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Detailed Syllabusof

Technician Membership Examination(Electrical Engineer)

Part I & II

The Institution of Electrical & Computer Engineers (India)(Registered Under Societies Registration Act of 1860)

4, East Park Road, Karol Bagh, New Delhi-110005


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Detailed Syllabus of Part I of Technician Membership Examination

IECE (I) (Electrical Engineering)

Part-I

S. No. Course Number Course Title

1. TEE - 1.1 Communication Skills

2. TEE - 1.2 Engineering Mathematics

3. TEE - 1.3 Applied Physics

4. TEE - 1.4 Engineering Chemistry

5. TEE - 1.5 Basic Electrical Engineering


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Reference Books:-

1. Communication Skills of P. Prasad BY S.K.Kataria Publishers 5th Edition(2009-2010)

2. Inderjeet Bhattacharya Communication Skill by DhanpatR

ai & Sons. 4th

Edition (2000)3. Communication Skills of R. Datta Roy & KK Dhir; Vishal Publication (2003

2004)

New Additions

3. Shirley Taylor Communication for Buisness Pearson Publications 3rd

Edition

4. Rutherford Basic Communication skills for Technology Pearson

Publication 3rd

Edition


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TEE-1.2: ENGINEERING MATHEMATICS

ALGEBRA:

1. Introduction to Surds: Different terms, simplification of surds, relationship of binomialand trinomial quadratic surd expressions, surd root of (a + b) by inspection.

Logarithms:-Only statement of laws common logarithms, application to numerical example,compound interest quadratic equations:Solution by general formula, relations between the roots, nature of roots and formation ofa quadratic equation reducible to quadratic form.

2. Determinates: Expansions of determinant of the 3rd order (no theorems), solution ofquotation with three unknowns partial Fractions:Cases involving non repeated linear, repeated linear and non repeated irreduciblequadratic factors in the denominator

3. Progressions: A.P., G.P., only means, summation of simple series er/er2, mere statementof Binomial theorem er (rh) to positive integral index, determination of (r+1) the term,extension of(1 +X)n where n is rational index, approximations (to rational index)

4. Trigonometry: Angular measurement, conversion of Degrees into redians, and vice versa,trigonometric ratios from the tables, ratios of o, 30,45, 60 and 90 without tables,relations between trigonometric ratios, simple identities, trigonometric ratios of any angleallied angle , compound angels, addition and subtraction theorems(merestatement),product formula, product into sum or difference, ratios of multiple and submultiple angles, sine, cosine and tangent rule and half angle formula for triangles solutionof right angle and other triangles, height and distances, simple problems in one plane,inverse circular functions(definitions only)

5. Mensuration:-(i) Areas of plane figures like triangle, quadrilateral, rectangle, trapezium, rhombus,

parallelogram, regular polygon, circle, sector and segment of a circle ellipse(ii) Surface areas and volumes of regular prism and cylinder, pyramid and cone,

sphere, frustum of a pyramid and a cone(iii) Simpson rule for areas and volumes

6. Coordinate Geometry:-Finding out the equations of a straight line , circle, parabola andellipse in their simplest forms: geometrical properties for straight line x/a = y/b- 1, forcircle x+y= a, for parabola y = 4ax, and for ellipse x/a + y/b = 1

7. Differential Calculus :

(i) Idea of Function , value of a function Lt >0 sin /- 1(ii) Limits of functions t sin = 1 (only result) easy Examples.(iii) Derivative of a function. Derivatives of X X and circular functions by

definition. Only the results to be supplied.


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(iv) Rules for the derivatives of (a) sum (b) products (c) quotient (d) function offunction. Examples on algebraic and trigonometric functions.

(v) Differentiation of inverse trigonometric functions. Exponential and logarithmicfunctions only the results and their use.

(vi) Differentiation of implicit parametric and inverse functions.

(vii) Second derivatives: Easy examples leading to differential equations of secondorder.(viii) Geometric interpretation of derivatives. Velocity and acceleration as rates.

Related rates. Applications to maxima and minima functions.

8. Integral Calculus :i. Integration as reverse to differentiation. Easy examples based on the list of

formulae.ii. Method of substitution . Rule f(x) = /f(x) dx. Integrals of Sin x, Cosx, tan x,

Sinx,and cosx, Easy examples.iii. Mere statement of the rule of integration by parts leading to integrals of Log x

Secx,(a + x), ax sin bx.Definite integrals. Properties( without proof) Application to areas , volumes,center of Gravity, moment of inertia.

9. Permutation and Combination Permutation and combination of n things take r times.Following Notationsn-n,np,nc ,nCr(N)/r]Realations : nc, = np,/r nc,= nC NSample space, sample points (finite space only), Events, Elementary events, equallylikely Outcomes, Compound events, Probability log an event, Multiplication andadditional laws, Conditional probability

10. Binomial Theorem Binomial theorem for positive integral index, proof by induction.Sum of Binomial coefficients.

Reference Books-

1. H.K Das Engineering Maths-I S. Chand & Co. 4th Edition (2007)2. Ramanna Engineering Maths-II Tata McGraw Hill 1st Edition3. N. P Bali Engineering Maths-I Laxmi Publication 5th Edition

New Additions

4. Manju Bala Applied Mathematics I & II Satya Prakashan 2nd

Edition -

2009

5. Kanda Samy & K. Thilagavathy Applied Mathematics S. Chand; Volume

III (2002)

6. Sunil Sachdev Engineering Mathematics Sharma Publications 5th

Edition


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TEE-1.3: APPLIED PHYSICS

1. Revision:- Introduction, Objectives, Mass, Time, Area, Volume, Density, Force, Current,Charge, Newton's Laws of Motion, Laws of Kinetics, Graph, Summary.

2. Physical Measurements:- Introduction, objectives, fundamental physical quantities,derived physical quantities, measurement of a physical quantity,units of measurement,fundamental units, advantages of SI system, errors and accuracy, measuring instruments,Summary.

3. Electrostatic:- Introduction, Objectives, Coulomb's Laws, Unit Charge, Electric Lines ofForces, Electric Field, Intensity of Electric Field, Electric Flux, Gauss's Theorem, FluxDensity (D), Electric Field Around A Charged Sphere, Summary.

4. Electrical Potential:- Introduction, Objectives, electric potential, potential at a point neara charge, potential difference, potential due to a number of charges, potential gradient,

potential due to charged sphere, Summary.5. Capacitance:- Introduction, Objectives, Capacity, Units of Capacity, Potential Energy of

a charged Conductor, Principle of a Condenser Or Capacitor, Capacity Of parallel PlateCondenser, Capacity Of An Isolated Sphere, Energy Of a Charged Conductor, CondenserIn Series, Condenser In Parallel, Types Of Condensers, Ratio Of t he Series CombinationAnd Parallel Combination, Summary.

6. Principle of Electric Circuit:- Introduction, Objectives, ohm's law, units of resistance,verification of ohm's law, specific resistance of resistivity, conductance, effect oftemperature on resistance, electric circuit, series circuit, parallel circuit, series parallelcircuit, grouping of cells, platinum resistance thermometer, wheat-stone's network,wheatstone's meter bridge, principle of potentiometer, comparison of e.m.f.s. of two cells,internal resistance of a cell by potentiometer, shunt, Summary.

7. Heating Effect Of Electric Current:- Introduction, Objectives, Joules Law of Heating,Electric Power, Electric Energy, Determination of 'J' by Electrical Method, CalculationOf Electric Bills, Summary

8. Elasticity :- Introduction, Objectives, elasticity, Deforming Force And Stress, Strain,Hooke's Law, Elastic Limit, Ultimate Tensile Stress, Determination of 'Y' By Searle'sMethod, Work Done in stretching A Wire, Application of Elasticity (Use in Design ofStructures), Hooke's Law, Young's Modulus, Bulk Modulus, Modulus of Rigidity,Poisson's Ratio, Equivalence of sear to Compression and Extension, Equivalence ofShearing Stress to a Compressive Stress And Tensile Stress, Relation Between Y, K, NAnd S, Determination of Young's Modulus, Summary.

9. Gas Laws & Specific Heat Of Gas :-Introduction, Objectives, Concept of Gas Pressure,Boyle's Law, Gay Lussac's Law, Charle's Law, Absolute Or Kelvin Scale ofTemperature, Gas Laws On Kelvin Scale of Temperature, Derivation of General Gas


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Equation, Molar Constant Or Universal Gas Constant 'R', Universal Gas Equation,Standard Or Normal Temperature And Pressure, Specific Heat of Gas At ConstantPressure (Cp), Specific Heat of Gas At Constant Volume (Cv), Ratio of the Two SpecificHeats, Relation Between Cp, and Cv, Explanation Off Cp>Cv, Isothermal Change,Adiabatic Change , Summary

10. Conduction & Expansion of Gas:- Introduction, Objectives, Conduction of Heat, SteadyState, Temperature Gradient, Law of Conductivity, Determination of 'K' By Searle'sMethod, Lee's Disc Method, Thermal Conductivity of a A Glass Tube, Coefficient ofExpansion, Selection of Materials Depending on Thermal Properties, Summary.

11. Propagation of Light:- Introduction, Objectives, Fizeau's Rotating Wheel Method, Lawsof Refraction, Refraction of Light Through, A glass Prism, Prism Formula,Spectrometer, Determination of Dispersive Power (w) By using Spectrometer, FiberOptic, Summary

12. S.H.M.& Wave Motion:- Introduction, Objectives, Simple Harmonic Motion, Frequency,Phase, Graphical Representation of S.H.M., Characteristics of S.H.M., Wave Motion,Types of wave Motion, Propagation of Longitudinal Wave, Characteristics of WaveMotion, Definitions of the Important terms, Relation Between, Frequency andWavelength, Equation of a Plane Progressive Wave, Principle of Superposition of waves,Superposition of Two Waves of same Frequency, interference of waves, Newton'sFormula for the Velocity of Sound, Laplace's Correction, Effect of Temperature, Effectof Humidity, Effect of wind, Free Vibrations and Resonance (Introduction), StationaryWaves, Free Vibrations, Forced Vibrations, Resonance, Velocity of Sound by ResonanceTube, Summary

Reference Books:-

1. Dr. Abbhjit Nayak Applied Physics S.K.Kataria & Sons 4th Edition (2010)2. Resnikhealday Applied Physics 5th Edition John Wiley & Sons - 1992

New Additions

3. Rajagopal & Aruldhas Modern Engg. Physics TMH 12th

Edition

4. Rakesh Dogra Essentials of Physics Rakesh Dogra 3rd

Edition S.K.

Kataria.

5. Beiser, Concepts of Modern Physics, 6th edition, Tata McGraw-Hill, New

Delhi


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TEE1.5: BASIC ELECTRICAL ENGINEERING

1. Basic Concepts Of Electrical Engineering:- Introduction, nature of electricity, unit ofcharge, free electrons, electric current, electric potential, potential difference, concept ofe.m.f. And potential difference, resistance, factors upon which resistance depends,

specific resistance or resistively, conductance, carbon resistance, depending onconductivity of material we divide the material into three types, summary.

2. Sources Of Electrical Energy:- Introduction cell, types of cells, construction of a leadacid battery, characteristics of a lead acid cell, charging of lead acid batteries, applicationof lead acid batteries, construction of nickel iron cell, nickel cadmium cell, solar cells,fuel cells, Application of lead acid batteries, summary.

3. Unit Works, Power And Energy:- Introduction, International System of units, ImportantPhysical Quantities, Unit of Work or Energy, Electrical Energy, Thermal Energy, Unitsof Power, Efficiency, Heating Effect of Electric current, Summary

4. Types Of Electric Circuit:-Dc circuit, Series Circuit, Parallel circuit, Advantages ofParallel circuits, Series Parallel circuits, Internal Resistance of a Supply, ElectricCurrent, Resistance, Effect of Temperature on Resistance, Temperature coeffient ofresistance, Electric Power, ohm's law, resistances in series, resistances in parallel , Network analysis, delta / star transformation, now take star connection, star/ deltatransformation, Summery.

5. Electrostatics & Capacitance:- Electrostatics, Unit of charge, Electric Field, Lines ofForce, Electric Flux, Electric Potential Difference And Potential, Potential At A PointDue To A Point charge, Equipotential Surfaces, Potential Gradient, Breakdown Voltage

& Dielectric Strength, Capacitance, Special Cases of A Parallel Plate Capacitor,Spherical Capacitor, Capacitors in Parallel, Energy Stored in Capacitor, Charging of aCapacitor, Discharging of a Capacitor.

6. Magnetic Circuit:- Magnetic field, Magnetic Flux, Magnetic Flux Density, Flux,Magnetic Intensity of Magnetizing Force (H), Absolute and Relative Permeability,Reaction Between A And H , Electromagnetism, magnetic circuit, comparison betweenMagnetic And Electric Circuits, Series Magnetic circuit, Air Gap in Magnetic circuit,Parallel Magnetic circuit, Summery

7. Electromagnetism:- Electromagnetism, Magnetic Effects of Electric Current, Magnetic

Field Due To Currents in Two Parallel Conductors, Magnetic Due To A Solenoid, RightHand Rule, Shape of The Magnetic Field, Toroid, B Curve Magnetic Hysterisis,Hysterisis Loss, Importance of Hysterisis Loop, Summary

8. Electromagnetic Induction:- Force on a current carrying conductor placed in a MagneticField, Fleming's Left Hand Rule, Electromagnetic Induction, Fleming Right hand rule,Faraday's Law of Electromagnetic Induction, Lenz' Law, Induced E.M.F, StaticallyInduced E.M.F, Self Inductance, Magnitude of self Induced E.M.F, Magnitude of Mutual


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Induced E.M.F, Expression For Mutual Induction, Co- Efficient of Coupling, LiftingPower of A Magnet

9. Inductors: -Introduction, Inductor, inductance, Mutual, inductance, Current carryingCapacity, Coefficient of coupling, Inductive Reactance, Dc Resistance, Impendence,

types of Inductor , Fixed Inductor, Air Core Inductor, Iron Core Inductor, Ferrite CoreInductors, Variable Inductors, resistance In Parallel, Resistors In Series, Capacitors,Inductive Reactance, Capacitance, Impedance, Power In A.C.,Circuit with Resistanceonly.

Reference Books:-

1. R.K. Rajput Basic Electrical & Electronics Engineering Laxmi Publications Ist Edition (2007)

2. J. B Gupta Basic Electrical Engineering S.k. Kataria 2nd Edition (2010)

New Additions3. B. L. Thareja Fundamentals of Electrical Engineering S. Chand Volume -

II

4. V.N. Mittal Basic Electrical Engineering TMH 2nd

Edition (2006)


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Detailed Syllabus of Part II Technician Membership Examination

IECE (I) (Electrical Engineering)

Part-II

S. No. Course Number Course Title

1. TEE 2.1 Electrical Technologies

2. TEE 2.2 Applied Mechanics & Strengthof Materials

3. TEE 2.3 Engineering Drawing

4. TEE 2.4 Electrical Engineering Materials

5. TEE 2.5 Environmental Engineering

6. TEE 2.6 Electrical Machines

7. TEE 2.7 Power Systems

8. TEE 2.8 Electrical Measurement &Instrumentation

9. TEE 2.9 Electrical Machines Design


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Detailed Syllabus of Part II Technician Membership Examination of IECE (I)

(Electrical Engineering)

TEE 2.1: ELECTRICAL TECHNOLOGIES

1. Basic concepts of Electrical Engineering:- Introduction, nature of electricity, unit ofcharge, free electrons, electric current, electric potential, potential difference, concept ofe.m.f. and potential difference, resistance, factors upon which resistance depends,specificresistance or resistively, conductance, carbon resistance, depending onconductivity of material we divide the material into three types, summary.

2. Sources of Electrical Energy:- Introduction cell, types of cells, construction of a lead acidbattery, characteristics of a lead acid cell, charging of lead acid batteries, application oflead acid batteries, construction of nickel iron cell, nickel cadmium cell, solar cells, fuelcells, Application of lead acid batteries, summary.

3. Unit Works, Power And Energy:- Introduction, International System of units, ImportantPhysical Quantities, Unit of Work or Energy, Electrical Energy, Thermal Energy, Unitsof Power, Efficiency, Heating Effect of Electric current, Summary

4. Types Of Electric Circuit:- Dc circuit, Series Circuit, Parallel circuit, Advantages ofParallel circuits, Series Parallel circuits, Internal Resistance of a Supply, Electric Current,Resistance, Effect of Temperature on Resistance, Temperature coeffient of resistance,Electric Power, ohm's law, resistances in series, resistances in parallel , Network analysis,delta / star transformation, now take star connection, star/ delta transformation,Summary.

5. Electrostatics & Capacitance:-Electrostatics, Unit of charge, Electric Field, Lines ofForce, Electric Flux, Electric Potential Difference and Potential, Potential at A Point DueTo A Point charge, Equipotential Surfaces, Potential Gradient, Breakdown Voltage &Dielectric Strength, Capacitance, Special Cases of A Parallel Plate Capacitor, SphericalCapacitor, Capacitors in Parallel, Energy Stored in Capacitor, Charging of a Capacitor,Discharging of a Capacitor.

6. Magnetic Circuit :- Magnetic field, Magnetic Flux, Magnetic Flux Density, Flux, agneticIntensity of Magnetizing Force (H), Absolute and Relative Permeability, ReactionBetween A And H , Electromagnetism, magnetic circuit, comparison between MagneticAnd Electric Circuits, Series Magnetic circuit, Air Gap in Magnetic circuit, Parallel

Magnetic circuit, Summary

7. Electromagnetism :-Electromagnetism, Magnetic Effects of Electric Current, MagneticField Due To Currents in Two Parallel Conductors, Magnetic Due To A Solenoid, RightHand Rule, Shape of The Magnetic Field, Toroid, B Curve Magnetic Hysterisis,Hysterisis Loss, Importance of Hysterisis Loop, Summary


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8. Electromagnetic Induction :- Force on a current carrying conductor placed in a MagneticField, Fleming's Left Hand Rule, Electromagnetic Induction, Fleming Right hand rule,Faraday's Law of Electromagnetic Induction, Lenz' Law, Induced E.M.F, StaticallyInduced E.M.F, Self Inductance, Magnitude of self Induced E.M.F, Magnitude of MutualInduced E.M.F, Expression For Mutual Induction, Co- Efficient of Coupling, Lifting

Power of a Magnet Inductors Introduction, Inductor, inductance, Mutual, inductance,Current carrying Capacity, Coefficient of coupling, Inductive Reactance, Dc Resistance,Impendence, types of Inductor , Fixed Inductor, Air Core Inductor, Iron Core Inductor,Ferrite Core Inductors, Variable Inductors, resistance In Parallel, Resistors In Series,Capacitors, Inductive Reactance, Capacitance, Impedance, Power In A.C., Circuit WithResistance only.

Reference Books:-

1. J B Gupta, Electrical Technology S. K. Kataria 2nd Edition (2000)

New Additions2. B.R. Sharma Elements of Electrical Engineer & Electronic Satya

Prakashan 5th

Edition 1998

3. J.B. Gupta Fundamentals of Electrical Engineering & Electronics S.

K.Kataria 8th

Edition - 1999

4


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TEE 2.2: APPLIED MECHANICS STRENGTH OF MATERIALS

1. Fundamental Concepts:1.1. Mechanics, statics, dynamics, kinetics, kinematics.1.2. Space, time, particle, body, rigid body.

1.3. Scalar, vector, fundamental units, derived units2. Force System:

2.1. Concept of force, definition, unit, graphical representation of force.2.2. Concept of system of forces, non-coplanar, coplanar, concurrent, parallel, non-

concurrent & non-parallel forces.2.3. Resolution of a force into two components along any directions.2.4. Resolution of a force into two components at right angles to each other by

analytical Method.

3. Composition of forces:

3.1. Composition, Resultant of forces3.2. Law of parallelogram of forces,3.3. Moment of force, couples lever arm.3.4. Varignon's theorem3.5. Resultant of coplanar concurrent, parallel, and non-concurrent, non-parallel forces

4. Equilibrium:4.1 Definition of equilibrium, relation between resultant and Equilibrium of coplanar

concurrent forces, Lami's theorem.4.2 Equilibrium of coplanar parallel forces & coplanar non-concurrent forces.4.3 Analytical conditions of equilibrium for coplanar concurrent & non-concurrent

Forces.4.4 Principle of virtual work & Reactions of simply supported beam by using

principle of virtual work.

5. Graphic Statice:

5.1 Space diagram, Bow's notation, force diagram, polar diagram, funicular polygon.5.2 Resolution of a force into two rectangular components.5.3 Composition of coplanar concurrent forces.5.4 Composition of coplanar parallel forces.5.5 Composition of coplanar non-concurrent non parallel forces.5.6 Reaction of beams for simply supported beam with hinged & roller supports.

6. Friction:

6.1 Introduction, Rough & Smooth surfaces, Definition of friction.6.2 Friction as a self adjusting force.6.3 Different types of Friction, Laws of Friction, co-efficient of Friction, Angle of

Friction and Angle of Repose.6.4 Equilibrium of forces on level & inclined planes.6.5 Equilibrium in friction with coefficient of friction for one plane only.


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7. Centroid & Centre of Gravity :

7.1 Definition: Centroid, Centre of gravity

7.2 Centroid of regular plane areas & compound areas consisting of regular plainsareas.7.3 Centre of gravity of simple solids: Cylinder, cone, sphere, Centre of gravity of

solid objects made up of simple solids.7.4 Centre of gravity of hollow bodies.

8. Rectilinear Motion:8.1 Definition of kinematics, rectilinear velocity, acceleration.8.2 Equation of rectilinear motion with uniform acceleration.8.3 Velocity - rime diagrams, motion under gravity.

9. Angular Motion:9.1 Angular velocity & angular displacement, angular motion with uniform angularacceleration.

9.2 Equations of circular motion with constant angular acceleration. Relation betweenrectilinear & circular motions.

10. Kinetics:10.1 Concept of momentum & impulse.10.2 Newton's laws of motion,10.3 Conservation of momentum.

11. Work, Energy And Power:11.1 Definitions & unit of work done.11.2 Graphical representation of work, work done by torque.11.3 Power - definition & unit, energy - definition & unit.11.4 Forms of energy, potential energy & kinetic energy. Principle of conservation of

energy, work -energy theorem.

12. Simple Lifting Machines :12.1 Definition: Mechanical Advantage, Velocity Ratio, Efficiency, Relation between

them.12.2 Reversibility of Lifting Machine, Law of Machine, Maximum M.A., Maximum

Efficiency.12.3 Study of machines - Differential Wheel & Axle, Weston differential, pulley block,

simple screw jack, Worm & Worm Wheel, gear train, single & double purchasewinch, system of pulleys, gear train,

12.4. Worm & worm wheel12.5 Single purchase crab12.6. Geared pulley block12.7. Double purchase crab


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12.8. Sheave pulley block.1. Simple Stresses & Strains:- Concept of elastic, plastic & rigid bodies, concept of axial

loads axial strains, lateral strain, Poisson's ratio, volumetric strain, Behavior of mild steelunder tension, stress-strain curve unit of proportionality, yield stress, ultimate stress,

breaking stress, elongation. Composite sections under axial load, modular ratio, simple problems on analysis composite sections, concept to biaxial and Triaxial stresses,Definition of Bulk modulus, concept of Temperature stresses, nature of stresses, Elasticconstants, concept of shear load, shear stresses and shear strain, modulus of rigidity,complimentary stress relation between Elastic constants.

2. Strain Energy:-Type of loading gradually applied load suddenly applied load and inputload comparison of stresses due to gradual load sudden load and impact load.

.3. Moment Of Inertia :- Concept of moment of Inertia, M.I. for plane areas such as

Rectangle, Triangle, Circle, Semicircle and Quarter Circle, Parallel axis Theorem,

perpendicular axis theorem, MI of composite sections, built up sections. Symmetrical andunsymmetrical sections, radius of gyration, polar moment of inertia..4. Shear Force and Bending Moment :- Concept of cantilever, simply supported, fixed and

continuous beams, concept of uniformly distributed load, support reactions fordeterminant structure, concept of shear force and bending moment, Definition, signconvention, Relation between bending moment, shear force and rate of loading, shearforce and bending moment diagrams for simply supported beam, overhanging beam andcantilever subjected to point loads and uniformly distributed loads, point of contra-flexure.

5. Bending Stresses :-Concept of pure bending, Theory of simple bending, assumptions inthe theory of bending, neutral axis, bending stresses and their nature, bending stressdistribution diagram, moment of resistance, Application of theory of Bending tosymmetrical & unsymmetrical sections.

6. Shear Stress In Beams :-Shear stress equation, measuring of terms in equation, shearstress distribution for rectangular, hollow rectangular, angel Section, channel sections,Circular section and T-section, Relation between maximum shear stress and averageshear stress.

.7. Simple Frames :- Definition of frames, classification of frames-perfect, imperfect,

redundant, deficient frame, relation between members and joints, Assumptions in theanalysis, method of joints, method of sections and graphical method to find nature offorces.

Reference Books:-1. M. Chakrobarty, Strength of Material S. K. Kataria 1st Edition 20002. B K Sarkar, Strength of Material.Tata McGraw Hill 5th Edition - 20083. S S Bhavikath, Strength of Material Vikas Publication House 6th Edition- 1996


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4. R S Khurmi, Strength Of Material S. Chand -22nd Edition

New Additions

5. Ramamurtham Engineering Mechanics Dhanpat Rai - 2000

6. D. R. Malhotra Strength of Material Satya Prakashan 6th

Edition

7.R

. K. Dhawan Applied Mechanics 5

th

Edition DhanpatR

ai


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3. K Venugopal, Engineering drawing & Graphics, Wiley eastern Ltd. (1992)

New Additions

4. N.D. Bhatt, Engineering Drawing Charotar Publishing House, 46th Edition, (2003).

5. Luzadder and Duff, Fundamentals of Engineering Drawing, Prentice Hall of IndiaPvt. Ltd. 11th Edition, 20016. Basant Aggarwal Engineering Drawing TMH Ist Edition - 2009

7. R. B. Gupta Engineering Drawing and Computer Graphics Satya

Prakashan Ist Edition.

8. Dhawan Text Book of Engineering Drawing S. Chand- 1st

Edition

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