b.tech civil engineering - rk...

SYLLABUS FOR B. TECH CIVIL ENGINEERING (2013 Admissions)

RK.UNIVERSITY

SCHOOL OF ENGINEERING

SCHEME AND SYLLABUS OF 6TH

SEMESTER

2016

B.TECH CIVIL ENGINEERING (2013-2017 Admission)


Theory TutorialPractica

l

CV601 Irrigation Engineering 3 2 0 4

CV602 Railway, Bridge and Tunnel 3 0 0 3

CV616 Geotechnical Engineering - II 3 0 2 4

CV614 Construction Project Management 3 2 0 4

CV615 Water Treatment and Distribution System 3 0 2 4

CV606 Design of Steel Structure 4 2 0 5

Elective -II 3 0 0 3

TOTAL CREDIT 22 6 4 27

CD602

MG601

Total Hours 32

Elective -II

Campus to Corporate Training-II

Entrepreneurship

TEACHING SCHEME

Course

CodeCourse Name

Teaching Hours

Credits


Course Title IRRIGATION ENGINEERING

Course Code CV601

Course Credit

Lecture : 03

Practical : 00

Tutorial : 01

Total : 04

Course Learning Outcomes

At the end of the semester, students will be able to

Understand the need and mode of irrigation.

Analyse the irrigation management practices of the past, present and future.

Conceive and plan any type of irrigation project.

Recognize the types of structures and the basic principles of design.

Optimize Resource allocation, Assessment, Development and Management.

Practice field problems and get to know about the complexities and challenges encountered during the modelling and management of Irrigation resources and its processes.

Necessity of providing regulating structures in canals.

Basics of canal drops and falls.

Importance of canal regulators, functions of escapes in a canal.

Detailed Syllabus

SECTION –I

Sr.

No.

Name of chapter & Details Hours

Allotted

1 INTRODUCTION:

Necessity of irrigation- scope of irrigation engineering- benefits and ill effects of

irrigation- irrigation development in India- types of irrigation systems, Soil-water plant

relationship: Classification of soil water- soil moisture contents- depth of soil water

available to plants-permanent and ultimate wilting point

06


2 WATER REQUIREMENTS OF CROPS

Depth of water applied during irrigation- Duty of water and Delta- improvement of

duty- command area and intensity of irrigation consumptive use of water and

evapotranspiration- irrigation efficiencies- assessment of irrigation water

06

3 METHODS OF IRRIGATION

Classification- choice of method of irrigation- surface and subsurface irrigation

methods, Sprinkler and Drip Irrigation.

Irrigation channels:

Alignment- canal capacity- losses- FSL of canal- design of canal in alluvial soil and non-

alluvial soils- Kennedy’s silt theory- Lacey’s regime theory- balancing depth- use of

Garrets diagrams and Lacey’s Regime diagrams- lining of irrigation channels- design of

lined canal drainage behind lining.

09

SECTION –II

4 DIVERSION HEADWORKS

(a) Introduction: Purpose; Component Parts; Weirs and barrages types; suitability and

causes of failures; Bligh's and Khosla’s theories.

(b) Appurtenances: Fish ladder; Divide wall; Canal Head Regulator and Cross

Regulator; Silt control, Location of Headwork.

08

5 CROSS DRAINAGE WORKS

Definition; Types; Selection of suitable type of cross drainage work; Design

Considerations.

05

6 CANAL REGULATION WORKS

Canal fall- necessity and location- types of falls- Cross regulator and distributary head

regulator- their functions, Silt control devices, Canal escapes- types of escapes.

08

Term Work :

Term work shall be based on the above mentioned course content.


Reference Books:

1) S.K Garg, Irrigation Engineering and Hydraulic structures, Khanna publishers, 2014, 29th edition 2) Dr. B.C Punmia, Irrigation and water power engineering, Laxmi Publications , 2009, 16th edition 3) Dr P.N Modi Irrigation water resource and water power engineering ,Standard Book House, New Delhi,

2012, 8th edition

4) Dr. K.R.Arora,, irrigation , water power and water resource engineering, reprint 2009

5) SatyaNarayanaMurtyChalla, Water Resources Engineering principle and practice, New age International

Publishers,reprint, 2009


Course Title Railway Bridge and Tunnel Engineering

Course Code CV602

Course Credit

Lecture :03

Practical :00

Tutorial :00

Total :03

Course Objective

The student develops skills on railway engineering with prime focus on geometric design of railway tracks.

Students become conversant with the definition, purpose, location for bridge site and tunnel site also they

acquire knowledge on various methods of bridge and tunnel construction. They also gain knowledge of

strengthening and safety criteria of bridge inspection and tunnel construction.

Detailed Syllabus

SECTION –I

Sr. No.

Name of chapter & Details Hours

Allotted

1.

INTRODUCTION :

History, Indian Railways, Recent developments in railways, Different types of gauges on Indian Railways, Loading gauge and its application, construction gauge and its use, problems due to non-uniformity of gauge.

03

2.

ALIGNMENT OF RAILWAY LINES & TRACK STRESSES :

Importance of track alignment , Basic requirements of an ideal alignment,

selection of a good alignment, Forces acting on track, conning of wheels 03

3.

COMPONENTS OF A RAIL TRACK: Rails : Functions, Types of rail, Standard rail sections, Causes of creep, Effects of creep, Measures to reduce creep. Sleepers : Functions, Types of sleepers, Sleeper density Ballast : Functions, Types of Ballast material , specification for ballast materials. Track Fittings : Various types of track fittings and fastenings.

06

4

GEOMETRIC DESIGN OF TRACK : Necessity , Details of geometric design , Design of Track, Gradients. Grade Compensation on curves, Curves and Superelevation.

04


5.

RESISTANCE TO TRACTION : Resistance to friction, Wave action, speed, track irregularity, wind, gradient, curvature, starting and acceleration, Stress in rails, sleepers and ballast.

03

6

POINTS AND CROSSINGS : Important terms, track layouts and sketches of turn out, diamond crossing, gaunletted track, triangle, double junction, cross over between two parallel tracks with intermediate straight length, scissors cross over, single slip, ‘double slip, gathering line.

06

7

RAILWAY STATION AND YARDS : Purpose, facilities requirements at stations, classification of Railway Stations, Requirements of station yards, types of yards

03

8

SIGNALLING AND INTERLOCKING : Objectives of signalling, classifications of signals, interlocking

02

Section- II

1

INTRODUCTION TO BRIDGE ENGINEERING :

Site investigation, waterway calculations, scour depth, afflux and economic span 02

2

CLASSIFICATION OF BRIDGES :

Classification of superstructure with respect to structural design and material

used, types of substructures, flooring joints, bridge bearings, moveable and

temporary bridges.

03

3

CONSTRUCTION & MAINTENANCE OF BRIDGES :

Methods of erection of various types of bridges, Superstructures and

substructures, Testing and strengthening of bridges. 03

4

TUNNEL ENGINEERING :

Classification of tunnels, Necessity, Size and shape of tunnel, Alignment of

tunnel, portals and shafts, Methods of tunnelling in Hard rock and soft ground,

Lighting and ventilation in tunnel, dust control, drainage arrangements for

tunnel, safety precautions in tunnel construction

04

Instructional Method and Pedagogy:

• Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.

• Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval.

• Surprise tests/Quizzes/Seminar/ will be conducted.

• The course includes tutorials, where students have an opportunity to practice the examples for the concepts being taught in lectures.

Student Learning Outcomes:


At the end of the course, student will be able:

The student develops skills on airport planning and design with the prime focus on railway track geometrics.

Students become conversant with the definition, purpose, location for bridge site and tunnel site also they acquire knowledge on various methods of bridge and tunnel construction.

Text book:

1. S P Bindra, Railway Engineering, Dhanpat Rai and Sons,New Delhi, 1993.

2. Srinivasan R., Harbour, Dock and Tunnel Engineering, Charotar book Distributors Anand

Reference book:

1. Rangwala, Railway Engineering, Charotar Publishing House, 1996.

2. Rangwala, Bridge & Tunnel Engineering, Charotar Publishing House, 1996

Additional Resources:

• N.P.T.E.L. Lecture Series


Course Title Geotechnical Engineering - II

Course Code CV616

Course Credit

Lecture : 03

Practical : 01

Tutorial : 00

Total : 04

Course Objective

1. To develop an understanding of the behaviour of foundations for engineering structures and to gain

knowledge of the design methods that can be applied to practical problems.

2. Provide the students with a basic understanding of the essential steps involved in a geotechnical site

investigation

3. Introduce to the students, the principal types of foundations and the factors governing the choice of the

most suitable type of foundation for a given solution

4. Familiarize the student with the procedures used for : a) bearing capacity estimation, b) end bearing

capacity, c) skin friction.

5. This course covers the principles involved in the understanding of the behaviour of soils as a supporting

medium for structures

Detailed Syllabus

SECTION –I

Sr. No. Name of chapter & Details Hours

Allotted

1 BEARING CAPACITY OF SHALLOW FOUNDATION

Introduction, Types of failures, Design criteria, Bearing capacity theories -

Prandtl, Rankine, Terzaghi, Skempton, I.S. Method, Effect of water table,

Bearing capacity from standard penetration test data, Correction to SPT

values, Bearing capacity from plate load tests, Foundation settlement -

immediate, Consolidation, Differential, - Allowable bearing pressure to satisfy

shear and settlement criteria, Allowable bearing pressure for mat or raft

foundations, Floating foundation, Methods to reduce foundation settlement.

Raft on sands, Liquefaction. Raft on clays, foundations subjected to eccentric

08


Text book:

loading, settlement from SCPT, differential settlement.

2 PILE FOUNDATION

Function of Piles - Classification of pile - their method of installation and their

load carrying characteristics- Load carrying capacity - Static and Dynamic

formulae - Pile load test - Pile group - Spacing - Pile cap - Negative skin

friction. Underreamed pile foundation-its concept,design & field installation.

08

3 STRESS DISTRIBUTION OF SOILS

Causes of stress in soil, geostatic stress, Boussinesque’s equation, stress

distribution diagrams, New-mark’s influence chart Westergard’s equation,

contact pressure, stresses due to triangular and other loadings. factors affecting

shear strength.

05

SECTION –II

4 SUBSURFACE INVESTIGATION

Introduction - Objectives of soil exploration, soil samples and soil samplers,

Methods of exploration - Geophysical methods - Borings - Penetration tests

(SPT, SCPT & DCPT) - depth of exploration - Number and disposition of

bore holes - sampling and sample disturbance, Bore log and report writing.

05

5 BASICS OF FOUNDATION

Types of foundation, Factors affecting the selection of type of foundations,

steps in choosing types of foundation.

03

6 EARTH PRESSURE

Types of lateral earth pressure, Rankine’s and Coulomb’s earth pressure,

theory and their application for determination of lateral earth pressure under

different conditions, Culminnn’s Graphical methods of determination of

lateral earth pressures.

07

7 STABILITY OF SLOPES

Infinite and finite slopes, factor of safety, type of slope failure, stability of

infinite slopes, finite slopes forms of slip surfaces, limit equilibrium method

and critical stage instability analysis, C-analysis-method of slices, taylor’s

stability no., use of Bishop’s method.

06

Term Work :



V. N. S. Murthy; Soil Mechanics & Foundation Engineering; Sai Kripa Technical Consultants, Banglore.

Punmia B.C., Soil Mechanics and Foundations, Laxmi Publications Pvt. Ltd., 2000.

Arora K.R.; Soil Mechanics & Foundation Engineering; Standard Pub., Delhi.

P. Purushothama Raj; Soil Mechanics and Foundation Engineering; Pearson Education.

Reference Books:

1. Taylor D.W.; Fundamentals of Soil Mechanics; Asia Publishing House, Mumbai

2. Das Braja M; Principles of Geotechnical Engineering; Thomson Asia Pvt. Ltd

3. Gopal Ranjan, Rao A.S.R.; Basic and applied soil mechanics; New age int. (p) ltd.

4. Terzaghi K., Peck R.B., Soil Mechanics in Engineering Practice, John Wiley Ltd., 1967

5. Lambe T.W., Whitman, Soil Mechanics, John Wiley Ltd., 1979.

List of Experiments

1. Understanding Field Identification of soil

2. Determine N Value using Static Cone penetration test

3. Understanding Auger boring and sampling

4. Determine N Value using Standard Penetration Test

5. Determine N Value using Dynamic Cone penetration Test

6. Determine Free swell Index

7. Determine shear parameter using Vane Shear Test

8. Determine the water content by Rapid moister meter

9. Determine Bearing pressure of the soil

10. Determine shear parameter Unconfined compressive strength test

Students Define Experiment

11. Determination of coefficient of permeability of the soil by Variable head method.

12. Determine OMC and MDD using modified proctor compaction test

Faculty Define Experiment

13. Write site investigation Report for given soil properties

14. Model on Pile load test


Course Title Construction Project Management

Course Code CV604

Course Credit

Lecture : 03

Practical : 00

Tutorial : 01

Total : 04

Course Learning Objectives

After completion of the course students will be able to:

• Understand and practice the process of project management and its application in delivering successful Construction projects.

• Evaluate a project to develop the scope of work, provide accurate cost estimates and to plan the various activities

• Identify the resources required for a project and to produce a work plan and resource schedule.

• Understand and use risk management analysis techniques that identify the factors that put a project at risk and to quantify the likely effect of risk on project timescales

• Identify various types of Equipment used in building construction.

• Calculate and categorize financial theory related to construction equipment and their application for specific purposes.

Detailed Syllabus SECTION –I

Sr.

No.

Name of chapter & Details

Hours

Allotted

1 INTRODUCTION:

Objectives and Scope of Construction Management. Work break down structure for

various project.

02

2 MANAGEMENT TECHNIQUES:

Conventional Methods: Gantt Bar chart, Mile stone chart, Line of balance

02


(L O B) technique, Job Lay out.

3 CRITICAL PATH METHOD (CPM) :

Introduction , Terminology, Types of networks , Network Rules, CPM Bar chart, Type

of floats and their significance, Time grid diagram, Updating of networks and Time

cost Optimization.

Resource allocation and Resource Scheduling: Various schedules i.e. Material,

labour, equipment etc. Resource allocation models with and without constraints.

08

4 PROGRAMME EVALUATION AND REVIEW TECHNIQUE (PERT):

Activities and project time estimates for probabilistic model, Evaluation of project

completion time probabilities. Comparison between Deterministic and Probabilistic

Approaches.Cash Flow analysis and expenditure schedules. Cash flow for Owner and

Contractor.

08

5 SUPERVISION AND SAFETY IN LARGE CONSTRUCTION PROJECTS. 01

SECTION –II

6 CONSTRUCTION EQUIPMENT INTRODUCTION:

Contribution and importance in construction Industry. Classification of Equipment.

02

7 VITAL EQUIPMENT IN CONSTRUCTION INDUSTRY :

Tractors and related equipment: Bulldozers, Rippers, Scrapers.

Excavating Equipment: Power Shovels, Draglines, Hoes, Clam Shells and trenching

machines, their basic Parts, Operation, Output estimation, Factors influencing output

and methods to enhance it.

Belt conveyor system: Terminology, Classification, Components, Power requirement

estimation and design.

Hauling equipment: Trucks and wagons, operation and guideline for selection and

deployment.

10

8 FINANCIAL ASPECTS RELATED TO CONSTRUCTION EQUIPMENTS

Time value of money, Discounted present worth analysis, Depreciation, Cost of owning

and operating construction equipment, Basics of equipment replacement policy.

09

Term Work:



Reference Books:

Varma Mahesh, Construction Equipment and its Planning and Applications,3rd Metropolitan Book Company, New Delhi, 1983.

Sharma, S.C., Construction Equipment & Management, 4th Edition, Khanna Publications, New Delhi, 1998.

Srinath, L.S., PERT & CPM Principles and Applications,3rd edition Tata McGraw Hill, New Delhi, 1989.

Peurifoy, L., Schexnayder, C.J. and Shapira, A., Construction Planning, Equipment and Methods, McGraw Hill, New Delhi, 2010.

Moder, J., C. Phillips and E. Davis, Project Management with CPM, PERT and Precedence Diagramming, 3rd Edition, Van Nostrand Reinhold Company, 1983.

Chitkara. K.K. Construction Project Management: Planning Scheduling and Control,18th Reprint, Tata McGraw Hill Publishing Company, New Delhi, 2009

Additional Resources

Websites :

www.engineeringcivil.com

http://nptel.ac.in/syllabus/syllabus.php?subjectId=105102014

www.mit.com

Indiabix.com for objective questions. (www.indiabix.com)


Lectures will be conducted with the aid of multi-media projector, black board etc.

Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval.

Surprise tests/Quizzes/Seminar/Tutorials will be conducted.

The course includes field work, where students have an opportunity to build an appreciation for the concepts being taught in lectures.


Course Title Water Treatment and Distribution System

Course Code CV615

Course Credit

Lecture : 03

Practical : 01

Tutorial : 00

Total : 04


After successful completion of the course students will be able to

Understand importance and necessity of planned water supplies.

Estimate the water for domestic and industrial requirement considering future projection of population.

Describe characteristics of water and analyze quality of water.

State parameters of effluent standards and stream standards

Understand and evaluate basic design calculations to specify the selection of pumps and service reservoirs.

Understand concepts of physical, chemical and biological treatment of water.

Devise appropriate treatment flow sheet for treatment, recycle and reuse of wastewater

Select appropriate water distribution methods and evaluate the performance of a water distribution system for a city.

Detailed Syllabus SECTION –I

Sr.No

.

Name of chapter & Details

Hours

Allotted

1.

WATER SUPPLY SCHEMES Importance and necessity of water supply scheme, Surface water sources and ground water source , Various type of water demand, Per capita demand, Factors affecting per capita demand, Fluctuation in demand of water, Design periods, Population forecasting methods.

06

2.

CHARACTERISTICS OF WATER Characteristics of water: physical, chemical and biological parameters. Standard

04


methods of water analyses, Relevant Indian Standards for use of water in industries: Textiles, Paper industry, chemical, Pharmaceutical, soft drink and boiler feed water. Quality standards for municipal or domestic supplies.

3.

CONVEYANCE OF WATER Conveyance of water, Intake structure, Types of intake structure, Design of intake structure for water supply, different type of pipes used in water supply, hydrostatic test, Need of pumping, classification of pumps, different type of pumps used in water supply, Factors affecting the selection of a particular type of pump, power of pumping, total lift of pump, Horse power and efficiency of pumps, Economical diameter of the pumping mains.

11

SECTION-II

3.

CONVENTIONAL WATER TREATMENT SYSTEM Methods of Purification of water: screening, sedimentation, coagulation, determination of optimum coagulant quantities, aeration, filtration, disinfection.

5

4

DESIGN OF CONVENTIONAL WATER TREATMENT Sedimentation tanks, Chemical dosing tanks, Flash mixers, Flocculators, Aerator, Clariflocculators, Slow sand and rapid sand filter, Disinfection units. Layout of conventional treatment units

8

5

DISTRIBUTION SYSTEM Requirements of a good distribution system, Type of distribution system, Different layouts of distribution system, Methods of distributing water, Pressures in distribution system, Function of distribution reservoirs, types of distribution reservoirs, Storage capacity of distribution reservoirs, Design of pipelines and analysis of complex pipe networks-Hard cross method.

8


• Lectures will be conducted with the aid of multi-media projector, black board etc.

• Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval.

• Surprise tests/Quizzes/Seminar/ will be conducted.

• The course includes tutorials, where students have an opportunity to practice the examples for the concepts being taught in lectures.

List of Experiments:

1. Determination of pH value of given water sample. 2. Determination of hardness of given water sample. 3. Determination of turbidity of given water sample. 4. Determination of optimum coagulant dose using Jar Test of given water sample. 5. Determination of dissolved oxygen of given water sample. 6. Determination of total dissolved solid of given water sample. 7. Determine of chlorides of given water sample. 8. Determination of acidity of given water sample.


9. Determination of alkalinity of given water sample. 10. Discuss and analyze population forecasting methods for water supply project.

Student defined 11. Project-1:- Water analysis of different sources of water of their location 12. project-2:- Seminar/Case study/Article writing based on current water treatment technologies

Faculty defined 13. Project-3:- Water supply and treatment plant visit 14. Project-4:- Seminar on “Guideline on Seminar Presentation

Reference book

1. Garg. S.K., Water Supply Engineering, Third edition ,Khanna Publishers , Delhi,1988 2. Birdie.G.S., Water Supply and Sanitary Engineering, Dhanpat Rai and sons, 1998, New Delhi 3. Water Works Engineering by Qasim’ (Eastern Economic Edition - Prentice-Hall of India Private

Ltd.)- Second Edition 4. Duggal.K.N., Elements of Public Health Engineering , S.Chand and Co, 1985. 5. Environmental Engineering by Peavy and Rowe, Published by McGraw-Hill

Science/Engineering/Math (1985)- First edition 6. Environmental Engineering by Mckenzie Davis and Cornwell (3rd Edition-published by WCB

McGraw-Hill), Third Edition, Boston 7. Standard methods for the examination of water and wastewater; published by American public

Health Association, American water works Association, Water pollution control federation (21st Edition & later).

8. Chemistry for Environmental Engineering by Sawyer and M C Carty (4th Edition- McGraw-Hill Publishing Company Ltd.)

Additional Resources:

• http://nptel.ac.in/syllabus/syllabus.php?subjectId=105104102

http://nptel.ac.in/syllabus/syllabus.php?subjectId=105104102


Course Title Design of Steel Structure

Course Code CV606

Course Credit

Lecture : 04

Practical : 00

Tutorial : 01

Total : 05


After successful completion of the course students will be able to

Understand , Recognise and Evaluate the principle of strength of bolt in bearing and plate and

their by compare the joints efficiency with the welded connection

Evaluate the behavior under load of compression and tension members which satisfies the

strength , serviceability and deflection limit state requirements of IS 800 -2007

Calculate the behavior under load of steel beam which satisfies the strength , moment , shear and

deflection limit state requirements of IS 800 -2007

Devise and conclude the slab base and gusseted base foundation which fulfils the limit state

obligation and their by associate with appropriateness of adopting the foundation

Analyse and draw layouts , details of the truss with wind load exercise at the nodal point of the

structure

Analyse and Design the Plate girder and Gantry girder with static load condition which satisfies

limit state requirement of IS 800-2007

Learn and Under Stand the importance of high rise steel structure and their design principle considering static and dynamic loads


Detailed Syllabus

SECTION –I

Sr

No. Name of chapter & details

Hours

Allotted

1. BOLTED CONNECTIONS:

Introduction, Behaviour of Bolted joints, Design strength of ordinary Black Bolts,

Design strength of High Strength Friction Grip bolts (HSFG), Connection design

for tension, compression, flexural, flexural + shear.

WELDED CONNECTIONS:

Introduction, Welding process, Welding electrodes, Advantages of Welding, Types

and Properties of Welds, Types of joints, Weld symbols, Weld specifications,

Effective areas of welds, Design of welds, Simple joints

08

2. DESIGN OF TENSION MEMBERS:

Introduction, Types of tension members Slenderness ratio, Behaviour of tension

members, Modes of failure Angles under tension, Design of tension member, Lug

angles.

DESIGN OF COMPRESSION MEMBERS:

Introduction, Failure modes, Behavior of compression members, Elastic buckling of

slender compression members, Sections used for compression members, Effective

length of compression members, Design of compression members

08

3 DESIGN OF BEAMS:

Introduction, Beam types, , Lateral stability of beams, factors affecting lateral

stability, Design strength of laterally supported beams in Bending, Design strength

of laterally unsupported beams, Shear strength of steel beams, Maximum deflection .

07

4. FOOTING:

Design of Slab based and Gusseted base foundation

05

SECTION-II

Sr No. Name of chapter & details

Hours Allotted

5 DESIGN OF TRUSS

Structural layout of industrial building, design of various systems like roofing system,

Wind load, dead load and other loads wind pressure, calculation of loads on nodes,

design of members of the roof Truss (Forces in the members to be given), Design of

purlins

12


6 DESIGN OF GIRDERS

Introduction, Design of Gantry Girders for static and rolling loads and Design of

Plate Girder (Design principle Procedure.) 12

7 DESIGN PRINCIPLES

Design Principle for tall steel structures like microwave towers, transmission line

tower, chimney etc. 4

Term Work:


Instructional Method and Pedagogy

1. Lectures will be conducted with the aid of multi-media projector, black board, OHP etc. 2. Assignments based on course content will be given to the students at the end of each

unit/topic and will be evaluated at regular interval. 3. Surprise tests/Quizzes/Seminar/Tutorials will be conducted. 4. The course includes tutorials, where students have an opportunity to build an

appreciation for the concepts being taught in lectures.

Reference Books:

1. Bhavikatti, S.S., Design of Steel Structures, 3rd Edition , New Delhi , New Age International Publishers, 2009

2. N. Subramanian, Design of Steel Structures, 1st edition Oxford University Press, Reprint 2013. 3. IS 800:2007, General Construction in Steel- Code of Practice, New Delhi, Bureau of Indian

Standards 4. IS 875 Part 3 -1987 , Code of Practice for design load, New Delhi, Bureau of Indian Standards 5. Ramachandra, Design of Steel Structures,3rd edition, New Delhi, 2009 Vol- I and II, Standard

Book House, 6. Kazim and Jindal, Design of Steel Structures, 5th Edition , New Delhi ,Prentice Hall of India, 2009 7. Negi, L.S., Design of Steel Structures,3rd Edition New Delhi , Tata McGraw Hill Publishers,2010 8. Duggal S.K., Design of Steel Structure,3rd Edition New Delhi, Tata McGraw Hill Publishers, 2014 9. SP 6 (1) – 1984 or Steel Table

Additional Resource

N.P.T.E.L. Video Lecture Series

1. Design of Steel Structure I video by Damodar Maity IIT Guwahati

2. Design of Steel Structure I , Course by Prof Satish Kumar and Prof A R Shant kumar IIT Madras

3. http://www.nptel.ac.in/courses/105103094/

4. N.I.T.T.R. Instructional Resources Videos.

Websites:

www.asce.org

www.engineeringcivil.com

http://www.nptel.ac.in/courses/105103094/

http://www.asce.org/

http://www.engineeringcivil.com/


Course Title Entrepreneurship

Course Code MG601

Course Credit

Lecture : 03

Practical : 00

Tutorial : 00

Total : 03

Course Objective

After Successful completion of the above course, students will be able to:

1. Understand the concept and process of entrepreneurship.

2. Understand the different ways to start the business.

3. Expose them to ways of finding new ideas for business initiation.

4. Analyze the entrepreneurial quality, competency and motivation required as an entrepreneur.

5. Preparing a business plan which can be considered prerequisite of starting and obtaining finance.

Detailed Syllabus SECTION-II

Sr No. Name of chapter & details

Hours

Allotted

1. ENTREPRENEURSHIP: WHAT,WHY AND HOW Entrepreneurship concept, need of entrepreneur, Functions and its importance, Myths about Entrepreneurship, Pros and cons of Entrepreneurship, Process of Entrepreneurship, Difference between Entrepreneur and Intrapreneur.

6

2. AN ENTREPRENEUR Types of Entrepreneurs, Entrepreneurial values- values, attitude and motivation, mindset of an employee and an entrepreneur, Intrapreneur - Importance in any organization.

4

3. INITIATE ENTREPRENEURSHIP JOURNEY Self assessment of qualities, skills, resources and dreams, generation of ideas, feasibility report, opportunity assessment, Role of society and family in the growth

6



Main Instructional method will be conducted by usage of Power point presentation along

with Chalk-duster.

Brain storming, case studies, role plays and managerial games related to Entrepreneurship

will be conducted during the sessions.

Assignments based on course content will be given to the students at the end of each

unit/topic and will be evaluated at regular interval.

Surprise tests/Quizzes will be conducted.

Guest lectures and experts may be called for sharing their experience.

of an entrepreneur, challenges faced by the entrepreneur, Risk taking concept and Role of technology/social media in creating new firms.

4.

PREPARING BUSINESS PLAN Business plan: Concept, methods, analysis and interpretation, Sources of finance, Financial statements, Feasibility studies- Financial, Technical, Environmental and Marketing.

5

SECTION-II

5. UNDERSTANDING THE MARKET Concept of market, Traditional and E-Commerce, Types of Business - Manufacturing, trading and services, Market forces – Sellers, Consumers and competitors, Expanding market- Local to global strategies needed, Pricing and factors affecting pricing and Marketing Mix.

7

6. FINANCING AND ACCOUNTING Need, Source of Finance, Term loans, capital structure, Financial Institution, Costing, BEP, Overview of taxes (Income tax, Excise Duty, Sales tax etc.)

7

7. MANAGEMENT OF ENTERPRISE Introduction to Human resource management: planning, job analysis, training, recruitment and selection etc., Institutional support towards development of entrepreneurship in India, technical consultancy organizations, government policies for small scale enterprise.

7


Reference Books:

1. Robert D. Hisrich, Michale P Peters and Dean A sheperd, ‘Entrepreneurship’ , Tata McGraw Hill, Latest edition.

2. P.C. Jain , ‘Handbook of New Entrepreneurs’, Oxford University Press, latest edition. 3. Paul Trot, ‘Innovation Management and New Product Development, Pearson Education, Latest

Edition. 4. Ram Chandra, ‘Entrepreneurial Development’, Tata McGraw Hill, New Delhi 5. Saini, J. S., ‘Entrepreneurial Development Programmes and Practices’ , Deep & Deep

Publications (P), Ltd. 6. Khanka, S S. ‘Entrepreneurial Development’, S Chand & Company Ltd. New Delhi.

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