## Sunday, 6 May 2012

## Shivaji University, Kolhapur Second Year Engineering - Civil SYLLABUS STRUCTURE S. E. Civil – Part-I – Semester -III

S.E.
(CIVIL ENGINEERING) – Part I

ENGINEERING
MATHEMATICS – III

Teaching
Scheme Examination Scheme

Lectures :
3 hours/week Theory : 100 marks

Tutorial :
1 hours/week Term Work: 25 marks

SECTION –
I

Unit 1
Linear Differential Equations: Linear Differential Equations
with constant

coefficients,
Homogenous Linear differential equations [5 hours]

Unit 2 Applications
of Linear Differential Equations: Applications of
Linear

Differential
Equations with constant coefficients to civil engineering

problems
(Cantilever, Strut and beam). [4

hours]

Unit
3Partial differential equations: Four standard forms of
partial differential

equations
of first order. [5 hours]

Unit 4
Fourier series: Definition, Euler’s formulae, Dirchilt’s
Conditions,

Functions
having points of discontinuity, change of interval, expansions of

odd and
even periodic functions, Half range series

[6 hours]

SECTION –
II

Unit 1
Curve Fitting: Fitting of Curves by method of
Least-squares, Coefficient

of
correlation, Spearman’s rank correlation coefficient and lines of

regression
of bivariate data.

[4 hours]

Unit 2
Probability: Random variable, Probability mass function
and probability

density
function, Binomial, Poisson and Normal distributions. [5

hours]

Unit 3
Vector Differentiation: Differentiation of vectors, Gradient of
scalar point

function,
Directional derivative, Divergence of vector point function, Curl of

a vector
point function. Irrotational and solenoidal vector field. [5

hours]

Unit 4
Vector Integration: The line integral, Surface integral,
volume integral,

Gauss’s
Divergence theorem, Stoke’s theorem, Green’s theorem (Without

proof).

[6 hours]

Nature of
Question paper:

1. There
will be two sections carrying 50 marks each.

2. There
will be four questions in each section and three question

should be
attempted from each section.

Reference
Books:

1. A text
book of Applied Mathematics: Vol. I, II and III by J. N. Wartikar & P.

N.
Wartikar , Vidyarthi Griha Prakashan, Pune.

2. Higher
Engineering Mathematics by Dr. B. S. Grewal.

3. Advanced
Engineering Mathematics by Erwin Kreyszig.

4. A
textbook of Engineering Mathematics by N. P. Bali, Ashok Saxena and

N. Ch. S.
N. Iyengar- Laxmi Publication, Delhi.

5. Fundamental
of Statistics by S. C. Gupta.

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part I

SURVEYING-I

Teaching
Scheme: Examination Scheme:

Lectures:
3 Hours per week Theory paper: 100 marks

Practical:
4 hour per week Term work: 25 marks

Practical-Oral:
50 Marks

Section –
I

UNIT 1(7Hrs)

a)
Introduction-Construction and Permanent adjustments of Dumpy Level, Tilting

& Auto
Level.

b)
Sensitivity of Bubble Tube; Correction for curvature and refraction.

c)
Reciprocal leveling

e) Precise
Leveling-Study of Precise level, classification based on precision limits,

Field
Procedure.

UNIT 2 (7Hrs)

a)
Contouring Methods and application of contour maps for alignments and capacity

of
reservoir.

b)
Planimeter-Types, Theory, concept of zero circle, Study of Digital Planimeter.

c)
Computation of Areas and Volumes.

UNIT 3 (6Hrs)

a) Plane
Table Survey: Equipment and Accessories, methods, Two point and Three point

problems,
and contouring with plane table. Use of Tangent Clinometer and Telescopic

Alidade.

Section –
II

UNIT 4 (8Hrs)

a)
Theodolite: Vernier, Micro optic and electronic.Vernier Theodolite-
Construction,

Adjustments
and uses. Methods of horizontal and vertical angle measurement. Use of

Electronic
Theodolite.

b)
Trigonometric Leveling – Single and Double Plane Method.

UNIT 5 (7Hrs)

a)
Theodolite Traversing – Objectives and types.

Closed
traverse- balancing, correction, Gale’s Traverse table.

b) Omitted
Measurements

UNIT 6 (5Hrs)

a)
Surveying-Hydrographic, Tunnel and mine survey.

b) Minor
Instruments: Hand Level, Abney Level, Ghat Tracer, Box Sextant and Nautical

Sextant.

c) Survey
for Engineering Projects- Reconnaissance, Preliminary and detailed. Setting

out of a
building.

TERMWORK

Experiments

1) Use of
Dumpy Level, Auto Level and Tilting Level.

2)
Reciprocal Leveling

3)
Sensitivity of Bubble Tube using Dumpy Level

4)
Illustration of Permanent adjustment of Dumpy Level.

5)
Evaluation of constant of Planimeter.

6) Use of
Digital Planimeter for measurement f areas.

7) Study
of Theodolite

8)
Measurement of horizontal angle by various methods

9)
Measurement of Magnetic bearing and vertical angle by theodolite

10) Study
and use of Minor Instruments

11)
Methods of Plane Table Survey

12) Two
Point and Three Point Problems

Projects

1) Block
contouring project

2)
Theodolite Traversing Project

Practical
and Oral Examination will be based on above syllabus.

Recommended
Books

1) Surveying-
B.C.Punmia Vol.1 & 2 Laxmi Publications New Delhi

2) Surveying
and Levelling- T.P.Kanetkar and S.V.Kulkarni Vol.1 &
2 – Vidhyarthi

Griha
Prakashan,Pune

3) Surveying-
Agor – Khanna Publications,Delhi.

4) Surveying-Bannister,
Raymond and Baker, Pearson Education

5) Surveying-K.R.
Arora Vol.1 &2

6) Surveying-
Jawaharlal Sharma -Publishers,Delhi

7) Surveying
and Levelling- Basak-Tata Mcgraw Hill

8) Surveying
– S.K.Duggal Vol1&2-Tata Mcgraw Hill Publications,New Delhi.

9) Plane
Surveying- Alak De- S.Chand and Company.

10) Plane
and Geodetic Surveying - David Clark.

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part I

STRUCTURAL
MECHANICS-I

Teaching
Scheme: Examination Scheme:

Lectures:
3 Hours per week Theory paper: 100 marks

Practical:
2 Hours per week Term work: 25 marks

Oral: 25
marks

SECTION I

Unit-1 (06
Hrs)

Scope of
the subject, Engineering properties of different materials, St. Venant’s
principle. Simple stress & strains, Hooks law, stress strain behavior for
ductile & brittle material, working stress, Factor of safety, Composite
sections under axial loading: compound bars,temperature stresses in Composite
sections.

Unit-2 (04
Hrs)

Simple and
complementary Shear stress, Poission’s ratio, Normal Stresses & strains in

three
dimensions, elastic constants, relation between elastic constants.

Unit-3 (07
Hrs)

Analysis
of statically determinate beams: S.F & B.M. diagrams for beams subjected to

point load
(inclined load also), uniformly distributed load, uniformly varying load and

couples.
Relation Between intensity of load, shear force & bending moment. Virtual

work
approach for computation of S.F & B.M.

Unit-4 (03
Hrs)

Thin
walled cylinders and spheres, change in volume, wire wound thin cylinders.

SECTION-II

Unit-5 (08
Hrs)

Bending
stresses in beams: simple bending theory, pure bending of beams, flexure

formula,
moment of resistance of different cross sections, built- up sections,
Rectangular,

circular
and flanged sections, bending stresses in composite beams of two different

materials,
Equivalent sections

Unit-6 (04
Hrs)

Shear
stresses in beams: Distribution of shear stresses in beams of various commonly

used
sections such as rectangular, T, circular and I sections.

Unit-7 (04
Hrs)

Strain
energy due to axial force gradually applied and impact load, Resilience. Strain

energy due
to shear force, bending moment.

Unit-8 (04
Hrs)

Analysis
of pin jointed trusses, assumptions, method of joints and method of sections.

Term Work

The term
shall consist of –

A.
Experiments (any five):

1. Tension
test on Mild and TOR steel.

2.
Compression test on different metals.

3.
Compression test on Timber (parallel & across the grains).

4. Shear
test on Mild steel.

5. Brinell
and Rockwell Hardness test on different metals.

6. Impact
test on different metals.

B.
Experiments (any Two):

1. Bending
test on Mild steel.

2. Flexure
test on flooring tiles.

3. Water
absorption & compression test on Burnt brick.

C. At
least one numerical assignment on each unit.

Text Books

• “Mechanics
of Structure” (Vol. I & II) By Junnarkar S.B. and
Advi, Charotar

publication

• “Mechanics
of Materials” by R.C. Hibbler, Pearson Education

• “Mechanics
of Materials” by Gere and Timoshenko, CBS publishers

• “
Mechanics of Materials” Vol I & II by Punmia, Jain, Laxmi Publications

• “
Strength of Materials” by S Ramamrutham, Dhanapat Rai Publications

• “
Strength of Materials” by Bhavikatti S.S., New Age Publications

Reference
Books

• “Introduction
to Mechanics of Solids” by J.B. Popov, Prentice – Hall publication

• “Strength
of Material” by F. L. Singer and Pytel, Harper and Row
publication.

• “Mechanics
of Material” by Beer and Johnston, Mc Graw Hill
publication.

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part I

BUILDING
CONSTRUCTION

Teaching
Scheme: Examination Scheme:

Lectures:
3 Hours per week Theory paper: 100 marks

(4 Hrs
Duration)

Drawing: 2
hour per week Term work: 50 marks

SECTION –
I

UNIT-NO.1 (8
Hrs)

Engineering
properties of following materials.

HStones
– Requirements of good building stone, uses of building stones.

HBricks
– Manufacturing, Types and Engineering Properties.

HAggregates
- Fine Aggregates and coarse aggregates - Origin, types,
particle size and

shape,
mechanical and physical properties, grading, sieve analysis.

HTimber
– Natural & Artificial wood and their application in Civil
Engineering.

HSteel
– Standard sections, steel as reinforcement. High Yield Strength
Steel and high

tensile
steel, uses of steel in Building Construction. Anti-corrosive treatments.

HCement-
Ordinary Portland, rapid hardening and low heat cements, main properties.

Tiles -
Ceramic, Vitrified, Natural Stone/Mosaic, Paving Blocks etc.

Miscellaneous
– Aluminum, Glass, Plastic etc.

UNIT –No.2
(6 Hrs)

HBasic
requirements of a building as a whole: strength and
stability, Dimensional stability,

comfort
and convenience, damp prevention, water-proofing techniques, heat insulation,

day
lighting & ventilation. Sound insulation and anti termite treatment.

Building
components and their basic requirements : Foundations,
plinth, walls and

columns in
superstructure, floors, doors & windows, sills, lintels and weather sheds,

roofs,
steps and stairs, utility fixtures.

Formwork
for basic RCC elements: Ideal Requirements & types.
HFoundations: Stepped,

isolated,
combined, strip, raft, strap or cantilever, pile.

UNIT No. 3
(4 Hrs)

HPlain
cement concrete – Properties, Grades and their uses.

Stone
masonry – Random Rubble, Uncoursed Rubble, Coursed
Rubble & Ashlar

Masonry.

HBrickwork
& Brick Bonds - English, Flemish, Principles Observed
During Construction

SECTION –
II

UNIT No. 4
(4 Hrs)

Composite
masonry, various partition walls, brick, aluminium & timber.

Solid
concrete blocks, hollow concrete blocks and light weight blocks (Siporex), soil

stabilized
blocks, Fly Ash Blocks.

UNIT No. 5
(7 Hrs)

Arches:
Arches and their stability consideration, technical terms in arches,types of
arches,

methods of
construction.

Lintel:
Necessity, Materials: wood, stone, brick, steel, R.C.C. and reinforcedbrick
lintels.

HDoors
– Classification, T.W. Paneled Door, Flush Door, Aluminum Glazed
Doors, Steel

Doors,
fixtures and fastening.

HWindows
- Classification, T.W. Glazed Windows, Aluminum Glazed Windows,
Steel

Windows,
fixtures and fastening.

HStairs:
Technical terms, requirements of a good stair, uses, types, materials for

construction.
Design of stairs (Dog Legged and Open Well)

UNIT –
No.6 (7 Hrs)

Roofs and
Roof coverings: Terms used. Roof and their selection,
pitched roofs and their

types,
Timber Trusses (King Post and Queen Post), Steel Trusses types and their

suitability,
roof coverings and their selection.

HGround
and Upper floors and factors for selections of floorings: Various
types of Tile

flooring
(Natural and Artificial Material), Concrete Flooring (Tremix Flooring)

Construction
of upper floors: R.C.C. slabs, R.C.C. beams and slab. Flat slab floor.

TERM WORK

1. Drawing
to a scale, draw on half imperial drawing sheet.

A. Foundations:
- Isolated, Combined Footing, Under Reamed Piles.

(With
reinforcement details)

B. Stone
Masonry: UCR, Course Rubble

C. Brick
masonry: English bond, Flemish bond

D. Doors:
T.W. Paneled Door.

E. Windows:
T.W. Glazed Window.

F. Stairs:
Dog legged and Open well.

G. Timber
Trusses: King Post and Queen Post.

2. Sketch
Book :

A.
Lettering, Symbols, Types of lines and dimensioning as per IS 962.

B. Stone
masonry: Ashlar, Ashlar chamfered Polygonal and
Dry masonry.

C. Doors:
Flush doors, Revolving door, Collapsible door and rolling shutter.

D. Windows:
Louvered window, Sliding Window, Bay window, Casement

window,
Dormer Window, Corner Window.

E. Roofs:
Line Sketches of steel trusses for different spans.

F. Stairs:
Quarter turn, bifurcated, Spiral, Geometrical.

G. R.C.C.
Literals & Chajja

REFERENCE
BOOKS

• Building
Construction – B.C.Punmia (Laxmi Publications)

• Basic
Civil Engineering – G. K. Hiraskar (Dhanpat Rai Publications)

• A
Text Book of Building Construction – S.P. Arora,
S.P. Bindra (Dhanpat Rai

Publications)

• Construction
Technology ( Volume 1 to 4) – R. Chudley (ELBS)

• HA
to Z of Practical Building Construction and Its Management-
Sandeep Mantri (

Satya
Prakashan, New Delhi)

• HSP
7- National Building Code Group 1 to 5- B.I.S. New Delhi

• HI.S.
962 – 1989 Code for Practice for Architectural and
Building Drawings

• A
Course in Civil Engineering Drawing – V.B.Sikka
(S.K.Kataria and Sons)

• Civil
Engineering Drawing – M. Chakraborty.

• Engineering
Materials – R.K.Rajput ( S. Chand)

• HHandbook
of Building Construction- M. M. Goyal (Amrindra Consultancy (P)

Ltd.)

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part I

FLUID
MECHANICS-I

Teaching
Scheme: Examination Scheme:

Lectures:
3 Hours per week Theory paper: 100 marks

Practical:
2 Hours per week Term work: 25 marks

Practical/Oral:
25 marks

SECTION- I

Unit-1

Introduction:Scope and importance of Fluid Mechanics, Physical Properties of
fluids (density,

specific
weight, specific volume, sp. gravity, Viscosity-Newtons law of viscosity,
Newtonion and

Non-Newtonion
fluids. Compressibility, Surface tension and Capillarityh
vapour pressure-

Cavitation),
Ideal fluid, Real Fluid

(3)

Unit-2

Dimensional
analysis & Model studies :

Dimensions
& Dimensional homogeneity, Importance & use of Dimension analysis,

Buckingham’s
pie theorem- Statement & application, Non-dimensional numbers & their

Significance.

Hydraulic
similitude- Importance & use. Geometric, Kinematic & dynamic
Similarities, Froude's & Reynold's model law, Scale ratios, applications (6)

Unit-3

Fluid
Statics :

Pressure,
Pascal’s Law, Hydrostatic Law, pressure measurement devices –piezometer,

manometers,Mechanical
gauges. Forces on Plane and Curved Surfaces, Centre of pressure and pressure
diagram, buoyancy, Metacentre, Stability of Submerged and floating bodies.

(6)

Unit-4

Fluid
Kinematics:

Concept of
control volume, Velocity and acceleration of fluid Particle, Classification of
fluid flow

–( Steady-
Unsteady, Uniform-Nonuniform, Rotational-irrotational , turbulent – laminar,
l-D,2-D, 3-D flow, Compressible-incompressible flow).

Streamlines,
Equipotential lines, Stream Function and Velocity Potential, Flow Net-
(Properties,

Drawing
methods, engineering applications). Continuity equation – ( differential &
integral form )

(5)

SECTION- I
I

Unit-5

Fluid
Dynamics :

Forces
acting on fluid in motion, Euler’s equation along a streamline, Bernoulli's Theoremlimitations,

Applications
-Pitot Tube, Venturimeter, Orificemeter, Orifices and Mouthpieces,

Concept of
HGL & TEL. (6)

Unit - 6

Flow in
pipes:

A. Laminar flow

Reynold's
Experiment, Coutte & Hazen Poisulle's Equation for viscous flow between
parallel

plates and
circular pipes.

B. Turbulant flow

Velocity
distribution and Shear stresses in turbulent flow, Prandtl mixing length
theory,

Nikuradse's
Experiment, Introduction to Moody's Chart, Nomograms and Other pipe

diagrams.
(5)

Unit – 7

Losses in
pipes:

Darcy -
Wiesbach Equation, factors affecting friction, Minor Losses in pipes, Concept
of

equivalent
length of pipe for different pipe fittings, Equivalent diameter of pipes,
Hydraulic Power

transmission
by pipe.(4)

Unit – 8

Pipes in
parallel,, Series, Syphon, two reservoir problems.

Water
hammer in pipes- Rigid and Elastic Water Column Theory. Surge Tanks -
(Function,

location
and Uses (5)

TERM WORK

a)
Measurement of discharge - Calibration of measuring tank, measurement of
pressure (

Piezometer,

manometers,
Pressure gauges) Use of hook or point gauge.

b) At
least SIX experiments from the
following.

1)
Verification of Bernoulli's Theorem

2)
Determination of metacentric heights

3)
Plotting of streamlines, flownets

4)
Calibration of an orifice / mouthpiece

5)
Calibration of venturimeter / orificemeter

6) Study
of factors affecting coefficient of friction for pipe flow (at least for two
different materials

and two

different
diameters)

7)
Determination of loss of head due to i) Sudden expansion, ii ) contraction iii)
elbow iv) bend

v) globe

Valve etc.

8) Study
of Laminar flow

c) Study
of Moody's charts, nomograms for pipe design.

d) Simple
computer programs.

RECOMMENDED
BOOKS

1) Fluid Mechanics – A.K. Jain –
Khanna Pub., Delhi

2) Fluid Mechanics – Hydraulic & Hydraulic Mechanics -Modi / seth – Standard Book House,

Delhi

3) Fluid Mechanics – S. Nagrathanam –
Khanna Pub., Delhi

4) Fluid Mechanics –
Streeter-McGraw-Hill International Book Co., Auckland

5) Elementary Fluid Mechanics – H. Rouse
– Toppan C. Ltd. Tokyo

6) Fluid Mechanics –
Garde-Mirajgaonkar – Nemchand & Bros., Roorkee

7) Fluid Mechanics – Shames -
McGraw-Hill International Book Co., Auckland

8) Fluid Mechanics – Arora

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part I

NUMERICAL
METHODS

Teaching
Scheme: Examination Scheme:

Lectures:
2 Hours per week Theory paper: --

Practical:
2 hour per week Term work: 50 marks

Unit – 1

Matrix
operations on computer, multiplication and inversion, Gauss elimination method,

Choiesky
decomposition method, solution of simultaneous equations, Gauss elimination,

Gauss
Jordan and Gauss scidal methods.

Unit – 2

Roots of
equation, Newton Remphson method, trial and error method, bisection, method.

Unit – 3

Solution
of ordinary differential equation, Euler’s method, modified Euler’s method and

Runga
Kutta methods.

Unit – 4

Finite
difference method, central forward and backward differences, application to

deflection
of determinate beams, buckling load of long columns of constant, non uniform,

stepped
variation of moment of inertia.

Unit – 5

Numerical
differentiation and integration : Trapezoidal rule, Simpon’s, 1/3rd
rule.

Unit – 6

Statistical
analysis, mean and standard deviation , least square method, regression

analysis –
linear parabolic, curve fitting.

TERM WORK

Termwork
shall consist of at least 12 programs with flowcharts, source listing, input
and

outputs
based on above topic in ‘C’ programming language.

NOTE : All
the units described above are to be taught with computer application,

application
based on Civil Engineering problems.

References

_ “Numerical
methods”, by E. Balaguruswami, Tata Mc. Graw. hill.

_ “Numerical
analysis ( Schaum’s series)”, by Scheid F, Tata Mc.
Graw hill.

_ “Numerical
methods for engineers”, by Chapra. Sc. and R.P.Canale, Tata Mc.

Graw hill.

_ “Computer
based numerical analysis”, by Shantha Kumar M., Khanna

publication.

_ “Numerical
methods in engineering and science”, by Grewal B.S.,
Khanna

publication.

_ “Computer
oriented numerical methods” by Salaria R.S., Khanna
publication.

_ “Numerical
methods in ‘C’’, by J.G.Kori., Laxmi publication

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part I

STRUCTURAL
MECHANICS-II

Teaching
Scheme: Examination Scheme:

Lectures:
3 Hours per week Theory paper: 100 marks

Tutorial:
1 Hour per week Term work: 25 marks

SECTION-I

Unit 1.
(06 Hrs)

Principle
stresses and strain for 2-D problems: Normal and shear stresses on inclined

plane,
Principal planes and Principle stresses, Principle strains, Mohr's circle
method,

principle
stresses in beams and thin cylinders.

Unit 2.
(06 Hrs)

Combined
direct and bending stresses, eccentric load on short columns, kern of a
section,

eccentricity
of load about both axes of section. Chimney subjected to wind pressure,

simple
problems on dams and retaining walls.

Unit 3.
(06 Hrs)

Theory of
torsion, assumptions, transmission of power, combined bending, torsion and

thrust for
solid and hollow shafts, Principle stresses, equivalent torque and equivalent

moment for
circular shafts.

Unit 4.
(04 Hrs)

Behavior
of axially loaded long columns-Effective length, slenderness ratio, crippling

load by
Euler's and Rankine's formulae, limitations.

SECTION-II

Unit 5.
(08 Hrs)

Slope and
deflection of beam: Computation by double integration, Macaulay’s method,

moment
area method, conjugate beam method.

Unit:6 (05
Hrs)

Deflection
of determinate beams, bents & trusses by strain energy method,
Castigliano's theorem.

Unit:7 (03
Hrs)

Theories
of elastic failure : Maximum principal stress. Maximum principal strain,

Maximum
shear stress theories, Total strain energy and distortion energy theory, causes
of failure, fatigue and creep.

Unit:8 (06
Hrs)

Influence
line diagrams, Muller-Breslau principle, application to statically determinate

simple
&compound beams to determine support reaction, S.F. & B.M at any
section, ILD for force in members of determinate truss.

Text Books

• “Mechanics
of Structure” (Vol. I & II) By Junnarkar S.B. and Advi, Charotar

publication

• “Mechanics
of Materials” by Gere and Timoshenko, CBS publishers

• “
Mechanics of Materials” Vol I & II by Punmia, Jain, Laxmi Publications

• “
Strength of Materials” by S Ramamrutham, Dhanapat Rai Publications

• “
Strength of Materials” by Bhavikatti S.S., New Age Publications

Reference
Books

• “Introduction
to Mechanics of Solids” by J.B. Popov, Prentice – Hall publication

• “Strength
of Material” by F. L. Singer and Pytel, Harper and Row publication.

• “Mechanics
of Material” by Beer and Johnston, Mc Graw Hill publication.

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part II

SURVEYING-II

Teaching
Scheme: Examination Scheme:

Lectures:
4 Hours per week Theory paper: 100 marks

(4 Hrs
Duration)

Practical:
2 hour per week Term work: 25 marks

Practical/Oral:
50 Marks

Section –
I

UNIT 1 (10
Hrs)

a)
Tacheometry: Significance & Systems, Principle, constants. Basic Formulae
and Field

Work
Stadia method, Auto reduction Tachometer, Tangential system.

b) EDM:
Importance, Principles of Electronic Distance measuring instruments,

Classification
of EDM’s based on carrier waves used. Study and use of Total Station.

UNIT 2 (11
Hrs)

a)
Triangulation Principle & Classification, system , Selection of station ,
Base line

Measurement,
correction and use of subtense bar, signals, satellite station, reduction to

center,
spherical excess, angular observations, trilateration.

b)
Triangulation Adjustments: Theory of errors, laws of weights, concept of most

probable
value

UNIT 3 (5
Hrs)

Field
astronomy: Terms, co-ordinate systems, determination of latitude and true

bearing by
observation on the sun and pole star

Section –
II

UNIT 4 (10
Hrs)

Curves -

a)
Horizontal curves: Elements, Setting out of simple curves by linear and angular

methods.
Simple, compound, reverse and transition curves.

Transition
Curves- Types, Elements, Length, and concept of ideal transition curve.

b)
Vertical curves: Types, Introduction to compound reverse and combined curves.

Methods of
setting out.

UNIT 5-
Photogrammetry (9 Hrs)

a) Terms,
Types, vertical photographs, scale, ground coordinates, relief displacement,

Flight
planning Photomaps and Mosaics.

b)
Stereoscopy and photo interpretation.

UNIT 6-
Remote sensing: (7 Hrs)

a)
Introduction, Classification and principles, electromagnetic energy and its
interaction

with
matter, Idealized systems, sensors, platforms, and application in civil
engineering.

b) G.P.S
& G.IS. as surveying techniques – Overview, uses and applications

_ Term
Work

Field book
Practicals

1.
Tacheometry

a)
Determination of tachometric constants.

b)
Determination of grade of a line.

c)
Determination of area of a polygon.

2. Use of
subtense bar for distance measurement.

3. Setting
out of curves

a) Simple
circular curves

b)
Transition curves

4. Study
of topo sheets

5.
Observation of aerial photographs under stereoscope

6.
Traversing by Total Station.

_ Projects

1) Road
project 2) Radial Contouring.

_ Recommended
Books

1) Surveying-
B.C.Punmia and Jain Vol.1 , 2 & 3 Laxmi Publications New Delhi

2) Surveying
and Leveling- T.P.Kanetkar and S.V.Kulkarni Vol.1 &
2 – Vidhyarthi Griha

Prakashan,Pune

3) Advanced
Surveying- Agor – Khanna Publications,Delhi.

4) Surveying-Bannister,
Raymond and Baker, Pearson Education

5) Surveying-K.L.
Arora Vol.1 &2

6) Surveying-
Jawaharlal Sharma -Publishers,Delhi

7) Surveying
and Levelling- Basak

8) Surveying
– S.K.Duggal Vol 1&2-Tata Mcgraw Hill Publications,New
Delhi.

9) Advanced
Surveying- S.Gopi,R.Satikumar and N.Madhu, Pearson
Education

10) Higher
Surveying- A.M.Chandra-New Age International
Publication.

S.E.(Civil
Engineering)Part-II

ENGINEERING
GEOLOGY

Teaching
Schemes: Examination Schemes:

Lectures :
3 hours/week Theory Paper:100 marks

Practical
: 2 hours/week Term work : 25 marks

POE : 50
marks

SECTION I

Unit 1

Introduction:
Definition, Scope and subdivisions, applications of Geology in
Civil

Engineering.
(01)

Unit 2 (06)

Physical
Geology: Major relief features of the Earth,
Denudation, Interior of the Earth.

Geological
work of river: Normal cycle of erosion, Processes and
features of erosion

and
deposition, Transportation, Civil Engineering Significance.

Geological
work of wind: Processes and features of erosion and
deposition,

Transportation,
Civil Engineering Significance.

Volcano:
Central and Fissure types, Products of volcano.

Mountain:
Types, examples.

Unit 3 (09)

Mineralogy
and Petrology:

Mineralogy
:Definition, Physical properties of mineral, Classification of
minerals.

Petrology:
Definition, rock cycle.

Igneous
rocks: Origin, Textures and Structures,
Classification, Concordant and

Disconcordant
intrusions,Civil Engineering significance.

Secondary
rocks: Formation, Classification.

Residual
deposits: Soil, Laterite and Bauxite and their
importance.

Sedimentary
deposits: Formation, Textures, Classification and
Structures, Civil

Engineering
significance.

Chemical
and organic deposits.

Metamorphic
rocks: Agents and Types of Metamorphism, Stress
and antistress

minerals,
Structures, Products of metamorphism.

Unit 4 (05)

Structural
Geology: Outcrop, Strike and Dip,
Unconformity-Types, Outliers and Inliers,

Overlap.

Fold and
Fault: Parameters, Classification, Causes, Civil
Engineering significance.

Joint: Types,
Civil Engineering considerations.

SECTION II

Unit 5 (02)

Building
Stones: Engineering properties of rocks,
Requirement of good building stone,

Building
stones of India.

Unit 6 (02)

Grounwater:
Sources of groundwater, water table, Zones of groundwater,
Porosity and

permeability,
Types of Aquifer.

Unit 7 (05)

Earthquake
: Introduction, Causes, Seismic waves, Isoseismal lines, Recording
of

earthquake,
Scale, Effects, Reservoir Induced Seismicity.

Landslides
:Types, Causes, Stability of hill slopes, Prevention of
Landslides.

Unit 8 (03)

Preliminary
Geological Investigations : Steps in geological
investigations for project

site,
Engineering consideration of structural features.

Exploratory
drilling: Observations, Preservation of cores, Core
logging, Core recovery,

R.Q.D.,
Graphical representation of core log, Limitation of exploratory drilling
method.

Unit 9 (05)

Geology of
Dams and Reservoirs : Preliminary geological survey, Influence of

geological
conditions on Location, Alignment, Design and Type of a dam, Suitable and

Unsuitable
geological conditions for locating a dam site, Site improvement techniques,

Dams on
carbonate rocks, sedimentary rocks, folded strata and deccan traps, Suitable
and unsuitable geological conditions for reservoir site.

Unit 10 (04)

Geology of
Tunnel and Bridge : Definition, Civil Engineering terms,
difficulties during

tunneling,
Influence of geological conditions on tunneling, Lining after tunneling,

Geological
consideration while choosing tunnel alignment, Tunnel in folded strata,

sedimentary
rocks and deccan traps.Dependence of types of bridges on geological

conditions.

PRACTICAL
WORK

1.
Megascopic study of Rock forming minerals.

2.
Megascopic study of Ore forming minerals.

3.
Megascopic study of Igneous rocks.

4.
Megascopic study of Secondary rocks.

5.
Megascopic study of Metamorphic rocks.

6. Study
of geological maps.

7. Study
of Structural Geological models.

8. Study
tour to the places of Engineering Geological importance.

TERM WORK

A Journal
containing full record of above practical work shall be examined as Term

work.
Practical examination based on above practical course.

REFERENCE
BOOKS

1.Engineering
and General Geology – By Prabin Singh, S. K. Katariya and sons, Delhi.

2.Principles
of Petrology – By G. W. Tyrrell, B.I.Publication Pvt.Ltd.,New Delhi.

3.Principles
of Physical Geology – By A. Holmes, ELBS Chapman & Hall,London.

4.Structural
Geology – By M. P. Billings, Prentice Hall of India Private Ltd.,New Delhi.

5.A Text
Book of Geology – By P. K. Mukerjee ,The World Press Pvt.Ltd., Calcutta.

6.Geology
Hand book in Civil Engineering- By R. F. Legget – McGrawHill, New York.

7.Principles
of Engineering Geology and Geotechnics- By D. P. Krynine& W. R. Judd,

CBS
Publishers & Distributors,New Delhi.

8.Engineering
Properties of Rocks – By L. W. Farmer, Champman & Hall, London.

9.Experiments
in Engineering Geology – By K. V. G. K. Gokhale & D. M. Rao,TMN,

New-Delhi.

10.A Text
Book of Engineering Geology – By R. B. Gupte, Pune Vidyarthi Griha

Prakashan,
Pune.

11.Engineering
Geology for Civil Engineering – By Dr. D. V. Reddy,Oxfard & IBH

Publishing
Co. PVt. Ltd.,New Delhi.

12.Engineering
Geology - By B. S. SathyaNarayanswami,Dhanpat Rai& Co.(P)

Ltd,
Delhi.

13.Groundwater
Hydrology- By Tood D. K., John Wiley & Son, New York.

14.Engineering
Geology Laboratory Manual.

15.Rultey’s
Elements of Mineralogy – By H. H. Read, CBS Publishers & Distributors,

Delhi.

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part II

BUILDING
DESIGN

Teaching
Scheme: Examination Scheme:

Lectures:
4 Hours per week Theory paper: 100 marks

(4 Hrs
Duration)

Drawing: 4
hour per week Term work: 50 marks

Practical
Oral: 25 marks

SECTION –
I

Planning
of Residential Buildings

UNIT-NO.1:-
(5 Hrs)

Site
Selection criteria.

Principles
of Building planning. Significance Sun diagram. Wind Diagram.

HOrientation,
Factors affecting, criteria under Indian condition.

UNIT-NO. 2
(10 Hrs)

Building
Planning Byelaws & regulations as per SP-7, 1983 National Building code of
India

group 1 to
5.

Planning
of Residential Building (Bungalows, Row Bungalows, Apartments and Twin

Bungalows)
Procedure of Building Permission, significance of commencement, plinth
completion

or
occupancy certificate.

UNIT-NO.3
(5 Hrs)

Low cost
Housing-Materials & Methods (conceptual introduction only)

HMaintenance,
Repairs, Rehabilitation of Structures. (conceptual introduction only)

SECTION –
II

Building
Services

UNIT-No.4:-
(8 Hrs)

HPlumbing
system, Various Materials for system like PVC, GI, AC, CI, HDPE, and Stoneware.

Various
types of traps, Fittings, Chambers, Need of Septic Tank, Concept of Plumbing
&

Drainage
plan, introduction to rainwater harvesting. HConcept of rain water Gutters.
Rainwater

outlet
& Down Tank Systems.

HElectrification:
- Concealed & Open Wiring, Requirements & Location of various points,
Concept

of
Earthing.

Fire resistance
in building: Fire protection precautions, confining of fire, fire hazards,

Characteristics
of fire resisting materials, building materials and their resistance to fire.

UNIT-No.5
(8 Hrs)

Ventilation:
- Definition and necessity of Ventilation, functional requirement, various
system &

section
criteria.

Air
conditioning: - Purpose, Classification, Principles, Systems & Various
Components of the

same.

Thermal
Insulation: - General concept, Principles, Materials, Methods, Computation of
Heat loss

& heat
gain in Buildings.

Introduction
to Acoustics: Absorption of sound, various materials, Sabine’s formula, optimum

reverabaration
time, conditions for good acoustics.

HSound
Insulation: Acceptable noise levels, Noise prevention at its
source,Transmission of noise.

Noise
control-general considerations.

UNIT-No.6:-
Building Finishes (8 Hrs)

Paints:
Different types and application methods.

Varnishes
& application methods.

Plastering,
Pointing & various techniques.

Tile
cladding, skirting, dado work with various materials.

Miscellaneous
finishes such as POP, sand blasting techniques, wall paper.

TERM WORK:

1.
Imperial size sheet based on actual measurement of existing residential
building

consisting
of plan, elevation, section passing through staircase. Site plan. Area
statement

&
brief specifications.

2.
Planning & design of residential building (G+1).

3. Full
set of drawings for the building planned in 2- (a) Municipal Submission
drawing. (b)

Working
Drawings:

• Foundation / Center Line Drawing.

• HFurniture layout plan.

• Electrification plan

• HWater supply & drainage plan.

4. Project
report giving details of following systems

• HStair Case

• Drainage System

• Water Supply System

• Water Tank

• HSpectic Tank

• Design of terrace Drainage System

REFERENCE
BOOKS:

• Building Drawing – Shah, Kale,
Patki (Tata McGraw- Hill)

• Building Design and Drawing – Y. S.
Sane ( Allied Book Stall, Pune)

• SP 7- National Building Code Group 1 to
5- B.I.S. New Delhi

• I.S. 962 – 1989 Code for Practice
for Architectural and Building Drawings

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part Ii

FLUID
MECHANICS-Ii

Teaching
Scheme: Examination Scheme:

Lectures:
3 Hours per week Theory paper: 100 marks

Practical:
2 Hours per week Term work: 25 marks

SECTION- I

Unit-1

a) Uniform
flow in open channel :

Introduction,
Difference between pipe flow and open channel flow. Types of open channels,

Types of
flows in open channel, Geometric elements, Velocity distribution, Measurement
of

velocity-
( Pitot lube, current meter)

b) Steady & Uniform Flow :

Chezy's
& Manning's formula, Roughosity coefficient, Uniform Flow computations,
Hydraulically

efficient
section ( Rectangular, Triangular, Trapezoidal )

c) Depth
energy relationship in open channel flow :

Specific
energy ( definition & diagram, Critical, Sub-critical, Super-critical
flow), Specific force, Specific

discharge-
(definition & diagram ) (6)

Unit -2

Gradually
varied flow ( G.V.F.) :

Definition,
Classification of channel Slopes, Dynamic equation of G.V.F.( Assumption and

derivation),
Classification of G.V.F. profiles-examples, Direct step method of Computation
of

G.V.F.
profiles (5)

Unit -3

Rapidly
varied flow (R.V.F.) :

Definition,
examples, Hydraulic jump- Phenomenon, relation of conjugate depths, Parameters,

Uses,
Types

of
Hydraulic jump. Hydraulic jump as an energy dissipater (4)

Unit -4

Notches
& Weirs : Types, derivation of discharge equation,
Velocity due to approach, Francis

formula, Calibration of notch, errors
in measurement.

Weir &
Spillway : Sharp, broad & round crested weirs,
calibration of weir, time of emptying

tank with
weir, Profile of Ogee spillway, Flow below gates. (5)

SECTION-Il

Unit-5

Impact of
jet : .

Impulse
momentum principle, Impact of jet on Vanes-flat, curved (stationary and,

moving),
Inlet & outlet velocity triangles, Series of flat, curved vanes mounted on
wheel. (5)

Unit-6

Hydraulic
turbines :

Importance
of hydro-power, Classification of turbines, description, Typical dimensions and

working
principle of Pelton, Francis & Kaplan turbine (Detailed design need not to
be dealt

with),
Unit quantities, Specific speed, Performance Characteristics, Selection of type
of

turbine,
description & function of Draft tube, Thoma’s cavitation number. (5)

Uni t -7

Centrifugal
pump :

Classification,
Component parts, Working of centrifugal pump, Performance

Characteristics,
Selection of pump, Common pump troubles & remedies, Introduction to

different
types of pumps such as reciprocating, multi-stage, Jet, Air lift, Submersible

pump. (4)

Uni t -8

Boundary
layer theory :

Concept,
Boundary layer along thin plate- Characteristics, Laminar, Turbulent Boundary
Layer,

laminar
sub layer, Various Thicknesses- Nominal, displacement, Momentum, Energy.

Hydraulically
smooth and Rough boundaries, Separation of Boundary layer, control of
Separation,

Introduction
to Drag and Lift on submerged bodies ( like Flat plates, Sphere, Cylinder,
aerofoil ),

stokes
law,

Drag and
Lift coefficients. (6)

TERM WORK

A) Any
four of the following :

1) Study
of specific energy diagram for different discharges.

2)
Calibration of V notch / Rectangular notch.

3)
Calibration of sharp crested suppressed weir and plotting of upper / lower
nappe

4)
Calibration of Ogee Weir.

5) Study
of hydraulic jump

a)
Verification of sequent depths,

b)
Determination of loss in jump.

c)
Plotting the following parameters with respect to Froud number i) Y2/Y1 ii)
Length iii) Energy loss

6) Study
of flow over broad crested weir.

7) Study
of flow below gates – Discharge v/s head relation, Equation of flow,
Determination of

contraction
in fluid in downstream of gate.

8)
Velocity distribution in open channel in transverse direction of flow

B) i)
Impact of jet

ii) Study
of Turbines ( Demonstration )

iii) Test
on centrifugal pump

iv) Study
of charts for selection of pumps

RECOMMENDED
BOOKS

1) Fluid Mechanics – A.K. Jain –
Khanna Pub., Delhi

2) Fluid Mechanics – K. L. Kumar –
Eurasia Publication House, Delhi

3) Fluid Mechanics –
Streeter-McGraw-Hill International Book Co., Auckland

4) Open Channel flow – Rangaraju –
Tata McGraw-Hill Pub. Co., Delhi

5) Fluid Mechanics – K. Subramanyam –
Tata McGraw-Hill Pub. Co., Delhi

6) Fluid Mechanics – Hydraulic &
Hydraulic Mechanics -Modi / seth – Standard Book House, Delhi

7) Flow in open channel – V. T.
Chaw - McGraw-Hill International Book Co., Auckland

8) Flow in open channel - K.
Subramanyam – Tata McGraw-Hill Pub. Co., Delhi

SHIVAJI
UNIVERSITY, KOLHAPUR

S.E.
(Civil) -Part II

COMPUTER
AIDED DRAWING

Teaching
Scheme: Examination Scheme:

Lectures:
-- Theory paper: --

Practical:
2 hours per week Term work: 25 marks

Assignment
No. 1

H Sudy of
Auto CAD Commands

Assignment
No. 2

Preparation
of 2D AutoCAD drawing of Project prepared in the term work of

subject
Building Design.

Assignment
No. 3

Preparation
of ANY one of the working drawings of Project prepared in the

termwork
of subject Building Design.

REFERENCE
BOOKS:

• AutoCAD
– David Frey ( BPB Sybex Publications)

• AutoCAD
– George Omura