Upload
vodieu
View
221
Download
3
Embed Size (px)
Citation preview
INTEGRAL UNIVERSITY
LUCKNOW
SYLLABUS
OF
IInd
Year (III Semester)
B.TECH
CIVIL ENGINEERING
STUDY & EVALUATION SCHEME Branch: Civil Engineering
Year – II Semester - III
SL.
NO
.
CODE
NO.
NAME OF SUBJECT PERIODS EVALUATION SCHEME SUBJECT
TOTAL L T P SESSIONAL EXAM EXAM. ESE
CT TA TOTAL 1. IMA-301 Mathematics-III* 3 1 0 30 20 50 100 150
2. ICE-301 Fluid Mechanics 3 1 0 30 20 50 100 150
3. ICE-302 Basic Surveying 3 1 0 30 20 50 100 150
4. ICE-303 Building Material and
Construction
3 1 0 30 20 50 100 150
5. ICE-304 Strength of Material 3 1 0 30 20 50 100 150
6.
ICS-
305/IHU-
301
**Cyber Law & Information
Security/ ***Disaster
Management
2 1 0 15 10 25 75 100
7. IHU-303 ****Human Values &
Professional Ethics 3 0 0 0 0 0 50 50
PRACTICAL / DRAWING/DESIGN
1. ICE-351 Fluid Mechanics Lab 0 0 3 10 10 20 30 50
2. ICE-352 Basic Survey Field Work 0 0 3 10 10 20 30 50
3. ICE-353 Building Planning & Drawing 0 0 3 10 10 20 30 50
4. ICE-354 Material Testing Lab 0 0 3 10 10 20 30 50
5. GP-301 General Proficiency --- --- --- --- --- 50 --- 50
Total 20 6 12 1100
Total Load = 35 NOTE : Duration of ESE shall be 03(three) hours per subject
*Taught by Mathematics Department (Applied Science) ** Taught by CS Department *** Taught by MBA Department**** ****Compulsory to be cleared with minimum 50% marks
**,***,****(Duration of ESE shall be of 2 Hours)
MATHEMATICS III
IMA - 301 L T P
3 1 0
Unit I: Series Solutions and Special Functions (8) Series solutions of ODE of 2nd order with variable co-efficient with special emphasis to differential equations of Legendre and Bessel, Legendre polynomials, Bessel functions and their properties. Unit II: Integral Transforms (10) Fourier integral, Fourier complex transform, Fourier sine and cosine transforms and applications to simple heat transfer equations. Z -transform and its application to solve difference equations. Unit III: Functions of a Complex Variable -I (8) Analytic functions, C-R equations and harmonic functions, Line integral in the complex plane, Cauchy’s integral theorem, Cauchy’s integral formula for derivatives of analyti c functions, Liouville’s theorem, Fundamental theorem of Algebra.
Unit IV: Functions of a Complex Variable -II (9) Representation of a function by power series, Taylor’s and Laurent’s series, singularities,
zeros and poles, Residue theorem, evaluation o f real integrals of type
df2
0
)sin,(cos
and dxxf
)( , Conformal mapping and bilinear transformations.
Unit V: Statistics and Probability (7) Correlation and Regression, Binomial distribution, Poisson distr ibution, Normal distribution. Reference Books:
1 . Kreysz ig E. (1993) : Advanced Engg. Mathemat ics John Wi l ley & Sons inc. 2 . B.S . Grewal : Higher Engineer ing Mathematics, Khanna Pub. 3 . Dennis G. Zi l l : Advanced Engineer ing Mathematics , CBS Pub. 4 . I .N. Sneddon : Part ia l Different ial Equat ions , Mc Graw-Hil l 5 . Paopou l is : S ignal Analys is 3 r d Edit ion (1988) , Mc Graw-Hil l 6 . I .N. Sneddon : Use of integral t ransforms, Tata Mc Graw-Hil l 7 . W. Felser : Introduct ion to probabi l i ty and i ts Appl icat ions. Wiley Eastern Pub. 8 . H.K. Dass : Advanced Engineer ing Mathematics ,
(S . Chand & Company
FLUID MECHANICS
ICE-301
L T P
3 1 0
UNIT – 1
Fluid and their Properties: Concept of fluid, ideal and real fluids, Continuum concept of fluid: density,
specific weight and relative density, viscosity and its dependence on temperature, surface tension and
capillarity, vapour pressure and cavitation, Newtonian and Non-Newtonian fluids [3]
Fluid Statics: Concept of pressure, Pascal`s Law and its engineering hydrostatics paradox. Action of
fluid pressure on plane(horizontal, vertical and inclined) submerged surface, total pressure and center of
pressure, force on curved surface due to hydrostatic pressure, Buoyancy and floatation, stability of
floating and submerged bodies, Metacentric height and its determination [5]
UNIT – 2
Fluid Kinematics: Classification of fluid flow (Steady and unsteady, uniform and non-uniform, laminar
and turbulent flows, one, two and three dimensional flows) , velocity and acceleration of fluid particle,
local and convective acceleration, normal and tangential acceleration streamline, streak lines and path
lines, principle of conservation of mass, continuity equation in Cartesian co-ordinates, Rotational Flows-
rotational velocity and circulation, stream function and velocity potential functions, flow nets [3]
Fluid Dynamics: Euler’s equation, Bernoulli’s equation and its applications(venturimeter, orifice meter,
pitot tube), flow through orifices, mouthpieces, nozzles, notches and weirs, Impulse-momentum equation
and its applications(pipe bends, flat and curved vanes), combined application of energy and momentum
equations, Kinetic energy and momentum correction factors, relation between Cv, Cc and Cd, free and
forced vortex motion, Aeration of nape and cavitations [5]
UNIT – 3
Dimensional Analysis and Similitude: Fundamental and derived units and dimensions, Dimensional
homogeneity, Rayleigh`s and Buckingham’s π method for dimensional analysis, dimensionless numbers
and their significance, geometric, Kinematics and dynamic similarity, model studies. [3]
Laminar Flow and Turbulent Flow: Flow regimes and Reynold`s numbers, critical velocity and ciritical
Reynold`s numbers, laminar flow in circular pipes, flow between parallel plates, flow through porous
media,measurement of viscosity. [3]
UNIT – 4
Turbulent flows: Transition from laminar to turbulent flow, equation for turbulent flow, eddy viscosity,
mixing length concept and velocity distribution in turbulent flow, Hot-wire anemometer and LDA. [3]
Boundary layer Analysis: Boundary layer over a flat plate, laminar boundary layer, application of
momentum equation, turbulent boundary layer, laminar sub-layer, boundary layer separation and its
control, local and average friction coefficient, measurement of shear. [5]
UNIT – 5
Flow Past Submerged Bodies: Drag and lift, drag on sphere, Two dimensional Cylinder and an aerofoil,
Magnus effect. [3]
Pipe Flow: Turbulent flow in pipes, Turbulent flow over smooth and rough surfaces, resistance to flow,
Darcy equation minor head losses in pipe fittings, hydraulic and energy gradient line, pipes in series and
parallel, power transmission through a pipe, siphons, water hammer, three reservoir problems and
networks, Transmission of pressure waves in rigid and elastic pipes, analysis of surge [5]
REFERENCES:
1. Fluid Mechanics and Hydraulic Machines by R.K. Rajput, S.Chand Publication
2. S.K. Agarwal: Fluid Mechanics and Machinery, TMH.
3. Grade,R.J and A.G Mirajgaoker, ‘Engineering Fluid Mechanics (including hydraulic Machines),
Second Edition, Nem Chand and Bros., Roorkee,1983.
4. Grade,R.J ‘Fluid Mechanics through problems.’, Wiley Eastern Limited, New Delhi, 1989
5. Hunter Rouse,” Elementary Mechanics of Fluid”, John Wiley & Sons. Omc/.1946
6. L.H. Shames, “ Mechanics of fluids”. McGraw Hill, Int. Student Education.
7. Fluid Mechanics by Jagdish Lal.
8. Vijay Gupta and S.K.Gupta,” Fluid Mechanics and its applications”, Wiley Eastern Limited.
9. Fluid Mechanics by Modi and Seth
10. Som and Biswas: Introduction to Fluid Mechanics and Machines, TMH.
11. Fluid Mechanics and Fluid Power Engineering by. D.S.Kumar
BASIC SURVEYING
ICE-302
L T P
3 1 0
UNIT – 1
Introduction: Importance of surveying to Engineers- Examples from different branches; plane and
Geodetic Surveying, Control points, Classification of surveys, Methods of location a point, Sources and
Types, principles of working from whole to part, Organization of field and office work, Conventional
signs, Surveying instruments, their care and adjustment. [3]
Measurement of Distances: Principles of different methods and their accuracies, Measurement by chain
and tape . Source of errors and precautions, Corrections to tape measurements, Field problems, Use and
adjustment of auxiliary instruments, Modern trends EDM and Total Station. [5]
UNIT – II
Measurement of Angles and Directions: Reference meridians, Bearing and azimuths, Magnetic
declination and its variations. Use and adjustment of compass, Vernier and microptic theodolites,
Temporary and permanent adjustments, Requirements of nonadjustable parts, Measurement of horizontal
and vertical angles by different methods. [8]
UNIT – III
Traversing : Principles of traversing by compass and theodolite, Field work and checks, Computation of
coordinates, Sources of errors, precision of traversing, checking and adjusting of traverses, Omitted
measurements. [4]
Tachometry : Definitions, principles of stadia systems, Instrument constants Substance and Tangential
system, Construction and use of Reduction Tachometers, Range Finders, Errors and precision. [4]
UNIT – IV
Measurement of Elevations: Different methods of determining elevations: Spirit, Trigonometric,
Barometric and photogrammetric methods, Spirit leveling- Definitions of terms, principle, Construction,
Temporary and permanent adjustment of levels. Sensitivity of bubble tube, Automatic levels, Levelling
staves, Methods of spirit leveling Booking and reduction of fields notes , Curvature and refraction,
Reciprocal leveling, plotting of profiles, Barometric leveling , Construction and field use of altimeter.
Trigonometric leveling- simple and reciprocal observations, sources of errors and precision of leveling
procedures. [8]
UNIT- V
Contouring: methods of relief representations, Definition and characteristics of contours. Use of contour
maps, Direct and Indirect methods of contouring. [5]
Sheet Numbering System: CIM and I and A.C series, Scales and Numbering of Indian Topographic
maps [3]
REFERENCES :
1. Agor, R, “Surveying” , Vol. I & II, Khanna publications, Delhi, 1995.
2. Arora, K,R., “Surveying “, Vol. I & II , Standard Book House, Delhi, 1993.
3. Bannister, A. and baker, R., “ Solving problems in Surveying “ Longman Scientific Technical
, U.K.,1994.
4. Kennie, T.J.M. and petrie, G., “Engineering Surveying Technology” , Blackie & Sons Ltd.,
London, 1990.
5. Punmia, B.C., “Surveying” Vol. I & II Laxmi publications, New Delhi- 1996.
6. Duggal S.K., Surveying Vol . I and II TMH
7. Basak, Surveying TMH.
8. Kanetkar, Surveying.
BUILDING MATERIALS & CONSTRUCTION
ICE-303
L T P
3 1 0
UNIT – I & II
Building Materials: Classification, properties and selection criteria of Bricks, Stone, Lime, Timber,
Plywood, Glass, plastics, P.V.C. Steel, Aluminum, Gypsum, pozzolana, Asphalt, Bitumen and Tar,
Metals, insulating material.
Mortar: Types, classification and strength, I.S. specifications [16]
UNIT – III
Building Construction : Classification of buildings, Recommendations of NBC, Building byelaws,
modular co-ordinations; orientation of buildings, desirable conditions of comforts, and components of
building area considerations. Types of foundations and selection criteria, causes of unequal settlement [4]
Brick masonry, stone masonry, bonds. Types of walls, partition and cavity walls, Drainage system in
buildings [4]
UNIT – IV
Prefabricated construction. Plastering and pointing, Damp Proofing Materials and techniques, Anti-
termite treatment. [2]
Types of floors, construction details and selection criteria [2]
Types of Roofs and roof covering, treatment of water proofing. [2]
Doors and Windows: Sizes and locations, materials. [2]
UNIT – V
Stair and Staircases; types, materials, proportions. [2]
Lifts and escalators, White washing, colour washing, painting, distempering. [2]
Shuttering, Scaffolding and centering, Expansion and Construction joints. [2]
Sound and fire proof construction, I.S. specifications. [2]
REFERENCES:
1. Jha. J. & Sinha S.K. ,”Building Construction”, Khanna Publishers, Delhi,1977
2. Arora,S.P & Bindra S.P.,” A text book of building Construction”, Dhanpat Rai & Sons.,Delhi
1977.
3. Kulkarni,C.J, “ A text book of Engineering Material”, Ahmedabad Book Depot,
Ahmedabad,1968.
4. Kulkarni,C.J, “ A text book of Engineering Construction”, Ahmedabad Book Depot,
Ahmedabad,1968.
5. Kumar Sushil, “Engineering Material”, Standard Publishers Distributors, Delhi, 1944.
6. Kumar Sushil, “Engineering Construction”, Standard Publishers Distributors, Delhi, 1944.
7. McKay W.B. ,”Building Construction”, Vol. 1 to 4, Orient Longman ltd., Hyderabad, Bombay,
Madras, Delhi, Vol. 1 & 2-1955, Vol. 3-1996, Vol.4- 1998.
8. Punmia, B.C., “A Text book of Building Construction”, Laxmi Publications, Delhi, Madras, 1987.
9. Singh Surendra,”Engineering Materials”, Konark Publishers Pvt. Ltd., 1994
10. Civil Engg. Materials, TTTI Chandigarh, Tata MeGraw, New Delhi.
STRENGTH OF MATERIALS
ICE-304
L T P
3 1 0
UNIT – I
Stress and Strain: Concept of stress and strain relationship, Ductility, Toughness, Elastic constants,
Hardness, Brittleness, Tension, Compression, Shear, and Elongation, Concept of thermal stresses [5]
Principal stresses: Stress transformation, Application of Mohr’s circle in stress analysis [3]
UNIT – II
Bending of Beams: Review of bending of beams, shear forces & bending moment diagrams for statically
Determinant Beams, Shearing and bending stresses in beam section. [5]
Torsion of Shafts: Torsion of circular shaft, combines bending and torsion in shafts. [3]
UNIT – III
Strain energy and impact loading: Concept of strain energy or resilience, Strain energy in simple
tension and compression, Stress due to different types of loading. [4]
Theories of Failure: Various Theories of failure and their comparison. [4]
UNIT – IV
Deflection of beams: Deflection of beams, Integration method, Macaulay’s method, Area Moment
method, Conjugate Beam method. [4]
Columns and Struts: Theory of columns & struts, Elastic stability, End conditions, Effective length and
Buckling load, Euler’s and Rankine’s formulae and their limitations. [4]
UNIT – V
Thin Cylinders: Theory of thin cylinders subjected to pressure, expression for hoop stress and
longitudinal stress, Design of thin cylinders, Thin walled pressure vessels and uniform torsion. [4]
Thick Cylinders and Spherical Shells: Stresses and strain in thick shells/cylinder subjected to pressures,
compound cylinders press fits on solid shaft. [4]
REFERENCES:
1. Strength of materials by Ryder.
2. Strength of materials by Singer.
3. Strength of materials by Timoshenko.
4. Engg. Mechanics of solids by Popov.
5. Mechanics of materials by Bear Johnson.
6. Strength of materials by R.K. Rajput.
7. Strength of materials by Ramamurtham& Narain.
FLUID MECHANICS LAB
ICE-351
L T P
0 0 3
1. To determine experimentally the meta-centric height of a ship model.
2. To verify the Bernoulli’s equation experimentally.
3. To verify the Momentum equation experimentally.
4. To determine the coefficient of discharge of an orifice meter of a given shape. Also, to determine the
coefficient of velocity and the coefficient of contraction of the orifice meter.
5. To plot flow net using the Helleshaw apparatus.
6. To calibrate an venturimeter and study the variation of the coefficient of discharge with the Reynolds
number.
7. To study the transition from laminar to turbulent flow and to determine the lower critical Reynolds
number.
8. To determine the coefficient of discharge through rectangular and triangular notch.
9. To study the variation of friction factor ‘f’, for turbulent flow in smooth and rough commercial pipes.
10. To determine the loss coefficients for the pipe fittings.
11. To study the flow behavior in a pipe bend and to calibrate the pipe bends for discharge measurement.
BASIC SURVEY FIELD WORK
ICE-352
L T P
0 0 3
1. Study of different levels and leveling staff. Practice for temporary adjustments. To find out the
reduced level of given points using Dumpy level. (Reduction by height of collimation method).
2. Study of a tilting (I.O.P) level and to find out the reduced levels of given points. (Reduction of
data by rise and fall method)
3. Visit to lab for the study of;
a. Map in the making – survey of India Publication
b. Conventional symbol charts and Different types of Maps.
4. To establish a bench mark by check leveling with a I.O.P level and closing the work, the starting
bench mark.
5. To perform fly leveling with a I.O.P level.
6. To draw the longitudinal and cross sectional profiles along a given route.
7. Study and use of different types of Microptic Theodolite and total station.
8. Practice for temporary adjustments of a Vernier Theodolite and taking horizontal and vertical
angular measurements by Reiteration method.
9. i) Measurement of a horizontal angle by Repetition method at three zeros and four repetitions
ii) Determination of elevation and horizontal distance of a given point using Substance Bar and
Vernier Theodolite.
10. i) Measurement of a horizontal angle by Repetition method at three zeros and four repetitions.
ii) Determination of the Tacheometric constants of a given Theodolite.
11. To determine the gradient, the bearing of a given traverse using prismatic compass and plotting of
the traverse.
12. Establishment of a given traverse using Tachometric method.
13. Determination of elevations of a given point by Trigonometric leveling.
Building Planning & Drawing
ICE-353
L T P
0 0 3
1. Symbols used in civil engineering drawing.
2. Doors, Windows and Staircases.
3. Masonry Bonds.
4. Plumbing and Electrical Fitting drawing.
5. Comprehensive drawing of residential building, ( layout, plan, elevation & sectional elevation,
plumbing and electrical fittings layout.)
6. Preparation of layout planning for different civil engineering projects.
7. Preparation of layout plan/ maps and Building drawing using computer.
MATERIAL TESTING LAB
ICE-354
L T P
0 0 3
1. BRICKS:
1. Water absorption test
2. Dimension tolerance
3. Compressive strength
4. Efflorescence Test
2. LIME:
5. Fineness of lime
6. Setting time Test
7. Soundness test of lime
3. STEEL:
8. Physical and Mechanical properties of reinforcing Steel
9. Hardness test
10. Impact Test ( Izod and Charpy)
11. Shear test (single and double)
12. Tensile Strength test
4. TIMBER:
13. Compressive strength of timber
14. Flexural Strength of timber.