PROCEDURE OF SELECTION:
TWO STAGES:
i) Written Examination (Objective Type) and
ii) Oral Test in the shape of Interview only for those qualified as per Rules.
Post
Code
|
Name
of the Post
|
Age as on
01/7/2008
Min.
Max.
|
Scale of Pay
|
1
|
Lecturer in Civil Engineering
|
18-39
|
Rs.
8,000-
13,500
AICTE Scales.
50% DA Merged
|
2
|
Lecturer in Mechanical Engineering
|
||
3
|
Lecturer in Electronics & Communication Engineering
|
||
4
|
Lecturer in Computer Engineering
|
||
5
|
Lecturer in Electrical & Electronics Engineering
|
||
6
|
Lecturer in Textile Technology
|
||
7
|
Lecturer in Information Technology
|
||
8
|
Lecturer in English
|
||
9
|
Lecturer in Chemistry
|
||
10
|
Lecturer in Physics
|
||
11
|
Lecturer in Mathematics
|
||
TOTAL
|
|||
Qualification for APPSC Lecturers in Government Polytechnic Colleges :
Post code
|
Name of the Post
|
Educational Qualifications
|
| 1 |
Lecturer in Civil Engineering
|
Must possess a First Class Bachelor’s Degree in the appropriate Branch of Engineering/Technology.
|
2
|
Lecturer in Mechanical Engineering
|
|
3
|
Lecturer in Electronics &
Communication Engineering
|
|
4
|
Lecturer in Computer Engineering
|
|
5
|
Lecturer in Electrical & Electronics
Engineering
|
|
6
|
Lecturer in Textile Technology
|
|
7
|
Lecturer in Information Technology
|
|
8
|
Lecturer in English
|
A
First Class Master’s Degree in
English from an University in India recognized by UGC.
|
9
|
Lecturer in Chemistry
|
A
First Class Master’s Degree in
Chemistry from
an
University in India recognized by UGC.
|
10
|
Lecturer in Physics
|
A First Class Master’s Degree in Physics from an University in India recognized by UGC.
|
11
|
Lecturer in Mathematics
|
A
First Class Master’s Degree in
Mathematics from an
University in
India recognized by UGC.
|
Paper -1 Syllabus for APPSC Lecturers in Government Polytechnic Colleges:
GENERAL STUDIES AND
MENTAL ABILITY
1. General
Science – Contemporary
developments in Science
and Technology and
their implications including
matters of every day observation and experience, as may be expected of a
well-educated person who has not made a special study of any scientific
discipline.
2. Current events of national and international
importance.
3. History
of India –
emphasis will be
on broad general
understanding of the
subject in its
social, economic, cultural and political aspects with a focus on AP
Indian National Movement.
4. World Geography and
Geography of India with a focus on AP.
5. Indian polity
and Economy – including the country’s
political system- rural development – Planning and economic reforms in India.
6. Mental ability –
reasoning and inferences.
Paper 2 Syllabus for APPSC Lecturers in Government Polytechnic Colleges:
CIVIL ENGINEERING
01. ANALYSIS OF
STRUCTURES:
- Sending stresses and shear stresses in beams; Deflection and slope of beams;
- Combined bending and direct stresses; axially and eccentrically loaded columns;
- Close-Coiled and open-coiled; helical springs under axial load and axial twist; carriage springs; Analysis thin and thick cylinders; compound cylinders;
- Analysis of statically determinate plane trusses; method of joints and method of sections.
- Analysis of statically indeterminate beams; proposed canti-levers, fixed beams and continuous beams. Strain energy method, slope-deflection method, moment distribution method and Kaini’s method of analysis of indeterminate structures.
- Influence lines and moving loads on beams and simple bridge trusses.
02. STRUCTURAL DESIGN:
- Reinforced concrete, concrete technology, R.C.C. Design, working stress method and limit state method, Design of beams, Design of one-way and two-way slabs, design of axially loaded columns, design of continuous beams and slabs; Design of wall footings and isolated footings, combined footings, raft foundations, and retaining walls by limit state method, water tanks, Deck-slab and T-beam bridges by working stress method. Structural Steel – design of revetted and welded joints, design of tension members;
- Compression members, simple and compound beams. Design of plate girders, crane girders and roof- trusses. Elements of pre-stressed concrete.
03. FLUID MECHANICS AND
HYDRAULIC MACHINES:
- Fluid properties; fluid static’s; fluid-flow concepts; Laminar and turbulent flow; steady and unsteady-flow, uniform and non-uniform flow; Fundamental EQUATIONS; CONTINUITY EQUATION; Euler’s equation of motion; Bernoulli’s equation, Analysis of liquid jets; flow through orifies and mouth pieces; radial flow, flow along a curved path; Momentum equation and applications; Moment of Momentum equation. Dimensional analysis and similitude; Viscous flow-laminar flow through circular pipes; velocity distribution in laminar flow. Turbulent flow in pipes, velocity distribution in turbulent flow; Flow measurement – pressure moment, velocity measurement and discharge measurement, venturimeter, Orifice, meter, notches and weins. Hydraulic machines; Turbines and pumps; basic equations; Orifice, performance, selection, specific speed.
04. WATER RESOURCES
ENGINEERING:
- Steady flow through open channels. Uniform flow in channels; Chezy and Manning’s formulae. Specific energy and critical depth. Hydraulic jump – Momentum equation for a hydraulic jump. Surface Water hydrology; Hydrologic cycle, hydrologic data- measurement of precipation, evaporation, transpiration, and infiltration. Runoff, determination of run-off. Steam gauging; floor-Studies, Hydrograph and unit hydrograph, flood routing. Ground water resources, Darcy’s law, Dupuits equation, yield of wells, recuperation test.
05. SURVEYING:
- Chain surveying; compass surveying, plane table surveying; leveling and contouring, Minor instruments; Areas and Volumes; Theodolite surveying and traversing; Tachometry; Curve ranging; setting out works. Principles and uses of triangulation, hydrographic surveying, Arial photogrammetry and photo interpretation, remote sensing and electromagnetic distance measurement.
06. GEO-TECHNICAL
ENGINEERING:
- Physical properties of soils; identification and classification of soils; permeability and seepage; consolidation; shearing strength of soil; stability of earth slopes; site investigation and sub soil exploration. Stress distribution in soil; soil; compaction; lateral earth pressure and retaining walls; bearing capacity and shallow foundations; pile foundations; well foundations; Machine foundations.
07. TRANSPORTATION
ENGINEERING:
- Highway Engineering; classification of roads; highway alignment and surveys; geometric design of highways; elements of traffic engineering; highway materials and testing; elements of pavement design; construction and maintenance of earth gravel, W.B.M., bitumenous and concrete roads; highway drainage. Railway Engineering; engineering surveys for a new railway route, gauge and gauge problem; track components; ballast; sleepers; rails anrail fastenings; Station and station yards; requirements and requirement for station yards; signaling and inter locking. Elements of cross drainage works; causeways; culverts; bridges.
08 ENVIRONMENTAL
ENGINEERING:
- Water supply engineering; sources of water supply, conveyance of water, distribution systems; quality of water; treatment of water; filtration; dis-infection; methods of water treatment.
- Sanitary engineering; sewerage and sewage disposal; house fittings; design of sewers; characteristics of sewage, primary and secondary treatment of sewage’ methods of disposal of sewage.
MECHANICAL ENGINEERING
01. FLUID MECHANICS:
Fluid Properties, fluid
static’s, Kinematics and
Dynamics, Euler’s equation,
sernoulli’s energy equation,
flow of
ideal fluids, Viscous
in compressible flows
– laminar flow,
boundary layer, basic
features of turbulent flow, flow
through pipes, fluid machinery, Specific
speed and classification of fluid machines. Performance
and operation of pumps, impulse and reaction turbines, velocity triangles
and degree of reaction.
02. THERMO DYNAMICS:
Thermo dynamic systems, measurements of
temperature work, heat and
internal energy. First law of
thermodynamics, ideal gas equation
Air standard cycles, Carnot,
Otto, Diesel, dual
and joule cycle. Energy
and Enthaipy. Second law of Thermo dynamics.
Available and Unavailable energies. Reversible and irriversible processes. Psychrometry, Properties of pure substances.
03. MATERIAL SCIENCE:Structure
of metal and alloys, Binding in
solids. Imperfections of metals
and in crystals, fracture, creep,
fatigue and corrossion. Phase Rule,
phase transformation diagrams and lever rule.
04. ENGINEERING
MECHANICS AND STRENGTH OF MATERIALS:Equivalent force
systems, free body concepts and
equations of equilibrium, frictional
forces. Kinematics and dynamics of rigid bodies. Stress and
strain, elastic limit, yield point and
ultimate stress, shear force and bending moment diagrams for beams.
Calculation of stress slope and deflection in beams, theories of failure,
torsion of circular shaft, thin cylinders, equivalent bending moment for solid
and hollow shafts.
05. MANUFACTURING
PROCESSES:Classification of manufacturing processes. Fundamentals of casting. Classification of casting process.
Sandcasting – patterns, molding, melting and
pouring solidification, cleaning and
finishing casting defects. Metal forming – hot and
cold working, forging, rolling extrusion, wire and tube
drawing, deep drawing, blanking and stamping processes.Fundamentals of
welding arc and
gas welding, brazing and
soldering, heat treatment –
appealing –normalizing, hardening
and tempering.
06. APPLIED THERMO
DYNAMICS:Internal combustion engines classification, working and performance of C.I. and S.I. engines combustion process in I.C.
Engines Rating of fuels, pre ignition and knocking in I.C. Engines, Carburation and injetion,
Reciprocating air compressors – Single and ;multi stage compressors, inter
cooling, volumetric efficiency. Rotary
Compressors – fans blowers and
compressors Axial and Centrifugal
compressors – merits and
demerits.Boilers and condensors – types
of boilers and condensors, calculation
of boiler efficiency and equivalent
evaporation, feed water heaters.Steam and
Gas turbines Impulse and reaction
turbines degree of reaction velocity triangles, ranking cycle for steam turbine
power plant reheating and regeneration Gas turbine cycles methods of
improving gas turbine cycle efficiency.
07. HEAT TRANSFER AND REFRIGERATION:Modes of heat transfer, one
dimensional steady and unsteady
heat conduction convective heat transfer forced convection over flat plates and tubes, free convection over cylinders and
flat plates radiative heat transfer-black and
grey surfaces. Types of heat exchangers – heat exchanger performance LMTD and NTU methods vapor compression cycle analysis. COP;
and its estimation vapor absorption refrigeration cycle properties of refrigerators.
08. MACHINE DESIGN:Design
for static and dynamic loading fatigue
strength stress concentration, factor of safety designing of bolted, riveted
and welded joints, hydro dynamic
lubrication, journal and roller bearings
design of spur and helical gears, clutches and breaks. Belt and rope drives Design of shafts, keys
and couplings.
09. THEORY OF MACHINES:Constrained
motion, plane mechanisms, velocity acceleration analysis, Flywheel and their applications, Balancing of
reciprocating and rotating
masses cams and followers,
Tooth profiles Types
of gears Principles of gyroscope,
vibration of free and forced one degree of freedom systems with and without damping, critical speed of shaft.
10. PRODUCTION
ENGINEERING:Metal cutting and
machining types of chips, chip
formation tool wear
and tool life,
machine ability single point and multi point cutting operations machining
processes shaping, planning, turning, milling, grinding, hobbling and drilling operating unconventional machining
processes – USM, EDM, ECM and LBM. Basic features of NC Machines tools linear
and angular measurements, Comparators, limit gauges,
screw and gear measurements.
11. INDUSTRIAL
ENGINEERING AND MANAGEMENT:Industrial
organisations and plant
layout production planning
and control cost of manufacturing. Break even
analysis. Time and motion study, basic linear programming
and queing theory. PERT
/ CPM in production systems.
ELECTRONICS & COMMUNICATION ENGINEERING
01. Network analysis, Topology, Tree Tieset
out set, first and Second order Circuits. Steady State and Transient response,
Sinusoidal steady State Analysis.
Series and
parallel Resonance, Network
Theorems, Laplace Transforms,
Fourier series, Fourier
Transforms –
Applications, Two port.
Network Parameters,
Interconnection of two ports, Image Impedance, Image Parameters.
Filters – constant K
and M derived sections. Electronics Devices – Diodes, Transistors,
FET biasing, and characteristics, Frequency, Response, Amplifier circuits.
Electro Magnetic
Theory – Maxell’s
Equations. Coulomb’s law,
Amper’s law , Faraday’s
law, Poynting
Energy Theorem, Stoke’s theorem, uniform plane
waves.
Transmission Line
Theory – Standing waves & Travelling waves, Reflection, VSWR.
02. Feedback Amplifiers
and oscillator Circuits
Wave Shaping circuits,
Logic Gates, Boolean Theorems, Adders & Subtractors.
Antennas & Propagation – Radiation Principle, Antenna parameters.
Definitions.
Directional Antennas,
Linear Antenna Arrays, Broadside & End
fire Arrays, Gain, Directivity,
Radiation pattern.
Ground Wave,
Sky Wave, Ionosphere
Propagation, Guided Waves, Rectangular Wave-Guide
Analysis, Microwave Circuits and Components.
Microwave Tubes,
Klystron, Magnetron, and TWT.
Modulation Techniques –
AM, FM, PM. Channel capacity, Noise, AM,
FM, Transmitters, Radio Receivers.
TV and Satellite
Communication – Principles Radar Equation and Applications of Radar Computer
Programming, FORTRAN,
BASIC, PASCAL, Are Programming languages.
COMPUTER ENGINEERING
01. Logic families, gates, flip-flops,
Multiplexers, decoders, registers, counters, adder circuits, Boolean
algebra, Combinational circuit
design, minimisation, sequential
circuit design, number systems, inter conversion, number representation,
computer organisation, instruction formats, addressing modes, micro-
programming, ALU organisation, multiplication and
division algorithms, memory
hierarchy, cache and associate memories,
virtual memory, memory
IC’s, I/Oo organisation
schemes, interrupts, arbitration,
DMA, IOP, micro
processors, interfacing, pipeline,
SIMD and MIMD
organisations, proposition and predicate
logic’s, methods of deduction,
set theory, relations, functions,
algebraic structures, lattices,
recursion, combinatorics, graph
theory, representation, path
matrix, warshall’s algorithm,
cyclic and bipartite graphs, planner graphs, Hamiltonian graph,
chromatic number, trees, binary
tree traversals, representation
of expressions, spanning trees, breadth-first and depth-first algorithms, finite automation,
pushdown automation, Turing machine, grammars, type 0, 1, 2, and 3, LL and LR
grammars.
02. Algorithms, flow-charts, programming
methodology, data structures, PASCAL,
FORTRAN, COBAL and ‘C’ languages,
theory of programming languages, file
organisation, searching and sorting;
methods, DBMS, database models, query
languages, operating system, directory concept, processor scheduling,
memory allocation, paging and segmentation, device management, deadlocks
and prevention, concurrent
processing. DOS and
UNIX features, language
processors, syntax and
semantic analysis, code generation, optimisation,
assemblers, loaders and
linkers, algorithm design
techniques, Computer networks,
digital modulation techniques, modems, error detection and error correction,
BISYNC and HDLC protocols, OSI
model, network routing
algorithms, LAN operation methods,
Computer graphics, DDA algorithms, graphic
primities, 2-D transformations, graphic
input devices, software
engineering development life-cycle, system
analysis, modular design,
testing and validation,
CASE tools, AI techniques, natural language understanding,
learning, knowledge representation, expert
systems, LISP, PROLOG.
ELECTRICAL AND ELECTRONICS ENGINEERING
01. ELECTRIC CIRCUITS,
FIELDS & MEASUREMENTS:Network elements – Ohm’s law and Kirchoff’s laws – formation of mesh and nodal equations – topological
description of networks – response of R,
L and C elements to arbitrary
excitations – Laplace transform method of analysing networks.
Network theorems
– superposition, Thevenin’s
Norton’s theorems –
Maximum power transfer thereciprocity theorem
– applications – two port
parameters – Z,
Y, ABCD, H
para meters –
their relationships.
A.C. Circuits
– single phase circuits –
J-notation – calculations
– resonance – Polyphase
– circuits –measurements of polyphase power.
Electromagnetic theory
– general relations
in static fields
– potential gradient
and field intensity
– flux density – Gauss’s law –
Poisson and Laplace equations –
relations in electromagnetic fields – ampere’s law – flux and flux density –
divergence and curl – vector magnetic potential.
Electrical measurements
– Types of measuring instruments – Principles of operation – extension of
ranges– instrument transformers.
02. CONTROL
SYSTEMS, COMPUTATION AND ELECTRONICS:Control systems
– Types of
servo mechanisms –
equations and models
of linear systems
– block diagrams – time response
of second order systems – stability
criteria – root locus technique – frequency response – Nyquist criterion – Bode
plots.
Elements of
computation: Digital systems – flow charts and
algorithms – FORTRAN – types of statements
– logical
expressions – Assignment
statements – program
structure – Scientific
and Engineering applications.
Electronics: Solid-state devices
and circuits –
small signal amplifier
design – feedback
amplifiers – Oscillators – FETS –
Thyristors.
03. ELECTRICAL
MACHINES:Principles of Electromechanical Energy
Conversion: Basic ideas of production of torque –
concepts of generation of voltages – formulae for voltage and
torque production.
Three phase induction motors: The
revolving field theory
– Principles of operation of induction
motor – torque equation
– Computation of
performance – torque
speed characteristics –
motor starters – conventional and thyristor controllers for
speed control of induction motors.
Single phase motors:
Revolving field theory – types of
single-phase motors – equivalent circuits – speed control – applications.
Synchronous machines:
Generation of 3-phase voltages – types of synchronous machines – equivalent
circuit – experimental determination of reactances – voltage regulation and
efficiency – parallel operation – transient and
subtransient reactances – synchronous motors – theory of operation - -phase of diagram – equivalent
circuit – performance and power factor control – applications.Special machines:
Two phase servomotors – stepper
motors – methods of operation –
metadyne and amplidyne – operating characteristics and applications.
D.C. Machines and Transformers.
04. POWER SYSTEMS:Generation: Methods of power generation
– steam, hydro, nuclear, diesel
– selection of site for each – general layout of each type –
function of each component – economics of different types – base and peak load stations – pumped stations – simple
calculations in hydro station design.
Transmission: A.C. Vs.
D.C. transmission – criteria for selection of voltages – transmission line
parameters– G.M.D. and
G.M.R – concepts for short, medium and
long lines –
line calculations –
A.B.C and D constance – load flow analysis – surge
impedance loading.
Corona and insulators:
production of corona –
disruptive and visual
corona – corona loss – methods to
avoid corona – types of insulators – string efficiency.
Fault analysis:
Per unit representation: fault analysis
– Symmetrical and unsymmetrical faults –
application of symmetrical components – reactors.
Protection: Switch
gear – methods of
arc extinction –
classification of circuit
breakers – definitions – calculations in
switch gear –
testing of circuit
breakers – Relaying principles
– primary and
back up relaying –
definitions – operation
of different types
of relays –
applications to line,
transformer and generator
protection – protection of lines and equipment against voltage surges –
travelling wave theory. Utilisation: Industrial drives – motors for various
applications – braking – methods of heating and welding – welding transformer –
Economics and other aspects of track electrification.
TEXTILE TECHNOLOGY
1. Introduction of Textile
Fibres, their general
properties physical and
chemical and classification of Textile Fibres. Microscopic view of fibres.
2. Application of cotton fibre and
Raw material, cultivation of
cotton, common diseases and plant protection methods. Important varieties.
3. Manmade fibres and their raw materials. Outline of production of synthetic
fibres. Physical and chemical
properties and microscopic view.
4. SPINNING:
i) Methods of picking: manual and
mechanical ii) Ginning: Objectives
and methods
iii) Mixing: Blending of different varieties,
types of mixing, auto mixer, aeromixers.
iv) Blow
room line and
various machines used in
it. Convept of beating point
and its use in spinning of different fibres.
v) Lap defects and remedies
vi) Calculations regarding beter speeds, lap weight, hank of lap, drafts and
production. CARDING:
Objectives and principles
of carding, functioning
of carding machine.
Types of carding machine. Calculations regarding
carding machine, lap
sliver study, waste control
in carding, Tandem cards, Auto leveler, card sliver, lap feed and
chute feed systems.
DRAW FRAME: Objects,
Principles and various machines used in
drawing process. Functions of draw frame machines. Different types of Drafting systems,
weighing systems, Roller settings and draft distribution. Calculations regarding draw frame. Study of lapping and lapping machines.
COMBER: Objects, principles and different types of combing machines and
calculations there of. SPEED FRAME:
Principles, objects and
functions of speed frame. Working
of speed frame and calculation
regarding speed frames.
RING FRAME: Principles,
objects and functioning of Ring Frame
machines working of Ring Frame and
calculations regard ring frame.
Traveller, rings and
other important parts of ring
spinning frame. Drafting
systems. Yarn defects – causes and remedies. Calculations regarding spinning.
DOUBLING: Objects and
types of doubling. Features
and two for one twisters.
Manufacturing of sewing thread.
Calculations regarding production with reference to various parameters
of spinning. Open and spinning: Types
and methods of open end spinning.
TEXTILE CHMISTRY: Coal tar
distillation. Chemistry of
sizing, Bleaching and dyeing. Various dyes and chemicals, types of
printing and finishing machines and methods. Process of mercirising. Various dyes
used in dyeing of different fibres.
Calculations regarding
all processes mentioned above.
II. WEAVING:
1) Object
of the preparatory
process and types
of warp preparation. Classification types
of preparatory machines. Principle of
warp winding process.
Warp winding machines,
Automatic warp winding
machines. Pirn winding machines.
2) Sizing: Importance and objects of sizing. Requirements and application of size and preparation of size. Slasher sizing machines. Principles of modern size controls used in
sizing machines. Study of the development in sizing.
3) Principles of weaving process. Basic requirements of weaving loom and types of looms. Study
of handlooms and plain
powerlooms. Working of the mechanisms
faults and remedies with references to
the powerloom weaving and cloth production.
4) Principles of Automatic and shuttleless weaving. Study
of Modern Automatic looms viz.,
Dornier, Airjet, Waterjet, rapier, Grib pebloom.
5) Fabric Structure: Principles of fabric structures. Different types of weaves and their construction. Drafting and peg plans
according to weaves, Double Cloth, Dobby nd Jaquard designs.
6) Understanding Mill maintenance. Functions and utilizes.
Maintenance and lubrication
schedules in various departments.
7) Textile Testing: Sampling of various material viz.,
cotton, yarn, fabric etc.,
Physical and chemical testing of
fabrics and other material.
Defects of materials and their
identification. ISO & TOM. Concepts and Application.
8) Textile industry and management – introduction, concepts mill
management – production, material, financial, marketing management. Feasibility study and Industrial safety.
9) Calculations regarding all processing
mentioned above.
INFORMATION TECHNOLOGY
Digital Logic:
Logic functions, Minimization,
Design and synthesis
of combinational and
sequential circuits; Number
representation and computer arithmetic (fixed and floating point).
Computer Organization
and Architecture: Machine instructions and
addressing modes, ALU and data-
path, CPU control
design, Memory interface,
I/O interface (Interrupt
and DMA mode),
Instruction pipelining, Cache and main memory, Secondary storage.
Programming and Data
Structures: Programming in C;
Functions, Recursion, Parameter
passing, Scope, Binding; Abstract data
types, Arrays, Stacks, Queues,
Linked Lists, Trees, Binary search trees, Binary heaps.
Algorithms:
Analysis, Asymptotic notation,
Notions of space and time
complexity, Worst and average case analysis; Design: Greedy
approach, Dynamic programming, Divide-and-conquer; Tree and
graph traversals, Connected components,
Spanning trees, Shortest
paths; Hashing, Sorting,
Searching. Asymptotic analysis (best, worst, average cases) of time and
space, upper and lower bounds.
Operating System: Processes,
Threads, Inter-process
communication, Concurrency, Synchronization, Deadlock, CPU
scheduling, Memory management
and virtual memory,
File systems, I/O
systems, Protection and security.
Databases: ER-model,
Relational model (relational algebra, tuple calculus), Database design
(integrity constraints, normal forms), Query
languages (SQL), File structures
(sequential files, indexing, B and B+ trees),
Transactions and concurrency control.
Information Systems
and Software Engineering:
information gathering, requirement
and feasibility analysis,
data flow diagrams, process
specifications, input/output design, process life cycle, planning and managing
the project, design, coding, testing, implementation, maintenance.
Data communications: ISO/OSI model, TCP/IP
protocol architecture, data
transmission, transmission media,
encoding techniques, synchronous
and synchronous transmissions, multiplexing,
switching techniques, spread spectrum.
Computer Networks:
ISO/OSI stack, LAN technologies (Ethernet, Token ring), Flow and error
control techniques, Routing algorithms,
Congestion control, TCP/UDP
and sockets, IP(v4),
Application layer protocols (icmp,
dns, smtp, pop, ftp, http);
Basic concepts of hubs, switches, gateways, and
routers. Network security - basic concepts of public key and private key
cryptography, digital signature, firewalls.
Web technologies: HTML,
XML, basic concepts of client-server computing.
ENGLISH
Detailed Study of
literary age (19th Century)
viz.,
The period of English
Literature from 1798 to 1900 with special reference to the works of the major
writers including Words
worth, Coleridge, Byron,
Keats, Shelley, Lamb,
Hazlitt, Thackeray, Dickens, Tennyson, Browning, Arnold George
Eliot, Calyle and Ruskin.
Study of the following Texts:
1. William Shakespeare : ‘Macbeth’, ‘Hamlet’, ‘Julius Vrsdst’, ‘Tempest’
2. John Milton : ‘Paradise Lost’, -Books I & II
3. Alexander Pope : .‘The Rape of the Lock’
4. William Wordsworth : ‘The Immorality Ode’, ‘The Tin Tern
Abbey’
5. John Keats : ‘Ode to a Nightingale’
6. P.B. Shelley : ‘Ode to the West Wing’
7. Jane Austen : ‘Pride and Prejudice’.
8. Charles Dickens : ‘A Tale of Two Cities’
9. Thomas Hardy : ‘The
mayor of Casterbridge’
10. W.B. Yeats : “Byzantium”, ‘The Second Coming’.
11. T.S. Eliot
: ‘The Waste Land’.
12. D.H. Lawrence : ‘Sons and Lovers’.
13. Mulk Raj Anand : ‘The Big heart’
14. R.K. Narayan : ‘The Man eater of Malgudi’
CHEMISTRY
Inorganic Chemistry :
1. Atomic structure & Chemical
Bonding – Quantum theory Schrodinger –
wave equation – Hydrogen atom,Hydrogen molecule
– Elements on
valence bond –
molecular orbital theories.
2. Determination of molecular structure
– X – ray and electron diffraction methods.
3. Periodic classification (Classical
and modern) periodic
functions of elements
– atomic volume – atomic radious
electronegativity-oxidation states – lattice energy and their applications.
4. Chemistry of d-block
elements – Physical
and chemical characteristics of the transition elements –
Characteristics related to
electronic arrangements oxidation
states – colow magnetic properties
– Complex formation
– interstitial L-S
couping – Hund’s
rule. A General study of the
first transition series.
5. Chemistry of F-block
elements – Lanthanons
and Actinons –
electronic configurations –
oxidation’s states –
Separation of Lanthanons and Actinons.
6. Chemistry of
complex compounds:
Jourgenson and werner’s
views – effective
atomic number – valence bond theory
– Introductory treatment of
crystalfield theory applied to complexes
with co-ordination number 6.
7. Isomerism in complexes : Geometrical
and optical isomerism of four and six co-ordinated complexes. Pearson’s theory of hard and soft acids and
bases.
8. Study of the following elements and
their modern Chemistry Be, Ti, Zr, Hf, V, Mo, W, U, and
Th.
9. Alloys : Interimettalic compounds.
Physical Chemistry :
10. Radio activity : Elementary account of
nuclear structure natural and artificial
radio activity – characterisation of relations
– decay chains-half-life-decay constant
and average life. Radio-active series, atomic
transmutation – atomic fission and
fusion reactions and their
applications – nuclear isomers and their separations.
11. Kinetic
theory of gases : Equations of state – critical constants – States of aggregation – liquid states – viscocity – physical
properties an chemical constitution –
collision theory of derivation of the
collision – number from Kinetic theory of gases.
12. Chemical Kinetics : order and molecularity of reaction first order and second order reactions
– law of mass action –
influence of temperature and pressure –
thermo-dynamic derivation of Law of mass action – unimolecular reactions
Lindemann’s theory.
13. Thermodynamics :
First law of thermodynamics and
its applications to ideal gases, energy and enthalpy changes in gases,
heat capacities of gases and their
inter-relation. Isothermal and adiabatic processes – Kirchoff’s equation
and its applications – Vant Hoff’s isotherm isochore equilibria in
heterogeneous system. Second Flaw of
thermo dynamics (Joules and Joule
Thomson experiments). Entropy change in an
isolated system for reversible and irrevbersible processes – Variation
on entropy of a system with temperature
and pressure.
Organic Chemistry :
14. Heterocylic compounds
and chemistry of
nutral products –
Importance of heterocclic compounds – classification based on the
natury of heterocetom, size of
the ring and II excessive and II deficient nature of the
ring.
A general and
comparative study of Furan
pyrole and thiophene
Ring transformations. General
comparison with benzenoidd compounds, pyridine, quinotine, Isoquinoline and
acrdine-fII deficient nature of heterocylic rings – case of nucleophilic
substitution.
15. Methods
of synthesis, reactivity
and properties of
the following polynuclear
aromatic compounds: anthracene, Benzanthracene, Phenontherene Chryeneand
picene.
16. Benzopyrones : Couamarins and Chromones.
17. Alkaloids :
General occurrence, reactions
and degradations. Chemical
and Physico- Chemical methods for the elucidation
of structures-synthesis and structural
elucidation of the following
alakaloids – atropine – cocaine - quinene – Narcotine – papaverine.
18. Organic
reaction mechanism: Structure
and reactivity of
organic molecules –
Factors affecting Electron density
in a band-inductive, induct
rometric, mesomeric, (reasonance) and electrometric effects, hyperconjugation –
Dipole moments-acedic and basic strength
of organic Compounds.
Modern concepts of organic reaction mechanisms –
Addition, substitution and elimination
reactions – simple
examples and their
mechanism. The intermediate
carboniumion formation and its
participation in organic reactions.
Addition C-C, system-pinocol-pincolene rearrange rearrangements. Automatic substitution – Formation and
hydrolysis of esters.
19. Some name reactions :
Wurtz-Friedel-Crafts,
Fries-Gatter-mann – Perin
– Beckmann’s rearrangements and
Grignard reactions.
20. Carbohydrates :
General reactions of
monosaccha rides –
configurational studies on glucose, fructose, sucrose, Recent
advances in the Chemistry of cellulose and starch.
21. Proteins – Introduction to proteins –
their classification – Nomenclature and
distribution in nature simple, amino acids – Isolation and their
synthesis.
22. General
Ideas regarding the
chemistry of vitamins & Harmones nicotine, B-Carotene and
Vitamin C.
23. Alicyclic compounds :
Synthesis and reactions
Bayers strain theory –
Factors affecting stability of conformation – terpenes – citral –
gerniol – limonenene – terpinol – pinene and camphor.
24. Stereo Chemistry : Opticnal and geometrtic isomerism configuration of
saturated molecues
– DL and RS configuration of optically active
compound-racemic – mixtures – racemisation and resolution.
25. Molecular spectra : NMR, Chemical shift
– Spin – Spincoupling – ESR of simple
radicals – Rotational Spectra, diatomic molecules, linear triatomic molecules,
isotopic substitution – Vibrational and Raman Spectra.
Physical Chemistry :
26. Electro-Chemistry :
Equivalent conductance and
its measurement. The
independent migration of jons – kholraush’s
Law. Transport number and their determination. Ionic mobilities. Equivalent conductance of weak and
strong electrolytes. Inter-ionic
attraction theory treated
quantitatively-Debye-huckle-onsager equation.
Determination of solubilities from conductance measurements
-–Conductometric titration’s.
Ionic product of water
and its determination from
conductance and EMF methods – theories
of acids and bases – Hydrogen ion concentration and its measurements from E.M.F.measurements using
Hydrogen quin –
hydroen and glass
electrodes – Buffer solutions – Henderson’s equation
potentiometric titration’s – Determinations of equilibrium constant and solubilities from E.M.F.measurements – Gibbs
– Helmbholtz equation and its
application to chemical cells.
27. Photo
– Chemistry : Laws on absorption of light – Gretius – Draper Laws – Einstiens Law in
Chain reactions –
Hydrogen chlorine reactions – absorption
– Laws of absorption.
Surface Chemistry
and catalysis – Absorption
isotherms, surface area
determination, heterogeneous
catalysis, acid-base and enzyme cotolysis.
PHYSICS
I. Mathematical Physics:
Vectors: Vector
operators like DCI &
grad, div. & curl.
Surface and volume
integrals – Theorems of
Gauss, Stokes, &
Green.
Matrices : Quality, addition and subtraction,
multiplication of matrices, inverse of a matrices, similarity and unitary
transformation Characteristic equation of a matrix Eigen values – Eigen vectors
Square, diagonal, unit, symmetric, and skewmatrix - Hermitian and unitary
matrix.
Tensors: Tensors of any order
–Transformation relation Covariant & Contra-variant
tensors-Christoffel symbols.
Fourier Analysis: Trigonometric Fourier series – Evaluation of
coefficients – Exponential Fourier series.
II. Classical Mechanics:
General Theorems of
mechanics of mass points – Principals of Virtual work – De-Alember’s principle
– Lagrange’s equation of motion
– Hamilton’s principle – Hamilton’s
Equation of motion – Principle
of lest action – Canonical transformations = Poisson bracket. Rigid body motion – Euler’s theorem on rigid
body motion – moment of inertia-tensor – heavy
Symmetrical top.
III. Electromagnetic Theory:
Generalisation of
Ampere’s Law –
Derivation of Maxwells
equation – Pointing
theorem – Transverse nature of
Electromagnetic waves –
propagation & Conducting and
non-conducting media –
metallic reflection – Propagation of light in crystalline media –
Fresnel’s Theory of double refraction.
IV. Special Theory of Relativity:
Galilean Transformation
– Newtonians Relativity – Michelson’s Morley Experiment – Postulates of special
theory of relativity Lorentz’s transformation – Relativistic particle mechanics
Equivalence of mass & energy
– Covariance of
Maxwell’s equation.
V. Statistical Mechanics:
Generalised coordinates
& momenta-phase space, Liowellies Theorems – Maxwell Boltzman statistics –
Distribution of velocities and energy in
ideal gas – Equipartition of energy – Vibrational, rotational, and electronic
partition functions for diatomic gas – specific heats of gas – Ortho and para
hydrogen’s – Bose Einstein & Fermi Dirac statistics – Bose Einstein
gas and application to radiation –
liquid helium – Free electrons in metals.
VI. Quantum Mechanics:
Shordinger’s wave equation – Born interpretation of wave functions – Expectations values of dynamical
variables – Ehrenfests’ Theorem - Uncertainity
Principle – Application of Shordinger’s equation to (a) One dimensional
squarewell potential (b) Simple harmonic Oscillator (c) Hydrogen atom.
Perturbation
theory – First order and
second order theories for non degenerate & degenerate systems –
Application to normal helium atom – Time
dependent & time independent perturbation theory – Application for
each. Relativistic quantum mechanics –
Klenn Garnian equation Dirac’s equation Solution for a free particle meaning of
negative energy states – Quantum theory of scattering – Born approximation.
VII. Electronics:
Vacuum: Tubes and
semiconductor diodes – Principle and
working of rectifier and power supply – Ripple factor L and
T section filters voltage
stabilisation in power
supplies characteristics of triode
and pentode and junction transistors their static
characteristics – Voltage amplifiers – R.C. coupled amplifiers – and its frequency response Negative feed
back in amplifiers – Advantages of – Ve
feed back – condition for sinosoidal oscillations in
transistor circuits Hartley and Colpitts
oscillators – multi vibrators A stable –
Monostable and bi-stable
type – Pulse
generator – Saw
tooth voltage generator
Cathode – ray oscilloscope (C.R.O).
VIII. Solid State Physics:
Crystallography –
Classification of solids – Point group
and space group – Crystal systems
– Specification of planes and directions
– Elements of X-ray
diffraction – Various crystal
bindings – Metallic, ionic,
co- valent molecular and hydrogen
bonded crystals – Band theory of solids – motion of electrons in periodic
potential Block’s theorem Kronig’s penny
model – energy bands – Brillouin zones – distinction between insulators
– Metals and Semi-conductors on band
theory.
IX. Nuclear Physics:
Radioactivity, Chain
dis-integration, transient and
secular equilibrium – Age
of rocks and Radio carbon dating – alpha decay or Gamow’s theory
– Beta decay and nutrino Interaction of
gamma rays with matter – Selection rules
– nuclear models – Liquid drop model – semi empirical mass formula – criteria
for stability against spontaneous decay – Shell model – nuclear detectors –
Ionisation – Chambers – G.M. counters – Proportional counters – bubble and
spark chambers – Semi-conductor detectors.
X. Spectrocopy:
Bohr – Sommerfield theory
of Hydrogen atoms – Space
quantisation – fine structure of spectral lines
– Alkali spectra – Zeeman effect Vector atom model of one
electron system – Paschen – Back effect – Stark effect in Hydrogen atoms – Band
spectra – Types of band
spectra-I.R. and Raman effect. Isotope effect – Franck – Candon Principle.
MATHEMATICS
Real Analysis: Continuity and differentiability of real functions.; Uniform
continuity, Sequences and series of
functions. Uniform convergence. Functions of bounded variation. Riemann integration.
Complex “Analysis:
Analytic functions. Cauchy’s theorem
Cauchy’s integral formula. Iaurent’s
series. Singularities. Theory of
residues – Conformal mapping.
Abstract Algebra:
Groups – Sub-groups
– normal sbugroups
Quotient group Homomorphism
– Fundamental theorem of
Hamomorphism, Permutation groups: Cayley’s theorem – Rings – Subrings
– Ideals – Fields – Polynomial rings.
Linear Algebra:
Vector spacers –
Basis and dimension
– Linear transformations –
Matrices – Characteristic roots
and characteristic vectors – systems of
linear equations – Canonicl forms – Cayley – Hamilton theorem.
Differential
Equations: First order ordinary differential equations (O.D.E) and
their solutions – Singular solutions.
Intial value problems
for first order
O.D.E. General theory
of homogeneous and
non- homogeneous linear differential
equations, variation of
parameters. Elements of
first order partial differential equations (PDE).
Advertisements
No comments:
Post a Comment