B.E. CIVIL ENGINEERING

For the candidates admitted

from Academic year 2005 2006 onwards

THIAGARAJAR COLLEGE OF ENGINEERING: MADURAI - 625 015B.E. Degree in Civil Engineering- Regular

(For the Candidates admitted from academic year 2005 - 2006)Subjects of Study

II SEMESTER

Total=30III SEMESTER

Total: 31

COURSE CODE COURSE TITLE L T P C

Theory B21 Mathematics I 3 1 0 4B22 Engineering Physics 3 1 0 4B23 Engineering Chemistry 3 1 0 4B24 Mechanics of solids 3 1 0 4B25 Construction Materials and Technology 3 1 0 4B26 Engineering Geology 3 1 0 4PracticalB27 Geo Informatics Laboratory 0 0 3 2B28 Computer Practices Laboratory 0 0 3 2B29 Workshop Practices 0 0 3 2

COURSE CODE COURSE TITLE L T P C

Theory B31 Mathematics II 3 1 0 4B32 Programming in C ++ 3 1 0 4B33 Surveying I 3 1 0 4B34 Strength of Materials 3 1 0 4B35 Fluid Mechanics 3 1 0 4B36 Concrete Technology 3 1 0 4B39 Professional Ethics 3 0 0 3PracticalB37 C ++ Programming Laboratory 0 0 3 2B38 Survey Laboratory- I 0 0 3 2

IV SEMESTER

Total=30

V SEMESTERTotal=31

COURSE CODE COURSE TITLE L T P C

Theory B41 Mathematics III 3 1 0 4B42 Design of Masonry, Timber and Steel

Members 3 1 0 4

B43 Surveying II 3 1 0 4B44 Mechanics of Structures 3 1 0 4B45 Hydraulics and Hydraulic Machinery 3 1 0 4B46 Water Supply Engineering 3 1 0 4B49 Professional Communication 1 1 1 2PracticalB47 Computer Aided Building Graphics 0 0 3 2B48 Survey Laboratory- II 0 0 3 2

COURSE CODE COURSE TITLE L T P C

Theory B51 Numerical Methods 3 1 0 4B52 Design of Steel Structures 3 1 0 4B53 Highways and Airport Engineering 3 1 0 4B54 Classical Methods of Structural Analysis 3 1 0 4B55 Hydrology 3 1 0 4B56 Geotechnical Engineering 3 1 0 4B59 Total Quality Management 3 0 0 3PracticalB57 Material Testing Lab 0 0 3 2B58 Hydraulics and Hydraulic Machinery Lab 0 0 3 2

COURSE CODE COURSE TITLE L T P C

Theory B61 Wastewater Engineering 3 1 0 4B62 Design of RCC Elements 3 1 0 4B63 Railways, Docks and Harbour 3 1 0 4B64 Computational Methods of Structural

Analysis 3 1 0 4

B65 Water Resources Engineering 3 1 0 4B66 Foundation Engineering 3 1 0 4B69 Environmental Science 3 0 0 3PracticalB67 Environmental Engineering Laboratory 0 0 3 2B68 Geotechnical Engineering Laboratory 0 0 3 2

VI SEMESTER

Total=31

VII SEMESTER

Total=28

VIII SEMESTER

Total: 24

Total credits to be earned for the award of degree - 235

COURSE CODE COURSE TITLE L T P C

Theory B71 Earthquake Engineering 3 1 0 4B72 Design of RCC structures 3 1 0 4B73 Remote Sensing and GIS 3 1 0 4B74 Systems approach in Civil Engineering 3 1 0 4B7X Elective - I 3 1 0 4B7Y Elective - II 3 1 0 4PracticalB77 Estimation, Costing and Valuation 0 0 3 2B78 Structural Design and Drawing 0 0 3 2

X and Y have to be chosen from the list of Electives for VII Semester

COURSE CODE COURSE TITLE L T P C

Theory B81 Construction Management 3 1 0 4B8X Elective III 3 1 0 4B8Y Elective IV 3 1 0 4PracticalB84 Project Work 0 0 18 12

X and Y have to be chosen from the list of Electives for VIII Semester

LIST OF ELECTIVE SUBJECTS

VII SEMESTER

VIII SEMESTER

COURSECODE

COURSE TITLE L T P C

Theory B7X A Prestressed Concrete 3 1 0 4 B Mechanics of Materials 3 1 0 4 C Instrumentation in Civil Engineering 3 1 0 4 D Computer Aided Design 3 1 0 4 E Disaster Resistant Structures 3 1 0 4 F Metal Structures 3 1 0 4 B7Y G Computational Fluid Dynamics 3 1 0 4 H Water Power Engineering 3 1 0 4 J Traffic Engineering 3 1 0 4 K Air Pollution and Control 3 1 0 4 L Geo informatics 3 1 0 4 M Coastal Zone Management 3 1 0 4

X and Y have to be replaced by the corresponding subjects

COURSECODE

COURSE TITLE L T P C

Theory B8X A Reinforced Concrete Design 3 1 0 4 B Finite Element Method 3 1 0 4 C Repair and Rehabilitation of Structures 3 1 0 4 D Limit State Design of Steel Structures 3 1 0 4 E Engineering Fracture Mechanics 3 1 0 4 F Bridge Engineering 3 1 0 4 B8Y G Disaster Management 3 1 0 4 H Project Planning and Control 3 1 0 4 J Integrated Water Resources Management 3 1 0 4 K Environmental Impact Assessment 3 1 0 4 L Town and country planning 3 1 0 4 M Solid Waste Management 3 1 0 4 N Aircraft Systems and Structures 3 1 0 4

X and Y have to be replaced by the corresponding subjects

THIAGARAJAR COLLEGE OF ENGINEERING: MADURAI - 625 015(A Govt. Aided, ISO 9001: 2000 Certified, Autonomous Institution Affiliated to Anna University)

B.E. Degree in Civil Engineering- Regular(For the Candidates admitted from the academic year 2005- 2006)

SCHEME OF EXAMINATIONS

SlNo

CourseCode Course Title

Durationof Examin Hours

Marks

ContinuousAssessment

TerminalExam

MaxMarks

Minimumfor Pass

TerminalExam Total

II SEMESTERTHEORY

1 B21 Mathematics I 3 30 70 100 35 502 B22 Engineering Physics 3 30 70 100 35 503 B23 Engineering Chemistry 3 30 70 100 35 504 B24 Mechanics of Solids 3 30 70 100 35 505 B25 Construction Materials and

Technology3 30 70 100 35 50

6 B26 Engineering Geology 3 30 70 100 35 50PRACTICALS

7 B27 Geo Informatics Laboratory 3 30 70 100 35 508 B28 Computer Practices

Laboratory3 30 70 100 35 50

9 B29 Workshop Practices 3 30 70 100 35 50

III SEMESTERTHEORY

1 B31 Mathematics II 3 30 70 100 35 502 B32 Programming in C++ 3 30 70 100 35 503 B33 Surveying I 3 30 70 100 35 504 B34 Strength of Materials 3 30 70 100 35 505 B35 Fluid Mechanics 3 30 70 100 35 506 B36 Concrete Technology 3 30 70 100 35 507 B39 Professional Ethics 3 30 70 100 35 50

PRACTICALS8 B37 C++ Programming

Laboratory 3 30 70 100 35 50

9 B38 Survey Laboratory- I 3 30 70 100 35 50

SlNo

CourseCode Course Title

Durationof Examin Hours

Marks

ContinuousAssessment

TerminalExam

MaxMarks

Minimumfor Pass

TerminalExam Total

IV SEMESTERTHEORY

1 B41 Mathematics III 3 30 70 100 35 502 B42 Design of Masonry, Timber

and Steel Members 3 30 70 100 35 50

3 B43 Surveying-II 3 30 70 100 35 504 B44 Mechanics of Structures 3 30 70 100 35 50

5 B45 Hydraulics and HydraulicMachinery

3 30 70 100 35 50

6 B46 Water supply Engineering 3 30 70 100 35 507 B49 Professional

Communication3 50 50 100 50 50

PRACTICALS8 B47 Computer Aided Building

Graphics3 30 70 100 35 50

9 B48 Survey Laboratory- II 3 30 70 100 35 50V SEMESTER

THEORY1 B51 Numerical Methods 3 30 70 100 35 502 B52 Design of Steel Structures 3 30 70 100 35 503 B53 Highways and Airport

Engineering3 30 70 100 35 50

4 B54 Classical Methods ofStructural Analysis

3 30 70 100 35 50

5 B55 Hydrology 3 30 70 100 35 506 B56 Geotechnical Engineering 3 30 70 100 35 507 B59 Total Quality Management 3 30 70 100 35 50

PRACTICALS8 B57 Material Testing Lab 3 30 70 100 35 509 B58 Hydraulics and Hydraulic

Machinery Lab 3 30 70 100 35 50

SlNo

CourseCode Course Title

Durationof Examin Hours

Marks

ContinuousAssessment

TerminalExam

MaxMarks

Minimumfor Pass

TerminalExam Total

VI SEMESTERTHEORY

1 B61 Wastewater Engineering 3 30 70 100 35 502 B62 Design of RCC Elements 3 30 70 100 35 503 B63 Railways, Docks and

Harbour3 30 70 100 35 50

4 B64 Computational Methods ofStructural Analysis

3 30 70 100 35 50

5 B65 Water ResourcesEngineering

3 30 70 100 35 50

6 B66 Foundation Engineering 3 30 70 100 35 507 B69 Environmental Science 3 30 70 100 35 50

PRACTICALS8 B67 Environmental Engineering

Laboratory3 30 70 100 35 50

9 B68 Geotechnical EngineeringLaboratory

3 30 70 100 35 50

VII SEMESTERTHEORY

1 B71 Earthquake Engineering 3 30 70 100 35 502 B72 Design of RCC Structures 3 30 70 100 35 503 B73 Remote Sensing and GIS 3 30 70 100 35 504 B74 Systems approach in Civil

Engineering3 30 70 100 35 50

5 B7X Elective I 3 30 70 100 35 50

6 B7Y Elective II 3 30 70 100 35 50

PRACTICALS7 B77 Estimation, Costing and

Valuation 3 30 75 100 35 50

8 B78 Structural Design andDrawing 3 30 75 100 35 50

X and Y have to be chosen from the list of Electives for VII Semester

SlNo

CourseCode Course Title

Durationof Examin Hours

Marks

ContinuousAssessment

TerminalExam

MaxMarks

Minimumfor Pass

TerminalExam Total

VIII SEMESTERTHEORY

1 B81 Construction Management 3 30 70 100 35 50

2 B8X Elective III 3 30 70 100 35 50

3 B8Y Elective IV 3 30 70 100 35 50PRACTICAL

4 B84 Project Work 3 150 150 300 75 150X and Y have to be chosen from the list of Electives for VIII Semester

QUESTION PAPER PATTERN FOR TERMINAL EXAMINATION(For theory subjects)

Duration : 3 Hours

Maximum Marks : 100 marks for terminal examinations.

Marks secured will be reduced to a maximum of 75 during

processing.

Part A : Ten short answer questions.

Question No. 1 to 10 covering 2 questions from each unit : 10 x 2 = 20 Marks

Part B : Nine analytical and descriptive type questions.

Question No. 11 to 19 covering all the units of syllabus

* Question No. 11 is compulsory (with out choice) and may be from any unit of the syllabus.: 20 x 1 = 20 Marks

* Question No. 12 to 19 will be either or type covering the remaining units of the syllabus (Twoquestions from each unit) excluding the unit in which the Q11 is set.

: 4 x 15 = 60 Marks

PART A : 20 Marks

B21/P11 MATHEMATICS - I(Common to B.E., and P.T. B.E)

Objective The main objective of this course is to gain familiarities with applications of multiple integrals,vector calculus, analytic functions, Laplace Transform and Complex Integration. This course is intended tohelp student to build the skill, which is necessary to analyse equations applied in various engineeringapplications.

UNIT-IMultiple integrals: Double integration, Cartesian and polar coordinates, Change of order of integration, Area as a doubleintegral, Triple integration in Cartesian coordinates, Change of variables between Cartesian and polarcoordinates and between Cartesian and cylindrical spherical polar coordinators. (10Periods)

UNIT IIVector calculus:Gradient, divergence and curl, Line, surface and volume integrals, Greens, Gauss divergence and Stokestheorems ( Without proof )Verification of the above theorems and evaluation of integrals using them. (10Periods)

UNIT IIIAnalytic Functions:Function of a complex variable, Analytic function, Necessary conditions, Cauchy Riemann equations inCartesian and polar coordinates, Sufficient conditions (All without proof) Properties of analytic function,

Determination of harmonic conjugate by MilneThomson method, Conformal mapping a z + b, z 2 , 1z

,

e z , sin z , cos z , azbczd

,Schwartz Christoffel transformation.

(10 Periods)UNIT IV

Complex Integration:Statement and application of cauchys theorem and Cauchys integral formula, Taylor and Laurentexpansion, Singularities, Classification, Residues, Cauchys residue theorem, Contour integration, Unitcircle and semi-circular contours (excluding poles on real axis) (10 Periods)

UNIT VLaplace Transform:Laplace Transform, Sufficient conditions, Transforms of elementary functions, Basic properties, Inversetransforms, Derivatives and integrals of transforms, Transforms of derivatives and integrals, Convolutiontheorem, Transform of periodic functions, Laplace transform of Direct Delta unit and step functions,Second shifting theorem, Application to solution of linear differential equation, constant coefficient,variable coefficient, simultaneous differential equations, Integral equations, initial and final valuetheorems. (10 Periods)Text Books: 1. Grewal, B.S., Higher Engineering Mathematics , Thirty Sixth Edition, Khanna Publishers, Delhi,2001.Reference Books:1. Veerarajan, T., Engineering Mathematics (for First Year ), Second Edition, Tata McGraw HillPub. Co. Ltd., New Delhi, 2002.2. Venkataraman, M.K. ., Engineering Mathematics, Volume I, Fourth Edition, The National Pub. Co.,Chennai, 2003.3. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., Engineering Mathematics Volume I, FourthRevised Edition, S. Chand & Co., New Delhi, 2000.

B22 / P12 - ENGINEERING PHYSICS(Common to B.E. and P.T.B.E)

Objectives:A thorough understanding of Civil Engineering materials is essential for good design practices.

Therefore, this course is designed to give an overview of materials and their behaviour under varioussystems.

UNIT - IVibration SystemsSimple harmonic motion- Vibration of spring mass system Vibration of bodies supported in more thanone identical spring Vibration of loaded beams Vibration of stretched strings sonometer Meldesexperiment (Transverse-Longitudinal)Wave Motion

Harmonic waves - Longitudinal and transverse waves Velocity of longitudinal wavesin different media Velocity of sound in air Effect of pressure, temperature and humidity on thespeed of sound Kundts tube application of kundts tube. (10 Periods)

UNIT - IIThermal PropertiesTransmission of thermal energy convection thermal ventlation design in buildings thermal indulatingmaterials thermal insulation in walls, floors and ceiling types of ventilation doors and windows.Magnetic Properties Types of magnetic materials Dia, Para and Ferromagnetic materials concept of magnetic hystersis Domain theory of ferromagnetism soft and hard materials.

(10 Periods)UNIT - III

Testing of MaterialsTensile test for metals Torsion test Impact Test Hardness tests Brinell test Vickers test Rockwelltest Fatigue test Creep test Tests for Pipes and tubes.

(10 Periods) UNIT - IV

X- ray diffraction Rotating crystal method Powder crystal method Crystal growth Growth frommelt Czochralski method Zone refining method Different types of strengthing mechanism.PolymersPolymerisation mechanism Degree of polymerisation classification of polymers thermoplastics,thermosetting. (10 Periods)

UNIT - VOpticsPolarisation Different types of Polarised light Production of Circularly and Elliptically polarised light Analysis Optical Activity Fresnels theory of optical Rotation Laurents Hale shade polarimeter Determination of specific rotation Polaroids Strain resistivity relation electrical strain Gauges

(10 Periods)Text Books:1. Gaur,R.K. & Gupta, S.L. Engineering Physics, Dhanput Raj Publications Pvt Ltd VIII Edition.2. Arumugam, M. Materials Science Anuradha Agencies, Kumbakhonazm, tamil Revised Edition 2002.Reference Books:1. V.Raghavan Materials Science and Engineering, Prentice Hall of India Pvt Ltd, third Edition 1990.2. Aswani, K.G. Materials Science S.Chand & company, New Delhi 2001.3. Subramanyam,N. & Brij Lal, Optics S.chand & company, New Delhi Edition 2001.

B23 / P13 ENGINEERING CHEMISTRY(Common to B.E. and P.T.B.E)

Objectives:To make the students aware about the quality of water and waste water for drinking and industrial

purposes respectively. To impart the knowledge about corrosion and its control, engineering plastics.

UNIT-IWater and Waste water Treatment: Water for drinking and industrial purpose Physical, Chemical and Biological characteristics of raw water Analysis of water Parameters Color, Odour, Turbidity Free chlorine pH - chloride sulphate alkalinity suspended solids TDS BOD COD and hardness Waste water characteristics Primarytreatment Secondary Tertiary treatment Test for pathogenic bacteria

(10 Periods)UNIT-II

Metals and their alloys: Production of steel Bessemer process Open hearth process Steel and its varieties Properties of steel Carbon steel Heat treatment of steel Phase rule Basic principles and its applications on Iron Carbon system Phase diagram Effect of percentage of carbon Aluminium Manufacture Alloys ofAluminium.

(10 Periods)UNIT-III

Corrosion and its controlMetal corrosion types Dry and wet corrosion Mechanism of corrosion Galvanic Corrosion Differential aeration corrosion Soil corrosion Pitting corrosion Water line corrosion Corrosioncoating Chemical conversion Organic surface coatingPaints main ingredients and their properties varieties Emulsion paint Latex paint Fire retardantpaint Heat resistant paint

(10 Periods)UNIT-IV

Engineering Plastics and Explosives HDPE (High density poly ethylene), LDPE, PVC, EPS, PP Nature and their use as construction materials Polymer adhesives and their properties and uses Fabrication of plastics Compounding Injection,Transfer and Extrusion moulding Lamination of plastics Wood laminate Glass laminate Polymerblends Fibre reinforced plastics Types and uses.Explosives:Characteristics VOD, Sensitivity, Oxygen balance Explosives Example TNT, RDX, PETN theirchemical structure

(10 Periods)UNIT-V

Cementing Materials Lime Varieties Manufacture Properties Setting and hardening Portland cement varieties Chemistry of setting and hardening Special cements and their compositionCeramics Clay and Clay products- Properties - manufacture of bricks and tiles-Ceramic wares Earthen ware andstone ware glazing, colouring.

Soil ChemistrySoil characterization and their effect on structural materials Concrete and steel.

(10 Periods)Text Books:1.Sharma, B.K., Industrial Chemistry Goel Publishing House-Revised and enlarged seventh edition,1995.Reference Books:1. Shreves Chemical Processing Industries McGraw Hill, 1984.2. B.K.Sharma Engineering Chemistry Krishna prakashan Media Ltd, 1996.3.Jain.P.C&Monica Jain Engineering Chemistry Dhanpat Rai &Sons Eleventh Edition,1997.

B24/P14 MECHANICS OF SOLIDS(Common to B.E. and P.T.B.E)

Objectives:To study the fundamental concept of behaviour of structural elements for SF, BM, axial forces

UNIT - ISimple stresses and strains Introduction Stress Strain Tensile, compressive and shear stress Elastic limit Hookes law stressstrain diagram Stresses in composite sections Thermal stresses Youngs modulus Rigidity modulus Bulk modulus Poissons ratio Volumetric strain Relationship between elastic constants

(10 Periods)UNIT- II

Shear Force and Bending MomentIntroduction Types of beams Cantilever Simply supported Over handing fixed and continuousbeams types of loads concentrated load Uniformly distribute load Uniformly varying load Couples Shear force and bending moment diagram for statically determinate beams ( Cantilever, simplysupported and over handing ) Relationship between load, shear force and bending moment.

(10 Periods)UNIT - III

Bending and shear stressesCentroid and moment of inertia of plane areas and compound section Parallel and perpendicular axestheorems Theory of simple bending Assumption bending stresses in simply supported, cantileverbeamsShear stress in beams Shear stress distribution

(10 Periods)UNIT - IV

Torsion of circular shafts and springsIntroduction Derivation of torsion equation Assumptions Power transmitted by shafts Design ofshafts Combined bending and torsionClosed coiled and open coiled helical springs subjected to axial load

(10 Periods)UNIT - V

Thin and Thick cylindersThin cylinders Circumferential stress Longitudinal stress Volumetric strain - Stresses in thickcylindrical shell Lames equation Stresses in compound cylinders Shrink fit

(10 Periods)

Text books1. Bansal R.K., A Text Book of Strength of Materials, Laxmi Publications, New Delhi, 2002.

Reference Books

1. Punmia B.C., and Arunkumar Jain, Strength of Materials and Theory of Structures, Vol I andVol II, Laxmi Publications, New Dellhi, 1998.

2. Timoshenko S.P., & Young D.H. Elements of Strength of Materials, East West Press PrivateLimited, New Delhi , 1978

3. Rajput R.K., Strength of Materials, Laxmi Publications, New Delhi, 1999.

B25 CONSTRUCTION MATERIALS AND TECHNOLOGYObjectives:

To give exposure on the various materials, techniques and equipments used in buildingconstruction.

UNIT - IBuilding Stones and BricksStones- Engineering properties-tests-specifications for the use in construction Bricks-preparation-moulding-drying- burning-Country kiln- Specifications for use Tests Building blocks Hollow blocks Celcrete Glass blocks properties and uses.Lime, AggregatesSources of lime-manufacture- properties and specifications- slaking and storing Aggregates-properties ofsand-specifications of river sand for different types of construction-Classification of coarse aggregate quarry dust.

(10 Periods)UNIT II

Mortar, Cement and ConcreteMortars for different types of works- applications- Cement manufacture - Concreteuses-specificationsfor use in constructionTimber Varieties of timber- seasoning, defects and decay-specifications for use in construction Miscellaneous materialsRefractory materials asphalt and bitumen

(10 Periods)UNIT - III

Orientation of buildings Site selection- influencing factors. General idea National Building Code-provisions for components ofresidential buildings like living room, bedroom, kitchen, bathroom and toilet Super StructureTypes of bonds in Brickwork and Stone masonry- principles of construction- Damp- proof course- Lintelsand Arches- types and use. Pointing types and uses. Scaffolding-types and purpose

(10 Periods)UNIT-IV

Roofing and FlooringSloping roofs with tiles, A.C Sheets, G.I sheets - Flat roof R.C.C Beam and slab Weathering course -Cement and concrete with cement plaster- brick and tile paving-mosaic flooring, granolithic flooring-special flooring for warehouse, hospitals and residencesStairsClassification of different types- Lay out and design - standards for dimensions of steps and landing-location of stairs

(10 Periods)UNIT-V

Construction Techniques and Equipments

Special construction techniques-Shoring, Underpinning, Slip form construction, Vacuum de-watering ready mix concrete-prepacked concrete low cost techniques

Construction Equipments: Uses of the following : plumb bob, spirit level, level tube, rammer, spade,shovels, straight edge, mortar pan , sieves, trolley, vibrators, bulldozers, drag lines, cable ways and beltconveyors, batching plants-transit mixers and vibratory trucks used for ready mix concrete-pumps aircompressors-hoist and cranes Choice of construction equipment for different types of works

(10 Periods)Text Books:1. Rangwala S.C., Engineering Materials, Charotar Publishing House, Anand, India, 19972. Surendra Singh, Building Materials, Vikas Publishing Company, New Delhi, 19963. Punmia B.C., Building Construction, Laxmi Publications Pvt. Ltd., 19974. Bindra and Arora, Building Materials and Construction, Dhanpat Rai and Sons, New Delhi, 19945. Deodhar S.V, Construction Equipment and Job Planning, Khanna Publishers, New Delhi, 2001Reference Books:1. Brain Culshaw, Smart structure and Materials, Artech House, Borton, London, 19962. National Building Code of India, 1983 3. IS 1003 (Part I): Timber, Panelled and Glazed shutters- Specifications, 19914. IS 4021: Timber Doors, Windows and Ventilator Frames- Specifications, 1995

B26/P15 ENGINEERING GEOLOGY(Common to B.E and PTBE )

Objectives:To teach fundamentals of Earth science and its applications in Civil Engineering.

UNIT - IEarth and its forcesImportance of Earth Science in Civil Engineering Definition and scope of engineering geology,inconstruction jobs, planning, design, operation and execution.Topography of Earth Surface Continents; classification and structural components, Ocean basin;continental margins,Abyssal Regions,Mid-Oceanic Ridge, area time scale.Study of Interior of Earth Introduction, seismological evidence, constitution of interior earth, physicalproperties and behaviour.Plate Tectonics Theory - Introduction, concept,importance of continental and plate tectonic theories,characteristics and significance of plates, types of plates and its movement, causes, recognition of potentialgeologic hazards zones.Forces EndogeneticEarthquakes Introduction, terminologies, types of earthquakes, causes and effects of earthquakes,engineering consideration aseismic design.Volcanoes Introduction, terminologies, products of volcanoes, types of volcanoes, volcanic topography,engineering consideration.

(10 Periods)UNIT II

Forces and gradational agentsForces ExogenesisWeathering Definition, types of weathering, weathering landforms, and engineering considerations

Gradational agentsWork of River Introduction, terminologies, work of river; landform features, drainage patterns andengineering considerations.Wind - Introduction, terminologies, work of wind, landform features, impact of wind and engineeringconsiderations.Sea - Introduction, terminologies, work of sea, landform features, impact of sea and engineeringconsiderations.Landslides Introduction, terminologies, stability of slopes, types of slides, causes of slides, prevention andrehabilitation.

(10 Periods)UNIT III

Minerals and RocksMinerals Definition, formation of minerals, properties and types of minerals, descriptive physicalproperties of the following minerals for megascopic identification; quarts, orthoclase, muscovite, biotite,kyanite, garnet, beryl, talc, chlorite, bauxite, apatite, haematite, magnetite, chromite, calcite, dolomite,magnesite, gypsum, graphite, kaolinite, illite and montmorillonite.Rocks - Introduction, rock cycle, formation, composition, texture, structure of igneous, sedimentary andmetamorphic rocks, physical description of the following rock types; Igneous granite, syenite, gabbro,dolerite, basalt and charnockite.Sedimentary Conglomerate, sandstone, shale, limestone and laterite.Metamorphic slate, schist, gneiss, quartzite and marble. Age classification of rocks and standard geologictime scale.

(10 Periods)UNIT IV

Properties of rocks Physical propertiesIntroduction, study of rock properties; Porosity, permeability, moisture content, swelling, durability,anisotropy, thermal and electrical conductivity magnetic and radiation characteristics.

Mechanical propertiesInroduction, density, strength, Classification of strength; compressive, shear and tensile, elasticity andplasiticity.Strengthening of property of rocks and its classificationIntroduction, importance, grouting material, methods of grouting; rock bolting and rock anchorage,engineering classification of rocks; introduction, classification system based on weathering, coatesclassification and geomechanical classification systems.Rock structuresIntroduction, types, mechanics and causes of folding of rocks, classification of joints and its types,mechanics and causes of faulting, landforms developed by folding and faulting.

(10 Periods)UNIT V

Geological aspects in site selectionRoadsIntroduction, terminologies, classification of roads, problems and failures, and general geologicalinvestigation required for pavement site selection.DamsIntroduction, terminologies, classification and types of dams, problems and failures, and general geologicalinvestigation required for dam site selection.TunnelsIntroduction, terminologies, classification, methods of tunneling, and general geological investigationrequired for tunnel site selection.

Bridges and Tall StructuresIntroduction, terminologies, classification, geological investigation required for bridges and tall structuressite selection.

(10 Periods)Text book: 1. Parbin Singh,Engineering and General Geology,6th edition,S.K.Kattaria & Sons,2001.Reference books:1. Holmes,A.Principles of Physical Geology,Thomas Nelson and Sons,London,1978.2. Billings,M.P.Structural Geology,Prentice Hall,New Jersy,1973.3. Gupta and Rastogi,B.K.Dams and Earthquakes, Elsevier and Scientific Publishing Company,New York,1976.4. Robert F.Legget,Geology and Engineering,Mcgraw Hill Company,New York,1939.5. Lawrence Lundgren,Environmental Geology, Prentice Hall International Ltd., London. 6. Santhosh Kumar Garg,Physical and Engineering Geology,Khanna Publishers,Delhi-6,1999.7. Verma,B.P,Rock Mechanics for Engineers, Khanna Publishers,1997.8. Bell,F.G,Engineering Geology and Geotechnics,Butterworths,London,1980.9. Krynine,D.P and Judd,W.R. Engineering and General Geology,McGraw Hill,New York,1957.

B27 GEO-INFORMATICS LABORATORY

1. Identification of physical properties of minerals (megascopically)2. Identification of physical properties of rocks (megascopically)3. Geological and Physical geological model identification and description4. Analysis of geological maps (reading, interpretation and drawing sections).5. Geophysical resistivity data interpretation for mapping of earths surface profile and locating

ground water bearing zone.6. Seismology Study of earthquakes and calculation of depth of bed rock in dam site survey7. Profile study by serial, superimposed, projected and composite8. Slope analysis by Wentworths average slope method and Wind analysis9. Drainage basin analysis10. Grain size analysis 11. Scale enlargement and reduction and Map interpretation Indian Toposheet only12. Transport network analysis Identification -shortest path13. Thematic map construction Point, Line and Area Overlaying analysis

Reference Books:

1. Laboratory Manual prepared by staff or General books

B28 COMPUTER PRACTICES LABORATORY

1. Creating and Printing reports Creation of technical reports, letters, address labels and resume2. Creating tables formatting, sorting and totaling 3. Mail merge4. Presentation creating using blank slides design template inserting objects photos mp3

video recording and graph5. Presentation with slide transition linking embedding objects6. Problems using spread sheets7. Graphical representation of data using spread sheets various types8. Data base management creation 9. Data base management sorting retrieving using query - reports

10. HTML reports11. Internet explorer setting / browsing12. Plan of single room using 3D home architect13. Elevation of single room using 3D home architect

B29 WORKSHOP PRACTICES

List of ExerciseI. Fitting ( Any four exercises )

1. Fitting tools and practice2. Preparation of single step joint3. Preparation of V joint4. Preparation of Gauge joint5. Preparation of Taper step joint6. Preparation of Half round joint

II. Carpentry ( Any four exercises )1. Carpentry tools and practice2. Use of different types of wood and adhesives3. Preparation of Half joint4. Preparation of Dovetail joint5. Preparation of Mortise & Tennon joint6. Turning in wood lathe

III. Demonstration on tools and practice in (Any four studies ) :1. Welding2. Soldering3. Brazing4. Foundry and moulding practice5. Smithy forging6. Plumbing

Terminal Examination : Students should be tested in fitting and carpentry trades.

B31/P21 MATHEMATICS II(Common to B.E., B.Tech. and P.T.B.E. of all branches)

Objectives An engineering student needs to have some basic mathematical tools and techniques which

emphasize the development of rigorous logical thinking and analytical skills. Based on this the courseaims at giving adequate exposure to the theory and applications of Fourier series, Fourier Transforms,PDE, and BVP.

UNIT IFourier series

Dirichlets conditions, General Fourier series, half range sine and cosine series, Parsevalsidentity, harmonic analysis, complex form of Fourier series, double Fourier series, simple problems.

(10Periods)

UNIT IIFourier Transforms

Fourier integral theorem, Fourier transform, Fourier sine and cosine transforms, properties,convolution theorem, Parsevals identify, Introduction to Discrete Fourier Transform, Discrete TimeFourier Transform and Fast Fourier Transform, simple problems.

(10 Periods)UNIT III

Partial Differential Equations Formation, solution of standard types of first order equations, Lagranges linear equation, linear

partial differential equations of second and higher order with constant coefficient (10

Periods )UNIT IV

Boundary Value Problems Classification of second order linear partial differential equations, one dimensional wave

equation one dimensional heat equation, solution by Fourier series and Fourier transform method. (10

Periods)UNIT V

Boundary Value Problems (contd.) Steady state solution of two dimensional heat equations in Cartesian coordinates, solution by

Fourier series and Fourier transform method. Laplace equation in polar coordinates, solution by Fourierseries method.

(10 Periods)Text Book

1. Grewal, B.S., Higher Engineering Mathematics , Thirty Sixth Edition, Khanna Publishers,Delhi, 2001.

Reference Books1. Veerarajan, T., Engineering Mathematics ( For Semester III ) Second Edition, Tata

McGraw Hill Pub. Co. Ltd., New Delhi, 2002.2. Venkataraman, M.K., Engineering Mathematics , Fourth Edition, the National Pub. Co.,

Chennai, 2003.3. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., Engineering Mathematics Fourth

Revised Edition, S. Chand & Co., New Delhi. 2000. 4. Erwin Kreyszig, Advanced Engineering Mathematics, Eighth Edition John Wiley &

Sons, 2001

B32 PROGRAMMING IN C++Objectives:

The primary concern of a civil engineer is the analysis and design. Both of these are highlyamenable to procedural algorithm and programming. Therefore a civil engineer who can program his ownapplication will have a clear edge over others who still follow conventional solution procedures. Thissubject introduces the students to C++ programming which is nowadays widely used for systems as well asapplications programs.

UNIT - IIntroduction to C++ Object oriented programming, Characteristics of object oriented

programming - Tokens , Key Words, Identifiers Basic Data types, operators - User Defined Data types -Derived Data types Control structures Manipulators.

(10 Periods)UNIT - II

Functions Main function Function prototyping reference arguments - Return by referenceInline functions - Function overloading

Classes and objects - member functions- Nesting of member function- Private member functions -Arrays within a class - Arrays of objects Returning objects, Matrix operations using arrays, Programs tofind Shear force and bending moment using functions, properties of fluids.

(10 Periods)UNIT - III

Operator overloading - Unary operators - Binary operators Friend functions - Type conversions,programs to find centre of gravity and moment of inertia of various sections.

Inheritance - Single inheritance - Multiple inheritances - Hierarchical inheritance - Hybridinheritance Nesting of classes, program to find area of irregular boundaries, Bernoullis theorem,

(10 Periods)UNIT - IV

Files Classes for file stream operations Opening and closing a file Detecting End of file File pointers and their manipulations - Sequential Input/Output operations Random access.

(10 Periods)UNIT - V

Pointers, this pointer-pointer to objects - Virtual functions - Templates and exceptionhandling - Class Templates - Function Templates - Member function Templates - Template arguments Exception handling.

(10 Periods)

Text Books1. Balagurusamy E., Object Oriented Programming with C++, TMH, New Delhi 1998.2. Robert Lafore, Object Oriented Programming in Turbo C++, Galgotia Publications, New

Delhi, 1998.Reference Books

1. Rajaram R., Object Oriented Programming and C++, Newage International, New Delhi,1999.

2 Ted Faison, Borland C++4.0, Object Oriented Programming, Prentice Hall of India Pvt.Ltd., New Delhi,1995

Specialisation B.E. Civil P.T.B.E Civil Lecture

Tutorial Practical Credit

Subject code B33 P22 3 1 -- 4

B33/P22 SURVEYING - I(Common to B.E. and P.T. B.E)

ObjectivesAll structures rest and are built on an extent of earth. Therefore the structural dimensions must be

transferred from drawing to an extent of area on earth with due regards to position and orientation. Withthis in mind, this subject is designed to teach the students about linear measurements, different kinds ofsurveying techniques and contouring.

UNIT -ILinear Measurements

Principles - Ranging and Chaining - Errors in chaining-overcoming obstacles in ranging andchaining - uses of cross staff and optical squares - Traversing - Plotting.

(10 Periods)UNIT -II

Compass SurveyPrismatic compass - Surveyors compass - Bearings - Whole circle and Reduced Bearing -

traversing - Local attraction - Magnetic declination. (10 Periods)

UNIT- IIIPlane Table Survey

Plane table survey-accessories - Methods - Intersection - Radiation - Resection - Traversing - Twopoint and three point problems - Bowditchs Correction.Study of Minor Instrucments

Planimeter - Sextant - Pentograph - Ceylon Ghat Tracer. (10 Periods)

UNIT- IVLeveling

Principles - Levels and Staves - Bench Marks - Temporary and permanent adjustments - Booking- Reduction - Arithmetic checks - Fly leveling Reciprocal leveling check leveling - longitudinal andcross sectioning - Plotting.

(10 Periods)

UNIT- VContouring, Areas and Volumes

Contouring - Characteristics and uses - Interpolation - Calculation of areas and volumes fieldnotes and plan - Earth work - Capacity of reservoirs - alignment of hill roads.

(10 Periods)Text Books

1. Kanetkar T.P and Kulkarni S.V., Surveying and leveling part I and II, Vidyarthi Prakasam,Pune - 411 030, 1997.

2. Punmia B.C., Surveying Vol I and II, Laxmi Publications 9th / 10th Edition, 1987. 3. Basak N.N., Surveying and Leveling, Tata McGraw Hill Publishing Company Ltd., New

Delhi, 1994.4. Agor R Text Book of Surveying and Leveling, Khanna Publishers, 2BNath Market, Nai

Sarak, Delhi - 110 006, 1998.

B34 / P23 STRENGTH OF MATERIALS(Common to B.E.and P.T. B.E)

Objectives:In civil engineering design, internal forces are determined and suitable materials of known

behavior and strength chosen. With this in view the subject deals with the calculation of internal stresses,permissible stresses and selection of suitable materials and sectional sizes.

UNIT - IAxial and bending stresses

Direct and bending stresses uniaxial and biaxial eccentricities middle third rule core of thesection analysis of long column different end conditions Eulers theory Rankines formula longcolumn under eccentric loading.

(10 Periods) UNIT - II

Principal stresses and strainAnalysis of two dimensional state of stress biaxial state of stress principal stresses and strains

on inclined plane Mohrs circle Theories of failure (10 Periods)

UNIT - IIISlope and deflections of determinate Beam.

Determination of slope and deflection of determinate beams cantilever, simply supported andover hanging beam - Double Integration Method, Macaulays Method and Moment Area Method

(10 Periods)UNIT - IV

Slope and deflection of propped and fixed beamsAnalysis of propped and fixed beam for shear force and bending moment slope and deflection

by Double Integration Method and Moment Area Method Beams with yielding of supports (10 Periods)

UNIT - VContinuous Beams

Theorem of Three Moments analysis of continuous beam with prismatic member - Beams withyielding of supports

(10 Periods)Text Books

1. Punmia B.C and Arun Kumar Jain, Strength of Materials and Theory of Structures Vol I &II, Laxmi Publications New Delhi, 1998.

Reference Books1. Surendra Singh, Strength of Materials, Vikas Publishing House Pvt. Ltd., New Delhi,

1997.2. Popov E.P and Nagarajan S. et al., Mechanics of Materials, Prentice Hall of India Pvt.

Ltd., New Delhi, 1991.

3. Bansal R.K., A Text Book of Strength of Materials, Laxmi Publications, New Delhi, 2001.4. Timoshenko S.P.and Young D.H., Elements of Strength of Materials, East West Press Ltd,,

New Delhi, 1978.

B35 / P24 FLUID MECHANICS(Common to B.E.and P.T. B.E)

Objectives:Dissemination of knowledge among the students in the area of flow measurements, fluid

behaviour on different objects, estimation of pipe flow losses and boundary layer theory concepts in anengineering application

UNIT-IFluid Properties & Statics

Specific mass, Specific weight, Specific volume, Specific gravity, Viscosity, Surface tension,Compressibility- Newtons law of viscosity. Pressure measurements-Pascals lawmanometers-Buoyancy-principle of stability of floating bodies- Meta center and Meta centric height

(10 Periods)UNIT-II

Fluid kinematicsSteady and unsteady flow- Uniform and Non-uniform flow-One, two, and three dimensional flow-

Stream lines- Path lines and Streak lines- Equation of continuity in one dimension and three dimensions-Rotational and Irrotational flow- Potentional function and stream function- flow nets and uses

(10 Periods)UNIT-III

Fluid dynamics and Flow measurementsEulers equation of motion- Bernoullis equation and its application Pitot tube, Venturimeter

and Orificemeter-Principle of linear momentum forces on bends-weirs and notches(10 Periods)

UNIT-IVLaminar flow and Boundary layer flow

Laminar flow - Reynolds experiment-Hagen Poiseuilles equation- Definition of boundary layer-Thickness and classification-Displacement, energy, and momentum thickness-Boundary layer separationand control

(10 Periods)UNIT-V

Turbulent flow and flow through pipesTurbulent flow-Darcy Weisbach equation- velocity distribution in pipes- Major and minor losses

-Hydraulic Gradient Line and Total Energy Line- - Pipes in series and in parallel-flow through syphon-power transmission through pipes-Water hammer in pipes.

(10 Periods)Text Books

1. Bansal R.K, Fluid mechanics and Hydraulic Machines, Laxmi publications, New Delhi,20022. Kumar.K.L. Engineering Fluid Mechanics, Eurasia Publishing House (P) Ltd., New Delhi

1995.Reference Books

1. Robert W. Fox and Alan T. Mc Donald, Introduction to Fluid Mechanics Fourth Edition, John Willey & Sons, New York. 1995

2. Ramamrutham.S and Narayanan. R Hydraulics Fluid mechanics and FluidMachines, Dhanpat rai Publishing Co.(P)Ltd, New Delhi, 2000.

3. Kumar. D.S Fluid Mechanics and Fluid Power Engineering, S.K.Kataria & Sons, Delhi, 2005

4. Streeter Victor. L and Wylie Benjamin. E Fluid Mechanics, McGraw Hill Ltd., Delhi, 19985. Modi P.N and Seth. S.M. Hydraulics and Fluid Mechanics, Standard Book House, New

Delhi., 1998.

B36/P25 CONCRETE TECHNOLOGY (Common to B.E. and P.T. B.E)

Objectives:Concrete is one of the primary construction materials used in almost all types of construction. The

objective of this subject is to understand the basic properties and testing procedures of concrete makingmaterials and fresh and hardened concrete it also deals with different types of admixtures and special typesof concrete.

UNIT -IConcrete Making Materials

Cement raw materials manufacture- compound composition- hydration of cement types ofcement-tests and specifications.

Aggregates size and shape gradation of aggregate fineness modulus bulking of sand-testsand specifications alkali aggregate reaction-quality of water for concreting and curing .

(10 Periods)

UNIT -IIProperties of Concrete

Properties of fresh concrete workability slump test compaction factor test flow test segregation bleeding

Properties of hardened concrete strength development elastic properties of concrete-durability impermeability - shrinkage and creep- thermal properties fire resistance-resistance to abrasion.

(10 Periods)UNIT- III

Quality Control and Admixtures in ConcreteControl techniques storing batching mixing transporting placing compacting finishing-

curingtests and specifications for fresh and hardened concrete acceptance and rejection criteria introduction to nondestructive testing.

Accelerators retarders water proofing compounds - air entraining agentsworkability agents bondingadmixtures pozzolanic admixtures silica fume fly ash blast furnace slag-hyper plasticizer.

(10 Periods)UNIT -IV

Special Concrete Light weight concrete light weight aggregate concrete no fines concrete high density concrete

sulphur infiltrated concrete fibre reinforced concrete polymer concrete ready mixed concrete highstrength concrete High performance concrete- Self compacting concrete-Bacterial concrete gunite shotcrete vacuum concrete pre packed concrete-ferro cement.

(10 Periods)UNIT- V

Concreting Plant and Mix DesignBatching plant mixer distributing plant vibrators repairs in concrete control of cracks in

mass concrete surface treatment of concreteConcept of mix design ACI method, Road note method (concepts only)- Indian Standard method.

(10 Periods)

Text Books1. Shetty. M.S, Concrete Technology S.Chand & Co., Ltd., New Delhi, 20032. Gambhir. M.L, Concrete Technology, Tata McGraw Hill Publishing Co.,New Delhi 1998 Reference books1. Orchard .D.F Concrete Technology, Vol & II, Applied Science Publishers Ltd,London, 19792. Neville , A. M, Properties of Concrete,4th Edition Pitman Publishing Ltd,London, 1995.3. Rofat Siddique Special structural Concrete Galgotiya Publishing Pvt. Ltd., New Delhi, 1996

B37 C++ PROGRAMMING LABORATORY

Objectives To have better knowledge to solve the Civil engineering problems by using C++ language

General Programs 1. Simple Programs in C++.2. Programs using functions.3. Programs using Inline functions4. Programs using the concept of Classes and objects5. Programs using friend functions6. Programs using the concept of Polymorphism or overloaded functions7. Programs using the concept of Inheritance ( Single Inheritance, Multiple & Multilevel Inheritance,

Hierarchy Inheritance and Hybrid Inheritance)8. Programs using Virtual functions.

Programs for Civil Engineering Application1. Program to find centre of gravity and moment of inertia2. Program to find shear force and bending moment3. Program to find slope and deflection of determinate beams4. Program to find the properties of fluids5. Program to find area of irregular boundary6. Program to find Matrix addition, subtraction and inverse functions.

B38 SURVEY LABORATORY IObjectives

This subject is designed to teach the students about linear measurements, different kinds ofsurveying techniques and contouring.

List of Experiments

1. Chain survey - Ranging and chaining - Booking.2. Setting out rectangle by using chain and cross staff.3. Prismatic compass - Open traverse - Booking.4. Prismatic compass - Closed traverse - Plotting.5. Radiation method.6. Intersection method.

7. Three point problem - Trial and error (Lehmanns method)8. Three point problem - Tracing paper method.

9. Three point problem - Bessels method.10. Three point problem - Right angle method.11. Two point problem.12. Study of Levels and booking of readings

13. Fly Levelling - Height of collimation method.14. Fly Levelling - Rise and fall method.15. Spot levels and contouring.

16. Study of minor Instruments. 17. Plotting of LS and CS

B39- PROFESSIONAL ETHICS(Common to all branches of Engineering and Technology

D39, E39, F39, E139, C39, G39, IT39)Objective:

To make the students realize their ultimate duties and responsibilities in the various sphere ofCommunity and to help them for Confronting and resolving Ethical Dilemmas and get molded as veraciousand valued professionals.

UNIT-IEngineering Ethics Sources of Engineering Ethics, Variety of Moral Issues Types of Inquiry,

Moral Dilemmas, Moral Autonomy, Kohlbergs Theory, Gilligans theory, Consensus, Controversy,Professions and Professionalism Professional Ideas and virtues, Theories about Right action, Self Interest, Customs and Religion Use of Ethical values.

(10 Periods)UNIT II

Engineering as Social Experimentation Engineers as responsible experiments Code of Ethics,Balanced outlook Law

(10 Periods)UNIT III

Engineering Responsibility for safety, Safety and Risk Assessment of safety and Risk, RiskBenefit Analysis, Reducing Risk

(10 Periods)UNIT IV

Responsibility and Rights Collegiality and Loyalty, Respect for Authority, CollectiveBargaining, Confidentially, Conflicts of Interest, Occupational Crimes, Professional Rights, EmployeeRights, Discrimination

(10 Periods)UNIT V

Global Issues Multinational Corporations, Environmental Ethics, Computer Ethics WeaponsDevelopment, Engineers as Manager, Consulting Engineers, Engineers as Expert Witnesses and Advisors,Moral Leadership Sample code of conduct

(10 Periods)Text Book1. Mike Martin and Roland Schinzinger Ethics in Engineering, Mc Grawhill New York, 1996Reference Books1. Charles D Fledderman Engineering Ethics, Prentice Hall, New Mexico, 1999.

B41/P31 MATHEMATICS IIIObjective:

This course aims at giving adequate exposure to the civil students in the theory and applicationsof Curve Fitting & Correlation, Probability Distributions, Tests of Hypothesis, Calculus of Variations andBoundary value problems in ODE.

UNIT ICorrelation and Regression

Bivariate distribution Coefficient of correlation Rank correlation Regression, Line ofregression, Regression curves, Regression coefficients Multiple and partial correlation, Yules notation,Plane of regression, Coefficient of partial and multiple correlation - Properties

(10 Periods) UNIT II

Probability Distributions Random variable, Discrete probability distribution, Continuous probability distribution,Binomial , Poisson, Normal, Gamma, Beta, Chi-square, Weibull, Exponential and Hypergeometricdistribution.

(10 Periods)UNIT- III

Tests of Hypothesis: Hypothesis testing, Testing hypothesis involving means & proportions, comparison of small

samples & large samples, t-test, z-test, comparison of variances, F test, Test of goodness of fit, Chi-square test., Contingency table included.

(10 Periods)UNIT IV

Calculus of Variations: Functionals, Eulers equation, Functional involving higher order derivatives, several dependent

variables, Geodesics, Isoperimetric problems, Raleigh-Ritz method. Application to Civil Engineering. (10

Periods)UNIT --V

Boundary value problems in ODE: Use of weighted residual techniques, Collocation method, Moment method, Least square

technique, Galerkins method, Partition method, Ritz method, Use of finite difference method in solvingBVPs in ODE

(10 Periods)Text Books 1. Gupta S.C., Kapoor.V.K., Fundamentals of Mathematical Statistics, S.Chand & Co., New Delhi, 2003 (for unit I)2. Grewal, B.S, Higher Engineering Mathematics, Khanna Publishers, 2003. (for unit I to IV )3. Jain. M.K. Numerical Solution of Differential Equations New Age International Publications,2000. (for unit V )Reference Books 1. Veerarajan, T., Engineering Mathematics Second Edition, Tata McGraw

Hill Pub. Co. Ltd., New Delhi, 2002.2. Elsgolts Differential Equations and Calculus of variations MIR Publishers, Moscow, 1970

B42/P32 DESIGN OF MASONRY, TIMBER AND STEEL MEMBERS(Common to B.E.and P.T. B.E)

Objectives

The main concern of Civil Engineering is to design elements made up of various materials and forstructures comprising of many different types of elements. In this course the design of elements like beams,columns and their connections for materials like masonry, timber and steel have been dealt with. Furtherthe properties of materials permissible stresses for design are also incorporated here.

UNIT - IDesign of Masonry Structures

Permissible stress as per IS codes- Design of solid and cavity walls and columns for axial andeccentric loads - Design of masonry wall footings and column footing as per IS codes .

(10 Periods)UNIT - II

Design of Timber StructuresDifferent groups of timber Allowable stresses in tension, compression and flexure - design of

rectangular beams design of tension members design of compression members solid, box and spaced.- design of bolted and nailed connections for timber. (10 Periods)

UNIT - IIIProperties of Steel

Metallurgical properties of steel - crystalline structure and its transformation - iron-carbon constitution diagram - structural steel -strengthening-cooling - inclusion and alloying -stainlesssteel.

Mechanical properties of steel stress- strain behavior hardness-ductility, thermalproperties - manufacturing- casting finishing hot rolled and cold formed.

(10Periods)

UNIT - IVDesign of Steel Connections

Riveted, bolted and welded connections lap joint and butt joint under axial and eccentric loads efficiency of riveted joint types of weld - strength of fillet and butt welded joints members in directtension and compression simple moment resisting connections

(10Periods)

UNIT - VDesign of Tension and Compression members

Design of tension members - single angle, double angle and built up connections Lug angle maximum slenderness ratio - permissible stresses design of tubular sections for tension and compression

Design of columns - end connections - effective lengths - rolled steel sections and built upsections - design of lacings - battens - column base slab base and gusset plate.

(10 Periods)Text Books

1. Dayaratnam.P, Brick and Reinforced Brick Structures, Oxford & IBH Publishing Co. Pvt.,Ltd., New Delhi. 1987

2. Dayaratnam. P, Design of Steel Structures, Wheeler & Co Ltd., Allahabad 19963. Arya,A.S, Structural Design in Steel, Masonry and Timber, Nemchand &Sons, Roorkee

(U.P.). 19784. Punmia,B.C, Ashok Kumar Jain and Arun Kumar Jain, Comprehensive design of steel

structures, Laxmi publications (p) ltd, New Delhi. 2003 Reference Books

1. Boris Bresler, Lin,T.Y, Design of Steel Structures, Wiley Eastern Pvt., Ltd., New Delhi. 1970

2. Teaching resource for structural steel design Volume I,II,III.INSDAG, Kolkatta. 20003. Ramchandra, Design of steel structures, Standard Book House New Delhi, 19914. Ragupathi .M, Design of steel structures,Tata Mc Graw Hill Publioshing company New Delhi,

1995IS Codes

1. IS 883:1994 Code of Practical for Design of Structural Timber in Building.2. IS 1905:1987 Code of Practical for Structural Use of Unreinforced Masonry3. IS 2366:1983 Code of Practical for Nail-jointed Timber Construction4. IS 816:1969 Code of Practical for use of Metal Arc Welding for General Construction in Mild

Steel 5. IS:800:1984 Code of Practical for General Construction in steel6. IS 2212 1991 Code of Practice for brick work7. SP 6: Part 1:1964 Handbook for Structural Engineers-Part 1: Structural

Steel Sections

B43 / P33 SURVEYING II(Common to B.E.and P.T. B.E)

ObjectivesTo facilitate the students for knowing the principles and methods of land hydrographic and aerial

survey on par with global standardsUNIT- I

Theodolite Parts - Temporary and permanent adjustments of vernier theodolite - optical and micro optic

theodolites Total station advantages Distomat - Trilateration Traversing- Omitted measurements.

Setting out worksSetting out of buildings and marking for foundation.

(10 Periods)UNIT- II

TacheometryPrinciple of stadia and tangential tacheometry - Field procedure and different system - Heights and

distances - Subtense bar.(10 Periods)

UNIT- IIICurves

Simple, Compound, Transition, Reverse and Vertical Curves. Trignometrical levelling

Single and Reciprocal observations - Eye and Object Corrections

(10 Periods)UNIT -IV

Triangulation surveyPrinciple of Triangulation - Types of Signals - Intervisibility of stations - Base line measurements and

corrections - Extension of base line - Satellite stations - Problems - Adjustment of Triangulation by themethod of equal shifts.

(10 Periods)UNIT- V

Hydrographic SurveyingControl - Shore line - River surveys - Soundings gauges - Signals - Sextant - Methods of locating

soundings.

Photographic surveyingTerrestrial and Aerial Photographs - Stereoscopy - Flight planning - Satellite - Image Characteristics

Concepts of Remote sensing(10 Periods)

Text Books1. Kanetkar,T.P, Surveying and Leveling Vol. I & II, United Book Corporation, Pune, 23rd

Edition. 19972. Punmia B.C., Surveying Vol. I, II & III Laxmi Publications 9th Edition, 19873. Bannister and Raymond, S, Surveying, Pitman Publishing Ltd., 5Th Edition. 1987

Reference Books1. Clark ,D,Plane & Geodetic Surveying Vol. I & II , CBS Publishers and Distributors, Delhi 6th

Edition.19712. Shahani,P.B,Advanced surveying, Oxford and IBH Publishing Company. 19713. Agor, R, Text Book of Advanced Surveying, Khanna Publishers, 19814. Natarajan,V, Advanced Surveying , BI Publications, 54, Janpath, New Delhi. 19765. Arora, K.R, Surveying Vol II & III, Standard Book House & SBH Publishers & Distributors,

1705, A Nai Sarak, New Delhi - 110 006,2nd Edition. 1993

B44/P34 MECHANICS OF STRUCTURES(Common to B.E.and P.T. B.E)

ObjectivesFor the design of complex structures many different methods of analysis are required to determine

the internal stresses. The basic concepts required in these methods of analysis like strain energy,unsymmetrical bending, rolling loads and influence line diagrams are incorporated in this course.

UNIT - IAnalysis of pin jointed truss

Stability and equilibrium of pin jointed trusses perfect frame -analysis of pin jointed plane trussby method of Joints, method of sections and tension coefficient method.

(10 Periods)UNIT - II

Rolling loads and influence line diagrams Single concentrated load uniformly distributed load (longer and shorter than span) - two

concentrated loads several concentrated loads equivalent UDL Influence lines ILD for reaction, shear force and bending moment for simply supported beams

subjected to concentrated loads, uniformly distributed load (longer and shorter than span) - twoconcentrated loads several concentrated loads

(10 Periods)UNIT - III

Strain energyStrain energy expression for different forms of strain energy axial bending and shear -

Castiglianos theorems determination of slope and deflection of determinate and indeterminate beamsand portals

(10 Periods)UNIT - IV

Arches and suspension bridgesEquation of the cable tension in cable at different levels cable subjected to point loads and

UDL length of cable stiffening girders analysis of three hinged stiffening girder - moving loads andILD in three hinged stiffening girder

Types of arches - parabolic and circular arches linear arch Eddys theorem Analysisof three hinged arch - moving loads and ILD of three hinged arches

(10Periods)

UNIT - VUnsymmetrical bending

Unsymmetrical bending introduction product of inertia principal axes principal moment ofinertia stresses due to unsymmetrical bending deflection of beams subjected to unsymmetrical bending

- Z line Z polygon shear center for sections with one axis of symmetry. (10 Periods)

Text Books1. Punmia B.C, Ashok Kumar Jain and Arun Kumar Jain Strength of Materials and Theory of

Structures Vol II, Standard Publishers, New Delhi 19982. Rajput,R.K, Strength of Materials, Laxmi Publications, New Delhi. 1999

Reference Books1. Surendra Singh, Strength of Materials, Vikas Publishing House Pvt.

Ltd., New Delhi. 19972. Popov, E.P, Nagarajan,S and Lu, Z.A, Mechanics of Materials, Prentice Hall of India Pvt.

Ltd., New Delhi 110 001. 19913. Bansal, R.K,A text book of Strength of Materials, Laxmi Publications, New Delhi. 2001

B45 HYDRAULICS AND HYDRAULIC MACHINERY

ObjectivesThe objective is to disseminate the knowledge among the students in the area of open channel

flow measurements, model analysis and studies, impact of dynamic force on various objects, analysis anddesign of water turbines and pumps

UNIT-IOpen channel flow

Definition of open channel flow- uniform flow- Chezys equation-Mannings rugosity coefficient-factors affecting velocity, discharge in rectangular, trapezoidal and circular sections-Most economicalsection-velocity distribution in open channel.

(10 Periods)UNIT-II

Non-uniform flowDefinition, Critical flow, Froude number- Specific energy diagram- Alternate depths- Critical

depths in rectangular channels-Hydraulic jumps and uses- Venturi flume- Standing wave flume

(10 Periods)UNIT-III

Dimensional Analysis, Similitude and Model lawsFundamental dimensions- Derived quantity- Dimensional Homogenity-Rayleighs method and

Buckinghams - theorem-Applications Geometric, Kinematics and Dynamic similarity- Dimensionlessnumbers- Elements of model testing and model laws. Distorted and Undistorted models

(10 Periods) UNIT-IV

Impact of jets and water turbines

Impact of jets on flat and curved vanes-velocity triangles-work, power, and efficiency Historicaldevelopment of turbines, classifications, Concept of specific speed, relationship between head and specificspeed for different turbines- Pelton wheel, Francis and Kaplan turbines-description, working principles,hydraulic design and governing of turbines-draft tubes-cavitation -Model analysis.

(10 Periods)UNIT-V

PumpsIntroduction- Types of centrifugal pumps- description and working principles- Troubles and

remedies-Performance characteristics-Specific speed-Multistage pumps-similarity of pumps-selection ofpumps-Reciprocating pumps-Single acting, double acting types- Multicylinder pumps- Acceleration head-Indicator diagrams-slip-Air vessels and advantages-power required.

(10 Periods)Text Books

1. Bansal, R.K., Fluid mechanics and Hydraulic Machines, Laxmi publications, NewDelhi,2002

2. Rajput,R.K A Text book of Fluid Mechanics, S.Chand and Company, New Delhi,2002Reference Books

1. Robert W. Fox and Alan T. Mc Donald, Introduction to Fluid Mechanics Fourth Edition, John Willey & Sons, New York, 1995

2. Subramanya K., Flow in open channels, Tata McGraw-Hill Publishing Company,1994 3. Ramamrutham,S and Narayanan, R. Hydraulics Fluid mechanics and Fluid Machines, Dhanpat rai Publishing Co.(P)Ltd, New Delhi, 2000.4. Kumar,D.S, Fluid Mechanics and Fluid Power Engineering, S.K.Kataria & Sons,Delhi, 20055. Modi P.N and Seth. S.M. Hydraulics and Fluid Mechanics, Standard Book House, New Delhi., 1998.

B46 / P35 WATER SUPPLY ENGINEERING(Common to B.E.and P.T. B.E)

ObjectivesTo understand the various stages of engineering works involved in water supply project, covering,

demand estimation, sources identification, quality aspects of water, methods to achieve quality anddistributing the same to the fullest satisfaction of the general public.

UNIT-I

Importance and need for protected water supply - Water demands - Factors affecting per capitademand - Types of demand - fluctuations in demand - Population forecasting - Different methods - Sourcesof water - Classification and adequacy - Impounding reservoirs - Mass curve analysis Well hydraulics Darcys law - Yield from shallow and deep wells of confined and unconfined aquifer - Infiltration wellsand galleries.

(10 Periods)UNIT-II

Intake works Types of intakes - Methods of conveyance of water - Different types of pipe materials -Types of pipe joints - Pipe laying and testing - Corrosion of pipes - Pumps for lifting water - Quality of

water - Importance of testing of water - Physical, chemical and biological analysis of water - Standards ofwater quality desired for domestic water supplies BIS and WHO Standards - Water borne diseases.

(10 Periods)UNIT-III

Treatment of water - Objectives of water treatment - Methods of treatment - Screening - Theory ofsedimentation Types of settling - Stokes Law - Sedimentation tanks - Design of continuous flowsedimentation tanks - Sedimentation aided with coagulation - Theory of coagulation - Types of coagulants- mixing devices - Flocculator - Settling tank - optimum coagulant dosage - Jar test.

(10 Periods)UNIT-IV

Filtration - Theory of filtration - Filter media - Sand filters - Types of sand filters - Slow sand filters -Rapid sand filters - Pressure filters - Design - Operation Maintenance - Disinfection - Methods ofdisinfection - Chlorination - Dosage - Various forms - Types of chlorination - Softening of water -Removal of temporary and permanent hardness - Different methods Other treatment methods desalination- Reverse osmosis process Electro dialysis Fluoridation Defluoridation - Aeration.

(10 Periods)

UNIT-V

Distribution of water - Layouts of distribution networks - Method of distribution - Distributionreservoirs - Storage capacity of reservoir - Leakage detection and prevention. Analysis of pipe networks -Hardy Cross method - Equivalent Pipe method - Appurtenances in distribution system - Houseconnections.

(10 Periods)Text Books

1. Garg S.K, Water Supply Engineering, Khanna Publishers, Eleventh Edition, New Delhi. 1999

Reference Books1. Steel E.W., Water Supply and Sewerage, Mc Graw Hill Publishers, New

Delhi. 19792. Fair & Geyer, Water and WasteWater Engineering Vol. I & II,Wiley Eastern Publishers,

New Delhi. 19663. Peavy Rowe, Tchobanoglous, Environmental Engineering, McGraw Hill Publishers, New

Delhi. 19854. Hazen Williams Nomogram for C.I pipes.5. Modi. P.N., Water Supply Engineering, Standard Book House, Delhi. 19986. Birdie G.S and Birdie J.S, Water Supply and Sanitary Engineering Dhatpat Rai Publishing

Company New Delhi, 1998

B47 - COMPUTER AIDED BUILDING GRAPHICSObjectives:

This subject is to understand the different views of the components of the building structures andcapable of viewing and drawing the plan, elevation and section of the different types of the building.

1. Fully Panelled Window2. Fully Panelled Door with wooden panel 3. Fully Panelled Door with RCC frame4. Panelled and glazed door with wooden panel5. Steel roof truss6. King post and Queen post trusses7. Single floor residential building - Plan, Elevation and Cross section8. Storied residential building- Plan, Elevation and Cross section9. Framed office building- Plan, Elevation and Cross section10. Institution building- Plan, Elevation and Cross section11. 3D view of a single floor residential building12. 3D view of a dog legged stair case13. 3D view of a spiral stair case

Reference Books1. Sikka V.B., A Course in Civil Engineering Drawing, 4th edition, S.K.Kataria & Sons, New

Delhi 1998.2. Shah M.G. Kale C.M. & Patki S.Y., Building Drawing with an Integrated Approach to Built

Environment, 4th edition, Tata McGraw Hill Publishing Co. Ltd. New Delhi 2002IS Codes

1. IS: 962 1967 Code of Practical for Architectural and Building Drawing2. IS: 4021 1983 Specification for Timber Door, Window and Ventilator Frames3. IS: 6523 1983 Specification for Precast Reinforced Concrete Door and Window Frames

4. IS: 1003 1977 Part I, II Specification for Timber Panelled and Glazed Shutters5. IS: 2191 1983 Part I, II Specification for Wooden Flush Door Shutters6. IS: 6198 1983 Specification for Ledged, Braced and Battened Door and Window Frame

B48 SURVEY LABORATORY IIObjectives:

To facilitate the students for knowing the principles and methods of land hydrographic and aerialsurvey on par with global standards in the field survey.

List of Experiments

1. Measurement of Horizontal Angle - Repetition method.2. Measurement of Horizontal Angle - Reiteration method.3. Measurement of Vertical angle for various objects.4. Measurement of distance between two objects - Stadia Tachometry.5. Measurement of distance between two objects - Tangential Tachometry.6. Determination of gradient of the line joining two - objects at different levels.7. Determination of the R.L. of inaccessible object - Single Plane method.8. Determination of the R.L. of inaccessible object - Double Plane method.9. Determination of the gradient of the line joining the instrument station and a target of subtense

bar.10. Determination of the gradient of the line joining the staff station and target of subtense bar.11. Setting of curves by the Theodolite.

a) Serpentine.b) Simple curve.

12. Center line marking for buildings.13. Total Station (Demonstration Only)

Astronomy (Demonstration only)

14. Altitude of sun observation by four quadrant system and two quadrant system.15. Determination of true altitude of sun (after corrections).16. Determination of Azimuth of sun by extra meridian observation.

B49- PROFESSIONAL COMMUNICATION(Common to all branches of Engineering and Technology

F49, D49, E49, F49, E149, C49, IT49)Objectives: To develop Knowledge, sills and attitudes needed for professional communication by the use of methodssuch as lectures, small group activities, quizzes and language lab.

UNIT-IProject report writing: Technical reports: Definition, types; Audience, Purpose; Unity, Coherence; Appropriateness, Brevity,Clarity; Selection of project topic, Information sources, Thesis statement; Method of data collection; Use ofgraphics, Analysis of data; Language; Bibliography; Margin, Line space, Font size, Punctuation; Symbols,Abbreviations, Units of Measurement, Mathematical expressions.

(10 Periods)

UNIT IIGroup Discussion and personal InterviewTask and Maintenance Roles, Development of interaction skills; Asking for and giving opinions, agreeing,disagreeing, turn-taking, interrupting politely, listening actively, being sensitive to group dynamics.Realistic self Assessment, Goal setting, Common Interview Questions; Personal appearance, BodyLanguage, Etiquette, Fluency, Resume Writing

(10 Periods)UNIT III

Understanding Work Environment:Company Structures, Systems, Process, Products, Services: Context of Business and commerce; Businessplans, meeting, minutes, letters, phone calls.

(10 Periods) UNIT IV

Preparation for Competitive Examinations:TOFEL, GRE, GATE, CAT, IAS, IES and IES and BEC examinations; Objectives and formats of

examinations; model tests (10 Periods)

UNIT VSome Common Evaluation methods:

Using Computers to take tests; English related examination items: Synonyms, Antonyms, SpottingErrors, Sentence Completion, Verbal Analogy, Verbal Reasoning, General Awareness, and General MentalAbility, Listening Comprehension, Group Discussion, Personal Interview, Project Report.

(10 Periods)Text Book1. Aggarwal, R.S. and Monika Aggarwal. Objective General English. New Delhi: Sultan Chand andCo., 1999.Reference Book1. Mitchell, John. How to write Reports, New Delhi: Rupa and Co., 1974Evaluation Pattern Continuous Internal Assessment and single terminal Examination to be given equal weight age 50:50 Itemsto be tested as per the unit 5 in the syllabus.

B51 NUMERICAL METHODS(Common to B.E Mech, EEE & ECE - G51, E51 & D51)

ObjectiveThe objective of this course is to make the students appraise the complete procedure for solving

different kinds of problems that occur in engineering numerically and to examine various numericalmethods and their uses.

UNIT ICurve fitting and theory of equations:

Empirical laws and curve fitting linear law method of group averages principle of Leastsquares fitting straight line, parabola, exponential curve method of moments - theory of equationsRelation between the roots and coefficients of the polynomial equation equations with real coefficientsand imaginary roots equations with rational coefficients and irrational roots symmetric functions of theroots Transformation of equations Reciprocal equations.

(10 periods)UNIT II

Solution of equations:

Numerical solution of algebraic and transcendental equations- The Bisection method Iterationmethod Regula Falsi method Newton-Raphson method Horners method Solution of SimultaneousLinear Algebraic equations-Gauss elimination method- Gauss-Jordan method Crouts method GaussJacobi method-Gauss Seidel method Relaxation method.

(10 periods)UNIT III

Difference calculus:Finite differences Forward , backward and central difference operators shifting operator

Properties and Relation between operators Interpolation Newtons forward and backward differenceinterpolation formulae Gauss forward and backward difference interpolation formulae Bessels,Laplace and Everett formulae. (10periods)

UNIT IVInterpolation, numerical differentiation and integration:

Interpolation with unequal intervals - Divided differences Newtons divided difference formula Lagranges interpolation formula inverse interpolation - Numerical differentiation - Newtons forwardand backward differentiation formulae Numerical Integration The trapezoidal rule Simpsons 1/3rd and3/8th rule Difference equations Solution of Linear homogeneous difference equation with constantcoefficients.

(10periods)

UNIT VNumerical solution of differential equation:

Numerical solutions of ordinary differential equations Taylor series method Picards method Eulers methods Fourth order Runge Kutta method Milnes and Adams Predictor Corrector methods Numerical solution of partial differential equations classification of partial differential equations Solution of elliptic equation by Leibmanns method Solution of parabolic equation by Bender- Schmidtmethod Solution of hyperbolic equation.

(10 periods)

Mat Lab: Tool Kits-The course content will be augmented by the usage of Mat Lab tool box.

Text Book

1. Curtis F. Gerald, Patrick O. Wheatly, Applied Numerical Analysis, Sixth Edition, Pearson Education, New Delhi, 2002.

Reference Books

1. John H. Mathews, Kurtis D.Fink., Numerical methods using MATLAB, Prentice Hall, 1998.

2. Rober J. Schilling, Sandra L. Harries, Applied numerical methods for Engineers using MATLAB and C, Thomson Brooks / Cole, 1999.3. Jain. M.K, Iyengar, S.R.K, Jain, R.K, Numerical methods for Scientific and Engineering computation, fourth edition, New Age International Publishers, New Delhi, 2003.4. Sastry, S.S, Introductory methods of numerical analysis, Prentice Hall of India, 2001.5. Kandasamy. P, Thilagavathy. K and Gunavathy.K, Numerical methods, S.Chand and Company Ltd, New Delhi, 2003.

B52/P41 DESIGN OF STEEL STRUCTURES(Common to B.E and P.T.B.E)

ObjectiveThe course objective is to make the students versatile in using the working Stress Method of

structural steel design according to the present code of practice, IS 800-1984, for structural steel design.Further, the students would become conversant with the design of some of the most fundamental andimportant steel structures like, simple and compound beams, riveted and welded plate girders, gantrygirder, column, purlin and roof truss.

UNIT-I

Design of simple and compound beams using rolled steel section with compression flange fullyrestrained and unrestrained Curtailment of flange plates.

Design of welded plate girder trial and final section web and flange plates curtailment offlange plates - bearing and intermediate stiffeners welds.

(10 Periods)

UNIT-II

Design of riveted plate girder trial and final section web and flange plates curtailment offlange plates bearing and intermediate stiffeners splices flange and web.

Design of gantry girder loads selection of rolled sections check for bending moment.(10 Periods)

UNIT-III

Design of beam-columns - design consideration design using rolled section - Effective length ofbraced & unbraced columns allowable stress in braced and unbraced column.

(10 Periods)UNIT-IV

Evaluation of design live load, dead load and wind load - Design of purlins with rolled sections;Design of roof truss (Diagrammatic configuration of truss should be given in the problem).

(10 Periods)UNIT-V

Plastic Theory - Introduction - Yield Stress - Plastic Modulus - Shape Factor - Plastic Moment -Plastic analysis and design of propped cantilever and fixed beams IS method.

(10 Periods)Text Books1. Punmia B.C, Ashok Kumar Jain and Arun Kumar Jain Comprehensive Design of Steel

Structures Laxmi publications (P) Ltd, New Delhi, 19982. Dayaratnam.P, Design of Steel Structures, Wheeler & Co Ltd., Allahabad, 19963. Raghupathy.M, Design of Steel Structures, Tata McGraw Hill Publishing Company Ltd. New

Delhi, 1995Reference Books1. Jack.C, McCorna.C, Structural Steel Design, International Text Book Company, Scranton,

Pensylvania, 1965

2. Salmon and Johnson, Steel Structures Design and Behaviour, Intext Educational Publishers,1971

3. Arya,A.S. and Ajmani, J.L., "Design of Steel Structures", Nem Chand and Bros, Roorkee, 2000IS Codes

1. IS 800:1984 Code of Practice for General Construction in steel2. SP 6 (1):1964 Handbook for Structural Engineers-Part 1:Structural Steel Sections3. IS 875 (1-5):1987 Code of Practice for Design Loads (Other than Earthquake) for Buildings and

Structures.4. SP 6 (2):1962 Steel beams and plate girders5. SP 6 (6):1972 Application of plastic theory in design of steel structures6. IS 807:1976 Code of Practice for Design, Manufacture, Erection and Testing (structural Portion) of

Cranes and Hoists7. IS 816:1969 Code of Practice for use of Metal Arc Welding for general Construction in Mild Steel.8. SP 38(S&T)-1987 Handbook of typified designs for structures with steel roof trusses

B53 / P42 HIGHWAYS AND AIRPORT ENGINEERING(Common to B.E. and P.T.B.E)

ObjectiveThe course aims to make the students learn the principles of highways, their components and

design. Further, to make them get acquainted with the basic features of airport engineering.

UNIT- IHighway planning and Alignment

History of road development in India Jayakar committee recommendations - Institutions forHighway planning design and implementation at different levels - Engineering Surveys for Alignment conventional and modern methods (Remote sensing, GIS and GPS techniques)

IRC classification of urban and rural roads Highway cross sectional elements Right of way,Carriage way, Camber, Kerbs, Shoulders and Footpaths

(10 Periods) UNIT - II

Geometric ElementsGeometric Standards Super elevation, Widening of pavements and Transition curves Ruling,

Limiting, Exceptional and Minimum Gradients Sight Distance Factors affecting Sight Distance PIEVTheory Stopping Sight Distance (SSD) Overtaking Sight Distance (OSD) Sight Distance atIntersection

Geometric Design of Hill Roads(10 Periods)

UNIT- IIIHighway Materials and Construction

Subgrade soil - Aggregates - Bituminous materials Desirable properties California BearingRatio Test and Field Density Test for soil Crushing, Abrasion and Impact Test for aggregates Penetration, Ductility, Viscosity, Binder content and Softening point Test for bitumen

Construction of Earth, Gravel, WBM, Bituminous and Cement Concrete roads as per IRC andMORTH specifications BOT and BOLT concepts for highway construction

(10 Periods)UNIT-IV

Highway Design and MaintenanceDesign principles of Flexible and Rigid Pavements Design of Flexible pavement (CBR method,

IRC Recommendations Problems ) Design of Rigid Pavement (IRC Recommendations Problems)Defects in flexible pavements surface defects, cracks, deformation, disintegration symptoms,

causes and treatmentsFailures in rigid pavements scaling, shrinkage, warping, structural cracks, spalling of joints and

mud pumping special repairs (10 Periods)

UNIT VAirport Engineering

Importance of Airports in National Transportation Sector Airport Planning - Standards forplanning of airports as per ICAO Site selection survey Airport Zoning Runway Orientation Geometric design Different types, pattern and layout

Taxiways and Aprons Holding Aprons Planning and layout of Terminal Buildings, Hangarsand Parking area

(10 Periods)Text Books1. Khanna,S.K and Justo, Highway Engineering, New Chand and Bros, Roorkee, 8th edition, 20012. Khanna,S.K and Arora,M.G & Jain,S.S, Airport Planning and Design, New Chand and Bros, Roorkee, 2001Reference Books1. Kadiyali,L.R., Principles and Practice of Highway Engineering, Khanna Publishers Ltd. New Delhi, 2000

2. Sehgal,S.B and Bhanot,B.L, Highway and Airport Engineering, S.Chand and Company Ltd. New Delhi, 19783. Venkatappa Rao,G, Principles of transportation and Highway Engineering, Tata McGraw Hill Publishing Co. Ltd. New Delhi, 2000IS Codes

1. IRC Standards2. Bureau of Indian Standards (BIS) Publications on Highway Materials3. MORTH Guidelines for Highway Engineering

B54/P43 CLASSICAL METHODS OF STRUCTURAL ANALYSIS(Common to BE and P.T.B.E)

Objective

The objective of this course is to make the students analyse various structural members likebeams, columns, portal frame subjected to vertical and horizontal loads by various classical methods ofstructural analysis.

UNIT IILD for forces in Determinate Trusses and Indeterminate Beams

Maxwells reciprocal theorem Bettis reciprocal theorem Muller Breslaus theorem ILD forreaction, bending moment and shear force for propped cantilever and two span continuous beams (uptotwo degree redundancy)

(10 Periods)UNIT II

Energy Methods for TrussesAnalysis of indeterminate trusses by strain energy method degree of redundancy internal and

external redundancy lack of fit temperature stresses (upto two degree of redundancy) (10 Periods)

UNIT IIISlope Deflection Method

Derivation of Slope deflection equation - Analysis of statically indeterminate beams and frames(single storey single bay only) continuous beams with and without support yielding analysis of portalframes (single storey single bay only) gable frames box culvert

(10 Periods)UNIT IV

Moment Distribution MethodStiffness, carry over and distribution factors analysis of statically indeterminate beams and

frames (single storey single bay only) continuous beams with and without support yielding portalframes (single storey single bay only) gable frames box culvert.

(10Periods)

UNIT VKanis method

Rotation, translation and distribution factors analysis of statically indeterminate beams andframes up to two degree of redundancy continuous beams with and without support yielding analysisof portal frames (single storey single bay only)

(10 Periods)Text Books

1. Punmia.B.C, Ashok Kumar Jain, Arun Kumar Jain, Strength of Materials and Theory ofStructures, Vol I & II , Laxmi Publications, New Delhi, 1998

2. Junn