22CBS307 TRANSFORM CALCULUS AND PARTIAL SEMESTER III

DIFFERENTIAL EQUATIONS
(Common to Civil and IBT Branches)
PREREQUISITES CATEGORY L T P C
NIL BS 3 1 0 4

Course To be familiar with Fourier Series. To gain the knowledge of solving Boundary value
Objectives problems. To be familiar with Laplace and Inverse Laplace transforms to solve ordinary
differential equations.To acquire knowledge on Fourier transforms.To be familiar with Z-
transform to solve difference equations.
UNIT – I FOURIER SERIES 9 Periods
Dirichlet’s Conditions – General Fourier series – Odd and even functions - Half range Sine and Cosine series –
Root Mean Square Value- Parseval’s Identity on Fourier series–Harmonic Analysis
UNIT – II BOUNDARY VALUE PROBLEMS 9 Periods
Classification of PDE – Method of separation of variables - Fourier series solutions of one dimensional wave
equation – One dimensional equation of heat conduction – Steady state solution of two dimensional equation
of heat conduction (Infinite Stripes in cartesian coordinates only).
UNIT – III LAPLACE TRANSFORMS 9 Periods
Laplace transform – Sufficient condition for existence – Transform of elementary functions – Basic properties
–Transforms of derivatives and integrals of functions - Derivatives and integrals of transforms - Transforms of
unit step function and impulse functions – Transform of periodic functions. Inverse Laplace transforms -
Statement of Convolution theorem – Initial and final value theorems – Solution of linear ordinary differential
equation of second order with constant coefficients using Laplace transformation techniques.
UNIT – IV FOURIER TRANSFORMS 9 Periods
Statement of Fourier integral Theorem – Fourier transform pair–Fourier Sine and Cosine Transforms –
Properties – Transforms of Simple functions – Convolution Theorem – Parseval’s Identity.
UNIT – V Z TRANSFORMS 9 Periods
Z-transforms - Elementary properties –Convergence of Z-transforms - Initial and Final value theorems -
Inverse Z-transform using partial fraction and convolution theorem– Formation of difference equations -
Solution to difference equations of second order with constant coefficients using Z- transform
Contact Periods: Lecture: 45 Periods Tutorial: 15 Periods Practical: 0 Periods Total: 60 Periods

TEXT BOOKS:

1 Veerarajan. T.,“Transforms and partial Differential equations”, Tata McGrawHill Publishing Co., New
Delhi. 2015.
2 B.S.Grewal.,“Higher Engineering Mathematics”, Khanna Publishers, NewDelhi,44th Edition,2018.

REFERENCES

1 Kandasamy, Thilagavathy and Gunavathy.,“Engineering Mathematics” for III Semester, S. Chand & Co,
Ramnagar, New Delhi.
2 N.P.Bali and Manish Goyal.,“Transforms and partial Differential equations”, University Science Press,
New Delhi, 2010.
3 Veerarajan T.,“Engineering Mathematics” for Semester I&II, Tata McGraw Hill Education (India) Pvt.
Ltd., New Delhi, Third Edition 2012.
4 Erwinkreyszig,“Advanced Engineering Mathematics”,9th Edition, John Wiley & Sons,2006.
22CES307 MECHANICS OF FLUIDS SEMESTER III

PREREQUISITES CATEGORY L T P C
NIL ES 3 0 0 3
Course To impart the knowledge on properties and behavior of fluid at static and dynamic conditions to
Objectives
solve various fluid flow problems.
UNIT – I BASICCONCEPTS ANDFLUIDSTATICS 9 Periods
Properties of fluids- Density, specific gravity, viscosity, surface tension, capillarity, compressibility, bulk
modulus. Fluid statics – Pascal’s Law - Pressure measurement – Manometers. Hydrostatic forces on plane and
curved surfaces –Stability of floating bodies – Buoyancy–Metacentre and metacentric height-simple problems.
UNIT – II PRINCIPLES OF MASS 9 Periods
Eulerian Vs.Lagrangian descriptions – Classification of fluid flow – Stream line, path line and streakline –
Continuity equation – Velocity – Acceleration of a fluid particle - tangential, normal, local and convective
acceleration-Velocity potential and stream functions – Free and Forced vortex flow.
UNIT – III PRINCIPLE OF ENERGY 9 Periods
Energy and its forms, Energy equation – Euler’s and Bernoulli’s equation – Applications - Venturimeter,
Orificemeter and Pitot tube - Flow over Notches and Weirs.
UNIT – IV FLOW THROUGH CONDUITS 9 Periods
Laminar flow in pipes and between parallel plates - Hagen Poiseuille equation for flow through circular pipes -
Turbulent flow – Reynolds experiment –Frictional loss in pipe- Darcy – Weisbach equation - Hydro dynamically
smooth and rough boundaries, velocity distributions for turbulent flow in smooth and rough pipes.
UNIT – V BOUNDARY LAYER AND FLOW AROUND IMMERSED BODIES 9 Periods
Boundary layer - Definition – Boundary layer thickness - Displacement, energy and momentum thickness -
Boundary layer separation - Flow around immersed objects – Drag and lift on immersed bodies – Magnus effect.
Contact Periods: Lecture:45 Periods Tutorial: 0 Periods Practical: 0 Periods Total: 45 Periods

TEXT BOOKS:
1 R.K.Bansal,“Fluid Mechanics and Hydraulic Machines”,LaxmiPublications(P)Ltd., NewDelhi, 2019.
2 P.N.ModiandS.M.Seth,“HydraulicsandFluidMechanics,IncludingHydraulicMachines”,StandardBookHous
e, NewDelhi, 2015.

REFERENCES:
1 K.L.Kumar,“EngineeringFluid Mechanics”,Eurasia Publishing House(P)Ltd., New Delhi,2020.
2 R.K.Rajput,“A Text Book of Fluid Mechanics and Hydraulic Machines”, S.Chand and Company,
NewDelhi, 2015.
3 A.K.Jain,“Fluid Mechanics”,Khanna Publishers,New Delhi,2021.
4 M.K.Natarajan“Principles of Fluid Mechanics”, Anuradha Agencies,Vidayal Karuppur,Kumbakonam,
2008

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 Identify the properties of fluids and fluid statics K2
CO2 Apply the continuity equation for solving fluid flow problems. K3
CO3 Apply the principles of Euler’s equation and Bernoulli’s equation in real situation of K3
fluid problems
CO4 Examine the fluid flow behavior for laminar and turbulent flows. K3
CO5 Analyze the boundary layer separation drag and lift on immersed bodies. K3
 22CES308 ENGINEERING GEOLOGY SEMESTER III

PREREQUISITES CATEGORY L T P C
NIL ES 3 0 0 3

Course This course will familiarize the students on the role and importance of geology in civil
Objectives engineering, apart from learning the methods of surface and subsurface investigations using
geological, geophysical and remote sensing methods.
UNIT – I INTRODUCTION AND GEOMORPHOLOGY 9 Periods
Interrelationship between Geology and civil engineering – Branches of Geology – Earth Structure and
composition –Concept of Plate tectonics, Geological processes, agents and kinds – Weathering, wind, rivers and
their Engineering significance - Volcano – Landforms, Materials and Types of Eruptions, Ground water –
Properties of rock – Geological work of ground water.
UNIT – II MINERALOGY 9 Periods
Physical and Chemical properties of minerals – Study of the following rock forming minerals – Quartz family,
Felspar family, Biotite, Muscovite, Calcite, Magnesite, Ore minerals - Hematite, Magnetite, Bauxite, Graphite,
Coal and Oil and natural gas – Clay minerals – Properties and their economic uses.
UNIT – III PETROLOGY AND GEOTECHNICAL PROPERTIES OF ROCKS 9 Periods
Formation of Igneous rocks, Sedimentary rocks and Metamorphic rocks, Texture and Structure, Classification
and Engineering properties of Granite, Pegmatite, Dolerite and Basalt., formation and Engineering properties of
Sandstone, Limestone and Shale. Agents, kinds and Engineering properties of metamorphic rocks - Quartzite,
Marble, Slate, Gneiss and schist. Influence on strength of rocks. Rock Mass Rating (RMR), Rock Quality
Designation (RQD), Geological Strength Index (GSI).
UNIT – IV STRUCTURAL GEOLOGY & ELEMENTS OF SEISMOLOGY 9 Periods
Attitude of beds Dip and Strike - Uses of Clinometer compass – Outcrops – Geological maps – their uses –
Structural features – Folds, Faults and Joints – their engineering significance. - Earthquakes – Causes and effects,
Seismic waves and seismographs, Elastic rebound theory, Mercelli’s scale of intensity, Magnitude - Richter’s
scale and Earthquake Zones in India -Engineering Considerations.
UNIT – V GEOLOGICAL INVESTIGATIONS FOR ENGINEERING 9 Periods
STRUCTURES AND GEOHAZARDS
Geological investigations pertaining to the constructions of Dam and Reservoir, Tunnels and Road cuttings,
Geophysical investigations - Seismic and electrical resistivity methods and data interpretation. Landslides –
causes and prevention – Sea erosion and coastal protection, Tsunami – causes and mitigation. Case studies from
India.
Contact Periods: Lecture: 45 Period Tutorial: 0 Period Practical: 0 Period Total: 45 Periods

TEXT BOOKS:
1 Parbin Singh, “Engineering and General Geology”, Katson Publication House, 2015.
2 Varghese, P.C., “Engineering Geology for Civil Engineering” PHI Learning Private Limited,New Delhi,
2012.

REFERENCES:
1 F.G.Bell. “Fundamentals of Engineering Geology”, B.S. Publications. Hyderabad 2011.
2 N. Chenna Kesavulu. “Textbook of Engineering Geology”, Macmillan India Ltd., 2009.
3 A.B.Roy , “Fundamentals of Geology”, Narosa Publication,2010.
4 S.M.Mathur, “Elements of Geology”, PHI learning private limited New Delhi 2011.
5 Bangar.K.M, “Principles of Engineering Geology”, Standard Publishers& Distributors,1705- B, Naisarak,
Delhi,2010.
 22CPC301 MECHANICS OF SOLIDS I SEMESTER III

PREREQUISITES CATEGORY L T P C
ENGINEERING MECHANICS PC 3 0 0 3
Course To understand the concepts and the behavior of Engineering materials under the action of axial,
Objectives bending and twisting forces in order to evaluate the strength of the materials.
UNIT – I STRESS, STRAIN AND DEFORMATION OF SOLIDS 9 Periods
Introduction – Mechanical properties of materials – Hooke’s law – Stress Strain Diagram for Mild Steel, TOR
Steel, Concrete – Principle of superposition - Deformation of simple, compound bars and bars of Varying
sections – Elastic constants - Volumetric strains – Thermal Stresses and Strains - Strain Energy due to Axial
Force – Resilience – Stresses due to Impact and Suddenly Applied Load. Stresses and deformation in thin
cylindricalshell due to internal pressure.
UNIT – II SHEAR FORCE AND BENDING MOMENT IN BEAMS 9 Periods
Beams and Bending – supports and loads - Shear Force and Bending Moment Diagrams for determinate beams –
Relationship between Rate of Loading, Shear Force, Bending Moment – Point of Contra Flexure.
UNIT – III BENDING AND SHEAR STRESSES IN BEAMS 9 Periods
Theory of Simple Bending – Analysis of Beams for Stresses - Stress Distribution at a Cross Section due to
Bending Moment and Shear Force for determinate beams - Flitched Beams – Combined Direct and Bending
Stresses – Condition for No Tension in a section – Strain Energy due to Flexure, Transverse Shear – Shear Stress
Distribution.
UNIT – IV TORSION 9 Periods
Theory of Torsion – Stresses and Deformations in Solid and Hollow Circular Shafts – Strain Energy due to
Torsion – Combined bending moment and torsion of shafts - Power transmitted to shaft – Shaft in series and
parallel – Closed and Open Coiled helical springs – Leaf Springs – springs in series and parallel.
UNIT – V COMPLEX STRESSES AND TRUSS 9 Periods
State of Stress in two dimensions – Stresses on inclined planes – Principal Stresses and Principal Planes –
Maximum shear stress–Principal Strains and Direction – Mohr’s circle method.
Analysis of pin jointed plane determinate trusses by method of joints and method of sections – Analysis of space
truss by tension coefficient method.
Contact Periods: Lecture: 45 Periods Tutorial: 0 Periods Practical: 0 Periods Total: 45 Periods

TEXT BOOKS:
1 Rajput R.K. “Strength of Materials (Mechanics of Solids”, S.Chand & company Ltd., New Delhi, 7th edition,
2018.
2 Rattan S.S., “Strength of Materials", Tata McGraw Hill Education Pvt .Ltd., New Delhi, 2017.

REFERENCES:
1 Singh. D.K., “Strength of Materials”, Ane Books Pvt Ltd., New Delhi, 2021.
2 Egor P Popov, “Engineering Mechanics of Solids”, 2nd edition, PHI Learning Pvt. Ltd., New Delhi, 2015.
3 Beer. F.P. & Johnston. E.R. “Mechanics of Materials”, Tata McGraw Hill, 8th Edition, New Delhi 2019.
4 Vazirani. V.N, Ratwani. M.M, Duggal .S.K “Analysis of Structures: Analysis, Design and Detailing of
Structures-Vol.1”, Khanna Publishers, New Delhi 2014.

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 Describe the fundamental concepts of stress, strain and their deformations under axial loads. K2
CO2 Draw shearforceandbending momentdiagrams for different loadings on the determinate beams K3
CO3 Sketch the distribution of stresses for various cross sections subjected to transverse loadings. K3
CO4 Apply elastic theory of torsion in designing of shafts and helical springs. K3
CO5 Analyse the determinate trusses and 2D stress elements. K3
 22CPC302 CONSTRUCTION MATERIALS AND TECHNOLOGY SEMESTER III

PREREQUISITES CATEGORY L T P C
NIL PC 2 0 2 3
Course To learn the properties, applications and testing procedures of construction materials and the
Objectives
construction practices for different types of structural elements.
UNIT – I CONSTRUCTION MATERIALS 6+6 periods
Properties, composition, types and tests : Stones – Bricks – Hollow blocks - Concrete- Timber – Wood products
– Structural steel and high tensile steel – Ferrous and non ferrous metal – Glass – Polymer products – Green
materials.
UNIT – II MASONRY AND PLASTERING 6+6 periods
Stone masonry – Brick masonry – Composite masonry – Types of wall – Arches and Lintels. Plastering -
Materials and Methods of plastering – Types of plastering – Tools for plastering – Preparation and uses of
cement mortar–Defects in plastering–pointing.
UNIT – III FLOORING AND ROOFING 6+6 periods
Floors – Requirements of good floor – Floor finishing materials – Classifications – Terrazzo flooring – Cement
concrete flooring–Suitability of floors for various applications. Damp Proof Course– Causes and effect of
dampness – Materials and Methods of damp proofing – Anti-termite treatment.
Roofs– Roofing materials – Requirements – Types – Pitched roof – Flat roof – Flat and Ribbed slab.
Ramps and Escalators.
UNIT – IV DOORS,WINDOWS AND PAINTING 6+6 periods
Doors and Windows– Types – Fixtures and Fastening – Ventilators.
Painting – Paints and painting – Classification of paints – Painting on new and old surfaces of steel, timber
and masonry wall –Defects in painting.
UNIT – V CONSTRUCTION PRACTICES 6+6 periods
Centering and shuttering – Formwork – Scaffolding – Plumbing Services.
Market forms of steel – Fabrication and erection of steel trusses – Frames – Launching girders. Housing
Modernization – Construction of tall structures – Lift modernization – Automation in construction –
Introduction to sustainable practices – Concept of carbon footprint.
Contact Periods: Lecture: 30 Periods Tutorial: 0 Periods Practical: 30 Periods Total: 60 Periods

TEXT BOOKS:
1 Punmia.B.C, Ashok Kumar Jain and Arun Kumar Jain, “Building construction”, Laxmi Publications
Pvt.Ltd., 2016.
2 Bindra.S.P and Arora.S.P, “Building construction”,Dhanpat Rai Publication Pvt.Ltd.,2010.

REFERENCES:
1 Edward Allen, Joseph Iano,“Fundamentals of Building Construction : Materials and Methods”,
Wiley Publishers,2014.
2 Maden Mehta, “Building Construction”, Pearson Education Publishers, 2016.
3 Varghese P.C ,“Building Construction”, Prentice Hall of India,2012.
4 Rangwala, “Building construction”, Charotar Publishing House Pvt.Ltd., 2016.

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 Select the suitable materials for building construction K2
CO2 Acquire knowledge on different masonry and plastering works. K2
CO3 Select the suitable type of floors, roofs, stairs and dampness preventing methods for K2
practical applications.
CO4 Apply knowledge for selection of doors, windows paints and materials for buildings. K2
CO5 Know the different construction practices existing in construction field. K2
 22CPC303 SURVEYING SEMESTER III

PREREQUISITES CATEGORY L T P C
NIL
PC 3 0 0 3
Course To understand the basic principle and concepts of different surveying methods to calculate various
Objectives measurements using survey instruments.

UNIT – I INTRODUCTION, CHAIN SURVEYING AND COMPASS 9 Periods

SURVEYING
Definition- Principles - Classification – Field and Office work – Scales – Conventional Signs.
Chain Survey - Instruments – Ranging – Types - Obstacles in Chaining – Chain and Tape corrections –Setting out
Perpendiculars.
Prismatic Compass – Surveyor’s Compass – Working and use of compass - Bearing – Systems and Conversions
– Computation of angles from bearing - Local Attraction - Magnetic Declination – Dip – Traversing –
Adjustment of error.
UNIT – II LEVELLING AND CONTOURING 9 Periods
Basic Terms - Types of Level – Fundamental Axes - Levelling staff – Bench Marks – Temporary and Permanent
Adjustments – Types of Levelling - Curvature and Refraction correction – Reciprocal Levelling – Calculation of
Areas and Volumes.
Contouring – Characteristics and Uses of Contours – Methods of contouring.
UNIT – III THEODOLITE SURVEYING AND TACHEOMETRIC SURVEYING 9 Periods
Theodolite – types – Terms - Temporary and Permanent Adjustments – Measurement of Horizontal Angles by
Repetition and Reiteration – Closing Error and Distribution – Omitted measurements. Tacheometric surveying –-
Stadia method - fixed hair method - Determination of constants of the tacheometer - use of anallactic lens -
distance and elevation formula for inclined sights with vertical and normal holding staff – movable hair method -
Tangential method - subtense bar method.
UNIT – IV CURVES AND HYDROGRAPHIC SURVEYING 9 Periods
Simple curves – elements - Setting out of curves - Linear and angular methods - Compound and Reverse curves -
elements.
Shore line survey–Sounding–Equipments–Locating Sounding-Reduction.
UNIT – V TRIANGULATION AND MODERN SURVEYING INSTRUMENTS 9 Periods
Vertical and horizontal control - Triangulation-classification – Intervisibility - Triangulation Figures – Strength of
figure -Signals and Towers - Base line measurements - Satellite stations and reduction to centre.
Trigonometrical Levelling - Geodetical observations - Curvature correction - Refraction correction – Axis signal
correction – Difference in elevation.
Total Station – Principle – classification - working. Applications of Drone Surveying.
GPS - Developments – Basic Concepts – Segments – Applications.
Contact Periods: Lecture: 45 Periods Tutorial: 0 Periods Practical: 0 Periods Total: 45 Periods

TEXT BOOKS :
1 Punmia B.C, Ashok K Jain, Arun K Jain. “Surveying, Vol. I &II”, Lakshmi Publications, 2017.
2 Kanetkar.T.P,and Kulkarni.S.V, “Surveying and Levelling, Vol. I & II”, Pune Vidyarthi Griha
Prakashan,2014.

REFERENCES :
1 Basak N.N, “Surveying and Levelling”, Tata McGraw-Hill, Publishing Company, 2nd edition,2014.

2 BhavikattiS.S,“Surveying and Levelling,Vol.I&II”, I.K. International Pvt. Ltd., 2010.

3 Duggal S.K. “Surveying,Vol.I&II”, Tata McGraw-Hill Publishing Company,2017.
4 Charles D Ghilani, Paul R Wolf., “Elementary Surveying”, Prentice Hall,2012.
5 Chandra A.M.,“Plane Surveying”, New Age International Pvt. Ltd, 2015.
 22CES309 MATERIALS TESTING LABORATORY SEMESTER III

PREREQUISITES CATEGORY L T P C
NIL ES 0 0 3 1.5
Course To deal with experimental determination and evaluation of mechanical characteristics and
Objectives behaviour of construction materials and to familiarize experimental procedures and common
measurement instruments, equipment and devices.
LIST OF EXPERIMENTS
1. Mechanical properties of mild steel rod as per IS Code 1608 (2005)
2. Mechanical properties of tor steel rod as per IS Code 1786 (2008)
3. Weight per running metre of steel rod
4. Tension and compression test on springs.
5. Test on Bricks: Visual observation, Compression test, Water absorption test and Efflorescence test as
per IS 3495-1 to 4 (1992)
6. Hardness test on different metals.
7. Deflection test on simply supported beams (for different metals).
8. Deflection test on cantilever beams (for different metals).
9. Bending test on rolled steel joist
10. Flexure test on tiles
11. Charpy and Izod Impact Test
12. Compression test on Hallow/Concrete Blocks
Contact Periods: Lecture: 0 Periods Tutorial: 0 Periods Practical: 45 Periods Total: 45 Periods

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 Determinethetensilestrength ofmaterials K3
CO2 Obtain bending properties of structural materials K3
CO3 Determinethehardness propertiesofthematerials K3
CO4 Predict the compressive strength of the materials K3
CO5 Obtaintheimpact andtorsionalstrengthofthematerials K3

COURSE ARTICULATION MATRIX:

a) CO and PO Mapping
COs/ PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12 PSO1 PSO2 PSO
POs 3
CO1 2 - 1 3 - - - - - - - - 1 1 -
CO2 2 - 1 3 - - - - - - - - 1 1 -
CO3 2 - 1 3 - - - - - - - - 1 1 -
CO4 2 - 1 3 - - - - - - - - 1 1 -
CO5 2 - 1 3 - - - - - - - - 1 1 -
22CE
S309 2 - 1 3 - - - - - - - - 1 1 -

1 – Slight, 2 – Moderate, 3 – Substantial

b) CO and Key Performance Indicators Mapping
CO1 1.3.1,1.4.1 ,3.1.4,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1
CO2 1.3.1,1.4.1 ,3.1.4,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1
CO3 1.3.1,1.4.1 ,3.1.4,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1
CO4 1.3.1,1.4.1 ,3.1.4,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1
CO5 1.3.1,1.4.1 ,3.1.4,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1
 22CPC304 SURVEY LABORATORY SEMESTER III

PREREQUISITES CATEGORY L T P C
NIL PC 0 0 3 1.5
Course To deal with different surveying methods and measure the distances, areas using different
Objectives surveying instruments and also to enable setting out of foundation and curves.

LIST OF EXPERIMENTS
1. Chain Surveying – Open and Closed Traversing
2. Compass Surveying – Intersection method
3. Compass Surveying - Traversing
4. Plane table surveying –Introduction- Intersection method
5. Levelling –Differential Levelling and Fly Levelling
6. Measurement of horizontal angles by Repetition and Reiteration methods.
7. Height and Distance – Single Plane method and Double Plane method.
8. Tacheometric Surveying – Stadia, Tangential method and Subtense bar method
9. Total Station Surveying.
10. Setting out of foundation and Curves
Contact Periods: Lecture: 0 Periods Tutorial: 0 Periods Practical: 45 Periods Total: 45 Periods

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 Effectively handlethesurveyinginstrumentslikeChain,Compass,planetable,Dumpy level K3
and Theodolite.
CO2 Accurately measuredistances,areas,anglesandlevels using survey instruments. K3
CO3 Calculate the levels and distances in the field for various works. K3
CO4 Setout foundations and curves for various Civil Engineering projects. K3
CO5 Handle and measure using advanced surveying instruments like Total Station. K3

COURSE ARTICULATION MATRIX:

a) CO and PO Mapping
COs/POs PO PO PO PO PO PO PO PO PO PO PO PO PSO PSO PSO
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
CO1 2 - 1 2 - - - - - - - - 1 1 -
CO2 2 - 1 2 1 - - - - - - - 1 1 -
CO3 2 - 1 2 1 - - - - - - - 1 1 -
CO4 2 - 1 2 1 - - - - - - - 1 1 -
CO5 2 - 1 2 1 - - - - - - - 1 1 -
22CPC30 2 - 1 2 1 - - - - - - - 1 1 -
4
1 – Slight, 2 – Moderate, 3 – Substantial
b) CO and Key Performance Indicators Mapping
CO1 1.2.1,1.3.1,1.4.1 ,3.1.1,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1.4.3.1
CO2 1.2.1,1.3.1,1.4.1 ,3.1.1,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1.4.3.1,5.1.1
CO3 1.2.1,1.3.1,1.4.1 ,3.1.1,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1.4.3.1,5.1.1
CO4 1.2.1,1.3.1,1.4.1 ,3.1.1,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1.4.3.1,5.1.1
CO5 1.2.1,1.3.1,1.4.1 ,3.1.1,4.1.1,4.1.2,4.1.3,4.1.4,4.2.1.4.3.1,5.1.1
22CES410 APPLIED HYDRAULICS AND FLUIDMACHINERY SEMESTER IV

PREREQUISITES CATEGORY L T P C
MECHANICS OF FLUIDS ES 3 0 0 3
Course To understand the performance of pumps and turbines, open channel hydraulics with different
Objectives types of flow, dimensional analysis and impulse momentum principle for the performance of
hydraulics machines.
UNIT – I OPENCHANNELFLOW 9 Periods
Uniform flow - Velocity measurement - Manning’s and Chezy’s formula – Roughness coefficients - Critical
depth and critical velocity - Most economical sections - Wide open channel - Specific energy curve - Critical
flow - Dynamic equations of gradually varied flow - Assumptions - Characteristics of flow profiles - Draw down
and back water curves - Hydraulic jump - Types – Energy dissipation.
UNIT – II DIMENSIONALANALYSIS 9 Periods
Units and Dimensions – Dimensional Homogeneity -Rayleigh’s and Buckingham methods – Non-dimensional
numbers – Model study and Similitude–scale effects and distorted model – Applications of models study.
UNIT – III MOMENTUMPRINCIPLE 9 Periods
Impulse momentum Principle and equation - Impact of Jet – force exerted by a jet on normal, inclined and curved
surfaces for stationary and moving vanes- Angular momentum principle - Inlet and outlet velocity triangles –
Applications of impulse momentum principle.
UNIT – IV TURBINES 9 Periods
Turbines – Classification – Impulse and Reaction Turbines – Tangential flow, radial flow and axial flow turbines-
work done and efficiency - draft tube and cavitation - Selection of Turbines-operating characteristic curves of
turbines- Specific speed- Runaway Speed.
UNIT – V PUMPS 9 Periods
Pumps– Classifications of pumps –Centrifugal pump –Work done and Efficiency – Priming - Net positive
Suction Head - Cavitation in Pumps - multistage Pumps. Reciprocating pump -Work done and Efficiency -
negative slip - air vessels - indicator diagram–Working of Jet Pump and submersible pump.
Contact Periods: Lecture: 45 Periods Tutorial: 0 Periods Practical: 0 Periods Total: 45 Periods

TEXT BOOK
1 P.N.Modi and S.N.Seth, “Hydraulics and Fluid Mechanics, Including Hydraulic Machines”, Standard
Book House, NewDelhi, 2015.
2 R.K.Bansal, “Fluid Mechanics and Hydraulic Machines”, Laxmi Publications (P) Ltd., NewDelhi,2018.

REFERENCES
1 Subramanya K.,“Flow In Open channels”, Tata McGraw-Hill Publishing Company,2015.
2 S.Ramamurtham and R.Narayanan, “Hydraulics Fluid Mechanics and Fluid Machines” Dhanpat Rai
Publishing Company(P) Limited, 2014.
3 R.K.Rajput,“A Text Book of Fluid Mechanics and Hydraulic Machines”, S.Chand and Company,
NewDelhi, 2015.
4 D.S.Kumar, “Fluid Mechanics and Fluid Power Engineering”, S.K.Kataria & Sons, NewDelhi,2012.

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 GaininsightknowledgeonOpenchannelhydraulics andtosolvepracticalproblems. K2,K3
CO2 Apply the concepts of dimensional analysis for fluid flow problems K3
CO3 Apply the impulsemomentumprincipleforthedeterminationofhydrodynamicforces. K3
CO4 Analyze the performance of turbines and design of turbines. K3
CO5 Analyze the performance of pumps and design of pumps. K3
 22CPC405 MECHANICS OF SOLIDS II SEMESTER IV
PREREQUISITES CATEGORY L T P C
MECHANICS OF SOLIDS I PC 3 0 0 3
Course To study the different methods used for beam deflection analysis, analysis of Indeterminate
Objectives beams, unsymmetrical bending, columns, theory of elastic failures and stress in thick cylinders.
UNIT – I DEFLECTION OF BEAMS 9 Periods
Differential Equation for elastic curve – Double Integration Method – Macaulay’s Method – Moment Area
Method – Conjugate Beam Method – Stepped beams
UNIT – II STATICALLY INDETERMINATE BEAMS 9 Periods
Propped Cantilever Beams – Fixed Beams – Method of Consistent Deformation – Continuous Beams – Theorem
of Three Moments – Calculation of reactions, Bending Moments and Shear Force – Shear Force and Bending
Moment Diagrams (for all Types of Loadings, Couple).
UNIT – III INDETERMINATE TRUSSES AND COLUMNS 9 Periods
Analysis of Plane trusses with maximum two redundant members – Trusses with lack of fit – Temperature
effects. Members Subjected to Axial Load – eccentric load – Slenderness Ratio – End Conditions – Buckling
Load for Columns - Euler’s Theory – Assumptions and Limitations – Rankine - Gordon Formula – Empirical
Formula – Straight Line Formula – Columns Subjected to Eccentric Loading .
UNIT – IV UNSYMMETRICAL BENDING AND SHEAR CENTRE 9 Periods
Stresses due to Unsymmetrical Bending of Beams for Symmetrical Sections – Moment of Inertia – Product of
Inertia – Principal Moment of Inertia - Shear Centre - Definition – Shear Centre for Sections Symmetrical about
One Axis
UNIT – V THICK CYLINDERS AND THEORIES OF ELASTIC FAILURE 9 Periods
Lame’s Equation – Hoop Stress and Radial Stress Distribution – Compound Cylinders – Wire Wound Cylinders
– Shrink Fit.
Theories of Elastic Failure – Factor of Safety – Graphical Representation of Theories for Two Dimensional
Stress System.
Contact Periods: Lecture: 45 Periods Tutorial: 0 Periods Practical:0 Periods Total:45 Periods

TEXT BOOKS:
1 Vaidyanathan.R, Perumal. P and Lingeswari.S, “Mechanics of Solids and Structures, Volume I”, Laxmi
Publications Pvt Ltd, Chennai, 2017.
2 L.S.Negi, “Strength of Materials”, Tata McGraw Hill Education Pvt.Ltd, 2010.

REFERENCES:
1 Robert L. Mott, “Applied Strength of Materials”, PHI Learning Pvt Ltd., New Delhi,2009
2 Ferdin and Beer, E.Russell Johnston and John Dewolf, “Mechanics of Materials”, McGraw Hill
Education, 2015.
3 L.S. Srinath, “Strength of Materials”,Macmillan Publishers India,2000.
4 Bansal RK “Strength of Materials”, Laxmi Publications, New Delhi,2010.
5 Jhunarkar.S.B. and Shah.H.J, “Mechanics of Structures”, Vol. I, Charotar Publishing House, New
Delhi,2016.

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 To impart knowledge on deflection of beams in various situations using different methods. K3
CO2 To identify the behaviour of statically indeterminate beams K3
CO3 To recognize the behaviour of columns with different end conditions. K3
CO4 To develop and understand the concepts of unsymmetrical bending of beams and shear K3
centre.
CO5 To understand the theory thick cylinders and the theory of elastic failures. K3
 SEMESTER IV
22CPC406 CONCRETE TECHNOLOGY

PREREQUISITES CATEGORY L T P C
CONSTRUCTION MATERIALS AND TECHNOLOGY PC 3 0 0 3
Course To understand about various concrete making materials, the properties of fresh and hardened
Objectives concrete, special concrete and mixdesignforconcrete.

UNIT – I INGREDIENTSOFCONCRETE 9 periods

Cement – constituents - Hydration – Tests on cement – Types of cement – Aggregates – properties and uses –
Classification of aggregates – Properties and test on aggregates – gradation – Quality of water – Admixtures –
Chemical Admixtures and mineral admixtures.
UNIT – II CONCRETING OPERATIONS 9 periods
Concreting operations: Batching, mixing, transportation, placing, compaction, curing and finishing of concrete.
Forms for Concreting: Different types of formworks for beams, slabs, columns, material used for formwork,
requirement of good form work. Stripping time for removal of formworks as per IS456 – 2000 provision for
different structural members. Water Proofing: Importance and need of water proofing. Methods of water
proofing and materials used for water proofing. Joints in Concrete Construction: Types of joints, joining old
and new concrete. Methods of joining, materials used for filling joints.
UNIT – III PROPERTIESOFCONCRETE 9 periods
Properties of fresh concrete – Workability – Segregation – Bleeding – Test for fresh concrete properties –
Properties of hardened concrete – Strength – Stress – Strain characteristics – Modulus of Elasticity – Shrinkage
– Creep – Thermal properties – Permeability – Test for hardened concrete properties – Introduction to micro
structural properties of concrete - Non-Destructive Test.
UNIT – IV MIX DESIGN AND QUALITYCONTROLOFCONCRETE 9 periods
Quality Control - Frequency of sampling – Statistical analysis of test results – standard deviation – Coefficient
of variation – Characteristic strength – Acceptance and rejection Criteria – Importance ofwater cement ratio –
Importance of cover to concrete. Nominal mixes – Design Mixes – factors influencing the design mix – Mix
Design by ACI method, ARE method and DOE method.
UNIT – V SPECIALCONCRETES AND CONCRETING METHODS 9 periods
High Performance Concrete – Lightweight Concrete – Self Compacting Concrete – Polymer Concrete – Fibre
Reinforced Concrete - 3D printing of concrete.
Special Concreting Methods: Pumped Concrete, Ready mix Concrete, Under-water Concrete, Hot and Cold
weather Concreting, Precast Concrete, Pre-placed Concrete.
Contact Periods: Lecture: 45 Periods Tutorial: 0 Periods Practical: 0 Periods Total: 45 Periods

TEXT BOOKS:
1 Shetty M.S and Jain A.K, “Concrete Technology - Theory and Practice”, S.Chand & Company, New Delhi,
2018.
2 Santha kumar A.R ,“Concrete Technology”,S.Chand Publishers, 2018.

REFERENCES:
1 Gambhir M.L, “Concrete Technology - Theory and Practice”, Tata Mc-Graw Hill Company,2013.
2 IS 10262 –2019, Concrete Mix Proportioning – Guidelines.
3 ACI 211.1-91, Standard Practicefor Selecting Proportions for Normal, Heavy weight and Mass
Concrete, American Concrete Institute.
4 NevilleA.M “Properties of Concrete”, Pearson Education India,,2012
5 Povindar K. Mehta, Paulo J. M. Monteiro, “Concrete: Microstructure, Properties, and Materials”,
Mc-Graw Hill Company, 2014.
 22CPC407 DESIGN OF REINFORCED CONCRETE ELEMENTS SEMESTER IV

PREREQUISITES CATEGORY L T P C
MECHANICS OF SOLIDS I PC 3 0 0 3
Understand the behavior and design of reinforced concrete components and systems
Course
subjected to gravity loads according to INDIAN STANDARD building code
Objectives
requirements

UNIT – I REINFORCEDCONCRETEMATERIALS 9 Periods

Introduction to R.C structures – Review of basic material properties - Concrete and Reinforcing steel -
Objectives of structural Design- Stages in RCC structural design process for a building- Types of load on
structures and load combinations –Load transfer in framed structures - Design philosophies – Basic design
concepts –working stress, ultimate load and limit state methods – Analysis: Moment of resistance for
Rectangular beams.
UNIT – II LIMIT STATE DESIGN OF BEAMS 9 Periods
Design of singly and doubly reinforced rectangular and flanged beams - Design of beams for bending, shear
and torsion - bond and anchorage – deflection.
UNIT – III LIMIT STATE DESIGN OF SLABS& STAIRS 9 Periods
Behaviour of one way and two way slabs – Design and detailing of one way and two way rectangular slabs
subjected to uniformly distributed load - Design of lintel - lintel cum sunshade – Stairs - Loads on Staircase –
Design of Dog legged staircase.
UNIT – IV LIMIT STATE DESIGN OF COLUMNS 9 Periods
Classification of columns - Axial, uniaxial and biaxial bending - Braced and unbraced columns - Orientation of
columns in buildings - Design of columns – Use of interaction charts.
UNIT – V LIMIT STATE DESIGN OF FOOTINGS 9 Periods
Behaviour of concentric and eccentric footing - Design of axially loaded square and rectangular pad and sloped
isolated footing – Design of wall footing.
Contact Periods: Lecture: 45 Periods Tutorial: 0 Periods Practical: 0 Periods Total: 45 Periods

TEXT BOOKS:

1 Pillai, S. U.andMenon, D,“Reinforced Concrete Design”, Tata McGraw Hill, 2021

2 SubramanianN, “Design of Reinforced Concrete Structures”, Oxford University Press, 2014.

REFERENCES:
1 VargheseP.C, “Limit State Design of Reinforced Concrete”, Prentice hall of India Pvt.Ltd., 2008
2 Dayaratnam P., “Design of Reinforced Concrete Structures”, Oxford & IBH publishing Co.
Pvt.Ltd.,2018.
3 Shah V.L and Karve S.R, “Limit State Theory and Design of Reinforced Concrete”, Structures
Publications, 2018.
4 Krishnaraju N, “Design of Reinforced Concrete Structures”, CBS Publishers and Distributors PvtLtd,
2019.
5 IS: 456-2000 (R2016), “Plain and Reinforced Concrete - Code of practice”.
6 SP: 16-1980, “Design Aids for Reinforced Concrete to IS 456:(1978)".
7 IS: 875-2015, “Code of Practice for design loads for buildings and structures”.
8 SP: 34-1987, “Handbook on Concrete Reinforcement and Detailing”.
 22CPC408 WATER SUPPLY ENGINEERING SEMESTER IV

PREREQUISITES CATEGORY L T P C
NIL PC 3 0 0 3

Course To conversant with sources of water, demand of water, characteristics of water and
Objectives Conveyance of Water.To expose the students to understand the design of water Treatment
processes and distribution of water supply
UNIT – I QUANTITY OF WATER AND SOURCES OF WATER 9 Periods
Introduction of Public water supply system – Planning, Objectives, Design period, Population forecasting;
Water demand – Sources of water and their characteristics, Surface and Groundwater –Impounding Reservoir –
Development and selection of source – Source Water quality.
UNIT – II QUALITY OF WATER AND TRANSPORTATION 9 Periods
Quality of water - sampling - Characterization – Significance -analysis of water - water borne diseases - quality
standards of water as per IS 10500. Intakes - types - intake tower - Transportation of water - types of conduits -
Hydraulics of pipe flow - design - materials of pressure pipes - pipe corrosion - Theories, effect and
prevention- Laying, jointing and testing of pipe lines. Pumps - Types of pumps - pumping stations.
UNIT – III WATER TREATMENT 9 Periods
Objectives – Unit operations and processes – Principles, functions, and design of water treatment plant units,
aerators, flash mixers, Coagulation and flocculation – Clarifloccuator - Plate and tube settlers - Pulsator
clarifier –Rapid and slow sand filters - Disinfection - Residue Management –Construction, Operation and
Maintenance of treatment units- Recent advances.
UNIT – IV ADVANCED WATER TREATMENT 9 Periods
Water softening - Desalination - R.O. Plant - demineralization – Adsorption - Ion exchange - Membrane
Systems - RO Reject Management - Iron and Manganese removal –Fluoridation and Defluoridation -
Construction , Operation and Maintenance of treatment units – Recent advances.
UNIT – V WATER DISTRIBUTION SYSTEM 9 Periods
Distribution of water - requirements of good distribution system - method of distribution system - layouts of
distribution system - Requirements of water distribution – Components – Selection of pipe material – Service
reservoirs – Functions – Network design – Analysis of distribution networks - Computer applications –
Appurtenances – Leak detection. Principles of design of water supply in buildings – House service connection –
Fixtures and fittings, systems of plumbing and types of plumbing.
Contact Periods: Lecture: 45 Periods Tutorial: 0 Periods Practical: 0 Periods Total: 45 Periods

TEXT BOOKS:

1 Garg. S. K., “Water Supply Engineering”, Khanna Publishers, Delhi, 2014.

2 Punmia B.C, Jain A.K and Jain A.K, “Water Supply Engineering” Laxmi Publications, New Delhi 2014.

REFERENCES :

1 Dr. P.N. Modi., “Water Supply Engineering Volume” Rajson Publications, New Delhi, 2018.
2 D. Lal&A.K. Upadhyay, “Water Supply and Waste Water Engineering” S. K. Kataria& Sons, 2013
3 Mackenzie L Davis., “Water and Waste Water Engineering Design Principles and Practice”, McGraw
Hill book education, 2010.
4 NPTEL “Water and Waste Water Engineering” by Dr.P.Bose , IIT Kanpur.
 CONSTITUTION OF INDIA
22CMC4Z2 SEMESTER IV
(Common to all Branches)
PREREQUISITES CATEGORY L T P C

NIL MC 3 0 0 0
Course The objective of the course is to familiarize the students on the role,powers and functions of Indian
Objectives government. Also understand the recent acts in India.

UNIT- I INTRODUCTION ANDEMERGENCY PROVISIONS 9 Periods

Historical Background: The Company rule, The Crown rule - Constituent Assembly: Composition, Objectives -
Preamble and Salient features of the Indian Constitution - Fundamental Rights, Fundamental Duties, Directive
Principles of state policy, Emergency Provisions - National Emergency, President Rule, Financial Emergency.
UNIT- II SYSTEM OF GOVERNMENT 9 Periods
Parliamentary system: merits, demerits, reasons for adopting parliamentary system – Federal system: Evaluation
of federal features –Centre-State relations: Legislative, Administrative and Financial relations – Local
Government: Panchayati Raj and urban local government.
UNIT- III UNION AND STATE GOVERNMENT 9 Periods
President of India: Election, Powers and functions - Prime Minister and Cabinet: Structure and functions –
Governor: Powers and functions - Chief Minister and Council of Ministers: Functions.
UNIT- IV ORGANS OF GOVERNANCE AND RECENT ACTS 9 Periods
Parliament: LokSabha and RajyaSabha, Composition and powers - State Legislative Assembly and Legislative
Council: Composition and powers - Judicial System in India: Structure and features - Supreme Court and High
Court: Composition, Jurisdiction, Recent acts in significance-RTI, Citizenship act, POCSO Act.
UNIT- V POLITICAL DYNAMICS 9 Periods
Political parties: Party system, Recognition of National and State parties – Elections: Electoral system and
reforms – Pressure groups – National Integration: Obstacles, National Integration Council – Foreign Policy:
Principles and Objectives.
Contact Periods: Lecture: 45 Period Tutorial: 0 Period Practical: 0 Period Total: 45 Periods

TEXT BOOKS:
1 National portal of India, “The Constitution of India” (Full Text), https://legislative.gov.in/constitution-of-
india
2 Dr.B.R.Ambedkar, “The Constitution of India”, Sudhir Prakashan, 2020.

REFERENCES:
1 Durga Das Basu, “Introduction to the Constitution of India, LexisNexis, 2022
2 P.M.Bakshi, “The Constitution of India”, LexisNexis, 2020
3 Subash C Kashyap, “Our Parliament”, National Book Trust, 2021
4 Subash C Kashyap, “Our Political System”, National Book Trust, 2011

COURSE OUTCOMES: Bloom’s

On completion of the course, the students will be able to: Taxonomy
Mapped
CO1 Know the evolution of Indian Constitution and its basic premises. K1
CO2 Explain the system of governance in India. K2
CO3 Describe the structure of Union and State Governments K2
CO4 Obtain the knowledgeof functions of Legislature and Judiciary K1
CO5 Know the political system of India K1
 22CES411 FLUID MECHANICS AND MACHINERY LABORATORY SEMESTER IV

PREREQUISITES CATEGORY L T P C
MECHANICS OF FLUIDS ES 0 0 3 1.5

Course * To impart knowledge in solving problems occurring in a pipes due to losses, the
Objectives verification of Bernoulli’s theorem and its applications and conducting performance
tests on different types of pumps and turbines.
LIST OF EXPERIMENTS:
1. Determination of Darcy’s friction factor.
2. Verification of Bernoulli’s Theorem.
3. Calibration of Venturimeter and Orifice meter.
4. Flow over V-Notch.
5. Flow through Mouthpiece.
6. Determination of velocity through Pitot tube.
7. Determination of Meta centric height.
8. Performance Study of Roto dynamic pumps:Centrifugal pump, Submersible pump and Jet
pump.
9. Performance Study of Positive displacement pumps:Reciprocating pump, Gear oil pump and
Single screw pump.
10. Load test on Pelton wheel, Francis turbine and Kaplan Turbine.

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 Obtain the knowledge on conducting different type of experiments. K2
CO2 Solve different problems in pipes due to losses. K3
CO3 Verify the Bernoulli’s theorem and its applications. K3
CO4 Do performance tests on different types of pumps. K3
CO5 Do performance tests on different types of turbines. K3

COURSE ARTICULATION MATRIX :

a) CO and PO Mapping
COs/POs PO PO PO PO PO PO PO PO PO PO PO PO PSO 1 PSO 2 PSO 3
1 2 3 4 5 6 7 8 9 10 11 12
CO1 0 1 0 0 0 0 0 0 0 0 0 0 0 2 1
CO2 2 2 0 2 1 0 1 0 0 0 0 0 0 2 1
CO3 1 2 0 2 0 0 0 0 0 0 0 0 0 2 1
CO4 0 1 0 2 1 0 1 0 0 0 0 0 0 2 1
CO5 0 1 0 2 1 0 1 0 0 0 0 0 0 2 1
22CES
2 2 0 2 1 0 1 0 0 0 0 0 0 2 1
411
1 – Slight, 2 – Moderate, 3 – Substantial
b) CO and Key Performance Indicators Mapping
CO1 2.3.2, 2.4.2
CO2 1.1.1, 1.3.1, 2.1.2, 2.1.3, 2.2.3, 2.3.1, 2.4.2, 4.1.3, 4.1.4, 4.3.1, 5.2.1, 5.3.2, 7.1.1
CO3 1.3.1, 2.1.2, 2.1.3, 2.2.3, 2.3.1, 2.4.2, 4.1.3, 4.1.4, 4.2.1, 4.3.1
CO4 2.1.2, 2.1.3, 2.3.1, 2.4.2, 4.1.3, 4.2.1, 4.3.1, 4.3.3, 5.2.1, 5.3.2, 7.1.1
CO5 2.1.2, 2.1.3, 2.3.1, 2.4.2, 4.1.3, 4.2.1, 4.3.1, 4.3.3, 5.2.1, 5.3.2, 7.1.1
 22CPC409 ENVIRONMENTAL ENGINEERING LABORATORY SEMESTER IV

PREREQUISITES CATEGORY L T P C
NIL PC 0 0 3 1.5

Course To Impart knowledge in sampling and analysis of procedures of water and waste water
Objectives samples to identify the water and waste water characteristics.

LIST OF EXPERIMENTS
1. Sampling and preservation methods for water and wastewater (Demonstration only).
2. Determination of pH & Electrical Conductivity.
3. Determination of Turbidity.
4. Determination of Chlorides.
5. a) Determination of Total Hardness.
b) Determination of Calcium Hardness.
6. a) Determination of Alkalinity.
b) Determination of Acidity.
7. Determination of Sulphates.
8. Determination of Iron & Fluoride.
9. Estimation of Residual Chlorine.
10. Estimation of Solids.
a) Determination of Total Suspended solids.
b) Determination of Dissolved solids.
c) Determination of Fixed and Volatile solids.
d) Determination of Total solids.
11. Determination of Optimum Coagulant Dosage.
12. Determination of Dissolved Oxygen.
13. Determination of BOD.
14. Determination of COD.
15. Demonstrations of water quality parameters for construction purpose.
Contact Periods: Lecture: 0 Periods Tutorial: 0 Periods Practical: 45 Periods Total: 45
Periods

COURSE OUTCOMES: Bloom’s

Taxonomy
On completion of the course, the students will be able to: Mapped
CO1 Interpret thesamplingandpreservation methodsofwaterandwastewater K2
CO2 Correlate the physical properties of water and waste water. K3
CO3 Correlate the chemical properties of water and waste water. K3
CO4 Categorize thebiologicalproperties ofwaterand wastewater. K3
CO5 Categorizethe Micro-biologicalproperties ofwaterandwastewater. K3