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Dr.Babasaheb Ambedkar Marathwada University, AurangabadS.E(Civil)RevisedStructure2007-2008
S.E (CIVIL) PART-I
Sr.No Name of the Teaching of the (Hrs/ Week ) Examination Scheme Total Ma
Subject Theory Practical Total Theory Term
workPract/
Oral
01 EngineeringMathematics-III 04 ----- 04 100 ----- ----- 10002 Strength of Materials 04 02 06 100 25 25 150
03 Fluid Mechanics I 04 02 06 100 25 25 150
04 Surveying I 04 02 06 100 25 25 150
05 Concrete Technology 04 02 06 100 25 ----- 125
06 Communication Skill ----- 02 02 ----- 50 ----- 50
07 Computer Lab I ----- 02 02 ----- 25 ----- 25
Total 20 12 32 500 175 75 750
S.E (CIVIL) PART-II
Sr.N Name of the Teaching of the (Hrs/ Week ) Examination Scheme Total Mao Subject Theory Practi
calTotal Theor y Term
workPract/
Oral
01 EngineeringMathematics-IV
04 ----- 04 100 ----- ----- 100
02 Surveying II 04 02 06 100 25 25 150
03 Fluid Mechanics II 04 02 06 100 25 25 150
04 BuildingConstruction &
Drawing
05 Theory of Structure I
04 04 08 100 50 50 200
04 02 06 100 ----- ----- 100
06 Computer Lab. II ----- 02 02 ----- 50 ----- 50
Total 20 10 30 500 150 100 750
S.E (CIVIL) PART-I : 750 MarksS.E (CIVIL) PART-II : 750 Marks
TOTAL : 1500 Marks
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ENGINEERING MATHEMATICS-III
Teaching Scheme: Examination Scheme
Lectures:4 Hours/week Theory: 100 Marks, 3 Ho
1) Vector Calculus: Differentiation of vectors Radial and transverse components of velocity acceleration, Tangential and normal components of velocity and accelerations. Scalar and Vector pfunction. Gradient of scalar point function. Divergence & Curl of vector point function. Solenoidirrotational fields, Line integral, surface integral, Gausss Divergence Theorem, Stokes Theorem, GreTheorem Cylindrical , Spherical Polar & Curvilinear coordinates. (14 hrs)2) Fourier Transform: Fourier integral- Fourier sine and cosine integral. Complex form of Fouintegral. Fourier transforms. Fourier sine and cosine transform and inverse transform (6 hrs)
3) Linear Differential Equations: solution of linear differential equation on n th order with conscoefficients. General method, short cut methods to find P.I, method of variation of parameters. Equatreducible to linear from i.e. Cauchys & Legendres form. Solution of simultaneous linear differeequations. Application of LDE to Electrical, Mechanical & Electronics, Civil Engineering (10
4) Laplace transform: Introduction to laplace transform, properties & theorems of to laplace transfo
Laplace transform of special function. Bessel,s periodic, Error function. Heaviside unit step funcDisplace heaviside unit step function, Dirac-Delta function (impulse function) Inverse Laplace transfMethods to find inverse Laplace transform. Use of Lap lace Transform Table, Use of theorems of LapTransform, Use of partial function. Convolution theorem. Solution of linear differential equation constant coefficient by Laplace transform. solution of linear differential equation on n th order with concoefficients & simultaneous linear differential equation by laplace transform (10 Hrs)
Note :-
Section A Chapter 01 & 02
Section B Chapter 03 & 04
More stress should be given on Engineering Application
Recommended Books
A text book of Applied Mathematics Volume II & III P.N.Wartikar & J.N. WartikarAdvanced Engineering Mathematics H.K.DasEngineering Mathematics -III G.V.KumbhojkarHigher Engineering Mathematics Dr.B.S.Grewal
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STRENGTHOFMATERIALS
TeachingScheme ExaminationScheme
Lectures:4Hrs/week Theorypaper:100Marks
Practical:2Hrs/week TermWork:25Marks Practical/Oral:25Marks
1) Shear force and Bending Moment: Relationship between load intensity, shear force and bending mom
simply supported, cantilever and overhanging beams with Point loads, UDL and moments, Unifor
varying load (4 Hrs)
2) Simple Stresses and Strains: Simple stresses & strains, stress - strain relationship for mild steel & to
steel Hook's Law. Uniform, compound & composite sections, temperature stresses for uniform & compo
section, Poisson's ratio, lateral strains, elastic constants Elongation of uniformity tapering Sections. ( 8 Hrs
3) Bending Stresses & Strains: Theory of bending, section modulus, beam cross section inc1uding Ind
standard steel sections, Flitched beams,. (4 Hrs)
4) Shear Stress in beams : shear stress in beams, shear tress distribution in beam sections of various shape
like rectangular,circular, triangular , T- section & I- sections (4 Hrs)5) Principle Stresses & Strains: Analysis of stresses on different planes in a material, two dimensional str
system, Principal stresses & planes, Mothr's Circle for stresses. (4 Hrs)
6) Direct & Bending Stresses: Eccentric loading, bending combined with axial Loads, eccentrically loa
snort columns, struts, chimneys, hooks etc, structures subjected to wind load (4 Hrs)
7) Theory of Torsion : Circular shafts subjected to torque, stress distribution, power transmitted by shaft
close coil helical springs. (4 Hrs)
8) Thin Cylindrical & Spheres: Thin pressure vessels - Cylindrical & Spherical subjected to internal fl
pressure introduction to theory of thick cylinders. (4 Hrs)
9) Strain Energy: Strain energy due to axial loads, bending, shear, torsion, axial Impact load on beams
members of one material. (4 Hrs)
Term work Part A
EXPERIMENT TITLE / LIST (all compulsory experiment & continuous assessment)
1) Direct&Punchingsheartest
2) ColdbendtestonM.S.bar
3) TensionTestonMSbar4) TensionTestonDeformedbar
5) BendingTestontimberbeam
6) TorsiononMSbar
7) Impacttestonmetals(Charpy&Izod)
8) Flexuraltestonflooringtiles
9) Waterabsorptiontestonbricks
10) Compressivestrengthofbricks
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Term work Part B ( one exercise on each of the following chapter )
1) Shear force and Bending Moment
2) Bending Stresses in beams
3) Shear Stress in beams
4) Principle Stresses & Strains (Mothr's Circle Method )
5) Theory of Torsion
Recommended Books
1) Strength of Materials F.L.Singer
2) Mechanics of Structures (Vo1.- I) S.B.Junnerkar
3) Element of Strength of Materials Timoshanko & Young
4) Strength of Materials S Ramamutrthum
5) Strength of Materials B.C Punmia
6) Strength of Materials Rajput
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FluidMechanicsI
Teaching Scheme Examination Scheme
Lectures: 4 Hrs / week Theory paper: 100 Mar
Practical:2Hrs/week Practical/Oral:25Mark
TermWork:25Marks
1) Introduction & Properties of Fluid: Scope & application of fluid mechanics, Newtons Law of visco
classification of fluids, Newtonian and Non Newtonian fluid, ideal and real fluids, SI system of units, phys
properties of fluids density, specific weight, specific volume, relative density, dynamic and kinema
viscosity, compressibility, cohesion, adhesion, surface tension, capillarity, vapor pressure, cavitations. ( 5hr
2) Fluid Statics: a) Pressure at a point, PASCALs law, measurements of fluid pressure: Gauge, vacuum
absolute pressure, simple and differential manometers along with manometric equations.
b) Hydrostatics pressure on plane and curved surfaces, pressure diagram, pressure on
dams, Lock gates and sluice gates.
c) Archimedes's principle, Concept of buoyancy, metacenter, determination of Metacentric heightanalytical and experimental method, equilibrium of floating bodies. Conical buoys, stability of oscilla
floating bodies, buoys anchored at the bottom (7hrs)
3) Fluid kinematics-: a) Lagrangian and Eulerian approach of f1uid motion. Dimensions of
axisymmetric flow Classification of f1uid flows, steady, unsteady uniform non-uniform, Lami
turbulent,concept of vorticity, rotational. ir- rotational flows , path line, streak line, stream line, stream tube
b) Continuity Equation on Cartesian coordinates, Velocity Potential, Stream function, flow net.
c) Velocity and acceleration of fluid particle, Tangential and Normal acceleration
d) Relative Equilibrium: fluid masses subjected to uniform linear and radial
acceleration, Free and forced vortex flow, Radial flow. (7hrs)
4) Fluid Dynamics: Forces acting on fluid in motion, Euler's equations of motion in Cartesian coordin
and along stream line. Bernoulli's Equation (or Energy equation) by integration of Euler's equat
Momentum equation, Kinetic and Momentum Correction factors. (6 Hrs)
5) Measurement of Flow: (a) Venturimeter Pitot tube, Orifices, Mouthpieces, and Time or emptying t
through orifices.
b) Flow over Notches and weirs. (7hrs)
6 ) Viscous Flow: Relation between shear stress and pressure gradient, steady laminar now through circ
pipes, Hagen-Puiseullie's equation Laminar now. Through incline pipes and parallel plates at rest, movem
of piston in a dashpot, bearings, Simple coutee flow. (4hrs)
Dimensional Analysis and similarity: Dimensions of various physical Quantities Raleighs meth
Buckinghams theorem types of similarities and distortion non distorted models & non dimensional numb
& their significance. (4hrs)
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7 ) ( a ) Concept of boundary layer theory : Thickness of Boundary layers, displacement thicknmomentum thickness, drug force due to boundary layer, types of boundary layer, separation of Boun
Layer. (Analytical treatment not expected)
b) Forces on immersed bodies in flowing fluids: General equations, lift, drag, types of press
distribution about buff: stream line bodies, aerofoil, Magnus effect, (Analytical treatment not expected)
Hrs)
Term work
Minimum 7 Experiments should be conducted during the course and record a journals for the same shallsubmitted.
1 ) Study of pressure measuring devices.
2) Determination of meta centric height.
3 ) Calibration of Bernoullis equation4) Calibration of Venturimeter
5) Determination of Hydraulic coefficient for orifices.
6) Determination of coefficient of discharge for mouthpiece.7) Calibration of Rectangular notch
8) Calibration of Triangular Notch
9) Study of electrical analogy method for plotting of flow nets.
Practical Examination :-The practical examination shall consists of performing an exercises based on the practical work done duthe course. The record of the exercises submitted by the candidate and viva vove on the syllabus. assessment will be based on
1) Performing an exercise2) Record of exercise submitted by the candidate.
3) Viva vace on the syllabus.
Recommended Books
1) Hydraulics and Fluid Mechanics by Modi & Seth.2) Fluid Mechanics and Hydraulic Machines - by R.K. Bansal.3) Fluid Mechanics and hydraulic Machines - by Ramamutham and R. Narayan :)
4) Fluid Mechanics and hydraulic Machines - by V.L.Strcclcr and E.B.Wy!iE.
5) Fluid Mechanics and hydraulic Machines - by Douglas and others6) Fluid Mechanics - by K.L.Kumar
7) Fluid Mechanics -by K.Subrmanya
8) Fluid Mechanics -by R.J. Garde
9) Fluid Mechanics -by French
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SURVEYINGI
Teaching Scheme Examination Scheme
Lectures: 4 Hrs / week Theory paper: 100 Marks
Practical: 2 Hrs / week Term Work: 25 Marks
Pr. / Oral: 25 Marks
1) Chain & Compass Traversing: Object, Division, Classification, Principles of surveying, precisio
surveying, chain and tape, instruments for marking stations, Direct and Indirect ranging, Chaining a
chaining on sloping ground, Errors in chaining. Tape correction, chain triangulation, offsets, and method
locating objects. Instruments for setting out right angles cross staff survey, prismatic and surveyors
compass. Meridians, true, magnetic and Arbitrary bearings, Designation of bearings, Fore and back bear
calculations of angles from bearings and bearings from angles. Local attraction and correction of beari
Magnetic declination, calculation of true bearings. Traverse adjustment, sources of errors. (8
2) Leveling: Definitions, construction details of dumpy level, Auto level, Bench Marks, Fundamental l
Temporary and permanent adjustments, balancing of back sight and fore sight distances, simple
differential leveling, reduction of levels, classification of leveling profile leveling, reciprocal leveling, ch
leveling, plotting of profiles, leveling difficulties, errors and precision in leveling, effect of curvature
refraction, contouring, characteristic of contour lines and their use, methods of contouring ,interpolatio
contours. (8 hrs
3) Plane table survey: Introduction, Accessories used in plane table survey, adjustments of pl
table,methods of plane tabling and their suitability, two point and three point problems and their solution
(2 hr
4) Theodolite: Construction, types transit, Non- transit, Vernier and micro optic theodolite, Tempo
and permanent adjustments, measurements of horizontal angles by various methods, measurements of d
and deflection angles, measurements of magnetic bearings of a line, measurements of vertical angle, o
uses of Theodolite. Traversing with theodolite- direct observations of angles and bearings. Checks in clo
traverse, calculations of bearings from angles, traverse computations, balancing the traverse, Gales trav
table, and computations of area of a closed traverse by different methods, sources of errors. Permissible er
and degree of accuracy. Omitted measurement. (8 h
5) Trigonometrical Leveling: Indirect leveling, leveling on steep ground, Single plane and double p
methods, curvature and refraction, Axis signal correction, difference of elevation of two station by single
reciprocal observation. (6 H
6) Tachometric surveying: introduction, instruments, methods of tachometry, principle of stadia met
determination of tachometric constants, Anallatic lens, horizontal and inclined sights, vertical and nor
staff, Beaman Stadia Arc, Auto reduction tachometer, Tachometric contouring, errors. (4 h
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7) Computation of area and earth work: Planimeter theory and use, area of cross sections for level, level, three level, side hill two level and multilevel section, prismoidal and trapezoidal formula for volu
calculations, prismoidal correction, volume of cut and fills- road, canal, railway and reservoirs, haulage lifts, mass diagrams for economic grade line. (4 h
Practical Examination :-The practical examination shall consists of performing an exercises based on the practical work done duthe course. The record of the exercises submitted by the candidate and viva vove on the syllabus. assessment will be based on
1) Performing an exercise
2) Record of exercise submitted by the candidate.
3) Viva vace on the syllabus.Minimum nine exercise should be conducted during the course and record (journal ) for the same shallsubmitted. All the projects are compulsory.
1 ) Chain and cross staff survey.
2 ) Measuring bearings of traverse lines, calculation of included angles and check.
3) Study of dumpy level and reduction of levels.
4) Profile, Fly, differential and check leveling,
5) Study and use of plane table survey by radiation and intersection.
6) Measurements of horizontal and vertical angle by simple method. Face left and face rightobservation.
7) Measurements of direct, deflection angle and magnetic bearing with the theodolite.
8) Study of tachometer and determining tachometric constants.
9) Determining horizontal distance and reduce level of points by tachometric observation withhorizontal and inclined line of sight and vertical staff.
10) Determining distance and reduce level of elevation point by trigonometrically observation.
Projects : -
1) Chain and compass traverse2) Block contouring
3) Plane table traversing4) Road project
5) Theodolite traverse
Recommended Books
1) Surveying and Leveling Vol. I & II - By Prof. T.P. Kanetkar and Prof. S.V. Kulkarni, Pune Vidyarthi Gr
Prakashan Pune
2. Surveying Vol. I & II - By Dr. B.C. Punmia, Laxmi Publications Pvt. Ltd, New Delhi
3. Surveying and Leveling Vol. I - By Hussain & Nagraj
4. Surveying - By David Clark
5. Surveying - By Norman Thomas
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CONCRETETECHNOLOGY
Teaching Scheme : Examination SchemeLectures: 4 Hrs / week Theory paper: 100 MarkPractical: 2 Hrs / week Term Work: 25 Marks
1) Constituent material and their properties: 20 % Weightage
a)Cement: Manufacturing process: types, Hydration of cement, chemical constituents, Effects of
chemical constituents on properties, physical and chemical test procedures, adulteration. (3 Hrs)
b)Fine aggregates : Classification of aggregates, particle size analysizer and fineness modulus , impurit
moisture content, specific gravity, absorption , bulk density, bulking, standard specifications (3 Hrs)
c) Course aggregate: Type, particle size analysis and fineness modulus, moisture content and spe
gravity, absorption flakiness index, Elongation index, crushing value, impact value, abrasion & attri
standard specifications. (3 Hrs)
d) Water: Quality of water, use of seawater. (1 Hrs)
2) Cement concrete: 10 % Weight age
a) Different grade of concrete proportioning and mixing methods, volume batching weigh batching, h
mixing and machine mixing, types of mixtures, workability of concrete, factors affecting workabi
measurement of workability , slump test, compaction factor test, Vee- Bee consist meter , flow t
test, segregation and bleeding. (4 Hrs)
3) Handling of concrete: 20 % Weight age (2 Hrs)
a) Transportation of concrete, methods & planning of concrete (2 Hrs)
b) Compaction: Hand and machine compaction different type of vibrator & their principle (2 Hrs)
b) Curing: Definition, necessity, different methods of curing (2 Hrs)
4) Concrete properties: 15 % weight age (6 Hrs)
a) Strength of concrete: Factors affecting strength of concrete like water cement ratio, angularity, size & sh
of aggregate. Gain of strength with age, compressive tensile and bond strength of concrete.
b) Elasticity, shrinkage and creep: Elastic properties of concrete, relation between modulus of Elastic
measurement of creep, factors affecting creep, shrinkage & factors affecting shrinkage.
c) Testing of hardened destructive and non-destructive testing methods
5) Concrete Mix design: 10 % weight age (6 Hrs)a) Concrete mix design, variable in proportioning, various methods of proportioning statistical qu
control of concrete. Common terms used mean strength, variance, standard deviation, coefficient of variat
relationship between average design strength and specified minimum strength
b) Different methods of mix design such as, ACI method, PRL method, Road note No, - 4
Method, IRC 44 method of mix design, trial and error method for ordinary concrete.
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6) Different types of concrete: 10 % weight age (3 Hrs)Properties used and advantages of lightweight concrete, heavy weight concrete, High strength concreteentrained & fiber reinforced concrete, polymer concrete, concrete used for massive structures and mastructures
7) Form work: 5 % weight age (2 Hrs)Introduction, requirement of form work, form work planning, types of form work, design loads on the foworks, stripping time for different structural elements
8) Concrete chemicals: 10 % weight age (3 Hrs)Modern concrete admixtures and constructions chemicals, plastisizers, super plastisizers, retardaccelerators, air entraining agents , water proofing materials
Term Work :The practical examination shall consists of performing an exercises based on the practical work done duthe course. The record of the exercises submitted by the candidate and viva vove on the syllabus. assessment will be based on
EXPERIMENT TITLE / LIST (all compulsory experiment & continuous assessment)
EXP.NO. EXPERIMENTTITLE/ LIST
1A Cement(Minimumfour)
1)Finenessofcement
2)Consistency-percentageofwaterfornormalconsistency
3)Initial&finalsettingtime
4)Soundnessofcement. And Compressive strength of cement
B Fineaggregate(minimumtwo)
1)Finenessmodulus
2)Bulkingofsand
3)Impuritiesinsand.
30 Courseaggregate:(minimumfour)1)Finenessmodulus
2)Aggregatecrushingvalue.
3)Aggregateimpactvalue
4)Flakinessindex
5)Abrasiontest
6)Gradationtest
40 Concrete:Workabilityofconcrete(minimumthree)
1)Slumptest
2)Compactionfactortest
3)Vee-Beetest
4)Flowtable
50 Compulsoryexperiments:
1)Compressivestrengthtest(Cement&Concrete)
2)Splittensiletest
3)Mixdesign
4)ModulusofElasticityandPoissonsratioofconcrete
06 Nondestructivetestonhardenedconcrete
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1) Reboundhammertestforstrength2) Ultrasonic pulse velocity test
Note : - Minimum one visit to construction site is compulsory
Recommended Books
Concrete Technology - M.S. ShettyProperties of concrete - NevellieConcrete Technology - Dr. Chand
Concrete mix design and all - A.C.C. PublicationsMix design- Krishna raju
Concrete Technology :- M.L.Gambhir
Relevant I.S. specifications
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COMMUNICATION SKILLTeaching Scheme :
Examination Scheme
Practical: 2 Hrs / week Term Work:50 Marks
Course curriculum :-
Basic communication skillCommunicating with peers
Communicating formally
Communicating causally
Communicating for daily requirements
Personality development
Formal dressing
Casual dressing
Dressing up to occasion
Interview dressing
Body languageEye contact
Persona management
Effective Group Discussion
What is group discussion
Why are Group Discussions held
What is judged in Group Discussion
What are the keys to a successful Group Discussion
Different topic for Group Discussion
Different ways of modules of Group Discussion
Effective public speaking
How to deliver an effectiveHow to involve the public at large
Stage course
Effective crowd alertness and zinc
Art of effective English communication
Why is it so important
What difference does it make
Motivation therapy
New avenues for improved communication
New therapies for inculcating English
Presentation for Aptitude testWhat is an Aptitude test
What are aptitude test held
What is judged in an aptitude test
What are the keys to successful aptitude test
Different areas for an aptitude test
Different ways of modules of aptitude test
English grammar
Why is grammar important
What are the different parts of English grammar
How do we practice it
Interviews techniques
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Types of Interviews
Why is the Interview held
What is judged in an Interview
Types and rounds of Interviews
Operations round for an Interview
HR round for an Interview
Technical round for an Interview
How to express freely an ethically in an Interview
How to make resume or bio dataThings meant to be said in an Interview and vice versa
How to crack and get an offer from an Interview
Psychological aspect of question
Reading the interviewers mind
Telephonic Etiquettes
How to give telephonic Interview
How to introduce your self and speak on a call
How to speak to anyone on the phone
What are telephonic Interview held for
How to crack telephonic Interview
Mock call handling
What is the benefit of mock calls
How does one benefit from the Mock call session
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LAB I
Teaching Scheme Examination Scheme
Practical: 2 Hrs / week Term Work: 25 Marks
Following is the suggested list of the experiments for the subject LAB I of S.E (Civil)
1. Introduction to operating system 1 ) DOS 2) Windows 3) Linux
Introduction to M.S Office word , Excel , Power Point2. Survey I Two problems each from section A & section B of survey I should solve by writ
programs in C in language. The program should be error free and desired out put should be obtained
3. F.M- I Two problems each from section A & section B of F.M- I should solve by writing programs
C in language. The program should be error free and desired out put should be obtained.
4. SOM : Two problems each from section A & section B of F.M- I should solve by writing programs
C in language. The program should be error free and desired out put should be obtained.
5. Introduction to Auto CAD & some small drawing should be Auto CAD covered in LAB I
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ENGINEERING MATHEMATICS-IV
Teaching Scheme : Examination Scheme
Theory Lectures:4 Hours/week. Theory Exam. : 100 Marks, 3 hrs
1. Function of Complex Variables: Introduction, Analytic function, Cauchy- Riemann equations
Cartesian and polar form. Harmonic function, Integration : Line integral, contour integral, Cauchy inte
theorem, Extension and Cauchy integral formula (without proof ) TaylorSand Laurent;s series (with
proof) Singularities, Residues, Cauchy residues theorem (with out proof) Integration along unit circle
along the upper half semicircle. Conformal transformation and bilinear transformations. (14hrs)
2. Static & probality : Measures of Dispersion, Moments, Skewness and kurtosis.
Binomial, poissonss & normal distribution. ( 06 hrs)
3. Numerical Methods: Solution of algebraic & Transcendental equations by Newtons Raphson method,
solution of linear simultaneous equation by Gauss eliminations, Gauss Seidal method, Lagranges
Interpolation formula. Numerical Differentiation, solution, of ordinary differential equation by Picards
method, Taylors series method, Eulers modified method and Rang-Kutta fourth order method (12hrs)
4. Application of partial differential equations: Solution of PDE by methods of separations of
variables. Application to vibration of sting ( wave equation) one dimensional heat flow, two dimensional
heat flow ( 06 hrs)
5. Z-Transform : -z-transform for elementary functions and properties (without proof), inverse Z- transfoby residue. Solution of different equations by Z- transform. (4hrs)
Note : 1) In all numerical methods derivation are not expected.
2) Section-A Chapter 1 and Chapter 2. Section B Chapter 3,Chapter 4, and Chapter5
Recommended Books
A text book of Applied Mathematics Volume II & III P.N.Wartikar & J.N. Wartikar
Engineering Mathematics H.K.Das
Engineering Mathematics -III G.V.Kumbhojkar
Higher Engineering Mathematics Dr.B.S.Grewal
Numerical Method S.S Shastry
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SURVEYING II
Teaching Scheme Examination Scheme
Lectures: 4 Hrs / week Theory paper: 100 Mark
Practical: 4 Hrs / week Term Work: 25 Marks
Pr. / Oral : 25 Marks
1) Curves: Introduction, Degree and radius of curves, Horizontal and vertical curves. Types: Sim
Compound , Reverse and Transition curves, Geometry of simple curve, compound curve by offsets
angular measurements. Transition Curve: Elements of transition curve, Types of transition curve, Objec
introduction transition curve, Relation between length to radial acceleration, Super elevation, Ideal trans
curves, Cubic parabola, spiral and Lemniscates as transition for road and railway curves. (8 Hrs)
2) Geodetic Surveying: Methods in geodetic surveying, Triangulation figures, classification of triangula
systems, selection of stations, Indivisibility and height of stations, towers, signal, and their classificaphase of signals, Measurements of angles, Instruments used, Methods of observation of angles, sate
station and reduction to center , Eccentricity of signals , Base line measurements , Apparatus used , base
correction to base line measurement. Reduction to mean sea level, extension of a base. (8 Hrs)
3) Triangulation Adjustments: Kinds of Errors, Laws of Weights, Determination of the most prob
values of quantities, the method of least square, indirect observations on independent quantities, nor
equation, conditioned quantities, the probable error and its determination, Distribution of errors to the f
measurements, method of correlates, station adjustment and Figure adjustment, Adjustment of a geod
triangle, figure adjustment of a triangle, calculation of spherical excess, computation of the sides
spherical triangle. Adjustment of a geodetic Quadrilateral, adjustment of a quadrilateral with a central sta
by method of least squares (8 Hrs)
4) Photogrammetry : Application to various fields, General idea of terrestrial photogrammetry, A
photogrammetry, Arial camera, composition of map and vertical photograph, vertical tilted and obl
photographs, concept of principle point, nadir point , isocenter, horizon point and principle plane, scal
vertical photograph, computation of length and height from the photograph, relief displacement on ver
photograph, flight planning, ground control , radial line method, Binocular vision and Stereoscopic fusmirror and lens, Stereoscopes. Parallax equation, measurement of parallax and determining differenc
elevations, stereo meter, general idea of stereoscopic plotting instruments, basic principle of remote sens
photo interpretation, applications to Civil Engineering (7 Hrs)
5) Use of Electronics in Surveys: Electromagnetic waves and their properties, phase comparis
Modulation, types of Electronic distance measurement instruments, the Geodemeter , the Distomat
(3 Hrs)
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6) Hydrographic Surveying: Introduction, Soundings, Methods of locating soundings, horizontal vertical control, The sextant, ranges, plotting of soundings, The Three Point problem mechanical, graph
and analytical solutions. (3Hrs)
7) Engineering Surveys: Setting out work building, culverts, bridges and tunnels, transferring
alignment underground, Route surveys, city surveying and topographical surveys. (3 Hrs)
Practical Examination :-
The practical examination shall consists of performing an exercises based on the practical work done duthe course. The record of the exercises submitted by the candidate and viva vove on the syllabus. assessment will be based on
1) Performing an exercise
2) Record of exercise submitted by the candidate.3) Viva vace on the syllabus.
Minimum nine exercise should be conducted during the course and record (journal ) for the same shallsubmitted. All the projects are compulsory.
EXPERIMENT TITLE / LIST (all compulsory experiment & continuous assessment)
EXP.NO. EXPERIMENTTITLE/LIST01 SettingoutsimplecircularcurvebyoffsetfromlongchordandfromchordProduced.
02 SettingoutsimplecircularcurvebyRankinesmethod.
03 Measurementsofbaselinebysubtencebarmethod.
04 Satellitestationandreductiontocenter.
05 StudyofonesecondTheodoliteandmeasurementofhorizontalanglebyrepetitionmethod.
06 StudyofNauticalsextantandmeasurementofanglebynauticalsextant.
07 StudyanduseofmirrorstereoscopeandparallaxBar.
08 TofindAir-basedistanceforagivenpairofaerialphotograph.09 StudyofElectronicDistanceMeter.
10 StudyofAutoreductionTacheometer
Projects : -
1) Tachometriccontouring.2) GeodeticQuadrilateralAdjustments3) PlottingrivercrosssectionbyHydrographicsurveying(Threepointproblem)4) Settingoutbuilding/culvert.
Recommended Books
1)SurveyingandLevelingVol.I&II-ByProf.T.P.KanetkarandProf.S.V.Kulkarni,PuneVidyarthiGriha
PrakashanPune
2.SurveyingVol.I&II-ByDr.B.C.Punmia,LaxmiPublicationsPvt.Ltd,NewDelhi
3.SurveyingandLevelingVol.II-ByHussain&Nagraj
4.Surveying-ByDavidClark
5.Surveying-ByNormanThomas
8/3/2019 Se Ce Syllabus
18/23
FLUID MECHANICS II
Teaching Scheme Examination Scheme
Lectures: 4 Hrs / week Theory paper: 100 Marks
Practical: 2 Hrs / week Pr. / Oral: 25 Marks
Term Work: 25 Marks
1) Flow Through Pipes: (a) Darcy's Equation, Minor Josses, laws of fluid friction Hydraulic GradLine& Total Energy Line (b) Flow through pipes in series and parallel, equivalent pipes and branchin
pies, three reservoir problems under steady state, flow through nozzle, power transmission (c) Turbulent
through pipes: Pandtl's Theory velocity distribution equation for smooth and rough pipe, mean velocity
variation of friction factor, Moody's chart, Nikurade's Experiment (d) Water Hammer: Rigid and El
Water column theories function and types of surge tanks. (e) Pipe Network analysis, loops, formation of h
and discharge equations, Hardy cross method. (7Hrs)
2) Flow In open channels: (a) Classilleation of channels, nows in channels, steady & unsteady flows,unifo
&. non uniform flows, Jaminar & turbulent flows, gradually and rapidly varied flows, velocity distribution
open channels, geometric shapes of channel section and their expressions, economic channel secti
(Rectangular, trapezoidaJ and trhUlgular), Basic equations of fluid flow viz. continuity equation, Bernou
equation and momentum equation as applied to channel flow, Uniform flow, Chazy's and Manni
equations, Specific energy diagram, ~ternate depths, Froude number specific force, sequent depths, crit
sub-critical artd super critical flows.
b) Non Uniform Flow: Energy equation for gradually varied flow (OVF), Basic assumptions and equatio
slope profiles with different combinations, Computation of GVF (by direct step method only)
c)Flow measurement appurtenances: Different channel transitions viz. Venturiflume and standing wave flu
stream gauging, and current meter
d) Rapidly varied flow, phenomenon of hydraulic jump in rectangular channel section, basic equat
classification and applications of hydraulic jump, conjugate depths and its computation, energy dissipatio
hydraulic equation (9 Hrs)
3) Dimensional analysis of similarity: dimensions of various quantities raleighs method buklingha
thermo types of similarities and distorted and non distorted models non dimensional number and t
significance (4 Hrs)
4) Impact of. Jets: Dynamic of force and momentum; Impulse momentum equation. Jet force on Statior
and moving vanes, jet propulsion, forces on reduce bends (4 Hrs)
5) Turbines: Classification and types of turbines, impulse and reaction turbines, components and parts, v
angle, inflow and outflow conditions, efficiency and characteristics of turbines based on performance, spe
speed, unit speed, unit discharge, unit power, selection criteria for turbines, governing of turbines, cavitati
draft tube and its function runway speed, surge tank' (5 Hrs)
8/3/2019 Se Ce Syllabus
19/23
6) Centrifugal pump: Parts of centrifugal pumps, Types, construction and principle of working, principl
similarity efficiencies characteristics and specific speed under various operations conditions priming of pu
cavitations, minimum speed compaction, multi surge centrifugal pumps, self priming, booster pumps. (5 H
7) Reciprocating Pumps: Types, working principle, indicator diagram, works done effect of acceleration
frictional Resistance, slip separation in section and delivery pipes, Air vessel and its function, multi cyli
pumps. Rotary arid Gear wheel pumps. (4 Hrs)
8) Hydraulic Machines: Hydraulic ram, hydraulic accumulator, hydraulic crane, hydraulic intensifier, pr
jack lift
Term Work :The practical examination shall consists of performing an exercises based on the practical work done duthe course. The record of the exercises submitted by the candidate and viva vove on the syllabus.
assessment will be based on
EXPERIMENTTITLE/LIST(allcompulsoryexperiment&continuousassessment)
EXP.NO.
EXPERIMENTTITLE/ LIST
01 DeterminationofChezys&Manningsconstants.
02 Determinationofcoefficientforventureflume/ Standingwaveflume.
03 Determinationofpipefrictionfactor
04 Determinationofminorlosses
05 StudyofHydraulicjump.06 Impactofjet
07 TrialonTurbine.
08 TrialonCentrifugalpump.
09 Trialonreciprocatingpump.
10 StudyofHydraulicram.
Practical Examination :-
The practical examination shall consists of performing an exercises based on the practical work done duthe course. The record of the exercises submitted by the candidate and viva vove on the syllabus. assessment will be based on
1 )Performing an exercise
2 )Record of exercise submitted by the candidate.
3 )Viva vace on the syllabus.
8/3/2019 Se Ce Syllabus
20/23
Recommended Books
1)HydraulicsandFluidMechanics-ModiandSeth
2)FluidMechanicsandHydraulicmachines-R.K.Bansal
3)FluidMechanicsandHydraulicmachines-Ramamurtham
4)FluidMechanicsandAppliedHydraulics-P.R.Mehta,S.K.Ukarande,U.W.Mate
5)OpenChannelFlow-byK.Subramnaya
6)OpenChannelHydraulics-byVenTeeChow
7)OpenChannelFlow-byK.G.RungaRaju
8)FluidMechanics-byK.L.t
8/3/2019 Se Ce Syllabus
21/23
BUILDING CONSTRUCTION & DRAWING
Teaching Scheme Examination Scheme
Lectures : 4 Hrs / week Theory paper : 100 Mar
Practical : 2 Hrs / week Term Work : 50Marks
Pr. / Oral : 50 Marks
1) Design aspect of foundation for load bearing structures and trial pits.
2) Design & construction of different types of walls solids walls cavity walls and portions walls, typ
structures in masonry construction corbel threshold wall plate copping.
3) Shoring Underpinning and scaffolding & introduction to trussed and its suitability.
4) Damp proofing & Termite proofing & fire protections thermal insulation
5) Ventilation wind effect stack effect and air conditioning summer & winter.
6) Relative functions and role of owner architect structural engineer and contractor building byelaw
municipal council and corporation.7) Principal of planning preparation of working and submission drawing
Practical examination
Lab- I
1) Measured drawing (including site visit)
2) Data drawing
3) Details of drawing
Lab II
1) Preparation of four plans of one room , two rooms tenements apartments and bungalows
2) Sketches - Shoring Underpinning, scaffolding, Buttresses, Windowsills, corbels, Partition walls, Da
proofing courses, thermal insulations, air conditioning system ventilations.
3) Preparation of above plans by AutoCAD ( Lab II I )
Recommended Books
1.BuildingConstruction-B.C.Punmia
2.Principlesofbuildingdrawing-M.G.Shah&C.M.Kale
3.ATBBuildingconstruction-Sharma&Kaul
4.ConstructionEngineering-Y.S.Sane
5.BuildingConstruction(Vol.I,II&III)-W.B.Markay
6.NationalBuildingCodeofIndiaS.P.7-ISI4.
8/3/2019 Se Ce Syllabus
22/23
THEORY OF STRUCTURE I
Teaching Scheme Examination Scheme
Lectures: 4 Hrs / week Theory paper: 100 Mark
1) Columns and Struts: Axially loaded compression members, short and long column different
condition. Eulers theory and Rankine theory and IS code formulae. Limitation of Eulers formula, col
with initial curvature , laterally loaded struts.. (6 Hrs)
2) Curvature, slope & deflection: Curvature, slope and deflection of statically determinate bea
cantilevers, propped cantilevers, macaluy method . (4 Hrs)
3) Deflection of statically determinate structures: Castiglianos theorem, Deflection of beams and fram
by strain energy, deflection of pin jointed trusses, effect of temperature change, willot diagrams. (6 Hrs)
4 )Fixed beams: Relation between free bending moment diagram & Fixed bending moment diagram
Beams with different moment of Inertia, effect of sinking of support. (4 Hrs)
5 ) Continuous beams: Calpeyrons theorem of three moments, beam with diff MI, effect of sinkingsupport
(4 Hrs)
6 ) Rolling Loads & Influence lines for statically determinate structure: Rolling Loads & Influence
for statically determinate structure for reaction, bending moment and shearing force for cantilevers and sim
and compound beams. Influence lines for forces in member of statically determinate trusses. Criteria
maximum bending moments and maximum shearing force for simple determinate beams. Absolute maximbending moment. (8 Hrs)
7 ) Three hinged Arches: Determination of horizontal thrust, bending moment radial shear and normal th
for parabolic and segmental three hinged arches. Influence line for horizontal thrust, bending moment, ra
shear, and normal thrust. (4 Hrs)
8 ) Three hinged suspension bridge: Simple suspension cable, anchor cable, suspension bridge with t
hinged stiffening girder Influence line diagram for horizontal reaction at cable support and for ben
moment and shearing force at a given section in three hinged stiffening girder. (4 Hrs)
Recommended Books
Analysis of Structures ( Vol. 1 & II ) : Vazirani & M.M. Ratwani
Theory of Structures : S. Ramamurthum
Theory of Structures : T imoshenko & Young
Theory & Analysis of Structures ( Vol. 1 & II ) : Jain & Jain
Mechanics Of Structures ( Vol. 1 & II ) : S B. Junnerkar.
8/3/2019 Se Ce Syllabus
23/23
LAB II
Teaching Scheme Examination Scheme
Practical: 2 Hrs / week Term Work: 50 Marks
Following is the suggested list of the experiments for the subject LAB II should be solve by writi
programs C language the program should be free error and desired out put should be obtained1. Introduction to operating system 1 ) DOS 2) Windows 3) Linux
Introduction to M.S Office word , Excel , Power Point
2. Survey II Two problems each from section A & section B of survey II should solve by wri
programs in C in language. The program should be error free and desired out put should be obtained
3. F.M- II Two problems each from section A & section B of F.M- II should solve by writing progra
in C in language. The program should be error free and desired out put should be obtained.
4. BCD : Two problems each from section A & section B of F.M- II should be solved
the drawing should be implemented using Auto CAD
5. Introduction ; Introduction to advance software related to civil engineering the students study
intricacies of the commercially available software and free to download software related to subj
they have studied up to PART- II of S.E must be able to present comparative merits and demeri
each software their adequany and relevancy in meeting the desired out put