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BVVS
BASAVESHWAR ENGINEERING COLLEGE,
BAGALKOT-587102
(An Autonomous Institution under Visvesvaraya Technological University
Belgaum-590 014, Karnataka State, India)
S Y L L A B U S For B.E CIVIL III & IV Semester
[2017-18]
S. Nijalingappa, Vidyanagar, Bagalkot - 587 102, Karnataka
Phone: 08354-234060, 234072, 234121 Telefax: 234204
E-mail: [email protected]
Website: www.becbgk.edu
BASAVESHWAR ENGINEERING COLLEGE, BAGALKOT
Department of Civil Engineering Proposed Scheme for 2013-14
Batch
III SEMESTER
Sl. No. Subject Code Subject Credits Hours Per Week
Lecture Tutorial Practical
1 UMA301C Engineering mathematics -III 04 04 00 00
2 UCV324C Mechanics of materials 04 03 02 00
3 UCV311C Materials of construction 04 04 00 00
4 UCV312C Engineering Geology 03 03 00 00
5 UCV313C Surveying-I 04 04 00 00
6 UCV325C Construction Technology 03 03 00 00
7 UCV315L Surveying Practice-I 01 00 00 02
8 UCV316L Basic material testing Lab 01 00 00 02
9 UBT133M Environmental studies* - 02 00 —
Total 24 21 02 06
IV SEMESTER
Sl. No. Subject Code Subject Credits Hours Per Week
Lecture Tutorial Practical
1 UMA401C Engineering mathematics -IV 04 04 00 00
2 UCV402C Structural Analysis -I 04 03 02 00
3 UCV405C Highway Engineering 04 03 00 00
4 UCV411C Fluid Mechanics 03 04 00 00
5 UCV413C Surveying - II 04 04 00 00
6 UCV425C Building Planning and Drawing 03 02 00 02
7 UCV408L Engineering Geology Lab 01 00 00 02
8 UCV414L Concrete testing Lab 01 00 00 02
9 UCV415L Surveying Practice - II 01 00 00 02
10 UMA001M* Advanced Mathematics -I - 04 00 —
11 UHS226M** Constitution of India - 02 00 —
Total 25 20* 02 08
Ill SEMESTER UMA301C ENGINEERING MATHEMATICS - III
04 Credits (4-0-0)
Unit-I
NUMERICAL ANALYSIS: Roots of Transcendental equations using Bisection Method, Regula-Falsi Method and Newton-Raphson. Method, Finite differences, forward, backward and central difference operators (no derivations on relations between operators), Newton-Gregory forward and backward interpolation formulae (without proof), Lagrange's and Newton's divided difference interpolation formulae (without proof). Numerical differentiation using Newton's forward & backward formulae.
Numerical Integration: Gaussian quadrature Trapezoidal rule, Simpson's one- third rule, Simpson's three eighth rule and Weddle's rule (no derivation of any formulae). Numerical solutions of first order ODE - Taylor's series Method, Modified Euler's method, Runge-Kutta 2nd and 4th order method, Milne's Predictor and Corrector method (problems only). 14 Hours
Unit-II
FOURIER SERIES, FOURIER TRANSFORMS, Z- TRANSFORMS:
Periodic functions, Conditions for Fourier series expansions, Fourier series expansion of continuous functions and functions having infinite number of discontinuities, even and odd functions. Half-range series, Practical Harmonic Analysis.
Infinite Fourier transforms and inverse Fourier transforms- simple properties, Complex Fourier transform, Fourier sine and Fourier cosine transforms, Inverse Fourier sine & cosine transforms, Convolution theorem &Parseval's identity (without proofs). Applications for the solutions of partial differential equations. Z - transform - definition, standard forms, Linearity property, damping rule, shifting rule-problems. 14 Hours
Unit-III
PARTIAL DIFFERENTIAL EQUATIONS:
Formation of partial differential equations by elimination of arbitrary constants and arbitrary functions, Solution (/equation of the type: ,Charpit's method, Solution of PDE by the method of separation of variables. Derivation of one-dimensional heat and wave equations. Numerical solutions (finite difference) of One-dimensional heat and Wave equations by explicit method, Laplace equation by using standard five points formula. 12 Hours
Unit-IV
LINEAR ALGEBRA:
Rank of a matrix by elementary row transformations, Consistency of system of linear equations, Gauss elimination method, Gauss - Seidel method, characteristic values and characteristic vectors of matrices (no theorems), Largest Eigen value and the corresponding Eigen vector by Power Method.
8 Hours
CALCULUS OF VARIATIONS:
Variation of a function and a functional, Extremal of a functional, Variational Problems, Euler's equation, Standard variational problems including geodesies, minimal surface of revolution, hanging chain and Brachistochrone problems. 4 Hours
TEXT BOOKS: Higher Engineering Mathematics (36th edition-2002) by Dr. B S Grewal, Khanna Publishers, New Delhi.
REFERENCE BOOKS: Advanced Engineering Mathematics by E Kreyszig (John Wiley & Sons)
Question Paper Pattern for SEE:
1. Total of Eight Questions with two from each unit to be set uniformly covering the entire syllabus. 2. Each Question should not have more than four sub divisions. 3. Any Five Full questions are to be answered choosing at least one from each unit.
UCV 324C: MECHANICS OF MATERIALS 4 CREDITS (4-0-0)
Unit-I
Simple Stress Strain: Introduction: Mechanical properties of materials, Stress, Strain, Hook’s law,
Poisson’s Ratio, Stress-Strain Diagram for structural steel and non ferrous materials, Principle of
superposition, Elongation of uniform bars and stepped bars. Numerical examples. 06
hours
Elongation of tapering bars, elongation due to self weight, thermal stresses : Elongation of
tapering bars of circular and rectangular sections. Elongation due to self weight , elongation due to
thermal stresses including compound bars. Numerical examples.
07 hours
Unit-II
Relation between elastic constants and volumetric strains: Volumetric strain, expression for
volumetric strain, Elastic constants. Relationship among elastic constants. Numerical examples.
06
hours
Compound Stresses: Introduction, Stress components on inclined planes, General
two-dimensional stress system, Principal planes and stresses, Thin cylinders subjected to pressure
change in length, diameter and volume.
07 hours
Unit-III
Bending moment and shear force in beams: Introduction, Types of beams loadings and supports,
Shearing force and bending moment in beams. Relationship between load shear force and bending
moment, Expression for shear and bending moment equations, SFD and BMD with salient values
for cantilever beams simply supported beams and overhanging beams considering point loads,
UDL, UVL and Couple.
06 hours
Bending stress and shear stress in beams: Introduction, Bending stress in beam, Assumptions in
simple bending theory, Pure bending, derivation of Bernoulli’s equation, section modulus,
Flexural rigidity, Beam of uniform strength, Expression for horizontal shear stress in beam, Shear
stress diagram for rectangular, symmetrical I and T section.
07 hours
Unit-IV
Deflection of beams: Introduction, Definitions of slope, deflection, Elastic curve-derivation of
eferential equation of flexure, Slope & Deflection for standard loading cases using Maccualay’s
method, Double Integration method. 06
hours
Analysis of Trusses: Introduction, assumptions, analysis by method of joints and method of
sections. Numerical problems.
07 hours
Text Books: 1. K. V.Rao& Raju- "Mechanics of Materials", 5th Edition Subhas Publisher Bangalore 2007
2. Subramanyam,-"Strength of Materials", Oxford University Press, Edition 2005 3. B.C Punmia Ashok Jain, Aran Jain, -"Mechanics of Materials", Lakshmi Publications, New
Delhi. 2007
4. Basavarajaiah and Mahadevappa Khanna "Strength of Materials", Publishers, New Delhi.
5. S.S.Bhavikatti"Strength Materials", 2ndEditionVikas Publications, New Delhi. 2006 Reference Books: 1. Beer & Johnson- "Mechanics of Materials", Mc Grawl hill 3rd Edition, New Delhi- 2006
2. Timoshenko and Young Affliated- "Elements of Strength of Materials
"East-West Press. 3. James M. Gere "Mechanics of Materials", (5th Edition), Thomson Learning. 4. Singer "Strength of Materials", Harper and Row Publications. 5. Gere &Timshenko"Mechanics of Materials", 2™1 Edition CBS Publication New Delhi-1986
Question paper pattern for SEE:
1. Total of Eight Questions with Two from each unit to be set uniformly covering the entire syllabus.
2. Each question should not have more than 4sub divisions.
3. Any Five Full Questions are to be answered choosing at least one from each unit
SI. No.
Course Objectives Course Outcomes
1. To make the students to understand the behavior of ductile materials under the action of external loads.
Develop an ability to understand the load carrying capacities of beams, columns etc.
2. To work from basics of mechanics and to understand various types of deformations of bodies.
Develop an ability to analyze the possible deformations of members.
3. To analyze the stresses and strains developed due to different types of external forces.
Students will understand the requirement of materials to carry the external forces.
4. To workout the load carrying capacities of various structural members.
By applying the basic concepts students can analyze the Safe conditions of members under the action of external forces.
UCV311C : MATERIALS OF CONSTRUCTION
3 Credits (3-0-0)
UNIT-I
Building Stones, Bricks, Tiles and Timber
Common building stones, classification, properties and their uses. Classification of Bricks, Manufacture of bricks, Tests on bricks, Refractory bricks, Types of tiles, qualities of tiles and their uses. Timbers-classification, Tests on Timber, uses. 05 Hours
Other Building Materials
Reinforcing steel, Structuralsteel, Cast iron, Plain carbon steel, Aluminum, Glasses, Electrical, Thermal& Sound insulating materials, Paints, Varnish & Enamels, Bitumen & Asphalt. 05 Hours
UNIT-II
Cement and Aggregates
Cement, Chemical composition, Hydration of cement, Types of cement, Manufacture of cement,
Tests on cement - Field tests, Fineness by Sieve test and Blaine's air permeability test, Normal
consistency, Setting time and Soundness. Fine aggregates-Grading analysis, Specific gravity,
Bulking, Moisture content, Deleterious materials. Coarse aggregates - Importance of size, shape
and texture, Grading of aggregates Sieve analysis, Specific gravity, Flakiness and Elongation
index. Crushing, Impact and Abrasion tests.
10 Hours
UNIT-III
Fresh Concrete
Workability - factors affecting workability, measurement of workability -Slump. Flow tests, Compaction factor and Vee-bee consistometer tests. Segregation and Bleeding, Manufacturing process of concrete - Batching, mixing, transporting, placing, compaction, curing. Chemical admixtures -plasticizers, accelerators, retarders and air entraining agents. Mineral admixtures-Fly ash, silica fume and rice husk ash. Water proofing compounds. 05 Hours
Hardened Concrete
Factors affecting strength, w/c ratio, gel-space ratio, aggregate properties, relation between compressive strength and tensile strength, Bond strength, Modulus of rupture, elasticity, relation between modulus of elasticity and strength, Poisons ratio. Shrinkage, factors affecting shrinkage. Creep - factors affecting creep, effect of creep. Testing of hardened concrete - Compressive strength, Split tensile strength. Durability - definition, significance, Permeability, Sulphate attack, Chloride attack, Carbonation, Freezing and thawing. 05 Hours
UNIT-IV
Special Concretes
Lightweight concrete-Constituents, properties and applications. High density concrete- constituents, properties and applications. High strength and High
performance concrete, Fiber Reinforced Concrete, Ready Mixed Concrete, Self Compacting Concrete, Polymer Concrete. 04 Hours
Cost Effective Building Materials
Cost concepts in Buildings, Cost saving techniques in planning, design and construction. 03 Hours
Alternate Building Materials
Different types of Building blocks and their uses, Ferro-cement, Fiber Reinforced Polymer Composites. 03 Hours
TEXTBOOKS
1. K.S.Manjunath- Materials of Construction Sanguine Technical publishers, Bangalore 2008
2. Engineering Materials, Rangawala P.C. Chapter Publishing House, Anand, India.
3. Engineering Materials, Sushil Kumar, Standard Publication and Distributors, New Delhi. 4. Concrete technology Theory and Practice, M..S. Shetty, S. Chand and Co, New Delhi, 2002.
REFERENCE BOOKS 1. A Text of Book Building Materials, by P.G. Varghese, Prentice-Hall of India Pvt. Ltd.,
Publication. 2. Advances in Building Materials and Construction by Mohan Rai and MP. Jain Singh
publication by CBRI, Roorkee.
3. Concrete Technology, Neville A.M and Brooks J.J ELBS Edition. London Delhi, 4th Edition, 2004
4. Concrete Technology Gambhir, M.L Dhanpat Rai and Sons, Tata M. C. Hill 2004, New Delhi. 5. Concrete P. Kumar Mehta & Paul J M Monteiro Indian Concrete Institute U.S.A-1999 6. Alternative- Building Materials,-K.S. Jagadish NewAge Int. Publisher 2007, New Delhi. 7. Materials of Engineering, English Language, Book Society, 3rd Edition
8. Engineering Materials - Rangwala K. J. Charotar, Publishing house, Anand
Question Paper Pattern for SEE:
1. Total of Eight Questions with two from each unit to be set uniformly covering the entire
syllabus.
2. Each Question should not have more than four sub divisions.
3. Any Five Full questions are to be answered choosing at least one from each unit.
SI. No.
Course Objectives Course Outcomes
1. To learn- Different materials of construction, Types and manufacture of cement.
After studying the course the student will gain the knowledge of: Different materials construction and Cement: Types and Testing.
2. Testing of Cement, Fresh concrete, measurement of workability of Concrete.
Aggregate : Types, Testing Fresh concrete: Measurement of workability Hardened concrete: Testing of cubes, cylinder and beams
3. Hardened concrete, Testing of cubes, Cylinders and beams, Special concrete, classification of special concrete.
Special concrete: Classification and properties, Applications.
4. Introduction to alternative building materials, cost effective building design, cost saving techniques.
Alternative building materials and cost effective building materials.
UCV312C ENGINEERING GEOLOGY
3 Credits (3-0-0)
Unit-I
Introduction
Geology- its sub divisions, Importance of Geology in Civil Engineering. Internal Structure and Composition of earth.
Mineralogy: Definition; general classification, Study of physical properties, chemical composition and uses of following rock forming and Ore forming minerals; Quartz and its varieties Rock crystal, Rose quartz, Milky quartz, Amethyst, Agate, Flint, Chert, Chalcedony, Jasper and Opal. Feldspars: Orthoclase, Plagioclase & Microcline, Mica group: Muscovite, Biotite. Amphibole Group : Hornblende, Pyroxene Group: Augite, Silicates: Olivine, Serpentine, Asbestos, Kaolin, Talc, Kyanite, Garnet, Sulphates : Barite, Gypsum, Oxides: Corundum, Carbonates: Calcite, Magnesite & Dolomite. Ore Minerals: Magnetite , Hematite, Limonite, Iron pyrite, Chalcopyrite, Pyrolusite, Chromite, Galena & Bauxite. Stability of minerals. 10 Hours
Unit-II
Petrology
Introduction, definitions and general classification of Rocks; Rock cycle. Igneous Rocks General characters, mode of occurrence, structures and textures, classification; study of important igneous Rocks and their significance in Civil Engg.
Sedimentary Rocks - General characters, mode of occurrence, structures and classification; study of important sedimentary rocks and their significance in Civil Engg.
Metamorphic Rocks - General characters; Definition; meaning of metamorphism; mode of occurrence; Agents of metamorphism; Types of metamorphism; structures & study of important metamorphic rocks and their significance in Civil Engg.
Geomorphology and Geo-dynamics
Epigene and hypogene Geological Agents; Weathering of rocks agents and types of Weathering; significance of Weathering in Civil Engg. Soil Formation, profile, classification, erosion and conservation. Earthquakes - Causes and effects, plate tectonics and seismic resistant structures.
Stability of slopes Landslides- causes, effects and preventive measures. 10
Hours
Unit-III
Structural Geology
Basic definitions outcrop, inlier, outlier, dip and strike; Use of Clinometer compass andbrunton compass.
Study of important Geological structures- Faults, Folds,Joints and Unconformities Definition, Classification, recognition in the field and significance in Civil Engineering. Selection of sites for Civil Engineering Projects Selection of sites for Dams and reservoirs; Tunnels, bridges and Highways. Characters of good building stones, road metals Railway ballast concrete aggregates and decorative stones. 10 Hours
Unit-lV
Hydrogeology Hydrological cycle, water bearing properties of rocks and soils; Aquifers and their types. Ground water Exploration Geological and geophysical method. Groundwater Recharge.
Environmental Geology and Remote sensing
Impact of mining, quarrying and reservoirs on Environment. Remote sensing basic concepts and
applications in Civil Engineering; GIS, GPS-Applications in Civil Engineering 10 Hours
Text Books
1. Parbin Singh- A Text book of Engineering & General Geology , 8 Revised Edn :2008, S.KKataria& Sons, New Delhi
2. Santoshkumar Garg -Physical and Engineering Geology, 3rd revised and enlarged Edn: 1999, Khanna Publishers, New Delhi
3. P.KMukerjee-A Text book of Geology, 11th reviser Edn 1990,The World Press Pvt Ltd Calcutta 4. KM.Bangar-Principals of Engineering Geology, Is' Edn 1995, Reprint 2004, Standard
Publishers and Distributors, New Delhi 5. D. Venkat Reddy- Engineering Geology for Civil Engineers, 1stEdn 1995, Reprint 1997 Oxford & IBH Publishers ,New Delhi
Reference Books
1. N.W. Gokhale-Theory of Structural Geology, lstEdn 1996, Reprint 2003 CBS Publishers &Distributors ,New Delhi
2. H.H.Read-Rutley's Elements of Mineralogy 26fflEdn 1984, CBS Publishers & Distributors ,New Delhi
3. G.W.Tyrrel - Principles of Petrology, 1stEdn 1987, BI Publications PvtLtd,New Delhi Question Paper Pattern for SEE:
1. Total of Eight Questions with two from each unit to be set uniformly covering the entire syllabus. 2. Each Question should not have more than four sub divisions. 3. Any Five Full questions are to be answered choosing at least one from each unit.
Sl.No
.
Course Objectives Course Outcomes
1. To provide essential details of mineral and rocks, their physical and engineering. Properties and applicability in different civil engineering projects.
Student will get basic knowledge of: Earth's materials on which he will construct and from which he will construct.
2. To give information about weathering, geological structure and their significance in civil engineering.
Students will know the possible geological problems while selecting site for important Civil engineering projects and how to overcome those problems.
3. To know that how cost, stability and safety of any civil engineering project is decided by geology.
Students will learn to design a safe, stable and economic civil engineering projects.
4. To develop ability in students to select ideal sites of dams, reservoirs, tunnel, highways, bridges.
UCV313C : SURVEYING-I
4 Credits (4-0-0)
UNIT-I Introduction
Surveying - Definition, Object and Classification. Units of Measurements, Plan& Map, Basic principles of surveying, Precision and Accuracy, Ranging of line - Direct and Indirect, Survey of India toposheets- numbering & scales. 04 Hours
Chain Surveying
Chain and types, Tape and types, Measurement of distances over sloping ground, Chain and Tape corrections (No-derivations), Numerical problems. Booking of chain survey work, Field Book- entries, conventional symbols. Obstacles in chain survey- Numerical problems. Error in chain survey and precautions to be taken, corrections (chain and tape). 09 Hours
UNIT-II
Compass Surveying Types of Compass, Difference between Prismatic Compass and Surveyor's Compass. Types of Meridians and Bearings- Numerical problems. WCB and RB & conversions, Dip and Declination, Determination of true bearings. Computation of included angles of a closed traverse. 04 Hours
Compass Traversing
Local attraction-determination and correction, Latitude and Departure, Dependent and Independent coordinates, Checks for closed traverse and determination of closing error and its direction- Bowditch's graphical method, Analytical methods - Bowditch's rule and transit rule, Omitted measurements. (Length and bearing of the same line). 09 Hours
UNIT-III
Levelling:
Definition , Objective, Temporary adjustment of dumpy level, Curvature and Refraction corrections, Type of levelling-Differential levelling, Reciprocal levelling, Profile levelling, Cross sectioning, Fly leveling & Fly back leveling, Booking of levels, Rise and Fall method and Height of Instrument method and numerical problems, missing data problems Permanent adjustments Fundamental lines & their desired relations two peg test. 13 Hours
UNIT-IV
Contouring
Contours and their characteristics, Methods of contouring, Direct and indirect methods, Interpolation techniques, Uses of contours. 05 Hours
Areas and Volumes
Calculation of area from cross staff surveying, Calculation of area of a closed traverse by coordinates method, Planimeter-Principle, working and use, Digital Planimeter, Volume calculation by cross section, Computations of volumes by trapezoidal and Prismoidal rule, Capacity contours. 08 Hours
TEXTBOOKS:
1. B.C. Punmia,'Surveying'Voll Std. book house -2007 Laxmi Publications, New Delhi.
2. A.M. Chandra, 'Plane Surveying' Vol-1- Newage International ® Ltd. New Delhi, 2002 3. K.R. Arora, 'Plane Surveying' S. Chand and Company Ltd., New Delhi. 4. S. S. Bhavikatti, 'Surveying & Leveling Vol-I', I. K. International New Delhi, 2008
REFERENCE BOOKS: 1. S.K. Duggal, Surveying Vol. I, Tata McGraw Hill - Publishing Co. Ltd., New Delhi.. 2nd
Edn. 2007 2. S.K. Roy Fundamentals of Surveying -Prentice Hall of India. New Delhi 2007
3. Milton O. Schimidt Wong, Fundamentals of Surveying - Thomson Learning 2005
4. Survey of India Publication on maps. Question Paper Pattern for SEE: 1. Total of Eight Questions with two from each unit to be set uniformly covering the entire
syllabus. 2. Each Question should not have more than four sub divisions. 3. Any Five Full questions are to be answered choosing at least one from each unit.
Sl.No
.
Course Objectives Course Outcomes
1. Student will come to know the objects of surveying which is applicable in civil engineering.
Knowledge of different types of surveying instruments.
2. Basic Principles of surveying and different fields where surveying is done.
Method of determining the elevation of the object with respect to sea level /TBM.
3. Student will learn what type of instruments are used for surveying work i.e. chain, dumpy leveling compass surveying.
Plotting of Contour Map by different Methods and Setting bearing.
UCV325C: CONSTRUCTION TECHNOLOGY
3 Credits (3-0-0)
UNIT-I
Foundations Preliminary Investigation of Soil, Safe Bearing Capacity of Soil, Classification of Foundations, Introduction to Different types of foundation, Masonry footings, Isolated footings, Combined and strap RCC footings, Raft and Mat foundation, Pile foundations - Friction and load bearing piles. 05 Hours Masonry Definition of terms used in masonry, Bonds in Brickwork, Reinforced brickwork, Rubble Masonry, Coursed and uncoursed Rubble Masonry, Random rubble masonry, Ashlar Masonry, Joints in Masonry. 05 Hours
UNIT-II
Stairs, Doors, Windows and Ventilators Technical terms in stairs, Requirements of a good stair, Geometric Design of RCC dog legged and open well stairs (plan and sectional elevation of stairs), Doors Types of doors - Paneled doors, Glazed doors, Flush doors, Collapsible and Rolling shutters, Louvered doors, Revolving, sliding and Swing doors, Windows Types of windows -Paneled, Glazed, Bay window, Dormer window, Louvered and corner window, Ventilators. 05 Hours Floors and Roofs Types of flooring (Materials and methods of laying), Granolithic, Mosaic, Ceramic, Marble, Polished Granite, Industrial flooring, Flat Roof (R.C.C), Sloped roof (R.C.C. and Tile roof),
UNIT-III
Concrete Mix Design Concept of mix design, variables in proportioning exposure conditions. Procedure of mix design as per IS 10262-1982, Numerical examples of mix design. 05 Hours
Miscellaneous Topics: Plumbing, Formwork, Slip forming, Damp proof construction. Lean to
roof, Flat terraced roofing, Wooden truss (king post and queen post truses), Steel trusses. 05
Hours UNIT IV
Arch, Lintel, Chejja, Balcony Masonry arches, Classification, Stability of an arch, Lintels, Types and classifications, Functions, Chejja, Functions, Canopy - Functions, Balcony - Functions, Shoring, Underpinning, Scaffolding. 05 Hours
Plastering and Painting Purpose of plastering, Materials of plastering, Lime mortar, Cement Mortar, Methods of plastering, Stucco plastering, Lath plastering, Purpose of Painting, Application of paints to new and old surfaces, Distemper, Plastic emulsion, Enamel Powder coated painting to walls and iron and steel surfaces, Polishing of wood surface. 05 Hours
Text Books/Reference Books
1. By Punmia B.C. Laxmi Building Construction Publications Pvt,Ltd New Delhi 2008. 2. S. C. Rangwala Building Construction, 25th Edn. 2007, Character Publishing House, Anand
India. 3. Sushil Kumar Building Construction, Standard Publisher, New Delhi 2008 4. Concrete Mix Design Code IS 10262-1982
Question Paper Pattern for SEE: 1. Total of Eight Questions with two from each unit to be set uniformly covering the entire syllabus. 2. Each Question should not have more than four sub divisions. 3. Any Five Full questions are to be answered choosing at least one from each unit.
SI. No.
Course Objectives Course Outcomes
1. To learn different types of foundations and to
determine the SBC of soil.
Student will come to know the types of foundations, determination of SBC.
2. Different types of stairs, windows and ventilations, Different types of roofs and floors.
Different components of building in existing and finishing stage.
3. Different modules of building construction, Concrete mix design, plumbing, formwork.
To design a concrete mix for a given grade.
UCV315L: SURVEYING PRACTICE -1 CREDIT: 1.5 (0-0-3)
Chain Surveying 1. Types of Chains and Tapes 2. Setting out Perpendiculars at various points (point on the chain line and out side the chain line) 3. Setting out hexagon, pentagon 4. Over coming from obstacles in Chain Surveying Compass Surveying 5. Types of Compass & Difference 6. Setting out pentagon, hexagon Levelling 7. Differential Levelling 8. Booking and Reducing levels- i) Height of Instrument method and ii) Rise & Fall method
9. Fly levelling and Fly back levelling lO.Reciprocal levelling 11.Profile and cross section levelling Contouring 12.Block Contouring Demonstration of minor instruments: Instruments a) Plane Table and its accessories
b) Planimeter
c) Digital Planimeter REFERENCE BOOKS: 1. B.C. Punmia, 'Surveying' Vol. 1 Laxmi Publications, New Delhi.2005 2. A.M. Chandra "Plane Surveying Vol-1-', Newage International ® Ltd. 2nd Edn 2006
3. K. R. Arora, 'Plane Surveying' S. Chand and Company Ltd., New Delhi. 1998 Laboratory
Assessment
Each Laboratory Subject is evaluated for 100 marks (50 CIE and 50 SEE)
1. Allocation of 50 marks for CIEPerformance and Journal write-up: Marks for each experiment = 30 marks / No. of proposed experiments. One Practical test for 20 marks (5 write-up , 10 conduction , calculation, results etc 5 viva-voice).
2. Allocation of 50 marks for SEE 25% write-up, 50% conduction, calculation , results etc 25 % viva-voice.
UCV316L: BASIC MATERIAL TESTING LAB 1.5 CREDIT (0-0-3)
1. Tension test on mild steel and HYSD bars.
2. Compression test on Wood.
3. Torsion test on mild steel circular sections.
4. Bending test on Wood under two point loading.
5. Shear test on Mild steel.
6. Impact test on Mild steel (Charpy & Izod)
7. Hardness tests on ferrous and non- ferrous metals- Brinell's Rockwell and Vicker's.
8. Test on Bricks and Tiles.
9. Test on Fine aggregates "Moisture content, Specific gravity, Bulk density, Sieve Analysis and
Bulking"
10. Test on coarse aggregates: Absorption, "Moisture content, Specific gravity, Bulk Density,
Sieve Analysis
REFERENCE BOOKS:
1. Davis, Troxell and Hawk, "Testing of Engineering Materials", International Student Edition McGraw Hill Book Co. New Delhi.
2. Fenner, Mechanical Testing of Materials", George Newnes Ltd. London.
3. Holes K A, English "Experimental Strength of Materials", Universities Press Ltd. London.
4. Suryanarayana A K, "Testing of Metallic Materials", Prentice Hall of India Pvt. Ltd. New Delhi.
5. Relevant IS Codes
6. Kukreja C B- Kishore K. Ravi Chawla "Material Testing Laboratory Manual",
Standard Publishers & Distributors 1996.
7. M.L.GambhirConcrete Manual, Dhanpat Rai & Sons- New Delhi.
Laboratory Assessment
Each Labrotary Subject is evaluated for 100 marks (50 CIE and 50 SEE)
1. Allocation of 50 marks for CIE Performance and Journal write-up: Marks for each
experiment=30 marks /No. of proposed experiments. One Practical test for 20 marks (5
write-up , 10 conduction , calculation, results etc 5 viva-voice).
2. Allocation of 50 marks for SEE 25% write-up, 50% conduction, calculation, results etc 25
% viva-voice.
IV SEMESTER
UMA401C ENGINEERING MATHMATICS - IV
CREDITS (4-0-0)
UNIT-I
COMPLEX VARIABLES: Analytic functions, Cauchy-Reimann equations in Cartesian and Polar forms -consequences, construction of analytic function (Cartesian and polar forms), Definition of Conformal transformations: Z2, ea and z +a2/z (ztO) Bilinear transformations.
Complex Integrations: Line integral, Cauchy's theorem - corollaries, Cauchy's integral formula. Taylor and Laurent's series (statements only), Singularities, Poles, Calculation of Residues, Residue theorem (Without proof) - problems. Contour Integration. 14 Hours
UNIT-II SPECIAL FUNCTIONS: Series solution of ordinary differential equation about ordinary point and regular singular point, Hypergeometric, Hermite, Legendre, Bessels and Chebeschev equations. Recurrence formulae, Generating function, orthogonal property, Rodrigue's formula. 14 Hours
UNIT-III STATISTICS AND PROBABILITY: Curve fitting by the method of least squares: y = a + bx, y = ab2, y = a + bx + c x2. Correlation and Regression. Probability - addition rule, conditional probability, multiplication rule, Bayes' rule.Discrete and continuous random variables- PDF-CDF, Binomial, Poisson and Normal distributions. 12 Hours
UNIT-TV
SAMPLING DISTRIBUTION:
Sampling, Sampling distribution, Standard error, Null and alternate hypotheses, Type I and Type II errors, Testing of hypothesis for Means, Level of Significance for Means, Confidence limits for Means, large and small samples, Student's t-distribution. Central limit theorem (without proof)
JOINT ROB ABILITY DISTRIBUTION AND MARKOV CHAINS:
Concept of joint probability, Joint distributions - discrete random variables, Independent random variables, Markov chains, higher transition probabilities, stationary distribution of regular Markov chains and absorbing states. 12 Hours
Text Books:
1) Higher Engineering Mathematics (36th edition-2002) by Dr. B S Grewal, Khanna Publishers, New Delhi.
2) Theory and Problems of Probability by Seymour Lipschutz (Schaum' Series) - Relevant articles of Chapter 5 and Chapter 7.
REFERENCE BOOKS: Advanced Engineering Mathematics by E Kreyszig
(John Wiley & Sons)
Question Paper Pattern: 1. Total of Eight Questions with Two from each unit to be set uniformly covering the entire
syllabus.
2. Each question should not have more than 4 sub divisions.
3. Any five full questions are to be answered choosing at least one from each unit.
UCV402C: STRUCTURAL ANALYSIS I
4 CREDITS (4-0-0)
UNIT-I
Introductory Concepts: Structural Systems; Forms of structures- one, two and three dimensional
structures, Compatibility and Constitutive relations, material and geometric linearity and
nonlinearity, Determinate and indeterminate structures-Degree of Indeterminacy (Static and
Kinematic). 06 Hours
Deflection of beams by Moment Area & Conjugate beam methods: Moment area theorems and
conjugate beam theorems. Analysis of statically determinate beams. Numerical problems.
07 Hours
UNIT-II
Strain Energy: Strain Energy and Complementary strain energy, Strain energy due to axial load,
bending, shear and torque., Principle of virtual work; Castigliano's theorems- I. Numerical
problems on deflections of statically determinate beams and trusses using Castigliano’s theorem-I
and unit load methods. 13 Hours
UNIT-III
Analysis of Fixed beams and Propped cantilevers: Castigliano’s theorem-II(Proof not
included)Analysis by Castigliano’s theorem-II and consistant deformation method. 07 hours
Analysis of continuous beams: Clapeyron’s theorem of three moments. Problems on Continuous ,
Fixed and propped cantilever beams. 06 hours
UNIT-IV
Torsion of circular shafts Introduction, Pure torsion, assumptions, torsion equation for circular
shafts, Strength and stiffness, Torsional rigidity and polar section modulus. Power transmitted by
shaft, solid and hollow circular sections. 07 hours
Elastic stability of columns Introduction, Euler’s theory on columns, Effective length , slenderness
ratio, Short and long columns, radius of gyration, buckling load, Assumptions, derivations of Euler’s
Buckling load for columns for different end conditions, Limitations of Euler’s theory, Rankine’s
formula. 07 hours
Text Books:
1. C S Reddy-Basic Structural Analysis, 2nd Edition, Tata Mcgraw Hill, New Delhi-2003
2. B C Punmia, Ashok Kumar Jain, Aran Kumar Jain Theory of structures Vol-I & II Laxmi Publications, New Delhi-2004
3. Ramamrutham, R Narayan-Theory of structures, 8th Edition, Dhanpt Rai Publishing Company, New Delhi-2008
Reference books
1. R.C.HibblerStructural Analysis, 5th Edition, Pearson Education Asia, NewDelhi-2002 2. Norris and Wilbur Elementary Structural Analysis, 4th Edition, Tata McGraw Hill, New
Delhi-2006 3. Devadas Menon Structural Analysis 1st Edition, Alfa Science International Ltd -2007
4. C.K. Wang Intermediate Structural analysis
Question Paper Pattern for SEE: 1. Total of Eight Questions with two from each unit to be set uniformly covering the entire syllabus.
2. Each Question should not have more than four sub divisions.
3. Any Five Full questions are to be answered choosing at least one from each unit.
Sl. No. Course Objectives Course Outcomes
1. The basic concepts, structure and application of Structural analysis.
To develop an ability to apply knowledge of mathematics science and engineering.
2. To work from the basis of mechanics and energy principle to formulate the strength and stiffness methods of analysis of structures.
Develops an ability to aquire the knowledge of solution procedures & hence analyse structures.
3. To work on various determinate and indeterminate structures like beams, frames, trusses and arches and cables.
Develops an ability to carry out force analysis & deformation analysis of beams, frame & trusses.
4. To utilize these models to analyze structural responses to variety of loads.
Students develop an ability to identify formulate and solve an engineering problem.
5. This helps the students in using modern structure analysis software & forms a basis for learning structural analysis II.
Students develop an ability to use the techniques skills, modern engineering tools necessary for engineering practice.
UCV405C: HIGHWAY ENGINEERING
3 CREDITS (3-0-0)
UNIT-I
Introduction
A brief idea about the historical development of road construction in India and abroad Importance of transportation modes-characterstics-comparison of different modes. Highway development in India- Jayakar committee, recommendation- CRF-IRC-3Mtwenty yearroad development plan and problems. 05 Hours
Highway planning ,alignment and surveys Planning surveys-master plan-saturation system. Factors controlling alignment-ideal alignment Engineering surveys for highway locations- problems on phasing 05 Hours
UNIT-II
Highway Geometric deign-1: Importance, Factors controlling the design of geometric elements, highway cross section elements- pavement surface characteristics, camber, width of carriage way, shoulder width, formation width, right of way, typical cross section of roads 04 Hours Highway Geometric design 2: Sight Distances Types and importance-Design of horizontal and vertical alignment- Numerical problems on above (No. derivation of formulae)
06 ours
UNIT-III
Highway Materials:_ Properties and requirement of sub grade Soil- Tests on Soils (CBR and plate load tests) properties and requirement of road aggregates Bitumen Tar- Emulsion-cut back (Tests are not included) 04 Hours Design of Highway Pavement: Types of Pavements- Factors to be considered in the design of pavements- IRC method of flexible pavement design based on GI- CBR- CSA method. Wester gaards analysis of wheel load stresses- Temperature stresses in rigid pavements- Problems on above. 06 Hours
UNIT-IV
Highway Constuction: General specification and construction of Earth road- Gravel roads- WBM roads- Bituminous roads- cement concrete pavements. 05 Hours
Hiwhway drainage and Economics: Surface and subsurface drainages system for roads types, functions. Highway user benefits VOC using charts only. Highway Costs- Economics analysis by annual cost method and benefit cost ratio methods. BOT and BOOT concepts. 05 Hours
Test Books:
1. Khanna, SK and Justo, Highway Engineering- CEG, Nemchand and Bros, Roorkee, 8th Edition, 2003 2. Kadiyali, L.R. Highway Engineering Khanna Publishers, New Delhi, 5th Edn. 2008.
3. Subramanyam, K.P. Transportation Engineering- I Scitech publications, Chennai., 2007
Reference Books:
1. Relevant IRC codes
2. Principles of Transportation Engineering- Partha Chakra Borthy, Prentice-Hall.
3. Specifications for Roads and Bridges- MoRT&H, IRC, New Delhi (2001).
Question Paper Pattern for SEE: 1. Total of Eight Questions with two from each unit to be set uniformly covering the entire
syllabus. 2. Each Question should not have more than four sub divisions.
3. Any Five Full questions are to be answered choosing at least one from each unit. 3 .Any five full questions are to be answered.
SI. No. Course Objectives Course Outcomes
1. Planning, designing, construction and maintains of pavements.
Design the various geometric elements of roads such as cross sectional elements, super elevation, extra widening, horizontal curves, and vertical curves.
2. To teach the details of the cross-sectional element.
Design the pavements with respect to G I method, C B R method and C S A method.
3. To teach the geometric design of various components of pavements.
Construct the different types of pavements.
4. To teach the different construction methods. To teach drainage in roads.
UCV411C : FLUID MECHANICS
04 Credits (4-0-0)
UNIT-I Scope and importance of FM, Definition of fluid, Types of fluids, Difference between fluid and solids, Difference between liquid and gas. 04Hours Definition units and Dimensions of Mass density, Specific volume, specific weight, Relative density, viscosity, Newton's law of viscosity, Newtonian & Non Newtonian fluids ,Ideal and Real fluids Definitions of surface tension, Equation for stability of bubble, Capillarity, Theory and problems, Problems on Newton's law of viscosity. 07Hours
UNIT-II Definition of pressure units and dimensions, pressure at a point, Pascal's law, Hydrostatic law, different types of pressure and its measurement, manometers and their classification, simple manometer. Theory and problems Differential manometers theory and problems, problems on fluid pressure, Mechanical pressure gauges and its use. 06 Hours
Definition of Total pressure, centre of pressure, centriodal depth, centriod, depth of centre of pressure MI and centroid table for different geometric shapes, Equation for hydrostatic force and depth of CP on a plane surface (vertical and inclined), Problems on hydrostatic force vertically and inclined submerged surface, hydrostatic force on curved submerged surface problem. 07 Hours
UNIT-III
Description of fluid flow by Lagrangian and Eulenian approaches, classification of flow, Definition of Path line streamline streak line stream tube, one, two and three dimensional flows, Rotational & irrotational flows, Acceleration and Derivation of continuity equation in differential form. Definition of velocity potential function, stream functions, stream line equipotential line and relation between them, Laplace equation, problems on continuity equation, velocity potential and stream function. 07 Hours Definition, concept of force, Equation of motion, Introduction to non dimensional number. Derivation of Euler's equation and Bernoulli's equation for ideal & real fluid with assumptions and limitations. Problems on Bernoulli's equation Application of Bernoulli's equation to pitot tube, venturimeter and problems on these. 06 Hours
UNIT-IV Definition, Reynolds's number classification of flow, HGL and TEL, major and minor losses in pipe flow, Derivation of equation for head loss due to friction (Darcy's equation), friction factor for commercial pipes, moody diagram, flow through compound pipes, (Series Parallel, Equivalent size), problems on Darcy's equation for Head loss due to sudden expansion and contraction and problems on minor losses Problems on compound pipe. 07 Hours
Flow through orifice and mouthpieces hydraulic coefficient of an orifice and relation between them. Equation for coefficient of velocity. Coefficient discharge and coefficient contraction relation between them. Flow through notches , classification of notches equation for discharge over V-notch, rectangular and trapezoidal crippoletti notch and problems, on them Broad crested weir Equation for discharge of Broad crested weir and problems. 06 Hours
TEXTBOOKS: 1. P.N. Modi and S.M. Seth Hydraulics and Fluid Mechanics Standard Book House, New
Delhi.2006 2. Dr. R.K. Bansal, Fluid Mechanics and Hydraulic Machines Lakshmi Publications,
NewDelhi.2007 3. Jain, A.K., "Fluid Mechanics", Khanna Publishers, New Delhi-2007.
REFERENCE BOOKS : 1. James F Cruise, Vijay P. Singh Elementary Hydraulics (1st Edition), MohsanM. Sherif, Thomson Learning. 2. K.R. Arora Fluid Mechanics, Hydraulic and Hydraulics, Standard Book House, New Delhi-2007. 3. John F. Douglas Fluid Mechanics. Pearson Education New Delhi, 4. V.L.Streeter&B.WylieFluid Mechanics Lakshmi Publications, New Delhi.2007
5. H.M. Raghunath Fluid Mechanics CBS Publication New Delhi.2008
6. M.ManoharFluid Mechanics. Vol-I Vikas Publishing house Pvt Ltd New Delhi.2008
Question Paper Pattern for SEE: 1. Total of Eight Questions with two from each unit to be set uniformly covering the entire syllabus. 2. Each Question should not have more than four sub divisions. 3. Any Five Full questions are to be answered choosing at least one from each unit.
SI. No.
Course Objectives Course Outcomes
1. The students are introduced to the basic concepts of fluid mechanics and their applications in engineering.
Students will understand scope and importance of Fluid Mechanics.
2. The students develop the ability to formulate problems, identify the basic mechanisms, make the necessary approximations, and solve the problem by mathematical analysis or by application of experimental data.
Learn types of fluid and properties of fluids, viscosity and its application. Using dimensional analysis will also help to develop effective Problem-solving skills.
3. Students should develop knowledge, skills and abilities to solve the problems related to fluid-statics and fluid-dynamics.
Learn about one, two and three dimensional flows.
4. Students should understand application of theory to experimental and field data.
Compute pressure distribution in a static fluid, measurement of pressure and rectangular and trapezoidal notches.
UCV413C: SURVEYING II
4 Credits (4-0-0)
Unit-I Theodolite: Parts of a theodolite, fundamental lines and their desired relations, Temporary adjustments. Measurement of horizontal and vertical angles by repetition and reiteration methods 05 Hours
Trigonometric Surveying : Heights And Distances : Determination of height of (i) An accessible object and (ii) Inaccessible object- single plane and double plane methods. Determination of distance and difference in elevation between two inaccessible points. 08 Hours
Unit-II
Simple Curves-Definition, Designation-Elements of curves-Definition & derivation. Setting
out of simple curves a) Linear methods-perpendicular offsets from long chord and chords
produced method & b) Instrumental methods-Rankine's Method. 05 Hours
Compound Curves-Definition, Elements, Various cases (No derivations), setting out- instrumental method, Numerical problems. 04 Hours
Reverse curves- Definition, Elements, parallels straights method (No derivation), setting out by instrumental method. 04 Hours
Unit-III
Transition Curves (cubic parabola) -Definition, Super Elevation, Determination of length of transition curves (03 methods) (No derivations), Setting out by instrumental method, Numerical problems. 08 Hours
Vertical Curves- Definition and types, Determination of length of vertical curves-summit & valley curves (No derivation) Numerical problems. 05 Hours
Unit-IV
Tacheometry-Defmition, instruments used, Characteristics-Types of techeometry, stadia method, principle - determination of constant(Horizontal line of sight). Derivation of height & distance formulae, staff held vertical & normal to the line of sight. Analectic lens, Movable hair method-Principle, Stadia diaphragm, Tangential method-principle, height & distance formulae, numerical problems on above methods-Reduction of stadia notes. 10 Hours
Advanced Surveying Instruments: Total Station, GPS Instruments - working principle and use.
03 Hours
TEXTBOOKS:
1 B.C. Punmia, Surveying Vol- II 12thEdn- Std. book house LaxmiPublications-2007, New
Delhi.
2. A.M. Chandra Higher Surveying New age international (P) Ltd, 2nd Revised Edn. 2005 3 S SBhavikatti- Surveying and Levelling Vol H 1stEdn, 2008 IK International Publishing
House Pvt Ltd New Delhi
REFERENCE BOOKS:
1. A.M. Chandra, Plane surveying Vol H Newage International Ltd. New Delhi 2005 2. K.R.Arora, Plane Surveying , 5thEdn 2003, Standard book house Delhi.
UCV-425C: BUILDING PLANNING AND DRAWING
3 Credits (2-0-2)
1. To prepare working drawing of component of buildings
i) Stepped wall footing and isolated RCC column footing.
ii) Fully paneled and flush doors
iii) Half paneled and half-glazed window
iv) RCC dog legged and open well stairs
v) Steel truss
2. Functional design of building (Residential, Public and Industrial), positioning of various components of buildings, orientation of buildings, building standards, bye laws, set back distances and calculation of carpet area, plinth area and floor area ratio
3. Development of plan, elevation, section and schedule of openings from the given line diagram of residential buildings
i) Single Storied Building with Two bed room
ii) Two Storied Building
4. Functional design of building using inter connectivity diagrams (bubble
diagram), development of line diagram only for following building
i) Primary health centre
ii) Primary school building
iii) College canteen
iv) Office building
5. For a given single line diagram, preparation of water supply, sanitary and
electrical layouts
REFERENCE BOOKS:
1. Shah.M.H and Kale CM "Building Drawing" Tata Mc Graw Hill Publishing co Ltd., New Delhi, 4th Edi, 2008
2. National Building Code, BIS, New Delhi
3. Sushil Kumar "Building Construction", Standard Publications, New Delhi, 19th Edn.
4 Gurucharan Singh"Building Construction",,Standard Publishers &distributors,New Delhi, 4th Edn. 1989.
CIE Marks
30 marks for term work 20 marks for test conducted at the end of the semester of 4 hrs
duration on the line of syllabus mentioned above
Term Works Details
Sheet No : 1 to 4 from chapter No-1 Sheet No : 5 to 8 from chapter No-3 Sheet No : 9 to 13 from chapter No-4 Sheet No : 14 to 15 from chapter No-5
Scheme of Examination Part-A
Compulsory question from chapter No-3 for 60 marks Plan Elevation Section Schedule
of opening Marks
Part-B
Four questions from chapters 1, 2, 4 and 5 should be set out of which Two have to be
Sl. No.
Course Objectives Course Outcomes
1. Students are made to prepare working drawing of various components of building such as foundation, doors, windows, stairs, trusses etc.
After studying the course the student is able to prepare the working drawings for various components of the building such as foundation, doors, windows, stairs, trusses etc.
2. Develop plan, elevation, and sectional elevation of single storied and double storied buildings.
Prepare the plane, elevation and sectional elevation for a single and double storey two bed room house.
3. To develop bubble and single line diagram for the public buildings.
Prepare the bubble diagram and single line diagram for various public buildings like, schools, canteens, hospitals, office buildings etc.
4. To develop the single line diagram for water supply, sanitary and electrical layouts.
Prepare water supply and sanitary layouts
UCV408L: ENGINEERING GEOLOGY LABORATORY
1.0 Credit (0-0-2)
1. Megascopic Identification of Minerals based on their Physical properties; Quartz and its varieties.
2. Megascopic Identification of Minerals based on their Physical properties; Felspars,Micas, Hornblende, Olivine, Serpentine, Asbestos, Kyanite, Talc, Garnet,CorundumandBarite.
3. Megascopic Identification of Minerals based on their Physical properties Carbonates and Ore minerals.
4. Megascopic Identification of Igneous Rocks based on Geological Properties- Granite, Syenite, Diorite, Gabbro, Dunite, Porphyries, Dolerite, Pegmatite, Basalt and Pumice.
5. Megascopic Identification of Sedimentary Rocks based on Geological Properties- Sand Stone, Lime Stone, Shale, Breccia, Conglomerate and Laterite.
6. Megascopic Identification of Metamorphic Rocks based on Geological Properties-Gneiss, Quartzite, Marble, Slate, Phyllite, Schist and Charnockite.
7. Milton O. Schimidt Wong, Fundamentals of Surveying Thomson Learning New Delhi.
8. S.K. Roy Fundamentals of Surveying Prentice Hall of India NewDelhi.2007 9. Arther Bannister et al. Surveying, M. Chill Newyork, 1949 10. Kanetkar Surveying,Vo III
Question Paper Pattern for SEE: 1. Total of Eight Questions with two from each unit to be set uniformly covering the
entire syllabus. 2. Each Question should not have more than four sub divisions. 3. Any Five Full questions are to be answered choosing at least one from each unit.
Sl. No. Course Objectives Course Outcomes
1. Setting out of horizontal curves by instrumental methods.
Knowledge of setting out works for buildings.
2. Handling of theodolite, point positioning traverse.
Knowledge of topography and route surveys and traces.
3. Setting and finding out of gradients, study of modern instruments like total station and global positioning system (GPS).
Knowledge of curves.
7. Study and Interpretation of standard Geological Maps. 8. Dip and Strike Problems. 9. Borehole Problems (On Level Ground). 10. Thickness Problems. Reference Books: 1. B.S.Satyanarayanswamy- Engineering Geology lab Manual, 1" Edn 1985,2003 Eurasia
Publication ,New Delhi 2. M.T.Maruthesha Reddy- Engineering Geology Practicals, 1stEdn 2002, New Age
International Pvt Ltd ,New Delhi 3. Dr. N.W.Gokhale-Manual of Geological Maps, 1stEdn 1987, CBS Publishers &
Distributors ,New Delhi
4. N.W. Gokhale- Exercises on geological Maps & Dip-Strike Problems, 1stEdn 1996, CBS Publishers &Distributors ,New Delhi
5. N.W.Gokhale-AGuide to Field Geology, 1stEdn 2001, CBS Publishers & Distributors ,New Delhi
Laboratory Assessment
1. Each Labrotary Subject is evaluated for 100 marks ( 50 CIE and 50 SEE) 1. Allocation
of 50 marks for CIE Performance and Journal write-up: 30 Marks One Practical test
for 20 marks.
2. Allocation of 50 marks for SEE 50% for Identification Of Minerals And Rocks 40%
for Problems and Maps 10% for Viva Voce
UCV414L: Concrete Testing Lab
1 Credit (0-0-2)
1. CEMENT: Normal consistency, setting time, soundness by Autoclave method, compression strength test and Air permeability test for finness, Specific gravity of cement
2. FRESH CONCRETE: Workability-slump, compaction factor and Vee Bee tests 3
HARDENED CONCRETE: Compression strength &Splittensile test.
REFERENCE BOOKS:
1. M.L.Gambhir "Concrete Manual" Dhanpat Rai & Sons New Delhi Note:
1. Minimum Ten Experiments are to be completed.
2. Candidate has to perform two experiments in the Semester Eng Examination
LABORATORYASSESSMENT:
1. Each Laboratory subject is evaluated for 100 marks (50 CIE and 50 SEE).
2. Allocation of 50 marks for CIE
REFERENCE BOOK:
1. M. L. Gambhir : Concrete Manual: Dhanpat Rai & sons New Delhi. Laboratory
Assessment
Each Labrotary Subject is evaluated for 100 marks ( 50 CIE and 50 SEE)
1. Allocation of 50 marks for CIE Performance and Journal write-up: Marks for each
experiment = 30 marks / No. of proposed experiments. One Practical test for 20 marks.
(5 write-up , 10 conduction, calculation, results etc 5 viva-voice). Allocation of 50
marks for SEE 25% write-up, 50% conduction, calculation, results etc + 25 %
viva-voice.
UCV415L- Surveying Practice - II 1.0 Credit (0-0-2)
1. Measurement of Horizontal angle by method of a)Repetition and b) Re-iteration method
2. Measurement of Vertical angle.
3. Measurement of horizontal distance and elevation by Single plane method when base is a)accessible and b)when base is in-accessible.
4. Measurement of horizontal distance and elevation by Double plane method when base is in-accessible.
5. To determine Tacheometric constants.
6. To determine inaccessible distance by tacheometry when line of sight is a) horizontal andb)inclined.
7. To setout a simple curve by linear methods:
a) Offsets from long chord i) Exact method ii) App. Method
b) Offsets from tangents i)Perpendicular ii) Radial
c) Successive bisection of arcs
d) Deflection distances (Chords produced)
8. To setout a simple curve by Instrument method: Rankine's deflection method
9. To setout a compound curve with angular methods.
10. To set out center line & excavation line of a rectangular room using offsets from single base line method & a column of a building using double base line method
11. To determine height of remote object, horizontal distance & co-ordinates of points by using total station.
Laboratory Assessment
Each Labrotary Subject is evaluated for 100 marks ( 50 CIE and 50 SEE) 1.Allocation of 50
marks for CIE
Performance and Journal write-up:
Marks for each experiment = 30 marks / No. of proposed experiments.
One Practical test for 20 marks. (5 write-up , 10 conduction, calculation ,results etc 5 viva-voice).
2. Allocation of 50 marks for SEE
□ 25% write-up, 50% conduction, calculation, results etc 25 % viva-voice.
Reference Books
1. B. C. Punmia, Surveying Vol-II, 12th Edn. Standar Book House, Laxmi Publication -2007, New Delhi
2. A.M. Chandra, Plane Surveying Vol-II, Newage International Ltd.
3. K. R. Arora, Plane Surveying, 5th Edn. 2003, Standard Book house, New Delhi
4. S. S. Bhavikatti - Surveying & Levelling Vol-II, 1st Edn. 2008,1. K. International Publishing House Pvt. Ltd. New Delhi.
UMA400M: ADVANCED MATHEMATICS-H
(Mandatory Subject) (Common to all branches)
1) Solid Geometry:
Distance formula (without proof), Division formula, Direction cosines and Direction ratios, planes and straight lines, angle between the planes. 12 Hours
2) Vectors: Vector Algebra: Vector addition, multiplication (Dot and Cross products), Triple products. Vector differentiation: Velocity, Acceleration of a vector point function, gradient, curl and divergence, solenoid and irrotational fields, simple and direct problems. 12 Hours
3) Laplace transforms: Definitions, Laplace transforms of elementary functions, derivatives and integrals. Inverse transforms, Applications. Laplace transforms to differential equations. 16 Hours
Text Books:
1. Higher Engineering Mathematics B S Grewal 36th edition, Khanna Publisher
2. Higher Engineering Mathematics H K Dass 25th Edition, S.Chand and Sons publications
Question Paper Pattern:
1. Total of Eight Questions to be set uniformly covering the entire syllabus.
2. Each question should not have more than 4 sub divisions.
3. Any five full questions are to be answered