protection and
protective colloids. Emulsion, Types, preparation,properties
and uses. Application of colloids chemistry in different
industries.
12. LUBRICANTS :(3 MARKS)
Definition, classification, Necessasity and various kinds of
lubricants. Function and mechanism of action of lubricants
and examples. Properties of lubricants, Importance of
additive compunds in lubricants, Synthetic lubricants and
cutting fluids. Industrial application, its function in
bearing.
13. HYDROCARBONS:(4 MARKS)
A. Classification and IUPAC nomeuclature of organic compounds
hamologous series (Functional Group)
B. Preparation, properties and uses of Ethane, Ethene, Ethyne
(Acetylene), Benzene and Toluene.
14. ORGANIC REACTIONS & MECHANISM:(4 MARKS)
1. Fundamental auspects -
A. Electrophiles and nucleophiles, Reaction Intermediates,
Free radical, Carbocation, Carbanion B. Inductive effect, Mesomeric effect, Electromeric effect.
2.A. Mechanism of addition reaction (Markonicove's Rule,
Cyanohydrin and Peroxide effect),
B. Mechanism of Substitution reactions; (Nucleophillic)
hydrolysis of alkyle halide, electrophillic substitution
halogenation, Sulphonation, Niration and friedel-Craft
reaction.
C. Mechanism of Elimination reaction - Dehydration of primary
alcohol, Dehyrohalogenation of primary alkyl halide.
15. POLYMERS :(3 MARKS)
1. Polymers and their classification. Average degree of
polymerisation, Average molecular weight, Free radical
polymerisation (Mechanisms) .
2. Thermosetting and Thermoplastic resen -
A. Addition polymers and their industrial application-
Polystyrene, PVA, PVC, PAN, PMMA, Buna-S, Buna-N,
Teflon.
B. Condensation polymer and their industrial application :
Nylon 6, Nylon 6,6, Bakelite, Melamine formaldehyde,
Urea formaldehyde, Terylene or Decron, Polyurethanes.
3. General concept of Bio polymers, Biodegradable polymers and
inorganic polymers(Silicon)
16. SYNETHETIC MATERIALS :(4 MARKS)
A. Introduction - Fats and Oils
B. Saponification of fats and oils , Manufacturing of soap.
C. Synthetic detergents, types of detergents and its
manufacturing.
3. EXPLOSIVES: TNT, RDX, Dynamite.
4. Paint and Varnish
Course / Subject :FUNDAMENTALS OF ELECTRONICS DEVICES.
(Common With Three Year Diploma Course In IT)
1. INTRODUCTION:
1.1 Application of electronics in different fields.
1.2 Electronic devices in computer system. e.g. power supply,
micro processor and other ICs, amplifiers, clock & other
signal generators.
1.3 Advancements in electronics technology and its impact on
computers size reduction, capacity expansion, increase in
reliability, cost reduction)
2. Introduction of active & Passive components
2.1 Register-Working characteristics/properties , registors -carbon film, metal
film ,carbon composition ,wire wound and variable type ( presets and
potentiometers ),characteristics(size, voltage,tolerance)
2.2 Capacitors-Working characteristics/Properties,capacitprs-polyaster,metalized
polyster, ceramic paper mica and electronic tantalum ,solid aluminium types
3. SEMICONDUCTOR PHYSICS:
3.1 Analyzing conductivity of elements, Types of conductors.
3.2 Pure(Intrinsic) semiconductors-Silicon, Germenium:Thermal
Generation(formation of charge carrier-Positive & Negative
charge carriers i.e. electron-hole pair), Recombination,
Displacement of hole, mobility of free electron and moving
hole, effect of variation in temperature, behavior of
instrinsic semiconductors at 0 K.
3.3 Doping the Intrinsic semiconductors with a pentra-valent/tri-valent element(i.e. doner and accepter type
impurity) in small amount, effect of doping on strength of
charge carrirs(formation of immobile ions and majority and
minority carriers), P,N Junction.
3.4 Effect of doping a crystal parity 'P' type and parity:
concepts of diffusion & drift, formation of deplition
layer(potential barrier)i.e. formation of P-N Junction.
4. SEMICONDUCTORS DIODES:
4.1 Effect of applying electrical potential across a P-N
Junction in the following ways:
(a) Positive of the source to 'P' type terminal & Negative
to the 'N' type terminal
(b) Positive of the source to 'N' type terminal & Negative
to the 'P' type terminal.
4.2 Analyzing the flow of current in both the directions, cause
of the difference in magnitudes of current in the two
directions.
4.3 Characteristics of a P-N Junction diode in forward/reverse
biasing.
4.4 Concepts of unidirectional and bi-directional flow of
currents. Effect of putting in diode in series with a load
connected across an ac source.
4.5 Half wave rectifier, Full wave rectifier9 using C.T.
transformer, using bridge circuits)
4.6 Special purpose diodes:Zener diode, Vractor diode,Photo
Diode,Light emiiting Diode (LED), their chractersitics and
uses.
5. TRANSISTOR:
5.1 Growing a Crystal having two P-N Junction back to back
(i.e.PNP & NPN); Junction transistor structure; acton of
transistor in FF,RR,FR and RF biasiing; working of a
tranistor; relation between different currents in a
transistor;
5.2 Various configurations of transistor (CB,CE,CC);ralation
between.Transistor action in three configuration; Comparison
between the three configuration of transistor;
5.3 Input and Output characteristics of a transistor;
5.4 Field - effect transistor ( JFET,IGFET,MOSFET);
6. TRANSISTOR AS AN AMPLIFIER:
6.1 Transistor biasing: DC Operating: need of biasing & bias
stablization in a transistor circuit; various biasing
circuits( Fixed, Collector to base, emitter, and potential
devider.);
6.2 DC and AC load lines in a typical CE amplifier circuit;
6.3 Need of using multi- stages; how to couple two stages ;
various coupling arrangements( R-C coupling,Transformer
coupling, Direct coupling):
6.4 Effect of coupling arrangement on the requency response of a
two stage amplifieer; frequency response curve of a RC
coupled amplifier; a transformer coupled amplifier; band
with of an amplfier.
7. OPERATIONAL AMPLIFIERS:
7.1 Specifications of ideal operational amplifier and its block
diagram.
7.2 Definition of inverting and noninverting inputs,
differential voltage gain and input and output off set,
voltage input offset current, input bias current, common
mode rejection ratio (CMMR), power supply rejection ratio
(PSRR) and slew rate.
7.3 Method of offset null adjustments, use of op.amp. as an
inverter scale changer, adder, subtractor, differential
amplifier, buffer amplifier, differentiator, integrator,
comparator, Schmitt Trigger, Generation of Square and
Triangular Waveform, log and anti-log amplifiers, PLL and
its appliation and IC power amplifier.
8. FEED BACK IN AMPLIFIER:
8.1 Concept of Feed back;
8.2 Types of feed back( Positive, Negative); different
arrangement of feed back( series voltage, series- current,
shunt -voltage, shunt current );
8.3 Voltage gain of feed back amplifier;( A'=A/(a) +A)
8.4 Analysis of Negative feed back arrangement on (
Gain,Stability, Noise, Input/output impedances, Band width);
Amplifier circuits with negative feed back;
8.5 Positive feed back; condition for infinite gain( AB=1 in
Positive feed back)
8.6 Oscillator as an infinite gain feed back.
9. INTEGRATED CIRCUITS:
9.1 Introduction;
9.2 Manufacturing process;
9.3 SSI, MSI, LSI, VLSI, ICs;
9.4 Linear and Digital ICs;
9.5 Switching and Gating ICs;
9.6 DTL, TTL, ICs;
Course / Subject : CONCEPT OF PROGRAMMING USING C
(Common with Three year diploma in IT)
1. CONCEPT OF PROGRAMMING:
Concept of Flowcharting, algorithm, programming, Structured
Programming Various techniques of programming, Use of
programming.
2. INTRODUCITON TO PROGRAMMING IN C:
Standard I/o in C, Fundamental data types- Character types,
Integer, Short, Long, Unsigned, Single and Double floating
point, Storage classes - Automatic, Register, Static and
External, Operators and Expression using numeric and
relational operators, Mixed operands, Type of conversion,
Logical operators, Bit operators, Assignment operator,
Operator precedence and associatively.
3. FUNDAMENTALS OF C PROGRAMMING :
Structure of C program, writing and executing the first C
program, components of C language, Standard I/O in C.
4. CONDITIONAL PROGRAM EXECUTION :
Applying if and switch statements, nesting if and else, use
of break and default with switch, program loops and
iterations: use of while, do while and for loops, muliple
loops variables, use of break and continue statement.
5. FUNCTIONS :
Introduction, types of functions, functions with array,
passing values to functions, recuresive fuctions.
6. ARRAYS :
Array notation and representation, manipulating array
elements, using multi dimentional arrays, Structure, union,
enumerated data types.
7. POINTERS :
Introduction, decaration, applicaitons, File handling,
standard C preprocessors, defining and calling macros,
conditonal compilation, passing values to the compiler.
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