A.Y.

2024-2025

SEMESTER
IV

CE&AMD/SGSITS/JULY-DEC /2024 Page 22

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21512: CONSTRUCTION TECHNOLOGY-I
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
END END
CW SW
3 - - 3 - SEM SEM
100
30 70 - -

Pre-requisite: Material Technology.

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
To equip students with comprehensive knowledge of traditional and contemporary construction
materials, their properties and applications, while developing skills in material selection,
concrete and steel construction procedures, and design considerations for essential building
components such as floors, roofs, and stairs.

COURSE OUTCOMES (CO):

Students should be able to:

1. Describe the various available conventional and new construction materials and techniques.
2. Explain the suitability of materials required for various structural elements.
3. Describe the suitability different construction techniques.
4. Apply the suitability of locally available material in building constructions.
5. Explain the application of globally available equipment’s in construction technology.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 - - - - - - - - - 3
CO2 3 3 - - - - - - - - - 3
CO3 3 3 - - - - - - - - - 3
CO4 3 3 - - - - - - - - - 3
CO5 3 3 - - - - - - - - - 3
Target 3 3 - - - - - - - - - 3

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

CE&AMD/SGSITS/JULY-DEC /2024 Page 23

 A.Y. 2024-2025

COURSE CONTENTS:
Theory:

1. Stone Masonry: Terms used and definitions, Type of Stone Masonry, Plant &
Equipment Used, Defects in Stones. Stone Masonry Details at Doors Window opening
Cornices.
2. Brick Masonry: Characteristics and Classification of Bricks Laying and Bonds in
Bricks Masonry, Construction details of composite wall, Cavity wall, Hollow Block
Construction, reinforced Brick work.
3. Concrete Construction
• Cast in Situ RCC Construction: Cost in Situ RCC Construction, Form Work for
Various Structural Components, Mixing and Placing Concrete, Reinforcement and
its Placing, Formwork and its design principles.
• Precast &Prestressed Construction: Introduction to precast &prestressed
construction, Joints in precast construction.
• Steel Construction: Method of Structural Connections, Bolting, Riveting,
Welding, Fabrication, Erection of Various Structural Components including girders
and trusses.
4. Timber Construction: Method of Structural connections, Fastenings used, Structural
Components including Trusses.
5. Construction of Structure: Load Bearing, Framed and composite Construction,
different types of foundations, Bridging Elements, Arches and Lintels. Various Types
of Retaining walls, Prefabricated Construction.
6. Floors: Ground, Basement and Storey Floors, Types, Varieties of floor finishers.
7. Roof: Types, Layout, Structure of Roof, Types of Coverings, Drainage arrangements,
Ceilings.
8. Stairs: Types, Layout Design and Construction, Ramps, Ladders, Lifts, Escalators,
Doors, Windows, Ventilators – Their Types.
9. Finishes: Plastering, Pointing, white washing, Distempering Painting, Sources of
dampness and remedial measures. Types, cost of owning and operating, prime cost,
depreciation economic life, maintenance, repair, Earth Moving Machines, Concrete
Construction Equipment, Aggregate preparation Equipment, Dewatering equipment,
The study of these Equipments should include Types, Output Efficiency, Size,
Application, Operation.

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Theory examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

CE&AMD/SGSITS/JULY-DEC /2024 Page 24

 A.Y. 2024-2025

Books & References Recommended:

1. Building Construction, Sushil Kumar, Standard Publishers Distributors, 8hEdition
2016
2. Building Construction, Rangwala S C., Charotar Publishing House., 1980, 16th Edition
2009
3. Building Construction, McKay W.B., “Vol.1 to 4, Orient Longman Ltd., Hyderabad,
Bombay, Madras, Delhi, Vol.1 & 2 -1995, Vol. 3-1996, Vol. 4-1998.

Reference Books
1. A Text Book of Building Construction, Punmia, B.C., Laxmi Publications, Delhi,
Madras.
2. Engineering Materials, Singh Surendra., Konark Publishers Pvt. Ltd. 1994. Civil
Engg. Materials, TTTI Chandigarh, Tata McGraw- New Delhi

CE&AMD/SGSITS/JULY-DEC /2024 Page 25

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21801: CONSTRUCTION TECHNOLOGY-I LABORATORY
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
CW END SW END
- 2 - - 1 SEM SEM
50
- - 40 60

Pre-requisite: Material Technology

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
Develop practical skills in foundation work, masonry techniques, and essential building
components through hands-on experiments and technical drawings.

COURSE OUTCOMES (CO):

Students should be able to:

1. Analyze and apply fundamental concepts in building construction, including foundations,

masonry techniques, and structural elements.
2. Evaluate and compare different types of construction materials and methods used in
flooring, roofing, and staircase design.
3. Develop practical skills in interpreting and creating technical drawings related to various
building components and systems.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 - - - - - 2 - - - 3
CO2 3 3 - - - - - - - - - 3
CO3 3 3 - - - - - 2 - - - 3
Target 3 3 - - - - - 1.3 - - - 3

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

CE&AMD/SGSITS/JULY-DEC /2024 Page 26

 A.Y. 2024-2025

COURSE CONTENTS:
Theory:

1. Sheet 1 on foundations.
2. Sheet 2 on stone masonry
3. Sheet 3 on brick masonry
4. Sheet 4 on block masonry
5. Sheet 5 on types of flooring.
6. Sheet 6 on types of roofs.

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Practical examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

Books & References Recommended:

1. Building Construction, Sushil Kumar, Standard Publishers Distributors, 8hEdition
2016
2. Building Construction, Rangwala S C., Charotar Publishing House., 1980, 16th Edition
2009
3. Building Construction, McKay W.B., “Vol.1 to 4, Orient Longman Ltd., Hyderabad,
Bombay, Madras, Delhi, Vol.1 & 2 -1995, Vol. 3-1996, Vol. 4-1998.

Reference Books
1. A Text Book of Building Construction, Punmia, B.C., Laxmi Publications, Delhi,
Madras.
2. Engineering Materials, Singh Surendra., Konark Publishers Pvt. Ltd. 1994. Civil
Engg. Materials, TTTI Chandigarh, Tata McGraw- New Delhi

CE&AMD/SGSITS/JULY-DEC /2024 Page 27

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21514: TRANSPORTATION ENGINEERING
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
END END
CW SW
3 - - 3 - SEM SEM
100
30 70 - -

Pre-requisite: Basic traffic engineering, surveying, and civil design fundamentals.

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
To develop students' expertise in analyzing, designing, and improving various transportation
infrastructure systems, including roads, intersections, highways, railways, and harbors, with
emphasis on performance assessment, safety enhancement, geometric design principles, traffic
management, and environmental considerations.

COURSE OUTCOMES (CO):

Students should be able to:

1. Apply the principles of highway classification, historical development, and survey

techniques for effective road planning and development.
2. Design the geometric elements of roads, including cross sections, sight distances, and
alignments.
3. Analyze traffic studies and design traffic control measures, including signals, markings,
and intersection types.
4. Explain the components and design principles of railway systems, including permanent
way, points, and crossings.
5. Design and plan dock and harbor facilities, including protective coastal works and port
structures.

CE&AMD/SGSITS/JULY-DEC /2024 Page 28

 A.Y. 2024-2025

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 - 2 - - - 3 - - - 3
CO2 3 3 3 - 1 - - 3 - - - 3
CO3 3 3 3 2 1 - - 3 - - - 3
CO4 3 3 - 3 - - - 3 - - - 3
CO5 3 3 3 - - - - 3 - - - 3
Target 3 3 1.8 1.4 0.4 - - 3 - - - 3

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

COURSE CONTENTS:

Theory:

Unit - 1
Highways: Classification of Roads, Road Patterns, Brief History of Road
Development around the World, Road Development Plans of the India, Present Status
of Roads in India, Alignment Design, Requirements and Controlling Factors, Use of
Aerial Photography and Remote Sensing, Other surveys.
Unit - 2
Geometric Design: Typical Cross Sections in Urban and Rural roads, Various Cross
Sections Elements, Width of Carriage-way, Shoulders, Medians, Width of Roadways,
Right of Way, Camber, Design Speed, Sight Distance, Stopping Sight Distance,
Passing Sight Distance, Sight Distance at Inter-Section, Passing Zones, Super
Elevations, Set Back, Extra Widening on Horizontal Curve, Transition Curve, Design
of Horizontal and Vertical Alignment, Combinations of Horizontal and Vertical
Alignment.
Unit - 3
Traffic Engineering: Definition, Road User and Vehicle, Traffic Studies - Speed,
Volume, Origin & Destination, Capacity, Parking and Accidents, Traffic Signs,
Traffic Markings, Traffic Signals - Types, Signal systems, Warrants and Design,
Traffic Management, Intersection Types - At Grade & Grade Separation, Rotary
Design, Street Lighting.
Unit - 4
Railway Engineering: Early development in rail transport, Permanent Way, Gauges,
Sleepers, Ballast, Rails, Rail Fastenings, Calculation of Materials for Permanent way,
Coning of Wheels, Rail Cross Section, Tilting of Rails, Wear & Creep of Rails,
Geometrics, Gradients, Transition Curves, Widening of Gauges on Curves, Cant &
Cant Deficiency.
Points & Crossing - Design of Turn outs and description of Track Junctions,
Signalling and Interlocking, Classification of Signals and Points, Control of Train,
Track Circuits, Station Yards.
CE&AMD/SGSITS/JULY-DEC /2024 Page 29
 A.Y. 2024-2025

Unit - 5
Dock & Harbour Engineering: Ship Characteristics, Wind Waves, Currents, Tides
Harbour - Selection of site, Planning & Design, Classes, Desirable features,
Protective Coastal Works, Break Waters, Jetties, Groins, Revetments & Bulk Heads,
Vertical Walls.
Process due to break Waters, Concepts and Principles of Design of different
Structures, Planning & Design of Port Facilities, General Layout and Design
Considerations, Pier and Wharf Structure, Fender Systems, Container, Port, Birth and
ship Dimensions.

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner

Semester-end:
Theory examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

Books & References Recommended:

1. Khanna S.K. & Justo, C.E.G. “Highways Engineering” 10th edition. Nem Chand and
Brothers, 2015.
2. O. Flaherty C.A., “Highway Vol. I & II:, Butterworth Heinemann, 2002.
3. O. Flaherty C.A., “Traffic Engineering and Transport Planning”, 2006.
4. Anita K.F., “Railway Track Design, Construction, Maintenance and Renewal of
permanent way, Bombay”, New Book Company, 1945.
5. Paul H. Wright and Norman J. Ashford, “Transportation Egg. Planning and Design”,4th
edition, 1998.
6. L.R.Kadiyali & N.B.Lal, “Principles & Practices of Highway Engg, Khanna
Publishers”, 2005.

Reference Books
1. IRC -.67-2012, “Code of Practice for Road Signs”.
2. IRC - 35-1997, “CODE OF PRACTICE FOR ROAD MARKINGS”.
3. IRC - 83-1988, “Code of Practice for Road Bridges”.
4. IRC - 86-1983, “Geometric design standards for urban roads in plains”.
5. IRC – SP No.23, “Vertical Curves for Highways”.
6. IRC-106-1990, “Guidelines of Capacity of Urban Roads in Plain Areas”.

CE&AMD/SGSITS/JULY-DEC /2024 Page 30

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21802: TRANSPORTATION ENGINEERING LAB
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
CW END SW END
- 2 - - 1 SEM SEM
50
- - 40 60

Pre-requisite: Basic traffic engineering, surveying, and civil design fundamentals.

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
To develop students' expertise in analyzing, designing, and improving various transportation
infrastructure systems, including roads, intersections, highways, railways, and harbors, with
emphasis on performance assessment, safety enhancement, geometric design principles, traffic
management, and environmental considerations.

COURSE OUTCOMES (CO):

Students should be able to:

1. Assess and analyze the performance and level of service of existing road infrastructure.
2. Design and develop intersection solutions for urban traffic management.
3. Apply geometric design principles to the layout of highways and railways.
4. Conduct traffic volume and capacity studies to improve road safety and efficiency.
5. Design harbor layouts and protective coastal structures considering environmental and
operational factors.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 - 2 - - - 3 3 - - 3
CO2 3 3 3 - - - - 3 3 - - 3
CO3 3 3 3 2 - - - 3 3 - - 3
CO4 3 3 - 3 - - - 3 3 - - 3
CO5 3 3 3 - - - - 3 3 - - 3
Target 3 3 1.8 1.4 - - - 3 3 - - 3

CE&AMD/SGSITS/JULY-DEC /2024 Page 31

 A.Y. 2024-2025

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

COURSE CONTENTS:
Practical:

1. To determine the level of service of an existing road.

2. To determine the spot speed of the vehicles with the help of enoscope.
3. To design a rotary at any given intersection.
4. To design a signal at any given intersection.
5. To prepare various railway sheets.
6. Design of Horizontal and Vertical Curves for a given Highway Alignment.
7. Analysis and Design of Pavement Cross-Sections for Urban and Rural Roads.
8. Determination of Traffic Volume and Capacity at a given location.
9. To prepare typical cross section for National Highway.
10. To prepare Layout for Harbor with Protective Coastal Works.
11. To prepare the various traffic control devices sheets

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Practical examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

Books & References Recommended:

1. Khanna S.K. & Justo, C.E.G. “Highways Engineering” 10th edition. Nem Chand and
Brothers, 2015.
2. O. Flaherty C.A., “Highway Vol. I & II:, Butterworth Heinemann, 2002.
3. O. Flaherty C.A., “Traffic Engineering and Transport Planning”, 2006.
4. Anita K.F., “Railway Track Design, Construction, Maintenance and Renewal of
permanent way, Bombay”, New Book Company, 1945.
5. Paul H. Wright and Norman J. Ashford, “Transportation Egg. Planning and Design”,4th
edition, 1998.
6. L.R.Kadiyali & N.B.Lal, “Principles & Practices of Highway Engg, Khanna
Publishers”, 2005.

Reference Books
1. IRC -.67-2012, “Code of Practice for Road Signs”.
2. IRC - 35-1997, “CODE OF PRACTICE FOR ROAD MARKINGS”.
3. IRC - 83-1988, “Code of Practice for Road Bridges”.
4. IRC - 86-1983, “Geometric design standards for urban roads in plains”.

CE&AMD/SGSITS/JULY-DEC /2024 Page 32

 A.Y. 2024-2025

5. IRC – SP No.23, “Vertical Curves for Highways”.

6. IRC-106-1990, “Guidelines of Capacity of Urban Roads in Plain Areas”.

CE&AMD/SGSITS/JULY-DEC /2024 Page 33

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21518: ENGINEERING GEOLOGY

CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
END END
CW SW
3 - - 3 - SEM SEM
100
30 70 - -

Pre-requisite: XII standard (HSSC)

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
To develop students' understanding of geological principles and techniques essential for civil
engineering applications, from basic concepts to advanced technologies.

COURSE OUTCOMES (CO):

Students should be able to:

1. Comprehend fundamental geological concepts and their relevance to civil engineering.

2. Analyze rock properties and structural geology for engineering applications.
3. Evaluate geological hazards, particularly landslides and earthquakes.
4. Apply geological investigation techniques for various civil engineering projects.
5. Utilize remote sensing, GPS, and GIS technologies in civil engineering and resource
mapping.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 2 - - - 2 - - - 3 - 3
CO2 2 3 - - - 2 - - - 3 - 3
CO3 3 2 - - 2 2 - - - 3 - 3
CO4 2 1 - - 2 2 - - - 3 - 3
CO5 2 2 - 3 2 2 - - - 3 - 3
Target 2.4 2 - 0.6 1.2 2 - - - 3 - 3

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

CE&AMD/SGSITS/JULY-DEC /2024 Page 34

 A.Y. 2024-2025

COURSE CONTENTS:
Theory:

Unit - 1
General Geology: Introduction, Disciplines and scope of engineering geology,
Importance of geology in Civil Engineering, Earth surface features and internal
structure, Geomorphological process and classification, Weathering of rocks,
Geological action of running water, wind, and underground water, Mineralogy.
Unit - 2
Petrology and Structural Geology: Rock cycle, Classification and strength aspects
of Igneous, Sedimentary and Metamorphic rocks and their suitability as engineering
materials, Relationship between physical and geo-mechanical properties of
rock,Rock deformation, dip, strike, outcrops, Classification and field identification of
Folds, Joints, Faults, Unconformity and their importance in civil engineering.
Unit - 3
Landslides and Earthquake: Causes, types and classification of landslides,
Preventive measures of landslides, Causes and effects of Earthquakes, Measurement
of Earthquakes, Seismic zones of India, Geological consideration for construction
of building and other projects in seismic areas.
Unit - 4
Geological Investigation: Geological investigations for Dams and reservoirs,
tunnelling in rocks, bridges, railways and highways, Classification of geophysical
methods, Geophysical explorationsfor surface and subsurface structures, Scope of
rock excavation,Geological maps, Study of geological models.
Unit - 5
Remote sensing: Uses of remote sensing technique. Types, components and
elements of remote sensing, EMS and MSS, Visual interpretation technique,
application of Global Positioning system (GPS) and Geographic Information System
(GIS) in civil engineering and resource mapping (site selection, water resources,
rocks and soil).

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Theory examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

Books & References Recommended:

1. Engineering Geology for Civil Engineers by P. C. Varghese,PHI Learning Pvt. Ltd.,
New Delhi, 2019.
2. Geology and Engineering,R.F.Legget, McGraw Hill.
3. Engineering Geology, S.K. Duggal, Tata McGraw Hill Publishing Company Ltd. New
Delhi.

CE&AMD/SGSITS/JULY-DEC /2024 Page 35

 A.Y. 2024-2025

Reference Books
1. Remote Sensing and image interpretation by Lillesand T.M. and Kiefer R.W.
2. Integrating GIS and the Global Positioning System by Karen Steede-Terry
3. Engineering and General Geology by Prabin Singh Katson Educational Series.
4. Foundations of Engineering Geology, byTony Waltham, Taylor & Francis.

CE&AMD/SGSITS/JULY-DEC /2024 Page 36

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21803: ENGINEERING GEOLOGY LABORATORY

CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
CW END SW END
- 2 - - 1 SEM SEM
50
- - 40 60

Pre-requisite: XII standard (HSSC)

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
To develop students' practical skills in analyzing geological structures, interpreting features,
and reading geological maps for civil engineering applications.

COURSE OUTCOMES (CO):

Students should be able to:

1. Analyze geological structures including folds, faults, and unconformities.

2. Interpret geological features relevant to civil engineering projects.
3. Develop skills in geological map reading and cross-section drawing.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 2 - - - - 2 - - - - 2
CO2 2 3 - 2 - - 2 - 2 - - 2
CO3 3 2 - 2 - - - - 2 - - 2
Target 1.6 1.4 - 0.8 - - 0.8 - 0.8 - - 1.2

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

COURSE CONTENTS:
Practical:

1. Study of folded structures.

2. Study of faulted structures.
3. Study of unconformity and other structures.
CE&AMD/SGSITS/JULY-DEC /2024 Page 37
 A.Y. 2024-2025

4. Study of tunnels, rainfall and volcanoes.

5. Drawing of various cross sections of a geological map.
6. Study of rocks and minerals.

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Practical examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

Books & References Recommended:

1. Engineering Geology for Civil Engineers by P. C. Varghese,PHI Learning Pvt. Ltd.,
New Delhi, 2019.
2. Geology and Engineering,R.F.Legget, McGraw Hill.
3. Engineering Geology, S.K. Duggal, Tata McGraw Hill Publishing Company Ltd. New
Delhi.
Reference Books
1. Remote Sensing and image interpretation by Lillesand T.M. and Kiefer R.W.
2. Integrating GIS and the Global Positioning System by Karen Steede-Terry
3. Engineering and General Geology by Prabin Singh Katson Educational Series.
4. Foundations of Engineering Geology, byTony Waltham, Taylor & Francis.

CE&AMD/SGSITS/JULY-DEC /2024 Page 38

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21524: STRUCTURAL MECHANICS
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
END END
CW SW
3 - - 3 - SEM SEM
100
30 70 - -

Pre-requisite: Applied Mechanics.

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
Course objective is to make aware the students about behaviour of different structural
members. In this subject detailed study of analysis of columns, methods of deflections,
unsymmetrical bending is given. This subject provides a base for the students in the structural
engineering field.

COURSE OUTCOMES (CO):

Students should be able to:

1. Determine the deflection of determinate structures using energy methods.

2. Analyze axially loaded and eccentric columns and calculate buckling loads.
3. Analyze curved flexural members, springs, shells and pressure vessels.
4. Compute stresses in beams subjected to unsymmetrical bending.
5. Analyze and interpret response of single degree of freedom systems subjected to harmonic
loading.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 3 - - - - - - - - 3
CO2 3 3 3 - - - - - - - - 3
CO3 3 3 3 - - - - - - - - 3
CO4 3 3 3 - - - - - - - - 3
CO5 3 3 3 - - - - - - - - 3
Target 3 3 3 - - - - - - - - 3

CE&AMD/SGSITS/JULY-DEC /2024 Page 39

 A.Y. 2024-2025

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

COURSE CONTENTS:
Theory:

Unit - 1
Strain Energy: Resilience and Proof Resilience, Elastic Strain Energy in Materials
subjected to Tension, Compression, Shear, Bending and Torsion. Theories of Elastic
Failure. Gradually and suddenly applied Loads. Impact and Falling Loads.

Deflection of Structures: Strain Energy Method for Deflection of Beams and

Determinate Trusses, Castigliano’s First Theorem and its Application to find
Deflections
Unit - 2
Columns and Struts: Long and Short Columns, Axial and Eccentric Loads. Euler’s
Theory and Rankine’s Formula for Axially Loaded Columns. Eccentrically Loaded
Columns, ISI-Formula for Columns, Introduction to Beam-Column behaviour and
Column with Lateral Loads.
Unit - 3
Unsymmetrical Bending: Principal Moment of Inertia, Unsymmetrical Bending of
Standard Structural Section, Change in Orientation of Neutral axis-plane, Shear
Centre.

Shells and pressure vessels: thin walled cylindrical and spherical pressure vessels
under internal and external redial pressure. Wire wound thin tubes
Unit - 4
Bending of curved bars and rigid frames: Stresses in Bars of Small Initial
Curvature. Stresses in Bars of Large Initial Curvature. Deflection of Curved Bars
(Direct Method). Defection from Strain Energy (Castigliano's Theorem). Portal
Frame by Strain

Springs: Closed coiled and open coiled helical springs. Stress in the spring materials.
stiffness of springs, spring subjected to axial loads and couples. Grouping of springs.
Leaf Spring, Semi Elliptic, Quarter Elliptic Spring.
Unit - 5
Basics of Mechanical Vibration: Signal degree of freedom system: Free & Forced
vibration, Linear viscous damper, Coulomb Damper, response Harmonic Excitation
Rotation Unbalance & support Excitation, Vibration isolation and Transmissibility.
Single Degree of freedom system as vibrometer accelerometer.

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner

CE&AMD/SGSITS/JULY-DEC /2024 Page 40

 A.Y. 2024-2025

Semester-end:
Theory examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

Books & References Recommended:

1. Punmia B.C., Strength of Material and Mechanics of Structure, Vol. II., Standard
Publishers Distributors Edition 12th 2004.
2. Ryder G.H., Strength of Material.,Palgrave Macmillan; Student international edition
3rd 1969.
3. Timoshenko, Strength of Material. ,CBS Publishers & Distributors Edition 3rd 2004.
4. Mario Paz, Structural Dynamics., Springer; 5th Corrected ed. 2004
5. Singh Sadhu, Strength of Material., Khanna Book Publishing New Delhi Edition 2009
Reference Books
1. Reddy, C.S, Structural Analysis., McGraw-Hill Education New Delhi Edition 2nd
2007
2. Ramamurtham, Theory of Structure. Dhanpat Rai New Delhi Edition 2015

CE&AMD/SGSITS/JULY-DEC /2024 Page 41

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21804: STRUCTURAL MECHANICS LABORATORY
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
CW END SW END
- 2 - - 1 SEM SEM
50
- - 40 60

Pre-requisite: Applied Mechanics.

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
Course objective is to make aware the students about behaviour of different structural
members. In this subject detailed study of analysis of columns, methods of deflections,
unsymmetrical bending is given. This subject provides a base for the students in the structural
engineering field.

COURSE OUTCOMES (CO):

Students should be able to:

1. Develop a thorough understanding of the behavior of various structural elements (beams,

trusses, and columns) under different loading conditions.
2. Apply theoretical principles such as strain energy methods, Euler's theory, and Castigliano's
theorem to analyze and predict structural responses.
3. Enhance analytical and computational skills by verifying experimental results through
analytical methods and developing computer programs for structural analysis.
4. Develop proficiency in conducting experiments related to deflection, bending, shear force,
and moment of inertia and verify results with theoretical calculations.
5. Gain hands-on experience in using experimental and computational tools to analyze
structural elements, enhancing the ability to apply these techniques in real-world
engineering problems.

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 A.Y. 2024-2025

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 3 - - - - - 3 - - 3
CO2 3 3 3 - - - - - 3 - - 3
CO3 3 3 3 - - - - - 3 - - 3
CO4 3 3 3 - - - - - 3 - - 3
CO5 3 3 3 - - - - - 3 - - 3
Target 3 3 3 - - - - - 3 - - 3
Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

COURSE CONTENTS:
Practical:

1. To determine the deflection in overhanging beam experimentally and verification of

the same by the strain energy method.
2. To determine deflection in curved bars experimentally and verification of the same by
the strain energy method.
3. To determine deflection in truss experimentally and verification of the same by the
strain energy method.
4. To study the behaviour of a cantilever beam under unsymmetrical and symmetrical
bending.
5. To determine Euler's crippling load experimentally for various end conditions of
column and verification of the theoretically.
6. To verify Castigliano's theorem by means of a mild steel bar.
7. To draw the shear force and bending moment diagram for a fixed and continuous
beam.
8. To draw the Mohr’s circle for the determination of principal moment of inertia and
verify it analytically.
9. To develop the computer program for the analysis of beams , trusses and frames.
10. To develop the computer program for the shear force and bending moment diagram
in beams and trusses.

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Practical examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

CE&AMD/SGSITS/JULY-DEC /2024 Page 43

 A.Y. 2024-2025

Books & References Recommended:

1. Punmia B.C., Strength of Material and Mechanics of Structure, Vol. II., Standard
Publishers Distributors Edition 12th 2004.
2. Ryder G.H., Strength of Material., Palgrave Macmillan; Student international edition
3rd 1969.
3. Timoshenko, Strength of Material. ,CBS Publishers & Distributors Edition 3rd 2004.
4. Mario Paz, Structural Dynamics., Springer; 5th Corrected ed. 2004
5. Singh Sadhu, Strength of Material., Khanna Book Publishing New Delhi Edition 2009
Reference Books
1. Reddy, C.S, Structural Analysis., McGraw-Hill Education New Delhi Edition 2nd
2007
2. Ramamurtham, Theory of Structure. Dhanpat Rai New Delhi Edition 2015

CE&AMD/SGSITS/JULY-DEC /2024 Page 44

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21517: FLUID MECHANICS
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
END END
CW SW
3 - - 3 - SEM SEM
100
30 70 - -

Pre-requisite: Concepts of forces & equilibrium, mechanics of solids and basic laws of statics
and dynamics.

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
The candidate should be able to understand the behaviour of fluids at rest and in motion with
the concepts of fluid statics, kinematics and dynamics. The student should also understand the
fluid flow concepts in pipes as well as open channels under various conditions of flows. As
basic introduction to model studies the student should gain knowledge of the modelling of
various hydraulic structures and systems through the principle of similarity and similitude.

COURSE OUTCOMES (CO):

Students should be able to:

1. Compute hydrostatic forces acting on submerged surfaces.

2. Apply conservation laws to solve steady state fluid flow problems.
3. Apply the principles of dimensional analysis for design of experiments.
4. Analyze the characteristics of flow through pipes and Design simple pipe systems.
5. Compute flow profiles in channel transitions and due to hydraulic structures.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 - 3 - - - - - - - 3
CO2 3 1 1 - - - - - - - - 3
CO3 3 1 1 3 - - - - - - - 3
CO4 3 2 3 3 - - - - - - - 3
CO5 3 3 3 3 - - - - - - - 3
Target 3 2 1.6 2.4 - - - - - - - 3

CE&AMD/SGSITS/JULY-DEC /2024 Page 45

 A.Y. 2024-2025

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

COURSE CONTENTS:
Theory:

Unit - 1
Introduction: Scope and Application of Fluid Mechanics: Physical Properties of
Fluids: Density, Specific Weight, Specific Volume, Specific Gravity, Viscosity,
Dynamic & Kinematic Viscosity, Newton’s Law of Viscosity, Classification of
Fluids, Compressibility, Cohesion, Adhesion, Surface Tension, Capillarity, Vapour
Pressure.
Equilibrium of Fluids: Pressure at a Point, Pressure Variation, Barometer, Gauges,
Manometers, Hydrostatic Forces, Equilibrium of Fluid in Motion, Floatation -
Stability of Floating and Submerged Bodies, Fluid Masses subjected to Rotation, Free
and Forced Vortices.
Unit - 2
Kinematics of Fluid Flow: Velocity field, classification of flows, Stream, Path &
Streak Lines, Continuity Equation, Stream Function, Velocity Potential, Flow-nets.
Dynamics of Fluid Flow: Euler’s Equations of Motion, Bernoulli’s equation, Pitot
tube, Prandtl Tube, Flow through Openings - Orifices, Mouth pieces etc., Flow
through Notches Weirs, Empirical formulae.
Unit - 3
Dimensional Analysis & Model Study: Units and Dimensions, Dimensional
Homogeneity, Buckingham-II-Theorem, Dimensionless Numbers, Principles of
Similitude & Applications.
Unit - 4
Flow Through Pipes: Laminar Flow, Flow between Parallel Plates, Measurement of
Viscosity, Reynold’s experiment, Turbulent flow in Pipes, Solution of Pipe Flow
Problems, Flow in Pipe Network- Hardy Cross Method, Losses in Pipes,
Measurement of Pipe Flow - Orifice, Nozzle, Bend Meters, Rotameters. Concept of
Water Hammer and Surges.
Unit - 5
Flow Through Open Channels: Classification, Geometric Elements, Continuity,
Energy and Momentum Equations, Pressure, Velocity Distributions, Uniform flow,
Concept of Normal Depth, Chezy, Manning and other formulae. Best Hydraulic
Sections, Specific Energy, Specific Force, Hydraulic Jump and its characteristics,
Gradually Varied Flow, Surface Profiles, Dynamic Equations,

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Theory examination of 3 Hours duration and Practical Viva Voice Examination by

CE&AMD/SGSITS/JULY-DEC /2024 Page 46

 A.Y. 2024-2025

external examiner

Books & References Recommended:

1. Nagaratnam S., Fluid Mechanics, Khanna publishers, 5th Edition, 2005
2. Jain A.K., Fluid Mechanics, Khanna publishers, 5th Edition, 2014
3. Subramanyam K., Fluid Mechanics,McGraw Hill Education (india) Private Limited,
9th edition 2001
4. Modi P.N. & S.M. Seth, Hydraulics & Fluid Mechanics,Standard Book House, New
Dehli, 20th Edition, 2015
Reference Books
1. Chow V.T., Open Channel Hydraulics, The Blackburn Press, 6th Edition
2. Rangaraju K.G., Flow Through Open Channels, Tata McGraw Hill, New Dehli, 2nd
Edition,1993

CE&AMD/SGSITS/JULY-DEC /2024 Page 47

 A.Y. 2024-2025

CIVIL ENGINEERING AND APPLIED MECHANICS DEPARTMENT

B. E. II Year (4YDC)
CE21805: FLUID MECHANICS LABORATORY
CREDITS:
HOURS PER WEEK CREDITS MAXIMUM MARKS

L T P T P TOTAL
THEORY PRACTICAL
MARKS
CW END SW END
- 2 - - 1 SEM SEM
50
- - 40 60

Pre-requisite: Concepts of forces & equilibrium, mechanics of solids and basic laws of
statics and dynamics.

Syllabus with Course Outcomes (COs)

COURSE OBJECTIVES:
This course aims to equip students with practical skills in fluid mechanics through hands-on
experiments, enabling them to apply theoretical concepts, use measurement instruments, and
analyze fluid flow phenomena in engineering contexts.

COURSE OUTCOMES (CO):

Students should be able to:

1. Apply Bernoulli's theorem and analyze fluid flow using venturi meters and orifice meters.
2. Evaluate major and minor losses in piping systems for various materials and
configurations.
3. Analyze jet impact forces and determine L/D ratios for orifices and mouthpieces.

Mapping of CO with PO

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 3 3 2 - - - - - 2 - - 3
CO2 3 3 2 - - - - - 2 - - 3
CO3 3 3 2 - - - - - 2 - - 3
Target 3 3 2 - - - - - 2 - - 3

Legends
0 - No Correlation 1 - Low Correlation 2 - Medium Correlation 3 - High Correlation

CE&AMD/SGSITS/JULY-DEC /2024 Page 48

 A.Y. 2024-2025

COURSE CONTENTS:
Practical:

1. Verification of Bernoulli’s theorem.

2. Calibration of venturi meter and orifice meter.
3. To determine pipe friction losses for different materials.
4. To determine minor losses, sudden contraction, bend, elbow, sudden expansion.
5. To determine impact of jet.
6. To determine LD ratio for orifices and mouthpieces.

Assessment:
Continuous: Two midterm tests in a semester and a makeup test if required, Evaluation
of calculations & drawing sheets, internal submission and Viva Voice examination by
internal examiner
Semester-end:
Practical examination of 3 Hours duration and Practical Viva Voice Examination by
external examiner

Books & References Recommended:

1. Nagaratnam S., Fluid Mechanics, Khanna publishers, 5th Edition, 2005
2. Jain A.K., Fluid Mechanics, Khanna publishers, 5th Edition, 2014
3. Subramanyam K., Fluid Mechanics,McGraw Hill Education (india) Private Limited,
9th edition 2001
4. Modi P.N. & S.M. Seth, Hydraulics & Fluid Mechanics,Standard Book House, New
Dehli, 20th Edition, 2015
Reference Books
1. Chow V.T., Open Channel Hydraulics, The Blackburn Press, 6th Edition
2. Rangaraju K.G., Flow Through Open Channels, Tata McGraw Hill, New Dehli, 2nd
Edition,1993

CE&AMD/SGSITS/JULY-DEC /2024 Page 49