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UG – LESSON PLAN
B.Tech I – year - III Semester
Lesson Plan
B.Tech Civil Engineering- ----- Semester III (2011-12)
Course Code CE0201
Course Name MECHANICS OF SOLIDS
Prerequisites ----
Category STRUCTURAL ENGINEERING
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 Resolution of forces and to comprehend the various forces (Internal
and External) and their action on awareness on the properties of
plane areas.
2 To create awareness on the properties of plane areas.
3 To analyse and determine the internal forces in pin jointed plane
trusses by various methods.
4 To study the behaviour of determinate beams and examine the
internal forces, stresses induced and learn the theory of torsion and
stresses developed in solid, hollow shafts and helical springs.
5 To analyse the state of stress (two dimensional) and evaluate the
principal stresses and principal planes by analytical and graphical
treatment.
Student outcomes
(a) An ability to apply knowledge of mathematics, science, and engineering
(e) An ability to identify, formulate, and solve engineering problems
(k) An ability to use the techniques, skills, and modern engineering tools necessary
for engineering practice.
Section: A, B, C & D
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
1,2 Vectors – Concepts of forces – unit
vector – Direction cosines- Concept of
particle and rigid body
1 a 4,1
3,4 Resolution of forces – resultant –
concurrent and parallel forces in a plane
– Free body diagram – conditions of
equilibrium
1 a 4,1
5,6 Moment of force – finding the reactions
of beam – Varignon’s theorem –
Principle of virtual work – equivalent
force system
1 a 4,1
7-10 Rigid bodies and deformable solids –
tension, compression and shear stresses
– strain – Lateral strain – Poisson’s ratio
– Volumetric strain – elastic constants –
1 a 3,6
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
Deformation of simple bars
11-14 Deformation of Compound bars –
Composite sections – Thermal stresses
1 a, e 3,6
15-16 Cycle Test - I
17-20 Principal stresses and principal planes –
Graphical treatment – Mohr’s circle of
stress
5 a, e 3,6
21-22 Thin Cylinders and spherical shells –
deformation of thin shells – Stresses at a
point in thin shells.
1 a, e 3,6
23 Surprise Test
24-25 Thick Cylinders – Lame’s equation –
Compound cylinders – Shrink fit.
1 a, e 3,6
26 Areas and volumes – Theorems of
Pappus and Guldinus
2 a 3,6
27-32 Centroid of composite areas and
moment of inertia of areas – polar
moment of inertia – radius of gyration
2 a 3,6
33-34 Cycle Test – II
35 Mass moment of inertia of standard thin
plates and simple solids
2 a 3,6
36-42 Stability and Equilibrium of plane
frames – Perfect frames – Types of
Trusses – Analysis of forces in truss
members – Method of joints – Method
3 a,e,k 3,6
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
of Sections
43 Analysis of Trusses – Tension
Co-efficient method – Graphical method
3 a,e,k 3,6
44 Beams – types of support – types of
load
4 a,e,k 3,6
45-50 S.F and B.M in beams – Cantilevers,
Simply supported and overhanging
beams with different types of loading –
Relationship between B.M and S.F
4 a,e,k 3,6
51-54 Theory of simple bending – Bending
stress and Shear stress distribution for
various cross sections – Analysis of
stresses – load carrying capacity –
Proportioning of sections. Shear flow –
beams of uniform strength.
4 a,e,k 3,6
55-56 Theory of pure torsion – stresses and
deformation in circular solid and hollow
shafts – power transmitted by shafts
4 a,e,k 3,6
57 Stresses in helical springs - Deflection
of springs.
4 a,e,k 3,6
58-60 MODEL EXAMINATION
Text Books
1. Beer and Johnson, Mechanics for Engineers, Statics and Dynamics, Mc Graw
Hill Book Company, 1987.
2. Punmia B.C., Ashok Kumar Jain, Arun Kumar Jain, Mechanics of Materials,
Laxmi Publications (P) Ltd., 2003.
3. Rajput.R.K., Strength of Materials, (Mechanics of Solids), S.Chand and
Company Ltd., New Delhi, 2004.
Reference Books
4. Rajesekharan and Sankarasubramaniyan.M., Engineering Mechanics, (Statics
and Dynamics), Vikey Publishing House Pvt. Ltd., 1999.
5. Timoshenko.S.P. and Gere.J.M., Mechanics of Materials, CBS Publishers,
Delhi, 2 ED.1984.
6. Ramamruthan.S and Narayanan.R., Strength of Materials, Dhanpat Rai
Publishing Company, 2002.
7. Junnarkar.S.B., Mechanics of Structures, Vol.I, 21st Edition, Charotar
Publishing House, 1995.
8. Srinath.L.N., Advanced Mechanics of Solids, Tata McGraw Hill Publishing
Company Ltd., New Delhi, 1994.
Faculty members handling
Section Faculty Name Signature
A & B Prof. M.Lakshmipathy
C & D Prof. K.S.Satyanarayanan
LESSON PLAN
B.Tech Civil Engineering- III Semester 2011-12
Course Code CEO203
Course Name ENGINEERING GEOLOGY
Prerequisites NIL
Category GEOLOGY
Instructional objectives
Instructional
objectives no.
Instructional objectives
1. To study the origin , development and ultimate fate of various surface features
of the earth
2. To understand the basic building units of which the solid crust of the earth
3. To understand the nature of geographic distribution of rocks and engineering
properties of rock on the earth
4 To understand the nature of geological structures and their importance on the
vil engineering
structures
5 To know the importance of geology in civil engineering practices
Student outcomes
Student
outcome
number
Student outcome
(a) an ability to apply knowledge of mathematics, science, and engineering
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(h) the broad education necessary to understand the impact of engineering solutions
in a global, economic, environmental, and societal context
(j) a knowledge of contemporary issues
(k) an ability to use the techniques, skills, and modern engineering tools necessary
for engineering practice
Section A
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
UNIT -1 GENERAL GEOLOGY
1 Scope of Geology in Engineering 1,2 d 1,2
2 Geological Agencies 2 a 2
3 External Agencies – Weathering and
Wind
1,2 a,j 2
4 River and Sea 1,2 a,e,j 2
5 Landslide 1,2 a,e,j 2
6 Internal Agencies - Earthquake 1,2 a,e,j 2
7 Plate Tectonics 1,2 a,e,j 2
8 Ground Water 1,2 a,e,j 2
UNIT-II- MINERALS OF THE EARTH'S CRUST
9 Internal Structure of the Earth and
Composition
1,2 and 3 a, e 1,2
10 Rock Forming Minerals 3 a,e,j 1,2
11 Physical Properties of Minerals 3 a,e,j 2
12 Physical Properties of Quartz and
Feldspar
3 a, e 2
13 Physical Properties of Mica and
Calcite
3 a, e 2
14 Engineering Significance of Clay
Minerals
3 a, e 2
15 Engineering Significance of Coal 3 a, e 2
16 Engineering Significance of Petroleum 3 a, e 2
UNIT - III ROCKS OF THE EARTH'S CRUST
17 Rocks and their study 1,3 d,k 1,2
18 Rock Cycle 1,3 d,k 1,2
19 Igneous Rocks 3 e, j, k 2
20 Sedimentary Rocks 3 e, j, k 2
21 Metamorphic Rocks 3 e, j, k 2
22 Engineering Properties 3 and 5 d,h,k 1,2
23 Uses and Indian Occurrence of
Granite and Diorite
3 e,h 2
24 Uses and Indian Occurrence of
Dolerite and Pegmatite
3 e,h 2
25 Uses and Indian Occurrence of Basalt 3 e,h 2
26 Uses and Indian Occurrence of Shale 3 e,h 2
Sandstone and Limestone
27 Uses and Indian Occurrence of
Breccia and Conglomerate
3 e,h 2
28 Uses and Indian Occurrence of Gneiss
and Schist
3 e,h 2
29 Uses and Indian Occurrence of Slate
and Quartzite
3 e,h 2
30 Uses and Indian Occurrence of
Marble.
3 e,h 2
UNIT- IV STRUCTURAL FEATURES OF ROCKS
31 Introduction to Structural features and
Terminology
1 and 4 a, h, j 1,2
32 Outcrop and Geological Map 1 and 4 a, h 1,2
33 Clinometer 5 a, k 1,2
34 Geological Structures - Folds 4 a, h,k 1,2
35 Faults and Joints 4 a, h,k 2
36 Engineering Considerations involves
Structures.
4 and 5 a, h,k 1,2
UNIT-V - GEOLOGY FOR ENGINEERING PROJECTS
37 Geological Investigations 2,4 and 5 a,d,h 2
38 Geophysical Investigations 3,4 and 5 a, e,k 2
39 Remote Sensing Techniques 4 and 5 a, e,k 2
40 Geological Considerations for Dam
and Reservoirs
4 and 5 a,d,e 1,2
41 Geological Considerations for Tunnels 4 and 5 a,d,e 1,2
and Road Cuts
42 Practice in Geology 4 and 5 a,d,k 1,2
43 Demonstration for Clinometer and
Electrical Resistivity Meter
4 and 5 a,d,k 2
44 Geological Maps - Identification of
Crystals
2 a,d,k 2
45 Identification of Minerals and Rocks 2 and 5 a,d,k 2
MODEL EXAMINATION
Text Books
1 .Garg S.K., Physical and Engineering Geology, Khanna Publication, New Delhi, 1999
2. Parbin Singh, Engineering and General Geology, Katson Publication House, 1997
Reference Books
1. Blyth, Geology for Engineers, ELBS, 1995
2. Legeet, Geology and Engineering, McGrawHill Book Company, 1998
3. M.T.Maruthesha Reddy, Engineering Geology Practical, New Age International Pvt
Ltd,
2003
Faculty members handling
Section Faculty Name Signature
A & B Dr.R.Annadurai
C & D Dr.R.Sivakumar
LESSON PLAN
B.TECH CIVIL ENGINEERING III SEMESTER 2011-12
Course Code CE0205
Course Name FLUID MECHANICS
Prerequisites NIL
Category P
Instructional objectives
No. Instructional objective
1 To know the importance, application and inter-relationship of various
properties of fluid
2 To study theories that explain the behaviour and performance of fluid when the
fluid is at rest
3 To study theories that explain the behaviour and performance of fluid when the
fluid is in motion
4 To study theories that explain the behaviour and performance of fluid when the
fluid is flowing through the pipe
5 To understand the utilization of dimensional analysis as a tool in solving
problems in the field of fluid mechanics
Student outcomes
No. Student outcome
a an ability to apply knowledge of mathematics, science, and engineering
e an ability to identify, formulate, and solve engineering problems
k an ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice
Lecture
No Date Topic IO SO Reference
Lecture
No Date Topic IO SO Reference
1 Introduction to Fluid Mechanics 1 a 1, 2,4
2 Applications of Fluid Mechanics 1 a 1, 2
3 Mass density, Weight density, Specific
gravity 1 a,e 1, 2,3
4 Viscosity, Newton’s Law of Viscosity 1 a 1, 2,3
5 Problems on Viscosity 1 a,e 1, 2
6 Problems on Viscosity 1 a,e 1, 2
7 Surface tension in a droplet, soap bubble
and liquid jet 1 a,e 1, 2,3
8 Capillarity 1 a,e 1, 2,3
9 Bulk modulus & Vapour pressure 1 a,e 1, 2,3
10 Total pressure and Centre of pressure 2 a 1, 2
11 Pressure on plane surfaces 2 a 1, 2
12 Horizontal, vertical and inclined surfaces 2 a 1, 2
13 Problems on inclined and vertical
surfaces 2 a,e 1, 2
14 Problems on inclined and vertical
surfaces 2 a,e 1, 2
15 Problems on Curved surfaces 2 a,e 1, 2
16 Buoyancy, Centre of Buoyancy and
Problems 2 a,e 1, 2
17 Types of Equilibrium 2 a 1, 2
18 Metacentre and Metacentric height 2 a,e 1, 2
19 Types of fluid flow 3 a 1, 2,5
20 Velocity and Acceleration 3 a 1, 2
21 Problems on velocity and acceleration 3 a,e 1, 2
22 Types of flow lines, control volume 3 a 1, 2
23 Continuity Equation in Cartesian 3 a 1, 2
Lecture
No Date Topic IO SO Reference
coordinates
24 Velocity potential and stream function 3 a 1, 2
25 Problems related to velocity and stream
function 3 a,e 1, 2
26 Flow nets, Navier-Stokes equation 3 a,e,k 1, 2
27 Euler’s equation and Bernoulli’s
equation & problems 3 a,e 1, 2,3
28 Vortex flow and momentum principle 4 a 1, 2
29 Boundary layer theory 4 a 1, 2
30 Reynolds experiment, Laminar &
Turbulent flow 4 a,e 1, 2
31 Major energy and minor losses, Moody’s
diagram 4 a,e,k 1, 2,5
32 Problems related to major and minor
losses 4 a,e 1, 2
33 HGL and TEL 4 a,e 1, 2,3
34 Flow between reservoirs 4 a,e 1, 2
35 Pipes in series and parallel 4 a,e 1, 2
36 Problems in series and parallel 4 a,e 1, 2
37 Pipe network 5 a,e,k 1, 2
38 Units and dimensions 5 a 1, 2
39 Dimensional homogeneity, Rayleigh’s
method 5 a 1, 2,3
40 Problems in Rayleigh’s method 5 a,e 1, 2
41 Problems in Buckingham’s Pi method 5 a,e 1, 2
42 Problems in Buckingham’s Pi method 5 a,e 1, 2
43 Model analysis, similitude, model laws 5 a 1, 2
44 Types of models, distorted and 5 a 1, 2
Lecture
No Date Topic IO SO Reference
undistorted models
45 Problems in models 5 a,e,k 1, 2
Text Books
1. P.N. Modi and S.M. Seth, Hydraulics and Fluid Mechanics, Standard Book
House, 2005
2. Rajput R.K., Fluid Mechanics and Hydraulic Machines, S. Chand and Company
Limited, 2005
Reference Books
3. F. M. White, Fluid Mechanics, Fourth Edition, WCB McGraw Hill
4. E. J. Shaughnessy, Jr., I. M. Katz and J. P. Schaffer, Introduction to Fluid
Mechanics, Oxford University Press, 2005
5. B. Massey and J. W. Smith, Mechanics of Fluids, Eighth Edition, Taylor &
Francis, 2006.
Faculty members handling the course
Section Faculty Name Signature
Dr. Deeptha Thattai
Mr. R. Sathyanathan
HOD/Civil
Lesson Plan
B.Tech Civil Engineering-III Semester 2010-11
Course Code CE0207
Course Name SURVEYING
Prerequisites NIL
Category P
Instructional objectives
Instructional
objectives no.
Instructional Objectives
1 To measure the land area by chaining and the methods of clearing
the obstacles.
2 To measure the area and distance between the points by compass
and plane table.
3 To measure the elevation of points for the preparation of map.
4 To measure the height and distance by theodolite.
5 To know the setting out works for construction purposes.
Student outcomes
Student Outcome
No.
Student Outcome
a an ability to apply knowledge of mathematics, science, and
engineering
e an ability to identify, formulate, and solve engineering problems
j a knowledge of contemporary issues
Lecture
No.
Date Topic Instructional
Objectives
Student
Outcome
Reference
UNIT I
CHAIN, COMPASS AND PLANE TABLE SURVEYING
1 CHAIN : Definition - Principles -
Classification - field and office work -
conventional signs - Ranging and
Chaining
1 a,e 1,2,4
2 Reciprocal ranging - Setting
perpendiculars- Well-conditioned
triangles.
1 a,e 1,2,3
3 COMPASS : Prismatic compass -
Surveyor's compass - Bearing systems
and conversions
2,3 a,e 2,3
4 Problems in compass 2,3 a,e 2,3
5 Local attraction - Magnetic declination
- dip - Traversing - Plotting -
Adjustment of error.
2,3 a,e 2,3
6 Problems in Local Attraction 2,3 a,e 1,3
7 Problems in Included Angle 2,3 a,e 1,3
8 PLANE TABLE SURVEYING : Plane
table instruments and accessories -
merits and demerits
2,3 a,e 1,3
9 Methods of Radiation- Intersection,
Resection and Traversing.
2,3 a,e,j 1,2,3
CYCLE TEST I
UNIT II
LEVELLING AND THEODOLITE SURVEYING
10 Level line - Horizontal line - Levels
and Staves - Spirit level - sensitiveness
3,4,5 a,e,j 1,2,3
11 Bench marks - Temporary and
Permanent adjustments.
3,4,5 a,e,j 1,2,3
12 Fly and check levelling - Booking -
Reduction - Curvature and Refraction.
1,2,3
13 Reciprocal levelling - Longitudinal and
Cross sections - Plotting
3,4,5 a,e,j 1,2,3
14 Problems in levelling a,e,j 1,2
15 Problems in Curvature and Refraction,
Reciprocal Levelling.
3,4,5 a,e,j 1,3
16 Theodolite - Vernier and Microptic -
Description and uses -
3,4,5 a,e,j 1,2,3
17 - Temporary and Permanent
adjustments of vernier transit
3,4,5 a,e,j 1,2
18 Horizontal angles - Heights and
Distances - Traversing - Closing error
and distribution.
3,4,5 a,e,j 1,3
UNIT - III
TACHEOMETRIC SURVEYING
19 Tacheometric Systems - Tangential,
Stadia and substense methods
3,4,5 a,e,j 1,2,3
20 Stadia systems – horizontal sights -
vertical and normal staff - fixed and
movable hair
3,4,5 a,e,j 1,2,3
21 Problems 3,4,5 a,e,j 1,2,3
22 Problems 3,4,5 a,e,j 1,2,3
23 Stadia systems - inclined sights -
vertical and normal staff - fixed and
movable hair
3,4,5 a,e,j 1,2
24 Problems 3,4,5 a,e,j 1,2
25 Problems 3,4,5 a,e,j 1,2
26 stadia constants, anallatic lens -
subtense bar- Self reducing
3,4,5 a,e,j 1,2
tacheometers
27 Problems 3,4,5 a,e,j 1,3
CYCLE TEST II
UNIT IV
TRIANGULATION SURVEYING
28 Horizontal and vertical control –
methods.
3,4,5 a,e,j 2,3
29 Triangulation -network- Signals. 3,4,5
30 Base line - choices - instruments and
accessories
3,4,5 a,e,j 2,3
31 extension of base lines 3,4,5 a,e,j 1,3
32 corrections - Satellite station -
reduction to centre
3,4,5 a,e,j 1,3
33 Problems in Satellite Station. 3,4,5
34 Intervisibility of height and distances 3,4,5 a,e,j 1,3
35 Trigonometric levelling - Axis single
corrections.
3,4,5 a,e,j 1,3
36 Problems in Trigonometric Levelling 3,4,5 a,e,j 1,3
UNIT V
ENGINEERING SURVEYS
37 Reconnaissance, Preliminary and
location surveys for engineering
projects - layout - setting out works..
3,4,5 a,e,j 2,3
38 CURVES : Curve ranging - Horizontal
and Vertical curves - Simple curves -
setting with chain and tapes,
3,4,5 a,e,j 2,3
39 Problems in Curves 3,4,5 a,e,j 2,3
40 tangential angles by theodolite -
compound and reverse curves -
Transistion curves
3,4,5 a,e,j 2,3
41 Problems in Curves 3,4,5 a,e,j 2,3
42 CONTOUR : Contouring - Methods -
Characteristics and uses of contours -
Plotting .
3,4,5 a,e,j 2,3
43 Problems in Contours
44 Calculation of areas and volumes. 3,4,5 a,e,j 2,3
45 Problems in Areas and Volumes 3,4,5 a,e,j 2,3
MODEL EXAM
Text Books:
1.Kanetkar, T.P., Surveying and Levelling, Vols. I and II, United Book Corporation,
Pune, 1994.
2.Punmia, B.C., Surveying, Vols. I and II, Laxmi Publications,1999.
3.Chandra .A.M. Plane Surveying and Higher Surveying, New Age International (P)
Limited, Publishers, Chennai, 2002.
Reference Books:
1.Bannister .A and Raymond.S., Surveying, ELBS", Sixth edition, 1992.
2.James M. Anderson and Edward M. Mikhail, Introduction to Surveying, McGraw Hill
Book Company, Second Edition, 1986.
3.Clark.D., Plane and Geodetic Surveying, Vols. I and II, C.B.S. Publishers and
Distributors, Delhi, Sixth Edition, 1991.
4.Arora.K.P., Surveying, Volume 3, Standard Book House, 2000
Faculty members handling:
Section Faculty Name Signature
A, B C.P.Shunmuganathan
C, D Ms.M.Goutham Priya
HOD/CIVIL
LESSON PLAN
B.Tech Civil Engineering – II Year 2011-12
Course Code CE0209
Course Name Building Technology
Prerequisites GE0101, CE0102
Category Structural Engineering
Instructional objectives
1. To build awareness about the type of masonry, floors, and roofs.
2. To understand types of doors and stairs and its uses.
Student outcomes
a An ability to apply knowledge of mathematics, science, and engineering
e An ability to identify, formulate, and solve engineering problems
k An ability to use the techniques, skills, and modern engineering tools necessary for
engineering practice.
Lecture
No Date Topic
Instructional
Objectives
Student
Outcome Reference
GENERAL
1,2,3,4
Principles of Planning ,
Planning regulations and bye -
laws
Nil e,k 1
5,6.7,8 Preparation of Layout Plan
Orientation of Building Nil e,k 1
9 Executions and timbering Nil e,k 1
MASONRY
10,11,12
Masonry -stone masonry -
Rubble and Ashlar masonry
Brick masonry.
1 k 2
CYCLE TEST – I
13,14
Bond -Definition need and
scope Types of bonds -English
and Flemish bond -merits and
demerits
1 k 2
15,16
Composite masonry -solid and
hollow block masonry-soil-
cement bricks.
1 k 2
17,18 Load bearing and non-load
bearing walls-codal provisions. 1 a,e,k 2,3
FLOORS AND ROOFS
19,20 Floors -Types of floor -Details
of concrete and terrazzo floors. 1 k 1,2,3
21,22,23
Roofs ~ Types of Roofs -Types
of Flat roofs -sloping roofs -
different types and usage.
1 e,k 1,2,3
24,25 shell roofs -roof coverings-AC
sheets-GI sheets-FRP roofs 1 a, k 1,2,3
26,27,28
Water proofing treatment of
roofs -tar felt treatment-
chemical treatment-Types of
weathering courses
1 e,k 1,2,3
CYCLE TEST - II
STAIRS AND VENTILATION
29,30,31
Stair case -requirements of a
good stair case -types of
staircase.
1,2 a,e,k 1,2,3
32,33,34
types of doors and windows -
wooden and metallic door
frames.
1,2 e,k 1,2,3
35,36
ventilators -Fixtures and
fastening for doors and
windows.
1,2 e,k 1,2,3
BUILDING AMENITIES
37,38,39
Thermal insulation ~ Heat
transference -insulating
material.
Nil a, e,k 1,2,3
40,41,42
method of application -
ventilation requirements -types
of ventilation.
Nil e,k 1,2,3
43,44,45
Air conditioning -Fire proof
construction methods -
Principles of acoustical design
of building.
Nil a,e,k 1,2,3
MODEL EXAMINATION
TEXTBOOKS
1. Arora and Bindra S.P., Building Construction, Planning Techniques and Method
of Construction, Dhampatrai sons, New Delhi, 1988.
2. Punmia B.K., Ashok Kumar Jain, Am Kumar Jain, Building Cons/ruction, Laxmi
Publications Pvt. Ltd., New Delhi, 1987.
3. Varghese, P.C, Building Constructon, Prentice HaIllndia,2007
REFERENCE BOOKS
1. National Building Code, Bureau ofIndian Standards, New Delhi, 2005.
2. Chudley. R, Construction Technology, ELBS Publishers, 1987.
3. Gurucharan Singh, Building Construe/ion and Materials, Standard Book House,
Delhi, 1988.
Faculty members handling
Section Faculty Name Signature
Rajprasad.J
Sindhu Nachiar.S
S.A.Vengadesh Subramanian
Vinish John
Head of Department (Civil Engineering)
Civil Infra Structure-2011-2012
Lesson Plan
B.Tech Civil Infrastructure Engineering- ----- Semester III( 2011-12)
Course Code CI 0201
Course Name MECHANICS OF SOLIDS
Prerequisites ----
Category STRUCTURAL ENGINEERING
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 Resolution of forces and to comprehend the various forces (Internal
and External) and their action on awareness on the properties of
plane areas.
2 To create awareness on the properties of plane areas.
3 To analyse and determine the internal forces in pin jointed plane
trusses by various methods.
4 To study the behaviour of determinate beams and examine the
internal forces, stresses induced and learn the theory of torsion and
stresses developed in solid, hollow shafts and helical springs.
5 To analyse the state of stress (two dimensional) and evaluate the
principal stresses and principal planes by analytical and graphical
treatment.
Student outcomes
(a) An ability to apply knowledge of mathematics, science, and engineering
(e) An ability to identify, formulate, and solve engineering problems
(k) An ability to use the techniques, skills, and modern engineering tools necessary
for engineering practice.
Section:
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
1,2 Vectors – Concepts of forces – unit
vector – Direction cosines- Concept of
particle and rigid body
1 a 4,1
3,4 Resolution of forces – resultant –
concurrent and parallel forces in a plane
– Free body diagram – conditions of
equilibrium
1 a 4,1
5,6 Moment of force – finding the reactions 1 a 4,1
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
of beam – Varignon’s theorem –
Principle of virtual work – equivalent
force system
7-10 Rigid bodies and deformable solids –
tension, compression and shear stresses
– strain – Lateral strain – Poisson’s ratio
– Volumetric strain – elastic constants –
Deformation of simple bars
1 a 3,6
11-14 Deformation of Compound bars –
Composite sections – Thermal stresses
1 a, e 3,6
15-16 Cycle Test - I
17-20 Principal stresses and principal planes –
Graphical treatment – Mohr’s circle of
stress
5 a,e 3,6
21-22 Thin Cylinders and spherical shells –
deformation of thin shells – Stresses at a
point in thin shells.
1 a,e 3,6
23 Surprise Test
24-25 Thick Cylinders – Lame’s equation –
Compound cylinders – Shrink fit.
1 a,e 3,6
26 Areas and volumes – Theorems of
Pappus and Guldinus
2 a 3,6
27-32 Centroid of composite areas and
moment of inertia of areas – polar
moment of inertia – radius of gyration
2 a 3,6
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
33-34 Cycle Test – II
35 Mass moment of inertia of standard thin
plates and simple solids
2 a 3,6
36-42 Stability and Equilibrium of plane
frames – Perfect frames – Types of
Trusses – Analysis of forces in truss
members – Method of joints – Method
of Sections
3 a,e,k 3,6
43 Analysis of Trusses – Tension
Co-efficient method – Graphical method
3 a,e,k 3,6
44 Beams – types of support – types of
load
4 a,e,k 3,6
45-50 S.F and B.M in beams – Cantilevers,
Simply supported and overhanging
beams with different types of loading –
Relationship between B.M and S.F
4 a,e,k 3,6
51-54 Theory of simple bending – Bending
stress and Shear stress distribution for
various cross sections – Analysis of
stresses – load carrying capacity –
Proportioning of sections. Shear flow –
beams of uniform strength.
4 a,e,k 3,6
55-56 Theory of pure torsion – stresses and
deformation in circular solid and hollow
shafts – power transmitted by shafts
4 a,e,k 3,6
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
57 Stresses in helical springs - Deflection
of springs.
4 a,e,k 3,6
58-60 MODEL EXAMINATION
Text Books
1. Beer and Johnson, Mechanics for Engineers, Statics and Dynamics, Mc Graw
Hill Book Company, 1987.
2. Punmia B.C., Ashok Kumar Jain, Arun Kumar Jain, Mechanics of Materials,
Laxmi Publications (P) Ltd., 2003.
3. Rajput.R.K., Strength of Materials, (Mechanics of Solids), S.Chand and
Company Ltd., New Delhi, 2004.
Reference Books
4. Rajesekharan and Sankarasubramaniyan.M., Engineering Mechanics, (Statics
and Dynamics), Vikey Publishing House Pvt. Ltd., 1999.
5. Timoshenko.S.P. and Gere.J.M., Mechanics of Materials, CBS Publishers,
Delhi, 2 ED.1984.
6. Ramamruthan.S and Narayanan.R., Strength of Materials, Dhanpat Rai
Publishing Company, 2002.
7. Junnarkar.S.B., Mechanics of Structures, Vol.I, 21st Edition, Charotar
Publishing House, 1995.
8. Srinath.L.N., Advanced Mechanics of Solids, Tata McGraw Hill Publishing
Company Ltd., New Delhi, 1994.
Faculty members handling
Section Faculty Name Signature
K.Gomathi
SRM UNIVERSITY, KATTANKULATHUR -603 203
Faculty of Engineering and Technology
Department of Civil Engineering
Degree / Specialization : B.TECH/ CIVIL INFRASTRUCTURE
Year / Semester : II / III sem
Subject Code / Title : CI 0207 / SUREVYING
Staff : ANANDH.KS / Assistant Professor (O.G) / CIVIL
Lecture
No
Topic I.O Reference
1 CHAIN : Definition - Principles - Classification
- field and office work -conventional signs -
Ranging and Chaining
1,2 1,2,4
2 Reciprocal ranging - Setting perpendiculars-
Well-conditioned triangles.
1,2 1,2,3
3 COMPASS : Prismatic compass - Surveyor's
compass - Bearing systems and conversions -
2,3 2,3
4 Problems in compass 2,3
5 - Local attraction - Magnetic declination - dip -
Traversing - Plotting - Adjustment of error.
2,3 2,3
6 Problems in errors in compass 1,3
7 PLANE TABLE SURVEYING : Plane table
instruments and accessories - merits and
demerits -
1,2,3 1,3
8 Methods of Radiation- Intersection -.
1,2,3
9 Methods of Resection - Traversing 1,2,3
LEVELLING AND THEODOLITE
SURVEYING
1,3
10 Level line - Horizontal line - Levels and Staves -
Spirit level - sensitiveness -
2,3,4 1,2,3
11 Bench marks - Temporary and Permanent
adjustments.
1,2,3
12 Problems above topic 1,2,3
13 Fly and check levelling - Booking - Reduction -
Curvature and Refraction.
2,3,4 1,2,3
14 Problems in levelling 1,2
15 - Reciprocal levelling - Longitudinal and Cross
sections – Plotting
3,4 1,3
16 Theodolite - Vernier and Microptic - Description
and uses -
3,4 1,2,3
17 - Temporary and Permanent adjustments of
vernier transit
3,4 1,2
18 Horizontal angles - Heights and Distances . 3,4 1,3
19 Traversing - Closing error and distribution. 3,4 1,3
TACHEOMETRIC SURVEYING
20 Tacheometric Systems - Tangential, Stadia and 3,4,2 1,2,3
substense methods
21 Problems 3,4,2 1,2,3
22 Problems 4,2 1,2,3
23 Problems 4,2 1,2,3
24 Stadia systems - horizontal and inclined sights -
vertical and normal staff - fixed and movable
hair
4,2 1,2
25 Problems 4,2 1,2
26 Problems 4,2 1,2
27 stadia constants, anallatic lens - subtense bar-
Self reducing tacheometers
4,2 1,2
28 Problems 4,2 1,3
29 Problems 4,2 1,3
TRIANGULATION SURVEYING 1,3
30 Horizontal and vertical control - methods -
triangulation -network- Signals.
4,2 2,3
31 Base line - choices - instruments and accessories 4,2 2,3
32 - extension of base lines 4,2 1,3
33 - corrections - Satellite station - reduction to
centre
4,2 1,3
34 - Intervisibility of height and distances 4,2 1,3
35 Trigonometric levelling - Axis single
corrections.
4,2 1,3
ENGINEERING SURVEYS
36 Reconnaissance, Preliminary and location
surveys for engineering projects - layout - setting
out works..
2,4 2,3
37 CURVES : Curve ranging - Horizontal and
Vertical curves - Simple curves -setting with
chain and tapes,
2,4 2,3
38 Problems 2,4 2,3
39 tangential angles by theodolite - compound and
reverse curves - Transistion curves
2,4 2,3
40 Problems 2,4 2,3
41 CONTOUR: Contouring - Methods -
Characteristics and uses of contours - Plotting .
2,4 2,3
42 Calculation of areas and volumes. 2,4 2,3
Text Books
1. Kanetkar, T.P., Surveying and Levelling, Vols. I and II, United Book
Corporation, Pune, 1994
2. Punmia, B.C., Surveying, Vols. I and II, Laxmi Publications,1999
3. Chandra .A.M. Plane Surveying and Higher Surveying, New Age International
(P) Limited, Publishers, Chennai, 2002
STAFF INCHARGE HOD / CIVIL
(ANANDH.KS, AP /CIVIL)
LESSON PLAN
B.Tech Civil Infrastructure Engineering – II Year 2011-12
Course Code CI0209
Course Name Building Technology
Prerequisites GE0101, CE0102
Category Structural Engineering
Instructional objectives
1. To build awareness about the type of masonry, floors, and roofs.
2. To understand types of doors and stairs and its uses.
Lecture
No Topic Reference
1,2,3,4 Principles of Planning ,
Planning regulations and bye -laws 1
5,6.7,8 Preparation of Layout Plan
Orientation of Building 1
9 Executions and timbering 1
10,11,12 Masonry -stone masonry -Rubble and Ashlar masonry Brick
masonry. 2
13,14 Bond -Definition need and scope Types of bonds -English
and Flemish bond -merits and demerits 2
15,16 Composite masonry -solid and hollow block masonry-soil-
cement bricks. 2
17,18 Load bearing and non-load bearing walls-codal provisions. 2,3
19,20 Floors -Types of floor -Details of concrete and terrazzo
floors. 1,2,3
21,22,23 Roofs ~ Types of Roofs -Types of Flat roofs -sloping roofs -
different types and usage. 1,2,3
24,25 shell roofs -roof coverings-AC sheets-GI sheets-FRP roofs 1,2,3
26,27,28 Water proofing treatment of roofs -tar felt treatment-chemical
treatment-Types of weathering courses 1,2,3
29,30,31 Stair case -requirements of a good stair case -types of
staircase. 1,2,3
32,33,34 types of doors and windows -wooden and metallic door
frames. 1,2,3
35,36 ventilators -Fixtures and fastening for doors and windows. 1,2,3
37,38,39 Thermal insulation ~ Heat transference -insulating material. 1,2,3
40,41,42 method of application -ventilation requirements -types of
ventilation. 1,2,3
43,44,45 Air conditioning -Fire proof construction methods -Principles
of acoustical design of building. 1,2,3
TEXTBOOKS
1. Arora and Bindra S.P., Building Construction, Planning Techniques and Method
of Construction, Dhampatrai sons, New Delhi, 1988.
2. Punmia B.K., Ashok Kumar Jain, Am Kumar Jain, Building Cons/ruction, Laxmi
Publications Pvt. Ltd., New Delhi, 1987.
3. Varghese, P.C, Building Constructon, Prentice HaIllndia,2007
REFERENCE BOOKS
1. National Building Code, Bureau ofIndian Standards, New Delhi, 2005.
2. Chudley. R, Construction Technology, ELBS Publishers, 1987.
3. Gurucharan Singh, Building Construe/ion and Materials, Standard Book House,
Delhi, 1988.
PREPARED BY HOD/CIVIL ENGG
(MR.A.BALAMURUGAN)
LESSON PLAN
B.Tech Civil Infrastructure Engineering- III Semester 2011-12
Course Code CEO203
Course Name APPLIED GEOLOGY
Prerequisites NIL
Category GEOLOGY
Instructional objectives
Instructional
objectives no.
Instructional objectives
1. To study the origin , development and ultimate fate of various surface features
of the earth
2. To understand the basic building units of which the solid crust of the earth
3. To understand the nature of geographic distribution of rocks and engineering
properties of rock on the earth
4 To understand the nature of geological structures and their importance on the
vil engineering
structures
5 To know the importance of geology in civil engineering practices
Student outcomes
Student
outcome
number
Student outcome
(a) an ability to apply knowledge of mathematics, science, and engineering
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(h) the broad education necessary to understand the impact of engineering solutions
in a global, economic, environmental, and societal context
(j) a knowledge of contemporary issues
(k) an ability to use the techniques, skills, and modern engineering tools necessary
for engineering practice
Section A
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
UNIT -1 GENERAL GEOLOGY
1 Scope of Geology in Engineering 1,2 d 1,2
2 External Agencies – Weathering and
Wind
2 a, j 2
3 River and Sea 1,2 a,e,j 2
4 Landslide 1,2 a,e,j 2
5 Internal Agencies – Earthquake, Plate 1,2 a,e,j 2
Tectonics
6 Ground Water 1,2 a,e,j 2
UNIT-II- MINERALS OF THE EARTH'S CRUST
7 Internal Structure of the Earth and
Composition, Rock Forming Minerals
1,2 and 3 a, e, j 1,2
8 Physical Properties of Minerals 3 a,e,j 2
9 Physical Properties of Quartz,
Feldspar Mica and Calcite
3 a, e 2
10 Engineering Significance of Clay
Minerals
3 a, e 2
11 Engineering Significance of Coal &
Petroleum
3 a, e 2
UNIT - III ROCKS OF THE EARTH'S CRUST
12 Rocks and their study, Rock Cycle 1,3 d,k 1,2
13 Igneous Rocks 3 e, j, k 2
14 Sedimentary Rocks 3 e, j, k 2
15 Metamorphic Rocks 3 e, j, k 2
16 Engineering Properties 3 and 5 d,h,k 1,2
17 Uses and Indian Occurrence of
Granite, Diorite, Basalt,Dolerite and
Pegmatite
3 e,h 2
18 Uses and Indian Occurrence of Shale
Sandstone, Limestone, Breccia and
Conglomerate.
3 e,h 2
19 Uses and Indian Occurrence of Gneiss
and Schist
3 e,h 2
20 Uses and Indian Occurrence of Slate
and Quartzite
3 e,h 2
21 Uses and Indian Occurrence of
Marble.
3 e,h 2
UNIT- IV STRUCTURAL FEATURES OF ROCKS
22 Introduction to Structural features and
Terminology
1 and 4 a, h, j 1,2
23 Outcrop and Geological Map,
Clinometers
1 and 4 a, h, k 1,2
24 Geological Structures - Folds 4 a, h,k 1,2
25 Geological Structures Faults and
Joints
4 a, h,k 2
26 Engineering Considerations involves
Structures.
4 and 5 a, h,k 1,2
UNIT-V - GEOLOGY FOR ENGINEERING PROJECTS
27 Geological Investigations 2,4 and 5 a,d,h 2
28 Geophysical Investigations 3,4 and 5 a, e,k 2
29 Remote Sensing Techniques 4 and 5 a, e,k 2
30 Geological Considerations for Dam
and Reservoirs
4 and 5 a,d,e 1,2
31 Geological Considerations for Tunnels
and Road Cuts
4 and 5 a,d,e 1,2
32 Practice in Geology 4 and 5 a,d,k 1,2
33 Demonstration for Clinometer and
Electrical Resistivity Meter
4 and 5 a,d,k 2
34 Geological Maps - Identification of
Crystals
2 a,d,k 2
35 Identification of Minerals and Rocks 2 and 5 a,d,k 2
Text Books
1 .Garg S.K., Physical and Engineering Geology, Khanna Publication, New Delhi, 1999
2. Parbin Singh, Engineering and General Geology, Katson Publication House, 1997
Reference Books
1. Blyth, Geology for Engineers, ELBS, 1995
2. Legeet, Geology and Engineering, McGrawHill Book Company, 1998
3. M.T.Maruthesha Reddy, Engineering Geology Practical, New Age International Pvt
Ltd,
2003
Faculty members handling
Section Faculty Name Signature
CI - A Mr. Sachikanta Nanda
B.Tech Architectural Engineering – III Sem
SRM UNIVERSITY, KATTANKULATHUR
LESSON PLAN
ARE 0207 STRUCTURAL MECHANICS
B.Tech ARCHITECTURAL ENGINEERING
III SEMESTER
Topics to be taught No.of
hours
Reference Book
Definition of vector, concept of forces, concept of particle and rigid
body
2 3
Concurrent and non concurrent and parallel forces in a plane 2 3
Topics to be taught No.of
hours
Reference Book
Moment of force, varignou’s theorem, Free body diagram,
conditions of equilibrium
2 3
Principle of virtual work, equivalent force system, Rigid bodies and
deformable solids
2 3
Stress, strain-tension, compression, shear stresses, lateral strain,
Poisson’s ratio,-volumetric strain
2 1,2
Deformation of simple and compound bars 1 1,2
Elastic constants, composite sections, Thermal stresses 2 1,2
Cycle Test I
Thin cylinders and spherical shells-Deformation of thin shells-
stresses at a point in thin shells
2 1,2
Theorems of Pappus and Guldinus-centroid of simple areas and
volumes by integration
2 1,2,4
Centroid of composite areas, second moment of areas, radius of
gyration
2 1,4
Parallel axis and perpendicular axis theorems, moment of inertia of
simple areas by integration
2 2,4
Moment of inertia of composite areas, mass moment of inertia of
thin plates and simple solids
2 2,4
Stability and equilibrium of plane frames perfect frames
Types of trusses
1 2,4
Analysis of truss, Method of joints 2 1,2,4
Method of sections, Tension coefficient method, Graphical method 2 1,2,4
Cycle Test II
Beams, Types of support, Types of load shear force and bending
moment definition
2 1,2,4,5
Cantilever, simply supported and over hanging beams, Relationship
between S.F and B.M.
2 1,2,4,5
Topics to be taught No.of
hours
Reference Book
Theory of simple bending, Bending stress and shear stress
distribution for various cross sections
2 4,5
Load carrying capacity, Proportioning of section, shear flow,
beams of uniform strength
2 4,5
Theory of pure torsion, stresses and deformation in circular solid
and hollow shafts, Power transmitted by shafts
2 1,4,5
Stresses in helical springs, deflection of springs 1 4,5
Deflection of simply supported and cantilever beams by macaulays
method
2 4,5
Theory of columns, axial load, combined bending and axial load,
Euler’s and Rankine formulae for columns
2 4,5
Model Examination
Text Books
1. Rajput R.K. Strength of Materials, S.Chand and company Ltd., New Delhi, 2009.
2. Punmia B.C., Ashok Kumar Jain, Arun Kumar Jain, Mechanics of Materials,
Laxmi Publications (P) Ltd., 2009.
3. Rajasekharan and Sankarasubramaniyan M, Engineering Mechanics(Statics and
Dynamics), Vikas Publishing House Pvt.Ltd., 2009.
4. Ramamrutham S and Narayanan R, Strength of Materials, Dhanpat Rai Publishing
Company 2009.
5. Jumarkar S B Mechanics of Structures, Vol-I, Charotar Publishing House, Anand,
2008.
Prepared By
HOD/Civil
B.Tech - SEMESTER –V -2011-2011
Lesson plan
B.Tech Civil Engineering- V semester 2011-12
Course Code CE0301
Course Name Structural Analysis –I
Prerequisites CE0201,CE0202
Category Structural Engineering
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 Concept of rolling loads and study its characteristics in structures
2 Preparation of influence line diagrams for statically determinate
structures
3 Analysis of indeterminate structures (beams, frames and trusses) for
internal forces, deflections etc.
4 Classical methods - slope deflection method - use in analysing
indeterminate beams and plane frames with and without sway
5 Moment distribution method - Iterative method often used in
analysing indeterminate structures
Student outcomes
Student outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and
engineering
e an ability to identify, formulate, and solve engineering problems
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
1 Overview of Structural
Analysis, Information
regarding Instructional
Objectives and Student
Outcome
1-5 a,e 1-10
STATICALLY INDETERMINATE STRUCTURES
2-3 Statically Indeterminate 3 a,e 1,2,9
Structures-Introduction-
Static and Kinematic
indeterminancy – Two and
three dimensional Pin jointed
and rigid jointed structures.
4-6 Analysis of Propped
Cantilever beams – SFD and
BMD
3 a,e 1,2,3,4,9
7-9 Analysis of Fixed beams –
SFD and BMD
3 a,e 1,2,3,4,9
10-12 Analysis of Continuous
beams – Theorem of Three
Moments – SFD and BMD
3 a,e 1,3,4,5
13 Indeterminate Trusses –
Introduction
3 a,e 1,2,3,4
14-15 Energy method – application
to analysis of indeterminate
pin jointed Plane trusses -
Lack of fit – temperature
effects
3 a,e 1,2,3
CYCLE TEST-I
SLOPE DEFLECTION METHOD
16 Slope Deflection Method -
Introduction
4 a,e 1,2,3,4
17-19 Analysis of Continuous
beams
4 a,e 1,2,3,4
20-21 Analysis of Rigid plane 4 a,e 1,2,3,4
frames without sway
22-23 Analysis of Rigid plane
frames with sway
4 a,e 1,2,3,4
MOMENT DISTRIBUTION METHOD
24 Moment Distribution
Method- Introduction,
Stiffness and Distribution
factors – Carry over factors
5 a,e 1,2,3,4
25-27 Analysis of Continuous
beams
5 a,e 1,2,3,4
CYCLE TEST-II
28-29 Analysis of Plane rigid
frames without sway
5 a,e 1,2,3,4
30-31 Analysis of Plane rigid
frames with sway
5 a,e 1,2,3,4
32 Introduction to Kani’s
method and Column analogy
method
5 a,e 2,3,5,9
ROLLING LOADS
33 Rolling loads – Introduction 1 a,e 1,2,3,4
34 Single Concentrated load -
Curves of max. BMD and
SFD
1 a,e 1,2,3,4
35-36 Rolling loads -Uniformly
distributed load -Curves of
maximum BMD and SFD
1 a,e 1,2,3,4
37-38 Rolling loads -Two
Concentrated loads –System
of moving loads- Curves of
maximum BMD and SFD –
Equivalent UDL
1 a,e 1,2,3,4
INFLUENCE LINE FOR STATICALLY DETERMINATE STRUCTURES
39-40 Influence line for Statically
Determinate Beams for BM
and SF – Absolute max. BM
-Concentrated Load
2 a,e 1,2,3,4
41-42 Influence line for Statically
Determinate Beams for BM
and SF– Absolute max. BM -
UDL
2 a,e 1,2,3,4
43-44 Influence for forces in
members for Statically
determinate trusses
2 a,e 1,2,3,4
45 Parallel chord truss- Reversal
of stresses-Focal length
2 a,e 1,2,3,4
MODEL EXAMINATION
END SEMESTER EXAMINATION
Text Books
1. Bhavikatti.S.S,Structural Analysis,Vol.1andVol.2,Vikas Publishing House
Pvt.Ltd.,1999.
2. V.N. Vazirani and M.M.Ratwani,Analysis of Structures,Vol II–Khanna
Publishers, 1989.
3. Vaidhyanathan.R and Perumal.P, Comprehensive Structural Analysis, Volume I
and II, Lakshmi Publications (P) Ltd.New Delhi, 2004.
4. Khurmi. R.S., Theory of Structures, S. Chand and Company Ltd., New Delhi,
1994.
Reference Books
5. Wang.C.K., Statically Indeterminate Structures McGraw Hill International Book
Company, 1984.
6. Harry.H.West., Analysis of Structures, John Wiley &Sons.1980
7. Junnarkar S.B, Mechanics of Structures,Vol. 2, Charotar Publishing House,
Anand, 1995.
8. Charles Head Norris, John Benson Wilbur, Senol Utku, Elementry Structural
Analysis, 3rd Edn.McGraw Hill International Editions, Structures Series, 1987.
9. Timoshenko. S.P & Young D.H., Theory of Structures, 2 Edn. McGraw Hill Book
Company,International Ed. 1965.
10. Thandavamoorthy . T.S., Analysis of Structures, Oxford University Press, 2005.
Faculty members handling
Section Faculty Name Signature
N.Umamaheswari
S.Hemamalini
Lesson Plan
B.Tech Civil Engineering- ----- Semester V (2011-12)
Course Code CE0303
Course Name STRUCTURAL DESIGN II
Prerequisites CE0204-Basic design knowledge, usage of codes
Category STRUCTURAL ENGINEERING
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 To design masonry structures like walls, columns, and foundation
incorporating earthquake resistant features
2 To bring about an understanding of the behaviour of reinforced
concrete and the design philosophies
3 To design RCC beams, slabs, columns and footings including
structural design of piles and pile caps
Student outcomes
(a) an ability to apply knowledge of mathematics, science, and engineering
(c) an ability to design a system, component, or process to meet desired needs within
realistic constraints such as economic, environmental, social, political, ethical,
health and safety, manufacturability, and sustainability
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(h) the broad education necessary to understand the impact of engineering solutions
in a global, economic, environmental, and societal context
(i) a recognition of the need for, and an ability to engage in life-long learning
(j) a knowledge of contemporary issues
(k) an ability to use the techniques, skills, and modern engineering tools necessary for
engineering practice.
Section:
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
1 Introduction- overview of
syllabus- outcomes and
objectives to be achieved
- - 1-8
MASONRY
2,3 Strength of bricks- codal
provisions- permissible stresses-
nomograms
1 a,c,e 7,9
4,5,6 Design of brick columns, walls 1 a,c,e 7,9
7,8 Design of foundations and
masonry retaining walls
1 a,c,e 7,9
9,10 Earthquake resistant provisions 1 i,j 8,9
MIX DESIGN
11,12 Concrete-ingredients- effect of
each on strength-water-cement
ratio
effect of concrete making
materials on environment
2,3 c,h 4,5
13,14 Concrete mix design as per IS
codes
2,3 a,c 4,5
CYCLE TEST I (2 HOURS)
LIMIT STATE DESIGN
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
15,16,17 Evolution- concepts-codal
provisions, functional planning,
structural planning
2,3 d,i, j 1,2,3,4,6
SLABS
18,19,20
, 21
One way slab cantilever, Simply
supported,continuous
2,3 a,c,e 1,2,3,4,6
22,23 Two way slab- different support
conditions
2,3 a,c,e 1,2,3,4,6
BEAMS
24,25,26 Singly reinforced- IS 456 and
use of SP16 – use of excel
package
2,3 a,c,e,k 1,2,3,4,6
27,28 Doubly reinforced – IS 456 and
use of SP16
2,3 a,c,e 1,2,3,4,6
29,30 T and L beams – IS 456 and use
of SP16
2,3 a,c,e 1,2,3,4,6
31,32 DESIGN OF STAIR CASES 2,3 a,c,e 1,2,3,4,6
CYCLE TEST II (2 HOURS)
COLUMNS
33,34,35 Design of short and long
columns using SP16
2,3 a,c,e 1,2,3,4,6
36 Design of piles 2,3 a,c,e 1,2,3,4,6
FOUNDATION
37,38,39 Individual footing 2,3 a,c,d,e 1,2,3,4,6
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
40,41,42 Combined footings 2,3 a,c,d,e 1,2,3,4,6
43,44,45 Pile caps 2,3 a,c,d,e 1,2,3,4,6
MODEL EXAMINATION
Text Books
1. Varghese, P.C., Advanced Reinforced Cement Concrete, Pretince-Hall India,
2001
2. Unnikrishna pillai, S. and Deavadas Menon, Reinforced Concrete Design, Tata
MacGraw Hill Publishing Company Limited, New Delhi, 1998
3. R. Krishnaraju, R. N. Pranesh, Design of Reinforced concrete IS : 456-2000, New
age International Publication (P) Ltd., New Delhi
Reference Books
4. Code of Practice for Plain and Reinforced Concrete IS456-2000, BIS, New Delhi
5. Recommended guidelines for Concrete Mix Design IS 10262-1982, BIS, New
Delhi
6. Design Aids for Reinforced Concrete to IS 456, Special Publication (SP16), BIS
New Delhi,1980
7. Code of Practice for Structural use of Unreinforced Masonry, IS1905-1987, BIS,
New Delhi
8. Code of practice for Earthquake Resistant Design and Construction of Buildings
IS4326-1976, BIS, New Delhi
9. Anand S Arya, Design of Masonry and Timber including Earthquake resistant
design, KW Publishers, New Delhi, 2009.
Faculty members handling
Section Faculty Name Signature
Prof. G. Augustine Maniraj Pandian
Ms. S. Santhanaselvi
LESSON PLAN
B.Tech- Civil Engineering -V-Semester
Course Code CE 0305
Course Name SOIL MECHANICS
Prerequisites
Category PROFESSIONAL SUBJECTS
Instructional Objectives
Instructional
Objective No Instructional Objectives
1 Provide the description and classification of soil and analysis of
stresses in soils under different loading conditions
2 To develop an understanding of the principles of effective stress
in saturated soils, and its application to one dimensional
compression and consolidation
3 Familiarize the students an understanding of permeability and
seepage of soils
Student Outcomes
Student
Outcomes No. Student Outcome
a An ability to apply knowledge of Mathematics, Science, and
Engineering
e An ability to identify, formulate and solve Engineering problems
k An ability to use the techniques, skills and modern Engineering tools
necessary for Engineering practice
Lecture /
Tutorial
No.
Date Topic Instructional
Objectives
Student
Outcome Reference
BASIC CONCEPTS
1
Definition of Soil and Soil
Mechanics- Soil Problems in
Civil Engineering Field
1 a 1,2,3,6
2 Type of Soils 1 a 1,2,3,6
3,4,5,6
Basic definition in soil
mechanics Three phase systems
& relation
1 a 1,2,3,6
7,8 Specific gravity - Pycnometer
and density bottle methods 1 a 1,2,3,6
9,10 Field density - sand replacement
and core cutter method 1 a 1,2,3,6
INDEX PROPERTIES
11,12 Grain size analysis 1 a,e 1,2,3
13 Stoke's law and hydrometer
analysis 1 a,e 1,2,3
14,15,16
Atterberg limits - Plasticity,
liquidity and consistency
indexes
1 a,e 1,2,3
17,18,19 Classification of coarse grained
and fine grained soils as per BIS1 a,e,k 1,2,3
PERMEABILITY AND
SEEPAGE
20 One dimensional flow through
soil- permeability - Darcy's law 1,3 a,e 1,2,3,5
21,22
Laboratory permeability tests-
Constant Head and Falling Head
Method
1,3 a,e,k 1,2,3,5
23,24 Field permeability tests 1,3 a,e,k 1,2,3,5
25,26 Flow through stratified soils 1,3 a,e,k 1,2,3,5
27 Factors affecting permeability 1,3 a,e 1,2,3,5
28,29 Seepage - Introduction to flow
nets - quick sand phenomenon 1,3 a,e 1,2,3,5
COMPACTION AND
CONSOLIDATION
30,31 Compaction - Proctor's test -
moisture - density relations 2 a,e 1,2,3
32,33 Field compaction methods 2 a,e 1,2,3,4
34 Factors affecting compaction 2 a,e 1,2,3,4
35,36 California Bearing Ratio test 2 a,e 1,2,3,4
37
Consolidation - definition -
Terzaghi's theory of one
dimensional consolidation
partial differential equations(no
analytical solution)
2 a,e 1,2,3,4
38,39 Laboratory test 2 a,e 1,2,3,4
40,41 Determination of co-efficient of
consolidation 2 a,e 1,2,3,4
STRESS DISTRIBUTION
AND SHEAR STRENGTH
42,43
Stresses in soils - Geostatic
stresses - concept of effective
and neutral stresses
1,2 a,e,k 1,2,3
44,45 Problems in Geostatic stresses 1,2 a,e,k 1,2,3
46
Stress distribution in soil media
- Boussinesq and Westergards
equation - Pressure bulb
1,2 a,e,k 1,2,3
47,48 Problems in Stress distribution 1,2 a,e,k 1,2,3
49,50,51
Shear strength - Shear strength
of cohesive and cohesionless
soils - Mohr - coulomb's theory
1,2 a,e,k 1,2,3
52,53,54
Laboratory and field test:
Direct, triaxial, vane and
unconfined shear strength test
1,2 a,e,k 1,2,3
55 Factors affecting shear strength. 1,2 a,e,k 1,2,3
TEXT BOOKS
1. Raju K.V.B. & Ravichandran P.T, Mechanics of Soils, Ayyappaa Publications,
2000
2. Gopal Ranjan, Rao.A.S.R., Basic and Applied Soil Mechanics, Wiley Eastern
Ltd., 2000
3. Punmia B.C., Soil Mechanics and Foundations, Laxmi Publications Pvt. Ltd.,
2000
REFERENCE BOOKS
4. Terzaghi K., Peck R.B., Soil Mechanics in Engineering Practice, John Wiley Ltd.,
1967
5. Lambe T.W., Whitman, Soil Mechanics, John Wiley Ltd., 1979
6. Capper and Cassie, Soil Mechanics, McGraw Hill, 1971
Faculty members handling
Section Faculty Name Signature
V SEM – ‘C’ Dr.P.T.Ravichandran
V SEM – ‘D’ Dr.P.T.Ravichandran
V SEM – ‘A’ Mrs. S.Mary Rebekah Sharmila
V SEM – ‘B’ Mrs. S.Mary Rebekah Sharmila
HOD/CIVIL
Lesson Plan
B.Tech Civil Engineering- V-Semester 2011-12
Course Code CE0307
Course Name Environmental Engineering – I
Prerequisites Nil
Category P
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 To know the basics, importance, and methods of water supply
2 To study the various sources and properties of water
3 To understand the various methods of conveyance of water
4 To know the basics of sewage, types of sewers and sewer material
5 To learn the features of various sewer appurtenances
Student outcomes
Student
outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and engineering
c an ability to design a system, component, or process to meet desired
needs within realistic constraints such as economic, environmental,
social, political, ethical, health and safety, manufacturability, and
sustainability
e an ability to identify, formulate, and solve engineering problems
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
1,2 Introduction – Water supply –
Environmental Engg. – role of
Environmental Engineer – Water
supply – development of public water
supply
1 a, c 1,3
3,4 Need for protected water supplies-
objectives of water supply systems –
water supply scheme- quantity of
water
1 a, c 1,3
5,6 Design period – per capita
consumption- fluctuations in demand
pattern – population forecast
1 a, c, e 1,3
7,8 Arithmetical, Incremental, Geometric
methods – problems
1 a, c, e 1,3
9,10 Sources of water – surface and
ground water sources
2 a, c 1,2
11,12 Quality of water- physical, chemical
and biological aspects.
2 a, c 1,2
13,14 Analysis of water – water quality
standards
2 a, c 1,2
15,16 Conveyance and distribution system –
Intake structures – pipe materials –
Hydraulics of flow in pipes
3 a, c 1,3
17,18 Laying, Jointing, testing of pipes –
pumping stations – selection of
pumps
3 a, c 1,3
19,20 Methods of distributing water-
storage and distribution reservoirs –
analysis of distribution system
3 a, c 1,3
21,22,23 Hardy-cross method of balancing-
equivalent pipes
3 a, c, e 1,2
24,25 Sanitation – sewage characteristics –
sewer, sewage and sewerage –
method of collection
4 a, c 1,3
26,27 Conservancy systems, water carriage
system – classification of sewerage
systems
4 a, c 1,3
28,29,30 Quantity of sanitary sewage –
fluctuation in sewage flow – design of
flow of sewage for separate, storm
and combined sewers – full flow and
partial flow conditions
4 a, c 1,3
31,32 Design of separate sewers using
Mannings formula
4 a, c, e 1,3
33,34,35 Sewer Materials for pipe sewers –
construction – laying, jointing,
dewatering and testing.
4 a, c 1,3
36,37,38 Sewer appurtenances – traps –
plumbing system of drainage
5 a, c 1,3
39,40,41 One pipe system and two pipe system
of plumbing- sanitary fittings
5 a, c 1,3
Text Books
1. Garg S K, Environmental Engg., Vol I & II, Khanna Publishers, New Delhi, 1994
2. Panneerselvam R, Environmental Engg., Vol I & II, SPGS Publishers, Chennai
88
3. Duggal K N, Elements of Environmental Engg., S Chand & Company Ltd., New
Delhi, 2002
Reference Books
4. Manual on Water Supply & Treatment and Sewerage & Sewage Treatment, CPHEEO,
New Delhi. 1999
5. METCALF & EDDY, INC. "Wastewater Engineering - Treatment, Disposal, and
Reuse", Third Edition, Tata McGraw-Hill Publishing CompanyLimited, New Delhi 1995
Faculty members handling
Section Faculty Name Signature
Mr J S Sudarsan
Mr K Prasanna
HOD/Civil
Engg.
LESSON PLAN
B.TECH CIVIL ENGINEERING V SEMESTER 2011-12
Course Code CE0309
Course Name HYDRAULIC AND IRRIGATION
STRUCTURES
Prerequisites NIL
Category P
Instructional objectives
No. Instructional objective
1 To study the occurrence, movement and augmentation of surface water and
ground water.
2 To explore the importance of rivers and reservoirs.
3 To know the basics, necessity, and types of irrigation.
4 To know the importance, features and use of dams and other irrigation
structures.
Student outcomes
No. Student outcome
a an ability to apply knowledge of mathematics, science, and engineering
b an ability to design and conduct experiments, as well as to analyze and
interpret data
c an ability to design a system, component, or process to meet desired needs
within realistic constraints such as economic, environmental, social,
political, ethical, health and safety, manufacturability, and sustrainability.
e an ability to identify, formulate, and solve engineering problems
h the broad education necessary to understand the impact of engineering
solutions in a global, economic, environmental, and social context
k an ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice
Lecture
No
Date Topic IO SO Reference
1. SURFACE WATER
HYDROLOGY Hydrologic
cycle
1 a 1,2,3
2. Runoff, Infiltration, Rain
simulators
1 a 1,2
3. Precipitation, Characteristics of
precipitation
1 a 1,2,3
4. Rain-gauge network, Mean
rainfall over a drainage basin
1 a,b 1,2
5. Characteristics of the drainage
basin
1 a 1,2
6. Problems related to rain-gauge 1 a,c,e,h 1,2
7. GROUND WATER
HYDROLOGY
Occurrence and movement of
ground water
1 a 1,4,5
8. Permeability and Transmissibility,
Specific yield, Problems
1 a 1,4,5
9. Specific retention, Specific
capacity, Coefficient of storage,
Problems
1 a 1,4,5
10. Infiltration wells and Infiltration
galleries
1 a 1,4
11. Measurement of yield, Pumping
test, Recuperation test
1 a,b 1,4
12. Problems related to Pumping test
and Recuperation test
1 a,c,e,h 1,4
13. Thiem’s equilibrium formula 1 a 1,4
14. Dupit equilibrium formula 1 a 1,4
15. Artificial recharge Methods 1 a 1,4
16. Open wells and tube wells, Types
of tube wells
1 a 1,4
17. CYCLE TEST 1 1 a,b,c,e,h 1,2,3,4,5
18. RIVERS AND RESERVOIRS
Rivers, types, characteristics,
Indian rivers and their
classification
2 a 1
19. Straight reaches, Bends,
Meanders, Cutoff
2 a 1
20. Control and training of rivers,
Objectives of river training,
2 a 1
Classification of river training
21. Levees, Guide banks, Groynes,
Artificial cutoffs, Pitched islands
2 a 1
22. Reservoirs, Definition, Types,
Storage capacity of reservoir,
Storage zones
2 a 1
23. Determining reservoir capacity for
a given yield, Determining yield
from a reservoir of a given
capacity
2 a,b 1
24. Problems related to reservoir
capacity
2 a,c,e,h 1
25. Reservoir Losses, Reservoir
sedimentation, Silt control
2 a 1
26. SURPRISE TEST 1 2 a,b,c,e,h 1
27. IRRIGATION
Definition, Crop period / Base
period, Duty and Delta, Factors
affecting duty
3 a 1,6
28. Crop season, Consumptive use,
Effective rainfall, Estimation of
consumptive use,
3 a,b 1,6
29. Problems related to duty, delta,
consumptive use
3 a,c,e,h 1,6
30. Blanney Criddle method, Pan
evaporation method
3 a 1,6
31. Soil moisture irrigation
relationship
3 a 1,6
32. Canals, Alignment of canals,
Channel Losses
3 a 1,6
33. Design of Channel, Regime
Channel
3 a,c,e,h 1,6
34. Kennedy’s Theory, Lacey’s
Theory
3 a 1,6
35. Distribution system 3 a 1,6
36. DAMS
Dams, Kinds of dams, Selection
of the type of dam
4 a 1,7
37. Selection of dam site, Problems in
dam construction
4 a 1,7
38. Gravity dam, Forces acting on a
gravity dam
4 a 1,7
39. Modes of failure and criteria for
structural stability, Foundation
Treatment
4 a 1,7
40. Ogee Spillway, Construction of
gravity dam
4 a 1,7
41. Functions and types of galleries in
dams
4 a 1,7
42. Earthen dams, Types 4 a 1,7
43. CYCLE TEST 2 3,4 a,b,c,e,h 1,6,7
44. IRRIGATION STRUCTURES
Irrigation Structures, Description,
uses, functional design principles
4 a 1,7,8
45. Tank Sluice 4 a,k 1,7,8
46. Tank Weir 4 a,k 1,7,8
47. Canal Head Regulator 4 a,k 1,7,8
48. Canal Cross Regulator 4 a,k 1,7,8
49. Canal Drop 4 a,k 1,7,8
50. Aqueduct 4 a,k 1,7,8
51. Syphon Aqueduct 4 a,k 1,7,8
52. Canal Escape 4 a,k 1,7,8
53. MODEL EXAMINATION 1,2,3,4 a,b,c,e,h,k 1,2,3,4,5,6,7,8
Text Books
1. Santhosh Kumar Garg, Irrigation Engineering and Hydraulic Structures, Khanna
Publishers, 2009.
Reference Books
2. Ragunath H.M., Hydrology – Principles, Analysis, Design, Wiley Eastern
Limited, 1986.
3. Elizabeth M.Shaw, Hydrology in Practice,3rd Edition, Chapman & Hall
Publications, 1994.
4. Ragunath H.M., Ground Water Hydrology, 2nd Edition, Wiley Eastern Limited,
1987.
5. Ralph C.Heath, Basic Ground Water Hydrology, 4th Printing, USGS Publications,
1987.
6. Asawa, G.L., Irrigation Engineering, Wiley Eastern Limited, 1997.
7. Satya Narayana Murty Challa, Water Resources Engineering, New Age
International Publishers, Revised 2nd Edition, 2006.
8. C.Satyanarayanamurty, Design of Minor Irrigation and Canal Structures, Wiley
Eastern Limited, 1984.
Faculty members handling
Section Faculty Name Signature
G.Baskar
T.Deepa
Instructor HOD/Civil
Civil – Infrastructure -2011-2012
Lesson plan
B.Tech Civil Infrasturcture Engineering- V semester 2011-12
Course Code CI 0301
Course Name Structural Analysis –I
Prerequisites CI 0201,CI 0202
Category Structural Engineering
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 Concept of rolling loads and study its characteristics in structures
2 Preparation of influence line diagrams for statically determinate
structures
3 Analysis of indeterminate structures (beams, frames and trusses) for
internal forces, deflections etc.
4 Classical methods - slope deflection method - use in analysing
indeterminate beams and plane frames with and without sway
5 Moment distribution method - Iterative method often used in
analysing indeterminate structures
Student outcomes
Student outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and
engineering
e an ability to identify, formulate, and solve engineering problems
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
1 Overview of Structural
Analysis, Information
regarding Instructional
Objectives and Student
Outcome
1-5 a,e 1-10
STATICALLY INDETERMINATE STRUCTURES
2-3 Statically Indeterminate
Structures-Introduction-
Static and Kinematic
indeterminancy – Two and
three dimensional Pin jointed
and rigid jointed structures.
3 a,e 1,2,9
4-6 Analysis of Propped
Cantilever beams – SFD and
BMD
3 a,e 1,2,3,4,9
7-9 Analysis of Fixed beams –
SFD and BMD
3 a,e 1,2,3,4,9
10-12 Analysis of Continuous
beams – Theorem of Three
Moments – SFD and BMD
3 a,e 1,3,4,5
13 Indeterminate Trusses –
Introduction
3 a,e 1,2,3,4
14-15 Energy method – application
to analysis of indeterminate
pin jointed Plane trusses -
Lack of fit – temperature
effects
3 a,e 1,2,3
CYCLE TEST-I
SLOPE DEFLECTION METHOD
16 Slope Deflection Method -
Introduction
4 a,e 1,2,3,4
17-19 Analysis of Continuous
beams
4 a,e 1,2,3,4
20-21 Analysis of Rigid plane
frames without sway
4 a,e 1,2,3,4
22-23 Analysis of Rigid plane
frames with sway
4 a,e 1,2,3,4
MOMENT DISTRIBUTION METHOD
24 Moment Distribution
Method- Introduction,
Stiffness and Distribution
factors – Carry over factors
5 a,e 1,2,3,4
25-27 Analysis of Continuous
beams
5 a,e 1,2,3,4
CYCLE TEST-II
28-29 Analysis of Plane rigid
frames without sway
5 a,e 1,2,3,4
30-31 Analysis of Plane rigid
frames with sway
5 a,e 1,2,3,4
32 Introduction to Kani’s
method and Column analogy
method
5 a,e 2,3,5,9
ROLLING LOADS
33 Rolling loads – Introduction 1 a,e 1,2,3,4
34 Single Concentrated load -
Curves of max. BMD and
SFD
1 a,e 1,2,3,4
35-36 Rolling loads -Uniformly
distributed load -Curves of
maximum BMD and SFD
1 a,e 1,2,3,4
37-38 Rolling loads -Two
Concentrated loads –System
of moving loads- Curves of
maximum BMD and SFD –
Equivalent UDL
1 a,e 1,2,3,4
INFLUENCE LINE FOR STATICALLY DETERMINATE STRUCTURES
39-40 Influence line for Statically
Determinate Beams for BM
and SF – Absolute max. BM
2 a,e 1,2,3,4
-Concentrated Load
41-42 Influence line for Statically
Determinate Beams for BM
and SF– Absolute max. BM -
UDL
2 a,e 1,2,3,4
43-44 Influence for forces in
members for Statically
determinate trusses
2 a,e 1,2,3,4
45 Parallel chord truss- Reversal
of stresses-Focal length
2 a,e 1,2,3,4
MODEL EXAMINATION
END SEMESTER EXAMINATION
Text Books
1. Bhavikatti.S.S,Structural Analysis,Vol.1andVol.2,Vikas Publishing House
Pvt.Ltd.,1999.
2. V.N. Vazirani and M.M.Ratwani,Analysis of Structures,Vol II–Khanna
Publishers, 1989.
3. Vaidhyanathan.R and Perumal.P, Comprehensive Structural Analysis, Volume I
and II, Lakshmi Publications (P) Ltd.New Delhi, 2004.
4. Khurmi. R.S., Theory of Structures, S. Chand and Company Ltd., New Delhi,
1994.
Reference Books
5. Wang.C.K., Statically Indeterminate Structures McGraw Hill International Book
Company, 1984.
6. Harry.H.West., Analysis of Structures, John Wiley &Sons.1980
7. Junnarkar S.B, Mechanics of Structures,Vol. 2, Charotar Publishing House,
Anand, 1995.
8. Charles Head Norris, John Benson Wilbur, Senol Utku, Elementry Structural
Analysis, 3rd Edn.McGraw Hill International Editions, Structures Series, 1987.
9. Timoshenko. S.P & Young D.H., Theory of Structures, 2 Edn. McGraw Hill Book
Company,International Ed. 1965.
10. Thandavamoorthy . T.S., Analysis of Structures, Oxford University Press, 2005.
Faculty member handling
Section Faculty Name Signature
K.Gomathi
Lesson Plan
B.Tech Civil Infrastructure Engineering- ----- Semester V (2011-12)
Course Code CI0303
Course Name STRUCTURAL DESIGN II
Prerequisites CI0204-Basic design knowledge, usage of codes
Category STRUCTURAL ENGINEERING
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 To design masonry structures like walls, columns, and foundation
incorporating earthquake resistant features
2 To bring about an understanding of the behaviour of reinforced
concrete and the design philosophies
3 To design RCC beams, slabs, columns and footings including
structural design of piles and pile caps
Student outcomes
(a) an ability to apply knowledge of mathematics, science, and engineering
(c) an ability to design a system, component, or process to meet desired needs within
realistic constraints such as economic, environmental, social, political, ethical,
health and safety, manufacturability, and sustainability
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(h) the broad education necessary to understand the impact of engineering solutions
in a global, economic, environmental, and societal context
(i) a recognition of the need for, and an ability to engage in life-long learning
(j) a knowledge of contemporary issues
(k) an ability to use the techniques, skills, and modern engineering tools necessary for
engineering practice.
Section:
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
1 Introduction- overview of
syllabus- outcomes and
objectives to be achieved
- - 1-8
MASONRY
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
2,3 Strength of bricks- codal
provisions- permissible stresses-
nomograms
1 a,c,e 7,9
4,5,6 Design of brick columns, walls 1 a,c,e 7,9
7,8 Design of foundations and
masonry retaining walls
1 a,c,e 7,9
9,10 Earthquake resistant provisions 1 i,j 8,9
MIX DESIGN
11,12 Concrete-ingredients- effect of
each on strength-water-cement
ratio
effect of concrete making
materials on environment
2,3 c,h 4,5
13,14 Concrete mix design as per IS
codes
2,3 a,c 4,5
CYCLE TEST I (2 HOURS)
LIMIT STATE DESIGN
15,16,17 Evolution- concepts-codal
provisions, functional planning,
structural planning
2,3 d,i, j 1,2,3,4,6
SLABS
18,19,20
, 21
One way slab cantilever, Simply
supported,continuous
2,3 a,c,e 1,2,3,4,6
22,23 Two way slab- different support 2,3 a,c,e 1,2,3,4,6
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Referen
ce
conditions
BEAMS
24,25,26 Singly reinforced- IS 456 and
use of SP16 – use of excel
package
2,3 a,c,e,k 1,2,3,4,6
27,28 Doubly reinforced – IS 456 and
use of SP16
2,3 a,c,e 1,2,3,4,6
29,30 T and L beams – IS 456 and use
of SP16
2,3 a,c,e 1,2,3,4,6
31,32 DESIGN OF STAIR CASES 2,3 a,c,e 1,2,3,4,6
CYCLE TEST II (2 HOURS)
COLUMNS
33,34,35 Design of short and long
columns using SP16
2,3 a,c,e 1,2,3,4,6
36 Design of piles 2,3 a,c,e 1,2,3,4,6
FOUNDATION
37,38,39 Individual footing 2,3 a,c,d,e 1,2,3,4,6
40,41,42 Combined footings 2,3 a,c,d,e 1,2,3,4,6
43,44,45 Pile caps 2,3 a,c,d,e 1,2,3,4,6
MODEL EXAMINATION
Text Books
1. Varghese, P.C., Advanced Reinforced Cement Concrete, Pretince-Hall India,
2001
2. Unnikrishna pillai, S. and Deavadas Menon, Reinforced Concrete Design, Tata
MacGraw Hill Publishing Company Limited, New Delhi, 1998
3. R. Krishnaraju, R. N. Pranesh, Design of Reinforced concrete IS : 456-2000, New
age International Publication (P) Ltd., New Delhi
Reference Books
4. Code of Practice for Plain and Reinforced Concrete IS456-2000, BIS, New Delhi
5. Recommended guidelines for Concrete Mix Design IS 10262-1982, BIS, New
Delhi
6. Design Aids for Reinforced Concrete to IS 456, Special Publication (SP16), BIS
New Delhi,1980
7. Code of Practice for Structural use of Unreinforced Masonry, IS1905-1987, BIS,
New Delhi
8. Code of practice for Earthquake Resistant Design and Construction of Buildings
IS4326-1976, BIS, New Delhi
9. Anand S Arya, Design of Masonry and Timber including Earthquake resistant
design, KW Publishers, New Delhi, 2009.
Faculty members handling
Section Faculty Name Signature
Dr.R.Padmapriya
HOD /Civil Engg.
LESSON PLAN
Course Code CI 0305
Course Name FOUNDATION ENGINEERING
Prerequisites
Category PROFESSIONAL SUBJECTS
Instructional Objectives
Instructional
Objective No Instructional Objectives
1 To understand the essential steps involved in a geotechnical site
investigation
2 To know the principal types of foundations and the factors governing the
choice of the most suitable type of foundation
3 To know the bearing capacity estimation, end bearing capacity, skin
friction
Student Outcomes
Student
Outcomes No. Student Outcome
a an ability to apply knowledge of mathematics, science, and
engineering
e An ability to identify, formulate and solve engineering problems
k An ability to use the techniques, skills and modern engineering tools
necessary for engineering practice
Lecture
No. Date Topic
Instructional
Objectives
Student
Outcome Reference
Site Investigation And
Selection Of Foundations
1 Introduction - Objectives
of soil exploration 1 a 1,2,3
2,3 Methods of exploration 1 a 1,2,3
4,5 Geophysical methods 1 a 1,2,3
6,7 Penetration tests (SPT &
SCPT) 1 a 1,2,3
8
Depth of exploration -
Number and disposition of
bore holes
1 a 1,2,3
9 Sampling and sample
disturbance 1 a 1,2,3
10 Selection of foundation 1,2 a 1,2,3
based on soil condition
BEARING CAPACITY
11,12 Bearing Capacity - Types
of failure 3 a,e 1,2,3
13,14,15
Terzaghi's formula-
Skempton's formula- BIS
formula
3 a,e 1,2,3
16 Effect of water table 3 a,e 1,2,3
17
Allowable bearing
pressure - bearing pressure
based on SPT value
3 a,e 1,2,3
18,19 Plate load test 3 a,e 1,2,3
20 Methods of improving
bearing capacity 3 a,e 1,2,3
FOOTINGS AND RAFTS
21 Types of foundation 2 a,e 1,2,3
22,23
Assumptions in
conventional design -
Method of proportioning
2 a,e 1,2,3,4
24,25
Design of combined and
raft foundation - Codal
provisions
2 a,e 1,2,3,4
26,27
Components of settlement
- immediate and time
dependent settlement. 2 a,e 1,2,3,4
28
Causes of settlement -
method of minimizing
settlement - codal
provisions
2 a,e 1,2,3,4
PILE FOUNDATION
29 Function of Piles -
Classification of pile 2 a,e 1,2,3
30,31 Load carrying capacity -
Static formulae 3 a,e 1,2,3
32,33 Dynamic formulae
34,35 Pile load test 3 a,e 1,2,3
36
Pile group - Spacing - Pile
cap - Negative skin
friction
3 a,e 1,2,3
37,38
Introduction to well
foundations-diaphragm
walls-anchors 2 a,e 1,2,3
EARTH PRESSURE
39,40
Lateral earth pressure -
Rankine's theory - soil
stratification
1 a,e,k 1,2,3
41
Coulomb's theory -
Graphical method
(Culmann's method alone)
1 a,e,k 1,2,3
42,43
Stability of slopes -
Infinite and finite slopes -
Types of failure -Causes of
failure
1 a,e,k 1,2,3
45 Slip circle methods 1 a,e,k 1,2,3
46 Friction circle method 1 a,e,k 1,2,3
TEXT BOOKS
1. Punmia,B.C., Soil Mechanics and Foundations, Laxmi Publications Pvt Ltd., 2000
2. Venkatramaiah.C., Geotechnical Engineering, New Age International Publishers,
1995
REFERENCE BOOKS
3. Joseph E.Bowles, Foundation Analysis and Design, McGrawHill Publishing Co.,
1986
4. Peck,R.B., Hanson and Thornburn, Foundation Engineerng, Wiley Eastern Ltd.,
1974
5. Tomlinson,M.J., Foundation Engineering, Wiley Eastern Ltd., 1980
Faculty members handling
Section Faculty Name Signature
V SEM Miss.R.Keerthana
Degree / Specialization : B.Tech / Civil Infrastructure
Year / Semester: III / V
Subject Code / Title: CI 0307 / Construction Equipment
Subject Code / Title: CI 0307 / Construction Equipment
SI.NO LESSON TOPIC
Planned
Hour
Actual
Hour
Text
book
1
To introduce various construction equipment like equipment
for earthwork 2 1
2 material handling and other miscellaneous equipment 2 1
3
To study the working of the equipment mentioned above
and apply scientific principles for effectively utilizing them 3 1
CONSTRUCTION EQUIPMENT MANAGEMENT
4
Identification -Planning. Equipment Management in
Projects 2 2
5 Maintenance Management - Replacement 2 2
6 Cost Control of Equipment 2 2,3
7
Depreciation Analysis, Methods of calculation of
depriciation- Safety Management 3 2,3
Cycle Test - 1
EQUIPMENT FOR EARTHWORK
8
Fundamentals of Earth Work Operations - Earth Moving
operations .Types of Earthwork Equipment 4 2,3
9
Tractors, Motor Graders, Scrapers, Front end Loaders,
Ear1h Movers 4 1,3
OTHER CONSTRUCTION EQUIPMENT
10
Equipment for Dredging, Trenching, Tunneling, Drilling,
Blasting. 3 4
11 Equipment for compaction - Erection Equipment 2 4
12
Types of pumps used in Construction - Equipment for
Dewatering and Grouting 3 4
13 Foundation and Pile Driving Equipment 2 2
Cycle Test - II
MATERIALS HANDLING EQUIPMENT
14
Forklifts and related equipment - Portable Material Bins -
Conveyors 2 2,3
15
Hauling Equipment -equipment used in demolition - Chain
Pulley Blocks. 3 2,3
EQUIPMENT FOR PRODUCTION OF AGGREGATE &
CONCRETING
16 Crushers - Feeders - Screening Equipment 2 2,3
17 Handling Equipment Batching and Mixing Equipment 2 4
18 Hauling, Pouring and Pumping Equipment -Transporters. 2 4
19 Model Exam
Total Hours 45
Reference Books
1. Peurifoy, R.L., Ledbetter, W.B. and Schexnayder.C, Construction Planning Equipment and
Methods, McGraw Hill. Singapore 1995
2. Sharma S.C. Construction Equipment and Management, Khanna
Publishers, Delhi, 1988
3. Deodhar, S.V. Construction Equipment and Job Planning Khanna
Publishers Delhi, 1988
4. Dr. Mahesh Varma, Construction Equipment and its planning and application,
Metropolitan Book Company, New Delhi 1983
Handling Staff
HOD /
CIVIL
(V.R Prasath Kumar / Civil)
Lesson Plan
B.Tech Civil Infrastructure Engineering- V-Semester 2011-12
Course Code CI309
Course Name Environmental Engineering Systems
Prerequisites Nil
Category P
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 To study water supply demand and distribution
2 To carryout functional design of water treatment units
3 To understand sewerage systems and functional design of sewage
treatment units
4 To introduce concepts of environmental auditing
Student outcomes
Student outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and
engineering
c an ability to design a system, component, or process to meet desired
needs within realistic constraints such as economic, environmental,
social, political, ethical, health and safety, manufacturability, and
sustainability
e an ability to identify, formulate, and solve engineering problems
Lecture
No
Date Topic Instructional
outcome
Instructional
objectives
no
Referen
ce
1,2 Introduction-Development of public water
supply systems- objectives of water
supply scheme
a,c,e 1 1,2,3
3,4 water supply scheme- quantity of water –
estimation-percapita consumption
a,c,e 1 1,2,3
5,6 population forecast - intake structures a,c,e 1 1,3
7,8 Types of pipes- laying and testing –
selection of pumps.
a,c,e 1 1,3
9,10,11 Storage and distribution reservoirs-
capacity calculations- analysis of
distribution system
a,c,e 1 1,2
CYCLE TEST I
12 Objectives of water treatment- methods
and sequence of treatment of water.
a,c,e 2 1,2
13,14 Functional design of sedimentation units a,c,e 2 1,2
15,16 Functional design of filter units a,c,e 2 1,3
17,18 Iron and manganese removal-
deflouridation and demineralization
a,c,e 2 1,3
SURPRISE TEST
19,20 Water carriage systems-types-quantity of
sewage-self cleansing velocity-non
scouring velocity
a,c,e 3 1,3
21,22 Design of sewers a,c,e 3 1,2
23,24, Traps- construction and testing of sewers-
appurtenances
a,c,e 3 1,3
25,26 Sewer appurtenances ,Sewage pumping a,c,e 3 1,3
27,28 Sewage characteristics-BOD ,COD-
population equivalent-relative stability
a,c,e 3 1,3
CYCLE TEST II
29,30,3 Designing of screens-grit chamber- a,c,e 3 1,3
1,32 skimming tank-sedimentation
33,34,3
5
Biological treatment methods-trickling
filters- activated sludge process- oxidation
pond
a,c,e 3 1,3
36,37,3
8
Rotating biological contactors- design of
septic tank and final disposal units.
a,c,e 3 1,3
39,40 Disposal of sludge a,c,e 3 1,3
41,42 Environment-ecology-description of
environmental settings-indices and
indicators
a,c 4 4
43 Pre-audit, post –audit activities, EIA on
air environment
a,c 4 4
44,45 EIA on surface water environment, noise
environment
a,c 4 4
MODEL EXAMINATION
Text Books
4. Garg S K, Environmental Engg., Vol I & II, Khanna Publishers, New Delhi, 1994
5. Panneerselvam R, Environmental Engg., Vol I & II, SPGS Publishers, Chennai
88
6. Duggal K N, Elements of Environmental Engg., S Chand & Company Ltd., New
Delhi, 2002
7. R.R.Barthwal,Environmental Impact Assessment, New Age International
publishers ,New Delhi, 2002
Reference Books
5 Manual on Water Supply & Treatment and Sewerage & Sewage Treatment,
CPHEEO, New Delhi. 1999
LESSON PLAN
B.Tech Civil Engineering – VII Semester 2011-12
Course Code CE0403
Course Name TRANSPORTATION ENGINEERING
Prerequisites Nil
Category P
Instructional objectives
Instructional
objectives no.
Instructional objectives
1. To know about highway planning and geometric design of
roads
2. To know about highway drainage and maintenance
3. To study railway track construction and operation.
4. To know about the fundamentals of airways
5. To know about the fundamentals of harbour and looks
Student outcomes
Student outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and
engineering
c an ability to design a system, component, or process to meet desired
needs within realistic constraints such as economic, environmental,
social, political, ethical, health and safety, manufacturability, and
sustainability
e an ability to identify, formulate, and solve engineering problems
h the broad education necessary to understand the impact of
engineering solutions in a global, economic, environmental, and
societal context
k an ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice
Lectur
e No
Date Topic Instruction
al
objectives
Student
outcom
e
Referen
ce
HIGHWAY PLANNING AND
ALIGNMENT
1,2 Highway Development in India,
Macadam's method of road construction.
1 a,c 1
3,4
Highway Authority of India, Central Road
Research Institute.
1 a,c 1
5,6 Requirements of ideal alignment. Factors
controlling Highway alignment -
Engineering Surveys for alignment.
1 a,c 1
7,8 Classification and cross section of urban
rural roads Highway cross sectional
elements - Right of way - carriage way,
camber, Krebs, shoulders and Footpaths.
1 a,c 1
GEOMETRIC DESIGN OF HIGHWAYS
9,10 Design of horizontal alignments - Super 2 e,k 1,7
elevation.
11,12 Widening of Pavements on horizontal
curves, transition Curves, Vertical
alignments.
2 e,k 1,7
13 Rolling, limiting, exceptional and
minimum Gradients.
2 e,k 1,7
CYCLE TEST-1
14,15 Summit and Valley Curves. 2 e,k 1,7
16,17 Sight Distance - Types of sight distances. 2 e,k 1,7
HIGHWAY DRAINAGE AND
MAINTENANCE
19,20 Importance of highway drainage, Surface
Drainage, Subsurface drainage.
3 c,h 1,7
21,22 Drainage of slopes and erosion control,
Road construction in water logged areas.
3 c,h 1,7
23,24 Pavement failures. 3 c,h 1,7
25,26 Traffic engineering - Traffic operations -
Design of intersections.
3 c,h 1,7
RAILWAYS
27 Permanent way, its components and
functions of each component.
4 a,e,k 2
28,29 Gauges in railway tracks - coning of
Wheels - Geometric design of railway
tracks.
4 a,e,k 2
30,
31
Gradient - Super elevation, Widening of
gauges in curves, Grade compensation.
4 a,e,k 2
32,33 Speed on curves, Points and crossings,
Creep of rail signaling interlocking and
Track circuiting.
4 a,e,k 2
34,35 Track drainage - Lay outs of railway
stations and yards.
4 a,e,k 2
CYCLE TEST -2
AIRPORTS AND HARBOURS
36 Airport Planning, components of Airport. 5 a,c,k 3,4
37,38 Site selection, Runway Orientation, design
of runway.
5 a,c,k 3,4
39,40 Geometric design and correction for
gradients, airport zoning.
5 a,c,k 3,4
41,42 Definition of terms - harbours, ports,
Docks, Tides and waves, Requirements of
harbours.
5 a,c,k 3,4
43 Classification - site investigation for
satellite ports - Terminal facilities.
5 a,c,k 3,4
44,45 Mooring accessories Navigational aids.
Piers, Breakwaters, Wharves, Jetties,
Quays, Fenders.
5 a,c,k 3,4
Revision
MODEL EXAM
Text Books:
1. Khana. S.K., C.E.G. Justo - Highway Engineering, Nemchand & Bros,
Rookies. 2001
2. Saxena S.C., St. Satyapal Arora, A course in Railway Engineering,
Dhanpat Rai and Soars, Delhi 2000
3. Khannas. K., Arora M,G, Jain S.S Airport Planning And Design
Nemchand and Bros,Roorkee, 2000
4. Bindra S,P, A Course in Docks and Harbors Engineering, Dhanpat Rai and
Sons, New Delhi, 2001
Reference Books:
5. IRC Standard
6. Bureau of Indian Standards Publication on highway materials
7. Kadiyali L.R. Principles and Practice of highway Engineering, Khanna
Publishers Delhi 1992.
Faculty members handling
Section Faculty Name Signature
VII SEM - ‘A’ Mr. L.KRISHNARAJ
VII SEM – ‘B &
C’
Mr. N.B PRABHAKAR
HOD / CIVIL
Lesson Plan
B.Tech Civil Engineering- VII-Semester 2011-12
Course Code CE0407
Course Name Earthquake Resistant and Special Structures
Prerequisites Nil
Category P
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 To develop systematically from basic principles of structural
dynamics the characteristic of dynamic behaviour of the structure,
namely, response spectrum
2 To expose important aspects of various theories of cause of
earthquake and measurement of its effects on the structure as loads
3 To impart knowledge about materials and structural systems for
structures subject to earthquake
4 To introduce basic principles of design and detailing for ductility
5 To expose aspects of modern methods for seismic damage
evaluation, control, repair and rehabilitation
Student outcomes
Student
outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and
engineering
f an understanding of professional and ethical responsibility
h the broad education necessary to understand the impact of engineering
solutions in a global, economic, environmental, and societal context
i a recognition of the need for, and an ability to engage in life-long
learning
j a knowledge of contemporary issues
k an ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
1,2 Introduction-Systems with single
degree of freedom - Equation of
motion
1 a, h 2,7
3,4,5 Analysis of free vibrations - Response
for harmonic, impulsive, periodic and
general dynamic loading - free and
forced vibration
1 a, h 2,7
6,7,8 response of multi degree of freedom -
damped and undamped systems -
evaluation of natural frequencies and
modes by modal method
1 a, h, j 2,7
9 Base excited systems - Concepts of
spectral quantities and response
1 a, h, j 1,5,9
spectrum
10,11 Earthquake characterizations -
Elements of engineering seismology
2 a, h, i 5,6,9
CYCLE TEST 1
12,13 Indian and world seismicity - learning
from past earthquake history
2 a, i, j 5,6,9
14,15 Lessons from failures of structures
2 a, f, j 1,5,9
16,17 Codal provision for design - IS 1893-
2002 - aspects in planning and layout
- regular and irregular buildings
3 a, f, j 1,5,9
18,19,20 Structural systems
3 a, h, k 1,5,9
21,22 Principles of design - choice of
materials - ductility based design
3 a, k 1,5,9
23,24 Various methods of estimating loads-
seismic coefficient and response
spectra methods
3 a, h 1,5,9
25,26,27 Determination of design forces and
drift in water tanks and multistoreyed
buildings sensitive to earthquakes
4 a, h 1,5,9
28,29 IS 1893 Codal provision for detailing
for earthquake resistance
4 a, h, k 1,5,9
CYCLE TEST II
30,31 IS 13920-1993 - shear wall design
and detailing
4 a, h, k 1,5,9
32,33,34 Repair and Rehabilitation techniques
5 a, f, k 1,3,5
35,36,37 seismic damage ratings - Passive and
Active control of vibration
5 a, f, k 1,3,5
38,39,40 New and favorable materials - case
studies in repair and rehabilitation
5 a, f, j 1,3,5
MODEL EXAMINATION
END SEMESTER EXAMINATION
Text Books
1. Short course on Seismic design of reinforced concrete buildings, CEP, IIT, Kanpur,
Dec.1995
2. Anil.K.Chopra, Dynamics of structures (Theory and Applications to Earthquake
Engineering), 2nd Edition, Prentice Hall of India Private Limited. New Delhi, 2003
3. Short term course on Seismic Retrofit of Multistoreyed Reinforced concrete
Buildings, National Programme on Earthquake Engineering Education (NPEEE), IIT,
Madras, July, 2005
4. Santhakumar.A.R., Concrete Technology, Oxford University Press, 2007.
Reference books
5. Paulay.T and Priestly. M.N.J., A seismic Design of Reinforced Concrete and
Masonry Building, John Wiley and Sons, 1991
6. JaiKrishna, A.R.Chandrasekaran and BrijeshChandra, Elements of Earthquake
Engineering, 2nd Edition, South Asian Publishers, Pvt. Ltd.
7. Course Notes on Structural Design for Dynamic Loads, SRM Engineering College,
Dec2002
8. Lecture notes on Health Monitoring of Structures- A Proactive Strategy, ISTE
sponsored course held at SRM Engineering College, Jan,2003
9. Learning earthquake Design and Construction, Earthquake Tips 1 to 24, Authored by
C.V.R. Murthy, IIT, Kanpur. [email protected] Web sites: www.nicee.org.
Faculty members handling
Section Faculty Name Signature
Dr.S.Elavenil
Mr.S.Pradeep
HOD/Civil
Lesson plan
B.Tech Civil Engineering VII semester 2011-12
Course Code CE-EST5
Course Name PRESTRESSED CONCRETE STRUCTURES
Prerequisites Should have studied CE0201, CE0202, CE0301,
CE0302, CE0204, CE0303, CE0304
Category (Structural Engineering)-P- Professional subject
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 Prestressing methods, principles and concepts are essential for the
basic concept of the subject
2 Analysis of prestress and the resultant stresses using different
concepts is dealt here
3 Determination of losses in concrete & Anchorage zone stresses in end
block can be brought out using IS method
4 Determination of shear strength and ultimate shear resistance
capacity as per IS code is dealt
5 Design of prestresses concrete section, stresses at transfer, service
load, limit state of collapse in flexure and shear is dealt here
6 Design of prestressed concrete slab is also dealt here
Student outcomes
Student
outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and engineering
c
an ability to design a system, component, or process to meet desired needs
within realistic constraints such as economic, environmental, social,
political, ethical, health and safety, manufacturability, and sustainability
e an ability to identify, formulate, and solve engineering problems
h the broad education necessary to understand the impact of engineering
solutions in a global, economic, environmental, and societal context
i a recognition of the need for, and an ability to engage in life-long learning
j a knowledge of contemporary issues
Section
Lecture
No Date Topic
Instructional
objectives
Student
outcome
Referenc
e
INTRODUCTION AND ANALYSIS FOR STRESS
1-2
Introduction - Basic concepts -
terminology - system of prestressing
- pretensioning - post tensioning -
principle of prestressing - types of
prestressing. Assumptions.
1 a,c,e 1-6
3 -4
Concentric & eccentric tendon -
resultant stresses - rectangle - I-
section (symmetrical only) -concepts
of prestressing - stress concept
1,2 a,c,e 1-3
5 - 6 Analysis of prestress 1,2 a,c,e 1-3
7 -8 Analysis of prestress 1,2 a,c,e 1-3
9 -10 Strength concept - anlysis 1,2 a,c,e 1-3
11 -12 Load balancing concept Tutorial –
Problems 1,2 a,c,e 1-3
LOSSES OF PRESTRESS
13 -14
Losses of prestress - types - losses
due to elastic deformation of
concrete.
3 h,i,j 1-3
15 -16
Loss due to shrinkage of concrete -
creep of concrete - friction -
anchorage slip.
3 h,i,j 1-3
CYCLE TEST –I (Two periods)
ANCHORAGE ZONE STRESSES
17 -18
Stress distribution in end block -
investigations on anchorage zone
stresses -Indian code provision only.
3 a,c,h,i,j 1-5
19 -20
Investigations on anchorage zone
stresses – Indian code provision
only.
3 a,c,h,i,j 1-5
SHEAR STRENGTH
21 -22
Shear strength - principal stresses -
Ultimate shear resistance - Indian
Standard code provision.
4 a,c,e,h,i,j 1-3, 6
23 - 24 Determination of shear strength
4 a,c,e,h,i,j 1-3, 6
FLEXURAL DESIGN
25 - 26
Design of sections for flexure -
stress condition - minimum section
modulus - stresses at transfer -
service loads -
5 a,c,e,h,i,j
27 -28 Design of section 5 a,c,e 1-3, 6
29 -30
Prestressing force - eccentricity -
check for stresses - initial and final
conditions.
5 a,c,e 1-3, 6
CYCLE TEST –II (Two periods)
31 -32 Check for stresses 5 a,c,e 1-3, 6
33 -34 Limit state of collapse in flexure -
shear. (Rectangular Section only) 5 a,c,e 1-3, 6
35 -36 Design of section 5 a,c,e 1-3, 6
SLABS
37 -38 Types of prestressed concrete slab -
design of one-way slab 6 a,c,e,h,i,j 1-3, 6
39- 40 Design of two-way slab 6 a,c,e,h,i,j 1-3, 6
41- 42 Design of slab 6 a,c,e,h,i,j 1-3, 6
43 -45 Design of simple flat slab. 6 a,c,e,h,i,j 1-3, 6
MODEL EXAMINATION (Three hours)
Text Books
1 Krishna Raju. N, Prestressed Concrete 4th edition Tata McGraw Hill Company, New
Delhi - 1998
2 N.C. Sinha and S.K.Roy, Fundamentals of prestressed Concrete, S. Chand and Co.,
1985
3 N.Rajagopalan, Prestressed Concrete, Narosa Publishing House, New Delhi-2002
Reference Books
4 T.Y.Lin Design of, Prestressed Concrete Structures, Asia Publishing House, Bombay
1995
5 Guyon. V., Limit State Design of Prestressed Concrete, Vol.I & II Applied Science
Publishers, London, 1992
6 Dayarathnam.P, Prestressed Concrete Structures, Tata McGraw Hill Company, New
Delhi, 1999
Faculty members handling
Section
Faculty Name
Signature
K.Gunasekaran
C.Sudha
Lesson Plan
B.Tech Civil Engineering- VII-Semester 2011-12
Course Code CE-EMS1
Course Name CONCRETE TECHNOLOGY
Prerequisites Nil
Category P
Instructional objectives
Instructional
objectives no.
Instructional objectives
1 To develop systematic knowledge of concrete constituents
2 To familiarize with the fundamentals of concrete
3 Principles involved for high performance concrete
4 To understand the basic concepts of special concrete
5 To introduce fundamentals of concreting methods
Student outcomes
Student
outcome
number
Student outcome
a an ability to apply knowledge of mathematics, science, and
engineering
e an ability to identify, formulate, and solve engineering problems
k an ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice.
Lecture No Date Topic Instructional
objectives
Student
outcome
Reference
1,2 Introduction- overview of
syllabus- objectives and
outcomes to be achieved
CONCRETE MAKING
MATERIALS
Introduction to concrete
technology - materials used for
making concrete. Cement - types
of cement - chemical
composition of cement
1 a,e 1,3,7
3,4 Hydration of cement - testing on
cement: fineness- setting time-
soundness- strength.
Aggregate: classification of
aggregate according to the
formation, size and shape.
1 a,e 1,3,7
5,6 Properties of aggregate: physical
properties- specific gravity - bulk
density- porosity and absorption-
moisture content- bulking of
sand-
Mechanical properties –
strength- crushing value-
abrasion value- impact value.
1 a,e 1,3,7
7 Sieve analysis- fineness modulus
grading curve -methods of
combining aggregates – grading
requirements as per IS
specifications.
1 a,e 1,3,7
8,9 Water – quality of water-
chemical admixtures –
superplasticisers – different types
1 a,e 1,3,7
10 PROPERTIES OF CONCRETE
Fresh concrete properties –
hardened concrete properties –
elastic properties – creep and
shrinkage
2 a 1,2,3,7
11,12 Durability properties- factors
affecting fresh and concrete
properties. Test on fresh
concrete: workability – density –
air content.
2 a 1,2,3,7
13,14 Test on hardened concrete
properties: compressive strength
– modulus of rupture- modulus
of elasticity- permeability –test
on permeability
2 a 1,2,3,7
CYCLE TEST I ( 2 HOURS)
15,16 RCPT – half cell – construction
and measurement –
determination of PH of concrete –
phenolphthalein test
2 a 1,2,3,7
17,18 Water absorption. Non 2 a 1,2,3,7
destructive testing of concrete.
19 MIX DESIGN
Principles of mix design – grades
of concrete.
3 a, e, k 1,3,5,6,7
20,21,22 Strength requirements of
concrete – ordinary and
controlled concrete – methods of
proportioning – trial mixes
3 a,e, k 1,3,5,6,7
23,24,25,26 Example on the design of mixes
using BS method – BIS method
3 a,e, k 1,3,5,6,7
27 Quality control 3 a,e, k 1,3,5,6,7
CYCLE TEST II (2 HOURS)
28,29 SPECIAL CONCRETE
Introduction – types of special
concrete – Properties, application
and materials used for special
concretes – mix design – Light
weight concrete (LWC)
4 a,e 1,3,7
30, 31 High Strength concrete (HSC) –
High performance concrete
(HPC)
4 a,e 1,3,7
32,33 Special considerations for
curing- Fibre Reinforced
Concrete (FRC)
4 a,e 1,3,7
34,35,36 Polymer Concrete (PC) –
Ferrocement (FC). Ready mixed
concrete (RMC)
4 a,e 1,3,7
37,38 CONCRETING OPERATIONS
Process and manufacturing of
concrete: Mixing
5 a,e 1,3,7
39, 40 Methods of transportation,
placing and compacting –
finishing
5 a,e 1,3,7
41, 42 Curing - different types of
curing, Cold weather concrete-
hot weather concrete
5 a,e 1,3,7
43,44 Prepacked concrete – formwork
for concrete
5 a,e 1,3,7
45 Guniting – Short-creting 5 a,e 1,3,7
MODEL EXAMINATION
TEXT BOOKS
1. M.S.Shetty, Concrete Technology, S.Chand and Company Ltd. Delhi, 1988.
2. Neville, A.M.., Properties of Concrete, Longman Scientific & Technical,
England, 2000.
3. Santhakumar.A.R, Concrete Technology, Oxford University Press, New Delhi,
2007.
REFERENCE BOOKS
4. Rixon, M.R., Chemical Admixtures for Concrete, John Wiley & sons, 1977.
5. Krishnaraj.N., Design of Concrete mixes, Sehgal Educational Consultants &
Publishers PVT Ltd,
Faridabad, 2002.
6. IS: 10262, Recommended guidelines for Concrete Mix Design, 1982.
7. Gambhir, Concrete Technology, 1995.
8. Varchney.R.S., Concrete Technology, Oxford and IBH Publishers, 1982.
Faculty members handling
Section Faculty Name Signature
A Dr.R.Padmapriya
B Ms. C. Sudha
C Mr. S.A. Vengadesh subramaniam