Syllabus IIIrd Semester
Theory:
•
Mechanics of Deformable Solids (3-1-0)
•
Basics of Surveying (3-1-2)
•
Hydrology (3-1-0)
Lab:
•
Civil Engineering Drawing (0-0-2)
•
Strength of Materials (0-0-2)
•
Survey (0-0-2)
CVL
203: Mechanics of Deformable Solids (3-1-0)
Unit I:
Section I:
Introduction
Strength of Materials, Conditions
of Equilibrium, Types of stresses and strains, Degree
of freedom, Definition of
determinate/ indeterminate structures.
Section II: Concept
of Stress and Strain Tensor
Principle of St. Venant, Hooke’s
law, stress strain diagram, Young’s Modulus, factor of safety, axially loaded
bars, Varying cross-section and Load, Compound bars, temperature stresses,
Concept of Stress Tensor , Plane stress, Concept of Strain Tensor, Plane
Strain. Stresses induced due to uniaxial stress, stresses induced by state of
simple shear, stresses induced due to biaxial stress, Mohr Circle, Poisson’s
Ratio, Principal stresses and principal planes, maximum shear stresses,
Principal strains, Analysis of strain, Volumetric strain, strain energy, Strain
energy, Resilience, Impact load, shear strain energy, Bulk Modulus, Relation
between between various moduli. Definition of toughness. Experimental methods
for measurement of strain using 1) Mechanical Strain Gauge, 2) Electrical
Resistance Strain Gauge, 3) Introduction to optical method.
Section III: Shear
Force and Bending Moment (Quick revision)
Types of structures, loading,
supporting conditions, structural actions, equation of equilibrium, SFD and BMD
under different loads for determinate beams, graphical methods.
Section IV: Normal
& Shear Stresses in Beams
Pure bending, Moment of inertia
(quick revision), Bending stresses, Shear stress in beams, Shear Connector,
Composite beams (layered beam), Reinforced concrete beams
Section V: Torsion
Circular shafts, strain Energy in
Torsion, Shafts under the varying torque, Compound
shafts,
Section VI: Slope
and Deflection
Slope and deflection by 1)
Integration method, Macaulays Method 2) Moment- area
Theorem (semi-graphical method)
3) unit load method
Books and
References:
1. Strength of Materials:
Timoshenko and Young.
2. Strength of Materials: Popov
3. Strength of Materials: Gere
and Goodno
4. Strength of Materials: PK
Singh and Jha, Wiley Publications
CVL
201: Basics of Surveying (3-1-2)
Unit 1:
Section I: Introduction to Surveying
Definition, Branches of
Surveying, Basic principles of Surveying, Basic measurements and fixing of
details, Importance of surveying to Civil Engineers, Co-ordinate systems, Maps
and Scales, Errors and their type in measurements [5]
Section II: Coordinate systems and datum transformation
Important surfaces in geodesy:
earth surface, geoid, MSL, reference ellipsoid; Reference systems: 2D and 3D
coordinate systems and transformations; Map projection, UTM projection [4]
Section III: Linear
Measurements
Different methods of distance
measurement, tape measurements, corrections to linear measurements, Optical
methods of distance measurements (tachometer), Electronic methods of distance
measurements (EDMI), Error sources in EDMI and calibration. [3]
Section IV: Compass
surveying
Bearing and Angles, Reference
meridian, Compass surveying (Magnetic bearing, magnetic declination, local
attraction errors and adjustment. Compass traverse. [3]
Section V: Angular
Measurements
Theodolite, parts and
relationship among fundamental lines, Measurement of horizontal and vertical
angles, Temporary and permanent adjustments and tests. [5]
Section VI: Total
station
Principles, classification,
salient features of total station, COGO utilities [2]
Unit 2:
Section VII:
Control surveying
Traversing: types, closing error,
Gales table and adjustment methods; Triangulation: purpose, base extension,
figures, procedure, strength of figure ; Trilateration and Triangulateration [8]
Section VIII:
Leveling and Contouring
Definitions, Methods of
determining elevation, Classification of levels, Temporary and permanent
adjustment of levels, method of reduction of levels, Sources of errors and precision,
Methods of representation, Definition and characteristics of contours, Methods
of contouring and its usage [8]
Section VIII: Map
numbering
Survey of India system of map
numbering; Map index and map numbers at different scales [2]
Books and
References:
1. Schofield, W,
Engineering Surveying, Butterworth Heinemann, Oxford
2. A.M.Chandra, Plane Surveying,
New Age International Publishers
3. Arora, K.R.,
“Surveying”, Vol. I & II Standard Book House, Delhi,
4. Bannister, A.
and Baker, R., “Solving Problems in Surveying”, Longman
Scientific
Technical, U.K., 1994.
5. Chandra, A.M. “Higher
Surveying”, New Age International Publishers, Delhi
6. Chandra, A.M. “Plane
Surveying”, New Age International Publishers, Delhi
7. Kennie, T.J.M.
and Petrie, G., “Engineering Surveying Technology”,
Blackie & Sons
Ltd., London, 1990.
9. N.N.BASAK,
Surveying and Levelling, Tata McGraw-Hill
11. S. K. Duggal, Surveying and
Levelling, Vol. I and II, Tata Mc Graw-Hill
12. S.K.Husain, M.S.Nagaraj, Text
book of Surveying, S. Chand and Company
13. T .P. Kanetkar
& S. V, Kulkarni, Surveying and Levelling Part I and II
Pune Vidhyarthi
Griha Prakashan
(Books marked “bold italics” are prescribed text books)
CVL
202: Hydrology (3-1-0)
Unit I
Section I:
Introduction
Definition and scope, Hydrology
in relation to water resources development, Hydrologic Cycle, The necessity for
hydrologic data, the global water budget, Practical applications.
Section II:
Hydrometeorology
Introduction, constituents of
atmosphere, the weather and the atmosphere, the general circulation, air masses
and fronts, climate and weather seasons in India.
Section III:
Precipitation
Forms of precipitation,
measurement of precipitation, Recording and Non-recording type rain gauges,
errors in measurement of rainfall. Consistency of rainfall records, Location of
rain gauge stations, analysis and interpretation of rainfall data, Average rainfall
over a catchment, Arithmetic, Theissen polygon and isohyetal methods, Probable
maximum precipitation (PMP), Rainfall intensity - duration curves.
Unit II
Section IV:
Infiltration and Run off
Introduction, factors affecting
infiltration, measurement of infiltration, infiltrometers, infiltration
equations, infiltration indices, effect of infiltration on runoff and recharge
of ground water, Runoff, components of runoff, estimation of runoff,
calculations by infiltration method, rainfall-runoff relationship, rational method
of estimating runoff, Basin yield.
Section V:
Hydrograph Analysis
Introduction, characteristics of
the hydrograph, Effect of rainfall distribution on the shape of hydrograph,
hydrograph separation, Unit hydrograph, Derivation of the unit hydrograph,
Instantaneous Unit Hydrograph, S – Hydrograph, Unit hydrograph from the complex
storms, applications of Unit hydrograph.
Section VI: Ground
Water
Introduction, occurrence of
ground water, aquifers, types of aquifers, flow and storage parameters, ground
water movement, Darcy’s Law, permeability, steady and unsteady flow to wells in
Confined and Unconfined aquifers, ground water exploration, Pumping test and
recuperation test.
Books and
References:
1. Applied Hydrology – Ven Te
Chow, David R. Maidment, Larry W. Mays (McGraw
Hill)
2. Applied Hydrology –Linsely
R.K. Kohler, M.A. and J.L.H. Paulhus (McGraw Hill)
3. Ground Water Hydrology – D. K.
Todd, John wiley and Sons
4. Engineering Hydrology – K.
Subramanya (Tata McGraw Hill)
5. A Text Book of Hydrology – P.
Jaya Rami Reddy (Laxmi Publications)
6. Hydrology Principles and Analysis– H. M. Raghunath (New Age
International)
