Sri Satya Sai University of Technology and Medical ...sssutms.co.in/Curriculum/DPE_CE.pdf · Second Semester – civil Engineering Max S. N o. Theory Sub Code Marks Subject Name Max

Sri Satya Sai University of Technology and Medical Sciences, Sehore

Outcome Based Curriculum for Polytechnic (Engineering)

Department of civil Engineering

(1)VISION

To produce world class technocrats with competent technical skill for serving the society with high

ethical values

(2)MISSION

To develop the students with well-designed curriculum in all sphere of Engineering and

Technology and train them with highly ethical and skillful faculties.

(3)PROGRAMME EDUCATIONAL OBJECTIVES: (PEO’S)

PEO1: Excel in profession or pursue higher education. PEO2: Develop systematic professional approach in the applied field of Engineering and

multidiscipline with ethical responsibilities. PEO3: Exhibit leadership qualities with demonstrable attributes in lifelong learning to contribute

to the societal needs. (4) PROGRAMME OUTCOME (PO’S)

1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.

2. Problem Analysis: Identify, formulate, review research, and analyze engineering problems reaching validated conclusions using first principles of mathematics, natural sciences, and engineering sciences.

3. Experiment and practice: Apply good analytical, design, and implementation skills required to formulate and solving problems.

4. Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and tools including prediction and modeling to complex engineering activities with an understanding of the limitations.

5. The engineer and society: Apply reasoning informed by the related knowledge to evaluate societal, health, safety, and cultural issues and the consequent responsibilities relevant to the engineering practice.

6. Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development in the field of engineering.

7. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.

8. Individual and team work: Function effectively as an individual, and as a member or leader in teams, and in multidisciplinary settings.

9. Communication: Communicate effectively with the engineering community and with society at large. Be able to comprehend and write effective reports documentation. Make effective presentations, and give and receive clear instructions.

10.Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change

(5) PROGRAM SPECIFIC OUTCOMES (PSO’S)

PSO 1: To plan, design, construct and maintain civil engineering structures and buildings. Also

supervise and manage civil engineering project related activities /practices/ resources effectively.

PSO 2: To collect samples, conduct experiments / tests and report results pertaining to civil

engineering for execution of quality work

(06) PROGRAMME PO’S AND PSO’S MAPPING

PO 1

PO2

PO3 PO4

PO5 PO6 PO7

PO8 PO9 PO10

S. No

Program

Courses Category

Engineering Knowledge

Problem Analysis

Experiment and practice

Modern tool usage

The engineer and society

Environment and sustainability

Ethics

Individual and Team Work

Communication

Life-long learning

1

DIP(CE)

Humanities and Social Sciences including Management courses

* *

* * *

*

2 Basic Science

courses * * * * *

3

Engineering Science courses including workshop, drawing, basics of electrical/mechanical/computer etc.

* * *

*

4 Professional core courses

* * * *

* *

5

Professional Elective courses relevant to chosen specialization/branch

* * * * * * * *

*

6 Departmental

Electives * * * * * * * *

*

7

Project work, seminar and internship in industry or elsewhere

* * *

* * *

*

8 Mandatory

Course * * *

(07) SEMESTER WISE PO’S AND PSO’S MAPPING

Semester

Name of the Courses/POs

PO 1

PO 2

PO 3

PO 4

PO 5

PO 6

PO 7

PO 8

PO 9

PO 10 PS

O

1

P

S

O

2

Program

Courses Category

Engineering Knowledge

Problem Analysis

Experiment and practice

Modern tool usage

The engineer and society

Environment and sustainability

Ethics

Individual and team work

Communication

Life-long learning

SEM-I

DPE-101 [T]PHYSICS * * * DPE-102[T] CHEMISTRY * * * DPE-103[T] COMMUNICATION SKILL

* * * * * *

DPE-[T]104 ENVIORNMENT ETHICS & SAFETY

* * *

DPE-105[T] MATHEMATICS

*

DPE-101 [P]PHYSICS * * * * DPE102[P] CHEMISTRY * * * * DPE-103[P] COMMUNICATION SKILL

* * *

DPE-106 [P]WORKSHOP PRACTICE

* *

SEM -II

DPE-201 [T]BASIC ELECTRICAL ENGINEERING

* *

DPE-202 [T]APPLIED MECHANICS

* *

DPE-203[T] FUNDAMENTAL OF COMPUTERS

* * * *

DPE-204 [T]FUNDAMENTAL OF MANAGEMENT

* * * * * * *

DPE-205 [T]ENGINEERING DRAWING

* * *

DPE-201 [T]BASIC ELECTRICAL ENGINEERING

* * *

DPE-202 [P]APPLIED MECHANICS

* *

DPE-203[P] FUNDAMENTAL OF COMPUTERS

* * * * *

DPE-205 [P]ENGINEERING DRAWING

* * * *

Semester


PO 1

PO 2

PO 3

PO 4

PO 5

PO 6

PO 7

PO 8

PO 9

PO 10

Pso1

Pso2

SEM III

DCE-301 [T] SURVEYING

* * * * * * *

DCE-302[T] MATERIAL TECHNOLOGY

* * *

DCE-303 BUILDING CONSTRUCTION

* * * * *

DCE-304 [T ]HYDRAULICS

* * * *

DCE-305 [T] BUILDING DRAWING

* * * *

DCE-303[P] BUILDING CONSTRUCTION

* * * *

DCE-304 [P]HYDRAULICS

* * * * *

DCE-305 [P] BUILDING DRAWING

* * * *

DCE -306[P] AUTO CAD

* * *

SEM IV

DCE-401[T] ADVANCE SURVEYING

* *

DCE-402[T] SOIL MECHANICS

* * * * * * * *

DCE-403[T]MECHANICS OF STRUCTURE

*

DCE-404 [T] TRANSPORTATION ENGG-I

* * *

DCE-405[T ENTREPRENEURSHIP

*

DCE-402[P] SOIL MECHANICS

* * * * * *

DCE-403[P]MECHANICS OF STRUCTURE

* * * * *

DCE-404 [P] TRANSPORTATION ENGG-I

* * * * *

DCE-406[P] MINOR PROJECT

* * * * * *

Semester


PO 1

PO 2

PO 3

PO 4

PO 5

PO 6

PO 7

PO 8

PO 9

PO 10

Pso1

Pso2

SEM V

DCE-501[T] IRRIGATION ENGG

* * * * * * * * * *

DCE-502[T Q.S.C.-I

* *

DCE-503[T ] WORK ORGANIZATION & MANAGEMENT

* * *

DCE-504[T] TRANSPORTATION ENGG.-II,

* * * * * * * *

DCE-505[T] S.D.D

*

DCE-503[P ] WORK ORGANIZATION & MANAGEMENT

* * *

DCE-504[P] TRANSPORTATION ENGG.-II,

DCE-505[P] S.D.D

* * *

DCE-504[P] FIELD VISIT

* * * * * * *

SEM VI DCE-601 [T] PUBLIC HEALTH ENGINEERING

DCE-602 [T] QUANTITY SURVEYING & COSTING-II

* * *

DCE-603[T] STRUCTURAL DESIGN& DRAFTINGII (STEEL)

* * * *

DCE-604 [T] SOIL MECHANICS-II

* *

DCE-603[P] STRUCTURAL DESIGN& DRAFTINGII (STEEL)

* * * * * * *

DCE-604 [P] SOIL MECHANICS-II

* * * * *

DCE-605[P] Major Project

* * * * * *

(08) STRUCTURE OF PROGRAMME: To fulfill the need of development of all the POs as per above mapping, the following semester wise programme structure are as under. [L= Lecture, T = Tutorials, P = Practical’s & C = Credits]

Total Credits*= 168

Structure of Diploma Engineering program:

S. No. Course Category

Credits of the CE

Curriculum

1. Humanities and Social Sciences including Management 28

2. Basic Sciences 16

3. Engineering Sciences including workshop, drawing, basics of electrical/mechanical/computer etc. 14

4. Professional Core Subjects 90

5. Professional Subjects: Subjects relevant to chosen specialization/branch 08

6. Departmental Electives 00

7. Project work, seminar and internship in industry or elsewhere 12

8.

Mandatory Courses

[Environmental Sciences, Induction Program, Indian Constitution, Essence of Indian Knowledge Tradition]

Non-credit

Total 168

*Definition of Credit:

1 Hr. Lecture (L) per week 1 Credit

1 Hr. Tutorial (T) per week 1 Credit

1 Hr. Practical (P) per week .5 Credit

2 Hours Practical (Lab)/week 1 Credit

(09) SCHEME OF EXANIMATION

First Semester – Civil Engineering

S.No.

Sub Code

Subject Name

Max Marks Theory

Max. Marks Practical

Total Marks

Credits Allotted Subject wise

T

ota

l C

red

its

En

d S

em

Ex

am

Mid

Se

m M

ST

(Tw

o t

est

s a

ve

rage

)

Qu

iz&

A

ssig

nm

en

t

En

d S

em

P

ract

ica

l/ V

iva

Term Work

Th

eo

ry C

red

its

Pra

ctic

al

La

b w

ork

&

sess

ion

al

Ass

ign

me

nt

/ q

uiz

1 DPE-101 PHYSICS 70 20 10 30 10 10 150 4 2 6

2 DPE-102 CHEMISTRY 70 20 10 30 10 10 150 4 2 6

3 DPE-103 COMMUNICATION SKILL

70 20 10 30 10 10 150 4 2 6

4 DPE-104 ENVIORNMENT ETHICS & SAFETY

70 20 10 - - - 100 4 4

5 DPE-105 MATHEMATICS 70 20 10 - - - 100 4 - 4

6 DPE-106 WORKSHOP PRACTICE

- - - 30 10 10 50 - 2 2

TOTAL 350 100 50 120 40 40 700 20 8 28

Second Semester – civil Engineering

S.No.

Sub Code

Subject Name

Max Marks Theory


Total Marks

Credits Allotted Subject

wise

To

tal

Cre

dit

s

End

Se

m E

xam

Mid

Se

m

MS

T (

Tw

o

test

s a

ve

rage

)

Qu

iz-

Ass

ign

men

t

End

Se

m P

ract

ical

/ V

iva

Term Work

Th

eo

ry C

red

its

Pra

ctic

al

Lab

wo

rk &

sess

ion

al

Ass

ign

men

t

/ q

uiz

1

DPE-

201

BASIC ELECTRICAL ENGINEERING

70

20

10

30 10 10 150

4

2 6

2 DPE-202

APPLIED MECHANICS

70 20 10 30 10 10 150 4 2 6

3

DPE-203

FUNDAMENTAL OF COMPUTERS

70

20

10

30 10 10 150

4

2 6

4

DPE-204

FUNDAMENTAL OF MANAGEMENT

70

20

10

-

-

-

100

4

-

4

5 DPE-205

ENGINEERING DRAWING

70 20 10 30 10 10 150 4 2 6

TOTAL 350 100 50 120 40 40 700 20 8 28

Third Semester –(Civil Engineering)

S.No.

Sub Code

Subject Name

Max

Marks

Theory

Max. Marks

Practical

Total

Marks

Credit

s

Allotted

Subject wise

To

tal

Cre

dit

s

En

d S

em

Ex

am

Mid

Se

m M

ST

(T

wo

te

sts

av

era

ge

)

Qu

iz-

Ass

ign

me

nt

En

d S

em

Pra

ctic

al/

Viv

a

Term Work

Th

eory

Cre

dit

s

Pra

ctic

al

La

b w

ork

sess

ion

al

Ass

ign

men

t

/ q

uiz

1 DCE-301 Surveying 70 20 10 - - - 100 4 - 4

2 DCE-302 Material Technology

70 20 10 - - - 100 4 - 4

3 DCE-303 Building Construction

70 20 10 30 10 10 150 4 2 6

4 DCE-304 Hydraulics 70 20 10

30

10

10

150 4

2 6

5 DCE-305 Building Drawing 70 20 10 30 10 10 150 4 2 6

6 DCE -306 AUTO CAD - - - 30 10 10 50 - 2 2

TOTAL 350 100 50 120 40 40 700 20 8 28

Fourth Semester – (Civil Engineering)

S.No.

Sub Code

Subject Name

Max

Marks

Theory

Max. Marks

Practical

Total

Marks

Credit

s

Allotted

Subject wise

To

tal

Cre

dit

s

En

d S

em

Ex

am

Mid

Se

m M

ST

(Tw

o t

est

s a

ve

rag

e)

Qu

iz-

Ass

ign

men

t

En

d S

em

P

ract

ica

l/ V

iva

Term Work

Th

eory

Cre

dit

s

Pra

ctic

al

La

b w

ork

&

sess

ion

al

Ass

ign

men

t

/ q

uiz

1 DCE-401 Advance Surveying 70 20 10 - - - 100 4 - 4

2 DCE-402 Soil Mechanics 70 20 10 30 10 10 150 4 2 6

3 DCE-403 Mechanics of Structure 70 20 10 30 10 10 150 4 2 6

4 DCE-404 Transportation Engg-I 70 20 10

30

10

10

150 4

2 6

5 DCE-405 Entrepreneurship 70 20 10 - - - 100 4 - 4

6 DCE-406 Minor Project - - - 30 10 10 50 - 2 2

TOTAL 350 100 50 120 40 40 700 20 8 28

Fifth Semester –(Civil Engineering)

S.No.

Sub Code

Subject Name

Max

Marks

Theory

Max. Marks

Practical

Tot

al

Mar

ks

Credits

Allotted

Subject

wise

T

ota

l C

red

its

En

d S

em E

xam

Mid

Sem

MS

T

(Tw

o t

ests

aver

age)

Qu

iz-

Ass

ign

men

t

En

d S

em P

ract

ical/

Viv

a

Term Work

Th

eory

Cre

dit

s

Pra

ctic

al

Lab

work

&se

ssio

nal

Ass

ign

men

t

/ q

uiz

1 DCE-501 Irrigation Engg. 70 20 10

-

-

- 100 4 - 4

2 DCE-502 Q.S.C.-I 70 20 10

-

-

- 100 4 - 4

3 DCE-503 Work organization &

management 70 20 10 30 10 10 150 4 2 6

4 DCE-504 Transportation Engg.-II, 70 20 10

30

10

10

150 4

2 6

5 DCE-505 S.D.D 70 20 10 30 10 10 150 4 2 6

6 DCE-506 Field visit - - - 30 10 10 50 -

2

2

TOTAL 350 100 50 120 40 40 700 20 28 28

Sixth Semester – Diploma (Civil Engineering)

S.No.

Sub Code

Subject Name

Max Marks Theory


Total Marks

Credits

Allotted Subject

wise

To

tal

Cre

dit

s

En

d S

em

Ex

am

Mid

Se

m M

ST (

Two

te

sts

ave

rage

)

Qu

iz-

Ass

ign

me

nt

End

Se

m

Pra

ctic

al/

Viv

a

Term Work

The

ory

Cre

dit

s

Pra

ctic

al

Lab

wo

rk &

sess

ion

al

Ass

ign

me

nt/

qu

iz

1 DCE-601 Public Health Engineering

70 20 10 -

-

-

100 4 - 4

2 DCE-602 Quantity Surveying & Costing-II

70 20 10 -

-

-

100

4

-

4

3 DCE-603 Structural Design& Drafting- II (Steel)

70 20 10 30 10 10 150 4 2 6

4 DCE-604 Soil Mechanics-II 70 20 10 30 10 10 150 4 2 6

5 DCE-605 Major Project - - - 120 40 40 200 - 8 8

TOTAL 280 80 40 180 60 60 700 16 12 28

(10) COURSE CONTENT

SEMESTER- I

DPE-101 PHYSICS

Subject Code Subject Name L P Total credit

DPE-101 PHYSICS

4 2 6

OBJECTIVES

A comprehensive, high-quality education in the physical sciences A flexible curriculum with multiple concentrations that allows students to tailor their

education according to their specific interests The opportunity to experience the excitement of scientific discovery through direct

participation in faculty research An increased awareness of the physical processes in the surrounding world The essential knowledge and analytical, mathematical and computational tools with

which to pursue post-graduate education in a variety of physics-related and other fields

OUTCOMES

An ability to apply knowledge of mathematics, science, and engineering. An ability to design and conduct experiments, as well as to analyze and interpret data. An ability to design a system, component, or process to meet desired needs within

realistic constraints. An ability to function on multidisciplinary teams. An ability to identify, formulate, and solve engineering problems. An understanding of professional and ethical responsibility.

UNIT 1 9hrs

UNITS & MEASUREMENT: Fundamental and derived units. Scalar and vector, Basic requirements to represent vector. Symbols, abbreviation, and proculation.Linearmeasurement by vernier calipers, screw gauge and spherometer. Angular measurement by angular vernier.

UNIT 2 8hrs

MOTION: Motion and its type. Linear motion (laws and equation).Circular motion.Angular velocity and relation with linear velocity. Centripetal acceleration, Centripetal and Centrifugal forces. Rotatory motion. Moment of Inertia. Kinetic energy of rotation.

UNIT 3 9hrs

MOLECULAR PHENOMENON OF SOLIDS, LIQUIDS AND GASES: Postulates Of Molecular Kinetic theory of Structure of matter. Brownian motion, Kinetic and Potential energy of molecules. Prove of different gases law by Kinetic theory.

UNIT 4 10hrs

PROPERTIES OF MATTER: Elasticity: Meaning, definition, stress, strain, Hook’s law and elastic limit. Surface Tension: Meaning, definition, molecular forces, cohesive and adhesive forces, surface energy, capillary rise and capillary rise method. Viscosity, stream line and turbulent flow.

UNIT 5 11hrs

MODERN PHYSICS: Photoelectric effect, threshold frequency, Einstein‐equation, Photo electric cells. Radioactivity: decay constant, Half-life, mean life. Properties of nucleus, nuclear mass, mass defect. Production of x‐rays, properties and its uses .Conductor, semiconductor and insulators on the basis of band theory. P‐N junction, diode as rectifier. LIST OF EXPERIMENTS: (1)PN Junction Diode Characteristics (2)Zener Diode Characteristics (3)Verification of ohm’s Law (4)Young’s Modulus by Searl’s Method (5)Surface Tension by Capillary Rise Method (6)Moment of Inertia of Flywheel (7)Focal Length of Convex Lens by Displacement Method (8)Refractive Index of Prism by Spectrometer (9)To measure thickness of given sheet using Screw guage (10)To measure diameter of a small spherical /cylindrical body using VernierCallipers REFERENCE BOOKS: 1. Applied Physics Vol. 1 & 2 by Saxena and Prabhakar 2. Physics TTTI Publication 3. Modern Physics bySatya Prakash 4. Engineering Physics by Gour And Gupta 5. Principle of Physics by BrijLal & Subramanyam 6. Nuclear Physics by D.C. Tayal. 7. Physics by Ajay Ghatak

DPE-102 CHEMISTRY


DPE-102 CHEMISTRY

4 2 6

OBJECTIVE:

1. To acquire knowledge about hardness of water and importance of water in industrial purpose.

2. To understand the concept of molecular spectroscopy. 3. To gain the knowledge of about polymeric material and biodegradable substances. 4. To understand the mechanism of lubricant and properties of lubricant.

OUTCOMES:

1. Develop innovative methods to produce soft water for industrial use.

2. Identify the structure of unknown / new compounds with the help of spectroscopy.

3. Substitute metal with conducting polymers and produce cheaper biodegradable polymers to

reduce environmental pollution.

4. Apply their knowledge for use and protect to industrial and domestic equipment.

UNIT 1

10hrs

ATOMIC STRUCTURE AND RADIOACTIVITY: Discovery of electron, proton ,neutron and nucleus.

Ruther ford’s and Bohr’s model of an atom. Alfa, Gamma and Beta rays, theory of radio activity,

Group displacement law, half life period, fission and fusion. CHEMICAL BONDINGAND CATALYSIS:

Bonding: Nature of bonds-Electrovalent, Co-valent, co-ordinate and hydrogen bond. Catalysis :

Types and characteristic. Catalytic promoter and inhibitors.Industrial Application of catalysis.

UNIT 2

10hrs

SURFACE CHEMISTRY AND ITS APPLICATION: True solution, colloidal solution and suspension,

lyophobic and lyophillic colloids, optical and electrical properties of colloids, coagulation,

coagulants, idea about gels and emulsions. ELECTROCHEMISTRY: Electrolysis, Faraday’s laws of

electrolysis, electroplating of copper and nickel. COLLIGATIVE PRPOPERTIES: Osmosis & osmatic

pressure, Relative vapour pressure and Routls law. Enthalpy and Entrophy.

UNIT 3

9hrs

WATER: Sources of water, types of water, hardness of water, its causes, types and removal, Boiler

feed water, harmful ‐effects of hard water in boiler. Municipal water supply.soda lime process.

EDTA.IONIZATION, PH VALUE CORROSION AND PROTECTION: Arhenius theory of ionization,

factors affecting ionization. Buffer solutions. Corrosion and its types, factors effecting corrosion,

corrosion control. POLLUTION AND CONTROL: Introduction and chemical toxicology, air and water

pollution, control of air and water pollution. Harmful effect of different gases like carbon mono‐

oxide, carbon dioxide, sulphur dioxide, nitric oxide, nitrous and lead.

UNIT 4

9hrs

METALS AND ALLOYS: Physical and chemical properties, General principal of metallurgy,

minerals/ores, Explanation of alloying purposes, methods of alloying, composition and uses of

alloy. GLASS, CEMENT AND REFRACTORY: Composition and manufacture of glass, varieties of glass

and annealing of glass, Cement : Composition of Portland Cement, its manufacture, setting and

hardening of cement. Refractories: Meaning, characteristics, use of common refractory materials.

HIGH POLYMERS, RUBBER AND INSULATORS: Polymerization and condensation, classification of

plastics, Preparation Properties and uses of plastics. Classification and properties of

insulators.Glass, wool and thermo cole.Rubber and vulcanization.

UNIT 5

8hrs

LUBRICANTS, PAINTS AND VARNISHES: Lubricants: Meaning, type and theory of lubricants,

properties of a good lubricants, Flash and fire point and cloud point, emulsification number,

viscosity. Paints and Varnishes: Meaning, ingredients and characteristics of good paints and

varnishes, their engineering application

LIST OF EXPERIMENTS: 1. Determination of viscosity by Red Wood Viscometer no. 2. Determination of viscosity by Red Wood Viscometer no. 3. To identify one Anion and Cation in a given sample. 4. Determination of flesh point and fire point of a given sample of oil by PenskyMartins’s apparatus. 5. Determination of flesh point and fire point of a given sample of oil by Cleanland’s Open Cup apparatus. 6. Determination of Hardness of Water by EDTA Method. 7. Determination of pH Values of Given Samples. 8. Determination of hardness of water by: EDTA Method 9. Determination of hardness of water by: Soap Solution Method. 10.Determination of Percentage Purity of an Acid by Titration with standard Acid.11.Determination of the Strength of Copper Sulphate Solution using a Standard Solution of thioSulphate. 12. Estimation of Free Chlorine in Water. REFERENCE BOOKS: 1. Physical Chemistry ‐Bahl and Tuli 2. Inorganic Chemistry ‐Satyaprakash 3. Modern Text Book Of .Applied Chemistry ‐Dr. G. C. Saxena, Jain Prakashan, Indore 4. Applied Chemistry ‐Dr. G. C. Saxena, Deepak Prakashan,Gwalior 5. Applied Chemistry ‐Shrivastava&Singhal, Pbs Publication, Bhopal. 6. Engineering Chemistry –Uppal 7. Engineering Chemistry ‐Rao .And Agarwal 8. Engineering Chemistry ‐P.C. Jain 9. Polymer Chemistry ‐O.P. Mishra 10. Applied Chemistry ‐H.N. Sahni, Deepak Prakash

DPE-103 COMMUNICATION SKILLS


DPE-103 COMMUNICATION SKILLS 4 2 6

OBJECTIVES

1. To enhance Professional competence in reading, writing, listening and speaking. 2. Switch the approach from providing information about the language to use the language. 3. Minimize the Grammar Translation Method of ELT while trying to replace it with Direct

Method. 4. Introduce Communicative Method of ELT and focusing the teaching pedagogy on the

student-centred learning rather than on the teacher-centred learning. 5. Ability to master three major forms of communications which are vital in academic and

professional settings namely professional presentations, interviews and group communications respectively.

OUTCOMES:

1: Ability to design a language component or process to meet desired need within realistic, Constraints such as economic, environmental, social, political, ethical, scenario 2: Ability to analyze the usage of English words in different contexts. 3: An understanding of technical and academic articles’ comprehension. 4: The ability to present oneself at multinational levels knowing the type of different standards of English

UNIT 1 10hrs

COMMUNICATION PROCESS AND ITS NEEDS: How to make communication effective. Barriers in communication, Removal of barriers. Grammar and vocabulary for correct English usage. Determiners, Prepositions, Auxiliary verbs and subject‐verb agreement. Rewrite as directed (change voice, correct form of verbs/tenses). Vocabulary ‐One word substitution, words often misused and wrongly spelt.

UNIT 2 8hrs

PASSAGES OF COMPREHENSION: Language of Science, Desalination or Desalting Process, Safety Practices, Non‐conventional Sources of Energy, Our Environment, Entrepreneurship. Writing summary, moral and characterization of any one story from the book prescribed.

UNIT 3 8hrs

BUSINESS COMMUNICATION: Principles of effective business correspondence its parts, mechanics, styles and forms. Application for job, Bio‐Data and C.V. Letter of Enquiry. Placing order. Complaint

UNIT 4 8hrs

COMPOSITION & TRANSLATION: Writing paragraphs of 150 words on topics of general interest i.e. pollution, ragging in college, importance of computers, importance of communication skill, importance of science and technology etc. Translation (Hindi to English and vice‐versa)

UNIT 5 7hrs

UNSEEN PASSAGES & PRECIS WRITING: Answer the questions based on the passage. Give suitable title OR Writing Precise

REFERENCE BOOKS: 1. English Conversation Practice ‐Grant Taylor 2. Practical English Grammar ‐Thomson & Martinet 3. Communication Skills for Technical Students Book ‐1, Book ‐II by M/S Somaiya Publication, Bombay 4. Living English Structure ‐S. Allen 5. English Grammar, Usage, and Composition ‐Tickoo& Subramanian, S. Chand & Co. Standard Allen Longman. 6. Essentials of Business Communication ‐Dr. Rajendra Pal & J.S. Korlahalli, S.Chand& Sons, New Delhi. 7. Effective Business Communication ‐M.V. Rodriques, Concept Pub. Co., New Delhi. 8. Communication for Business ‐Shirely Taylor, Longman, England. 9. Communication for Engineers and Professors by P. Prasad, S.K.Kataria and sons publications, New Delhi 10. Technical English Book‐II, Somaya Publications, New Delhi

DPE-104 ENVIORNMENT ETHICS & SAFETY


DPE-104 ENVIORNMENT ETHICS & SAFETY 4 4

OBJECTIVE: Environmental ethics is the philosophical discipline that considers the moral and ethical relationship of human beings to the environment. In other words: what, if any, moral obligation does man has to the preservation and care of the non-human world? OUTCOME

Master core concepts and methods from ecological and physical sciences and their application in environmental problem solving.

Master core concepts and methods from economic, political, and social analysis as they pertain to the design and evaluation of environmental policies and institutions.

Appreciate the ethical, cross-cultural, and historical context of environmental issues and the links between human and natural systems.

UNIT -1 10hrs

Introduction To Environment:-The Biosphere, Biotic andAbiotic Ecosystem, Pollution Impact of Environment on Human Being , Basic Approach to Improve Environmental Qualities , Roll of An Environmental Engineer. Sources of Energy , Renewable & Non Renewable, Fossil fuel, Biomass Geothermal, Hydrogen, Solar, Wind, hydra, Nuclear Sources.

UNIT –2 10hrs

Air Pollution:-Air Pollution:, Green house Effect, Ozone Layer Depletion, Acid Rain, Global warming. Noise Pollution: Introduction , Controlling Measures, Measurement of Sound Pollution (deciblage), Classification of Noise pollution(Transport Noise, Industrial Noise, Neighborhood Noise).

UNIT –3 9hrs

Water Pollution:–Water Pollution: Pollutants in water, Treatment of water, Major Water Compartments, Quality Standard Of Water, Soil Pollution –Soil Profile, Thermal & Radio Active pollution.

UNIT:-4 9hrs

SolidWaste Management :-Urban Waste Management, Incinerators, Industrial Waste Management, Biomedical Wastes& its control, Waste Minimization Techniques.

UNIT –5 10hrs

Ethics & Safety:–Professional Ethics, Impact of waste on society, Ethics and moral values, ethical Theories, Fire Hazards Prevention, Industrial Hazards Prevention, Protection From Air and Noise Pollution.

REFERENCE BOOKS: 1. Environmental pollution control Engineering by C. S. Rao 2. Air pollution and control by Seth 3. Air pollution by M.N Rao 4. Industrial waste and its treatment by Seth 5. Paryavaran Yantri i Hindi granthakadami 6. Principles of Energy Environment, Ethics and Society by Raman Sivakuma

DPE-105 MATHEMATICS


DPE-105 MATHEMATICS 4 4

OBJECTIVE:-

The objective of this foundational course is to review mathematical concepts already

learnt in higher secondary. This course will also introduce fundamentals of

mathematical functions, derivatives and aspects of calculus to students. This course

deep understanding of matrix, differential equations, Sequences and series, Vector

Space as well as a strong sense of how useful the subject can be in other disciplines of

learning.

OUTCOME:-

The curriculum of the Department is designed to satisfy the diverse needs of students.

Course work is designed to provide students the opportunity to learn key concepts of

mathematical functions, key concepts of matrix , Vector Spaces as well as

fundamentals and applications of integral calculus.

UNIT 1 11hrs

ALGEBRA: System of Linear Equation, Quadratic Equations, Complex Number, Roots of Complex Number.Sequence and series, Partial Fraction: Resolving into repeated and non repeated linear factors.Permutation and Combination The factorial ,Simple Practical problems on Permutation and Combination.Determinants and their fundamental properties, Simple problem.Matrices: Types of Matrices, algebra of Matrices, Transpose , Adjointand Inverse of Matrices.

UNIT 2

10hrs COORDINATE GEOMETRY: Two Dimensional Co‐ordinate Geometry Polar Co‐ordinate System, Distance between two points, Section formula, Area of triangle, Equation of Locus, Equation of a straight line in different forms. Three Dimensional Co‐ordinate Geometry Co‐ordinate of a point, Section formula(Cartesian System only) ,Plane, Equation of plane.

UNIT 3 9hrs

TRIGONOMETRY: Trigonometrical functions of angles of arbitrary magnitude. Trigonometrical ratios of compound angles .Transformation formula , Allied Angles Expansions of Sin(A+B), Cos(A+B),Tan(A+B) Simple problems using this expansions.

UNIT 4 10hrs

DIFFERENTLIAL CALCULUS: Definition of functions. Concept of limits, of a function. Differentiation of xn, Sin x, cos x, tan x, ex, log ax. Differential of sum, product and quotient of function .. Differentiation of function of a function. Differentiation of inverse trignometrical functions. Application: Maxima and Minima .Equation of tangent and normal to a curve.INTEGRAL CALCULUS:Methods of Integration. Substitution. Integration by parts ,. Concept of Definite Integral.

UNIT 5

08hrs STATISTICS: Measures of Central Tendency (Mean, Median, Mode) for ungrouped and grouped frequency distribution Graphical representation (Bar graph, Histogram, Pie chart), Measures of Dispersion such as Range, Mean deviation, standard deviation, variation and coefficient of variance. REFERENCE BOOKS: •Mathematics XI&XII ,NCERT, New Delhi • Mathematics for Polytechnic students: ‐Engineering Mathematics S.P.DeshpandeyPolytechnic

Mathematics for Dioploma level:H.K.DassPolytechnic Mathematics Pragnesh L Thakkar • Differential Calculus ‐Gorakh Prasad • Integral Calculus ‐Gorakh Prasad • Co‐Ordinate Geometry ‐By S.L. Loni • Engineering Mathematics ‐Dr. S.K. Chouksey • (M.P. Hindi GranthAkadami) &Manoj Singh • Mathematical Statistics ‐By Ray and Sharma • Higher Engineering Mathematics ‐By B.S. Grewal

DPE-106 WORKSHOP PRACTICE


DPE-106 WORKSHOP PRACTICE

2 2

OBJECTIVE:-

Manufacturing is fundamental to the development of any engineering product. The course on Engineering Workshop Practice is intended to expose engineering students to different types of manufacturing / fabrication processes, dealing with different materials such as metals, ceramics, plastics, wood, glass etc. While the actual practice of fabrication techniques is given more weightage, some lectures and video clips available on different methods of manufacturing are also included.

1. Manufacturing Methods- casting, forming, machining, joining, advanced manufacturing methods

2. Fitting operations & power tools

3. Carpentry

4. Metal casting

5. Welding (arc welding & gas welding)

OUTCOMES:

1. The students will be able to understand the details about machines used in production. 2. The students will be able to understand the mechanics behind metal cutting. 3. The students will be able to understand the finishing and super finishing processes. 4. The students will be able to understand the Physics of material removal behind the various

non-conventional machining processes.

LIST OF EXPERIMENTS:

Prepare list of general safety Rules to be followed in Workshop and sketch the detailed drawing of

workshop and measuring devices.

Carpentry

1. Sketch&LabelDetailsofCarpentry shop Layout.

2. Sketch and study tools used in carpentry.

3. To make a T lap joint.

4. To make a cross lap joint.

Black smithy

1.Sketch&LabelDetailsofsmithy shop Layout.

2. Study tools and raw material used in smithy shop.

3. To make an S-hook from a given round rod, by following hand forging operation.

4. To make a J-hookfrom a given round rod, by following hand forging operation.

Plumbing

1. Demonstration and Study tools and raw material used in plumbing shop Fitting shop1

Sketch&Label Details of Fitting shop Layout.

2 Sketch and study tools used and drilling machine in

Fitting shop.

3 To make a Square fit from the given mid steel pieces .

4 To make a V-Fit from the given mid steel pieces.

Welding

1Sketch&LabelDetailsofwelding shop Layout.

2Study tools and raw material used in welding shop.

3To make a Butt joint using the given two M.S pieces by arc welding.

4To make a lap joint using the given two M.S pieces by arc welding.Note :-

Any one job should be prepared in each shop.

SEMESTER- II

DPE-201 BASIC ELECTRICAL ENGINEERING


DPE-201 BASIC ELECTRICAL ENGINEERING

4 2 6

OBJECTIVES:

1 To introduce fundamental concepts and analysis techniques in electrical engineering to students across all disciplines. 2. To introduce the students about domestic wiring, the functioning of various electrical apparatus and the safety measures. Emphasize the effects of electric shock and precautionary measures. 3. To impart basic knowledge of electrical quantities such as current, voltage, power, energy and frequency to understand the impact of technology in a global and societal context. 4. To provide knowledge about the basic DC and AC electric circuits and magnetic circuits. 5. To introduce the concepts of generators, motors, transformers and their applications. OUTCOMES

1. Demonstrate the basic knowledge of electrical quantities such as current, voltage, power,

energy and frequency to understand the impact of technology in a global and societal

context.

2. Demonstrate an understanding of basic concepts of analysis of simple DC and AC circuits

used in electrical and electronic devices.

3. Demonstrate the basic concepts of transformers their application in transmission and

distribution of electric power.

4. Apply the basic concepts in Electrical engineering in various tasks

5. Demonstrate the effects of electric shock and precautionary measures

UNIT1 8hrs

Electric Current and Ohm’s Law. Review of numerical based on series and parallel combination of resistor, capacitor and inductor. Review of numerical on current divison ,voltage division rule.12

UNIT 2 9hrs

Network Theorems ( for DC circuits ). Concept of Passive, Active, Unilateral & bilateral circuit. Kirchhoff’s Laws, Maxwell’s Loop Current ( Mesh ) Analysis, Nodal Analysis, Voltage source, Current source, source transformation. THEOREMS: Superposition, Thevenin’s, Norton, Maximum Power Transfer, & Millman Theorem. Star/ Delta & Delta/ Star Transformations.

UNIT 3 5hrs

Work, Power and Energy, Heating effect of Electric Current & Joule’s Law of Electric Heating. UNIT 4

10hrs ELECTROSTATICS: Static Electricity, Absolute & Relative Permittivity of a Medium, Coulombs Laws of electrostatics, Electric Field, Electrostatic induction, Electric Flux, Electric flux Density, electric potential & energy, potential Difference, Breakdown voltage & dielectric strength. CAPACITANCE: Capacitor, Capacitance, parallel plate capacitor, multiplate capacitor, Cylindrical Capacitor, Capacitors in series & parallel, Energy stored in a capacitor, charging & discharging of a capacitor.

UNIT 5 11hrs

MAGNETISM Absolute and Relative Permeabilities of a Medium, Laws of Magnetic Force, Magnetic field strength, Flux & Flux Density. ELECTROMAGNETISM: Oersted experiment, magnetic field, magnetic flux, magnetic flux density, Biot-Savart law, Magnetic circuit & related definitions, Composite Magnetic circuit, Problems based on calculation of Ampere Turns. Electric & Magnetic circuit comparison. Electromagnetic Induction, Production of induced emf and current, Faraday’s Laws of Electromagnetic Induction, Lenz’s Law, Flemings left hand and right hand rule magnetic hysteresis, Comparison of motor and generator


1) Verification of Kirchhoff’s Current & Voltage Laws. 2) Analysis of Superposition Theorem. 3) Verification of Thevenin’s Theorem. 4) Study of Norton’s Theorem 5) Study of Maximum Power Transfer Theorem. 6) Transient Response of RC charging & discharging circuits.TEXT

REFERENCE BOOK: 1.A text book of Electrical Technology Volume -I , 2005 Edition, by B L Theraja, A K Theraja, S Chand and Company Limited. 2.Electrical Technology, 8th Edition by EdwardHughes, , Pearson Education. 3.Circuits & Networks 4th Edition by Sudhakar & Shyammohan, (Tata McGraw -Hill Publishing Company Limited). 4.Engineering Circuit Analysis 6th Edition by William H. Hayt, Jr. & Jack E. Kemmerly, (Tata

McGraw -Hill Publishing Company Limited)

DPE-202 APPLIED MECHANICS


DPE-202 APPLIED MECHANICS

4 2 6

OBJECTIVE

Mechanics laws for particle systems General Planar solid body mechanics Coordinate transformation – accelerated reference system Formulation of boundary and initial values, Formulation of mathematical simulation models Mass motion of inertia

OUTCOME

With basis of a problem make idealizations, with motivations set up a mechanical model. With mathematical model and numerical methods analyze the model. Interpret and critically examine the result.

After the course, the participant should be able to:

Formulate a mathematical model for a given problem, and analyze the model with the relevant mathematical methods and/or simulate these in a mathematical simulation software (Matlab)

Define boundary and initial conditions to simulate using mathematical simulation software or commercial multi body simulation program

Calculate forces and/or acceleration of simple Planar rigid-body problems Assess the results of calculations or simulations

UNIT 1 10hrs

COMPOSITION AND RESOLUTION OF FORCES: Definition, Effect, characteristics of force. System of Forces. Law of‐Parallelogram of Forces, Triangle of Forces, Polygon of Forces. PARALLEL FORCES AND COUPLES: Classification of Parallel Forces. Methods of finding resultant Force of parallel forces‐analytically &graphically. Position of resultant force of parallel forces. EQUILIBRIUM OF FORCES: Equilibrium of a system of concurrent forces. Conditions and types of Equilibrium. Lami’s Theorem and its applications.

UNIT 2 11hrs

MOMENTS AND THEIR APPLICATIONS: Definition, Classification and characteristics of a force Couple, moment of couple. Types and law of moment. Varignon’s Principle of moment and its applications. Lever and its Applications. Types of supports and determination of support reactions of a simply supported beam subjected to point load and uniformly distributed load (UDL). CENTRE OF GRAVITY: Difference between Centroid and Center of Gravity (CG). Centroid of standard plane figures and CG of simple solid bodies. Method of finding out Centroid of composite plane laminas and cut sections. Method of finding out CG of Composite solid bodies.

UNIT 3 10hrs

FRICTION: Limiting Friction, coefficient of friction, angle of friction, angle of repose. Laws of friction ( Static and Kinetic). Analysis of equilibrium of Bodies resting on Horizontal and inclined Plane. SIMPLE LIFTING MECHINES: Mechanical Advantage, Velocity Ratio and Efficiency of Machines and their relation. Self-locking machine. Law of Machines, Maximum mechanical advantage and maximum efficiency of machine. Friction in machine (In terms of Load and effort). Simple screw jack

UNIT 4 8hrs

LAWS OF MOTION: Newton’s Laws of motion and their applications. Motion of a particle:Speed, velocity, acceleration, uniform velocity, uniform acceleration and variable acceleration. Motion under constant acceleration / retardation (equationsof motion). Motion under force of gravity. Relative velocity. Projectile, velocity of projection, angle of projection, angular velocity, angular acceleration and angular displacement. Relation between linear and angular velocity.

UNIT 5 7hrs

WORK, POWER AND ENERGY: Definition unit and graphical representation of work. Definition and unit of power and types of engine power and efficiency of an engine. Definition and concept of Impulse. Definition, unit and types of energies. Total energy of a body falling undergravity. LIST OF EXPERIMENTS: 1. Verification of laws of polygon of forces 2. To determine the moment of inertia of a flywheel. 3. Determination of gravitational force experiment with help of simple pendulum 4. Determination of gravitational force experiment with help of bar pendulum 5. Determination of coefficient of friction for surfaces of different materials on horizontal Plane 6. Determination of coefficient of friction for surfaces of different materials on an inclined plane 7. To verify law of moments using bell crank lever. 8. Verification of laws of parallelogram of forces. 9. Determination of forces in the members of Jib Crane 10. Determination of Centroid of plane lamina by graphical method 11. Determination of mechanical advantage, velocity ratio and efficiency of the Following lifting machines: Simple wheel and axle Differential wheel axle Single purchase crab Double purchase crab Simple pulley block Simple screw jack 12. Measurement of B.H.P. of an engine using rope break dynamometer REFERENCE BOOKS: 1. A text book of Applied Mechanics ‐R.S. Khurmi, S.C. Chand & Co. , New Delhi 2. Applied Mechanics ‐I.B. Prasad, Khanna Publishers, New Delhi 3. Applied Mechanics ( Hindi) ‐R.S. Jog, Anand Publishers, Gwalio 4. Applied Mechanics ( Hindi) ‐A.R. Page, Deepak Prakashan, Gwalio

DPE-203 FUNDAMENTAL OF COMPUTERS


DPE-203 FUNDAMENTAL OF COMPUTERS

4 2 6

OBJECTIVE:-

Successfully practice computer engineering to serve state and regional industries, government agencies, or national and international industries.

Work professionally in one or more of the following areas: computer hardware and software design, embedded systems, computer networks and security, system integration, and electronic design automation.

Achieve personal and professional success with awareness and commitment to their ethical and social responsibilities, both as individuals and in team environments.

Maintain and improve their technical competence through lifelong learning, including entering and succeeding in an advanced degree program in a field such as engineering, science, or business

OUTCOME:-

An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics

an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors

an ability to communicate effectively with a range of audiences an ability to recognize ethical and professional responsibilities in engineering situations

and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts

UNIT 1

07hrs INTRODUCTION TO COMPUTERS: Basic Concepts, Generations of Computers, Overview of computer Systems, Classifications of Computers, Characteristics of Computes, Applications of Computers. Numbers System & Codes. Computer Hardware. Input Devices, Output Devices, Storage Devices, Microprocessor, Memory Concepts, Computer Software, Application of Software, Multimedia

UNIT 2 08hrs

OPERATING SYSTEM: Overview of DOS, Internal Commands, External Commands. Windows Operating System, Introduction to Linux. WORD PROCESSING: Saving, Closing, Opening of documents Selecting text Editing text Finding and replacing text\Printing documents Merge Documents Character and paragraph Formatting Page Design and layout Spell Check Creating Tables and Charts. Handling Graphics

UNIT 3 10hrs

SPREADSHEET PACKAGE: Spreadsheet concept ‐Need, advantage, Terminology like cell, row,column etc. Working with Spreadsheet ‐Creating, Saving, Editing and printing Entering data ‐Entering number, text, date, time etc. Selecting cells ‐Cut, copy, paste date Editing Worksheet data Formatting ‐Text and Cells, Applying border shading, background patterns, conditional formats, positioning cells, formatting numbers, text, Date, time. Creating formulas‐Entering, Editing, Using Functions, Controlling calculations. Working with Charts‐Creating charts, Adding & changing text, changing the view and display, types of charts.

UNIT 4

10hrs PRESENTATION SOFTWARE: Introduction Presentation design tools Presentation terminologies Creating, Opening and Saving Presentation Working with different views Creating and Organizing slides Adding and Formatting text in slides Formatting paragraphs Adding drawings and objects Creating special effects Working with table and charts Printing Presentation. DATABASE: Introduction ‐need, Characteristics and terminologies of database, Types of database ‐relational, Hierarchical and Network, Basic entities ‐Tables, records, Data types, Data Validation and constraints, keys relation between tables. Query ‐Select, Insert, Update, Delete Forms ‐Creating forms, Forms controls Report Designer‐Customize formats, grouping reports.

UNIT 5 08hrs

COMPUTER COMMUNICATION & NETWORKS: Information Networks, The Technology of Workgroup Computing, Types of network, Network topology, Network components, Data Communication, Introduction to Data Communication, Types of Data, Transmission media, Internet and E‐mail, Internet Basics, Websites‐Applications, terminologies, naming conventions. Web Browsers‐Types, Navigation and tools. E‐mail ‐concept, terminologies, mailing services, provider, advantages comparison with Conventional mailing. Search engine ‐concept, search engine websites, searching methods. LIST OF EXPERIMENTS: 1. Study of various components of computer like CPU, keyboard, mouse, monitor, printer, CVT and storage devices. Internal and external commands of DOS. 2. Using Windows operating system, study of desktop, control panel, accessories and settings. 3. File management in windows explorer, Study of WordPad, Note Pad, Paint Brush, Calculator etc .Study of Linux operating system. 4. Study of MS‐word ‐opening and saving of documents, formatting, editing and spell check, find and replace, printing, merging. Creating Table, Charts andGraphics. 5. Study of Spreadsheet ‐creating, saving, editing and printing. Entering data, selecting cells, formatting text. 6. Applying border shades and backgrounds, creating formulas, creating charts. 7. Study of Power Point ‐creating, opening, editing and saving of slides. Adding and formatting text, creating animations, working with images and special effects. Printing presentation. 8. Study of MS Access‐creating, saving, editing and printing of tables. Managing relationships, writing queries e.g. SELECT, UPDATE, DELETE, INSERT. Forms designing and report printing. 9. Study of Web Browser and mailing programs. REFERENCE BOOKS: 1. S .Jaiswal, A First Course in Computers, Golgotha Publication 2. Slotnick, Butterfield, Colantonio and Kopetzky, Computers & Application, C.C. Health & Company. 3. Suresh K. Basandra, Computers Today, Galgotia Publication 4. Ron Mansfield, the Complete Guide to Microsoft Office Professional, Sybex /BPB Asian Edition 5. Norton Peter, Inside IBM PC. 6. Hardware Bible, BPB Publication

DPE-204

FUNDAMENTAL OF MANAGEMENT


DPE-204 FUNDAMENTAL OF MANAGEMENT 4 4

OBJECTIVE: The main objective of management is to secure maximum outputs with minimum efforts & resources. Management is basically concerned with thinking & utilizing human, material & financial resources in such a manner that would result in best combination OUTCOME 1. Discuss and communicate the management evolution and how it will affect future managers. 2. Observe and evaluate the influence of historical forces on the current practice of management. 3. Identify and evaluate social responsibility and ethical issues involved in business situations and logically articulate own position on such issues.

UNIT 1 6hrs

Nature and significance of economics, meaning of science, engineering & technology and their relationship with economic development.

UNIT 2 7hrs

The concepts of demand and supply, elasticity of demand and supply, indifference, curve, analysis, price effect, income effect, and substitution effect.

UNIT 3 8hrs

Money& Banking function of money, value of money, inflation and measure to control its brief data of function of banking system.

UNIT 4 9hrs

Introduction to management Definition, nature and significance of management, evolution of management thought ,contribution of max WaberTaylor,Taylo rand Fayol.

UNIT 5 6hrs

Human Behavior: factorsof individual behavior,perception, learning and personality development,inter personnelrelationship,group behavior. REFERENCE BOOKS: 1. Industrial Economics and Management Principles, By Dr. Rajan Mishra, Publisher: University Science Press (2008) 2. Fundamentals of Management: Essential Concepts and Applications (9th Edition), Publisher: Prentice Hall, 2014 3. Fundamentals of Management Paperback –2009, by Stephen P. Robbins,Publisher: Pearson India

DPE-205

ENGINEERING DRAWING


DPE-205 ENGINEERING DRAWING

4 2 6

Note: Only first angle projection method is to be followed

OBJECTIVES:- 1. Increase ability to communicate with people. 2. Learn to sketch and take field dimensions. 3. Learn to take data and transform it into graphic drawings. 4. Learn basic Auto Cad skills. 5. Learn basic engineering drawing formats. 6. Prepare the student for future Engineering positions.

OUTCOMES: -

1. Student’s ability to hand letter will improve. 2. Student’s ability to perform basic sketching techniques will improve. 3. Students will be able to draw orthographic projections and sections. 4. Student’s ability to use architectural and engineering scales will increase. 5. Students ability to produce engineered drawings will improve 6. Student’s ability to convert sketches to engineered drawings will increase. 7. Students will become familiar with office practice and standards. 8. Students will become familiar with Auto Cad two dimensional drawings. 9. Students will develop good communication skills and team work.

UNIT 1

11hrs

INTRODUCTION TO DRAWING: Instrumentation. Planning and layout of drawing sheet: lines,

lettering and dimensioning metrical constructions and engineering curves: geometrical

representation of line and objects: introduction of conic sections (curves). Construction of ellipse

by eccentricity and concentric circles methods construction of parabola by eccentricity and

rectangle methods construction of hyperbola by eccentricity method construction of cycloid.

construction of involutes of circle and polygon. construction of Archimedean spiral of any number

of convolutions. scales: introduction of scales and their applications, concept of reducing, enlarging

and full size scale, classification of scales and their construction

UNIT 2

9hrs

THEORY OF PROJECTION: Projection of point, lines, plane and solid. Definition of various term

associated with theory of projection‐Planes of projection, Quadrants, first & third angle projection

method. Projection of points in all the four quadrants and related cases. Projection of planes and

solids.

UNIT 3

7hrs

SECTION OF SOLID AND DEVELOPMENT: Section of cone, cylinder, prism and pyramid.

Development of scales under the condition ‐solid resting on its base in the HP and axis,

Perpendicular to HP and parallel to VP, Development of funnels.

UNIT 4

9hrs

SURFACE INTERSCTION AND ORTHOGRAPHIC PROJECTIONS: Intersection of Surfaces: Cylinder

to cylinder and Prism to prism (With their axis intersecting and perpendicular to each other).

Principles of orthographic projections. Identification of necessary views. Preparation of necessary

orthographic views of simple objects. Pictorial view representation. Dimensioning of orthographic

views as per standard practice. Free hand sketches of simple objects (Using Pencil, Eraser & Paper

only)

UNIT 5

6hrs

ISOMETRIC VIEWS: Concept of isometric projection and isometric view (Isometric Drawing).

Construction of isometric scale. Construction of isometric view of polygon, circle and solids

REFERENCE BOOKS:

1. EngineeringDrawing ‐N.D. Bhatt 2. Engineering Drawing ‐R.K. Dhawan 3. Engineering Drawing ‐P. S.Gill 4. First Year Engineering Drawing ‐Ac.Parkinson 5. Sp: 46‐1988 Bureau Of Indian Standard ‐ 6. Principles Of Electronics ‐Malvino

DCE-301 SURVEYING


DCE-301 SURVEYING

4 4

OBJECTIVES:-

To develop and plan process for any civil engineering or mining project, at first field survey

of that area is carried out and various type of survey maps are prepared.

These maps and drawing are used for taking various decisions regarding the planning,

designing, estimation, execution and construction process etc

OUTCOMES:-

Handle various survey instruments for a particular survey work.

Carry out various civil engineering survey works.

Collect and analyse survey data for preparing drawings and maps.

Apply checks for errors elimination.

UNIT :-I 09hrs

INTRODUCTION OF SURVEY: Definition. Objects of Surveying. Principles of Surveying. Uses of survey, Classification of Surveying. CHAIN & CROSS STAFF SURVEY: Principle of Chain Survey. Study and use of Instruments for linear measurements. Ranging. CHAIN TRIANGULATION – Survey Station and their Selections, factors affecting selection of survey

station. Survey lines, Check lines, Tie lines, base line. Taking offsets. long and short offset, degree of offset. Obstacles in chaining. Chain & cross staff Survey for finding area of a field ,Errors & Corrections in chain & Tape.

UNIT :-II

09hrs

COMPASS SURVEY: Principle of Compass Survey. Bearing of lines – Meridian. Bearing –forebearing, Back bearing, Whole circle bearing, Quadratral bearing system and Reduced bearing, Conversion of bearings, finding included angles from bearings. Prismatic Compass. calculation of included angles. Traversing – traversing by chain and compass. open traverse, closed traverse. Graphical adjustment for closing error.

UNIT :-III 10hrs

LEVELLING: Definitions, meaning of various terms used in leveling and its types .Dumpy level –Components, Construction, leveling Staff – Telescopic and folding type .Foresight, back sight, Intermediate sight, Change point, Height of collimation .Fundamental axes and their relationship Recording in level book. Temporary adjustments of dumpy level. Method of Reduction of levels – Height of instrument method and Rise and fall method. Arithmetical checks, Numerical problems, Computation of missing readings. Classifications of leveling. Study and use of tilting level & Auto level. Sources and errors in leveling, precautions and difficulties faced in leveling.

UNIT:-IV 8hrs

CONTOURING : Definitions – Contour, contour interval, Horizontal equivalent. Characteristics of contours .Method of locating contours. Interpolation of contours. Establishing grade contours. Uses of Contour Maps. Calculation of reservoir capacity by contour map by trapezoidal and prismoidal formula. Interpretation of Typical Contour Sheets.

UNIT :-V 07hrs

AREA AND VOLUME MEASUREMENTS : Construction and use of polar planimeter for measurement of area and simple numerical problems. Study and use of Digital Planimete .Concept of computation of Volume by Trapezoidal and Prismoidal formulae. REFERENCES:-

1 Surveying and Levelling N.N.Basak Tata Mc Graw-Hill

2. Surveying And Levelling,Part I And II T .P. Kanetkar & S. V.Kulkarni, Pune Vidhyarthi Griha

Prakashan.

3. Surveying and Levelling, Vol. I And II, Dr. B. C. Punmiya Laxmi Plublication.

4. Text Book of Surveying, S.K.Husain & M.S. Nagaraj, S. Chand And Company.

5. Surveying and Levelling, Vol. I And II S. K. Duggal, Tata Mc Graw-Hill.

6. Plane Surveying, A.M.Chandra, NEWAgeInternationalPublishers.

DCE-302 MATERIAL TECHNOLOGY


DCE-302 MATERIAL TECHNOLOGY 4 4

OBJECTIVE:-

To introduce students to various construction materials, techniques and practices

Commonly used in civil engineering construction.

OUTCOMES:-

Identify the good quality of brick for construction.

Design the concrete mixes for different exposure conditions

Understand material properties of cement and aggregates.

Study the market forms of timber and steel.

Recognize the good practices of thermal insulations and air conditioning of building.

UNIT :-I

09hrs

INTRODUCTION : Importance of material Technology for Civil Engineer. Name of common

Engineering materials used in construction. MASONARY MATERIALS : a) Building stones-

classification, requirement, dressing & quarrying of stones, b) Bricks – properties, method &

strength of bricks, testing of bricks, special bricks, hollow blocks, fly ash bricks.

UNIT :-II

10hrs

BINDING MATERIALS : Murrum, Properties of Murum for Road work. Lime - Types and properties

of lime. Cement -Types & Different ingredients used for manufacturing cement with their

percentage. Physical properties of cement.field & laboratory test of cement, storing of cement at

site. AGGREGATES: Properties of fine & coarse aggregates - Concept of size, shape & surface texture

, testing of aggregate. Determination of fineness & grading zone of sand by sieve analysis,

determination of silt content in sand & their specification as per IS 383.

UNIT :-III

10hrs

CONCRETE: Introduction of concrete - Definition of concrete, necessity of supervision for

concreting operation, different grades of concrete, water retaining structure & in sea water

construction, durability of concrete. Water cement (w/c) ratio, Properties of fresh concrete, factors

affecting workability of concrete. creep of concrete. Curing of concrete. Testing of concrete.

UNIT:-IV

10hrs

TIMBER : Difference between wood and timber. Timber based material: use, types &

characteristics of timber, defects in timber.PAINTS, VARNISHES & COLOURS, Use of paint as

protecting surface device for steel surface type of paint used and for wood surface types of paint

used. Method of preparation of varnish, component materials used in varnish Distempers and

cement paints.

UNIT:-V

10hrs

STEEL AND ALUMINIUM PRODUCTS : Steel used as Engineering Material in different shapes.

Aluminum : Used as construction materials. Miscellaneous materials: glass, plastic- P.V.C. pipes

used as materials in pipe laying for water supply purposes, Irrigation etc. Water tanks. fibers,

aluminum, steel , galvanized iron, asphalt bitumen etc. micro silica, PVC, CPVC, PPF. Waterproofing

and termite proofing materials, admixtures in concrete, bonding agents, epoxy resins, Polishing

materials etc. readymade concrete cover. Readymade ornamental material (wall papers, carpets,

radium prints, blocks etc.)

REFERENCES:-

1. Engineering Materials By Rangwala

2. Engineering Materials By Deshpande

3. Engineering Materials By Ojha

4. Engineering Materials By Surendra Singh

5. Building Materials By S.K. Duggal




4 2 6

OBJECTIVE:-

Building Construction is a core subject in civil engineering. This subject is intended for gaining

useful knowledge with respect to facts.

Concepts, principles and procedures related to building construction system so that student

can effectively able to execute building construction work and carry out repairs and

maintenance of existing building with safety and quality in construction.

OUTCOME:-

After successful completion of this course students will able to

Select and deploy suitable construction technique/methods for various construction works.

Identify the various Building Components in detail.

Interpret drawing and give layout on the field of given structure/building.

Select the appropriate machinery for various construction works.

Demonstrate safety measures involved in construction work.

Supervise the construction work to ensure quality as per required standards and

specifications.

Check and ensure quality of construction materials and components as per standards and

practices.

UNIT :-I

08hrs

BUILDING COMPONENTS AND MATERIALS: Building components and types of structure -

building components & their function. Substructure – foundation, plinth. Superstructure – walls,

sill, lintel, doors & windows, floor, roof, parapet, beams, columns. Types of structures – load

bearing structures, Framed structures, composite structures.

UNIT:-II

10hrs

CONSTRUCTION OF SUB STRUCTURE : Job layout – necessity and procedures, site clearance,

preparing job layout, layout for load bearing structure and framed structure by center line And face

line method, precautions while marking layout on ground. Earthwork - excavation for foundation,

timbering and strutting, earthwork for embankment, material for plinth filling. Tools and plants

used for excavation and earthwork. Foundation - importance and necessity, types of foundation,

Selection of foundation. Pumping method of dewatering, cofferdams. Bearing capacity of

foundation soil, under reamed pile Foundation.

UNIT :-III

11hrs

CONSTRUCTION OF SUPER STRUCTURE : stone masonry – terms used in stone masonry- point to

be observed in construction of stone masonry, mortars for stone masonry, tools and plants used for

Stone masonry, col-grout masonry. Brick masonry : common terms used in brick masonry,

requirements of good brickwork, bonds in brick masonry. Brick laying ,line level and plumb of

brickwork, striking and raking of joints, lead and lift, precautions in brick masonry, tools and plants

used in brick masonry. Hollow concrete block masonry, composite masonry,

Doors and windows: doors –components, types & Sizes of door & window – as per IS specification.

Protective treatment for doors and windows, staircase - types of stairs , Scaffolding and shoring:

purpose, types of scaffolding, process of erection and dismantling, Merits and demerits

UNIT :-IV

10hrs

BUILDING FINISHES : floors and roofs - floor finishes, brick flooring, flag stone, Shahabad , Kota,

marble, granite, tiles, pavement blocks, skirting and dado. Process of laying and construction,

finishing and polishing of floors.

Roofing materials – AC sheets ,GI sheets, plastic sheets, fiber sheets, Mangalore tiles etc. Steel

trusses. R.C.C. slab, lean to roof, trusses.

Wall finishes: plastering – necessity of plastering, Neeru finishing and pop, special plasters -

stucco plaster, plaster board and Wall claddings. Precaution to be taken while plastering. Defects in

plaster. Pointing, Difference betweenplastering and pointing.

Painting – necessity, surface preparation, method of application, selecting suitable painting

material, white Wash and colour wash. cracks, identification and repair of cracks. Guniting and

grouting, use of epoxy and crack fills. Settlement - causes and remedial measures plinth protection

– necessity and materials used.

UNIT:-V

10hrs

SAFETY AND ENVIRONMENTAL ASPECTS : Safety precautions to be observed during the

construction viz. trenching, digging pits for foundation using machineries, masonry works,

erection, scaffolding, centering etc. Environmental consideration to be observed during

construction of a building e.g. laying out ofdrainage line and water supply line, soak pit, septic tank,

precautions to be taken during site clearance considering environmental effect. Avoiding

unnecessary cutting of bushes and tress etc.

REFERENCES:-

1.Building Construction, S. P. Arora andBindra, Dhanpat RaiPublication

2. Building Construction, S. C. Rangawala Charotar Publication

3 Building Construction, Sushil Kumar, Standard Publication

4 Building Construction, B. C. Punmia Laxmi Publication

5 Building Construction, S.K. Sharma, Tata McGraw-Hill

6 Building Construction, Dr.Janardan Zha, khanna Publication

8 Practical Civil Engineering Handbook, Khanna Publicatio


1 Preparing foundation plan and marking on ground layout of load bearing structure by face line

method from the given plan of the building.

2 Preparing foundations plan and marking on ground layout of framed structure by face line

method from the given plan of the building.

3 Checking and transferring line and level of plinth, sill, lintel, flooring, slab level of a building and

writing report of the process.

4 Checking verticality (plumb line) of formwork for column, beam and wall at construction site and

writing report of the process.

5 Observing and writing report of the process of plastering.

6 Observing and writing report of the process of water proofing of terrace or basement.

7 Observing the models, specimen of building materials kept in the model room for few building

items and writing a report for any five models/materials.

8 Visit to a building where slab casting is in progress.

9 Use of water level, plum bob, sprit level, Thread, gunia, etc.

10 Study and use of various tools used in building construction.

DCE-304 HYDRAULICS


DCE-304 HYDRAULICS

4 2 6

OBJECTIVES:-

To understand the behaviour of fluid flow in different conditions in pipes, channels, canals,

notches, weirs etc. is necessary for civil, environmental and transportation engineers.

To acquire basic knowledge about hydraulics will be useful in subjects like Irrigation, Water

Resources Management and Public Health Engineering. In this course, basics of hydraulics and

its application oriented content has been kept with a focus that students should be able to

solve practical problems.

To develop Competencies by this course would therefore be useful for students while

performing his/her job in the field of Water resources / Irrigation/ PHE and Environment

Engineering.

OUTCOME:

Perform various tests regarding behavior of fluid/liquid.

Interpret the problems related to fluid/liquid and apply for solving fluid mechanics

problem.

Compute discharge and loss of head through pipes, open channels, notches and other

hydraulic structures.

UNIT: - I

9hrs

PROPERTIES OF FLUID : Definition of fluid, Difference in behavior of fluid with respect to solids.

Introduction to fluid mechanics and hydraulics, Branches of hydraulics- Hydrostatics and

hydrodynamics, Importance of Hydraulics with respect to Irrigation and Environmental

engineering. Physical properties of fluid Mass density, Weight density, Specific volume, Specific

gravity, Surface tension and capillarity, Compressibility, Viscosity, Newton’s law of viscosity –

Dynamic and kinematics viscosity. Ideal and Real liquids.

UNIT:-II

10hrs

HYDROSTATIC PRESSURE : Free liquid surface, Definition of pressure and its SI unit, Hydrostatic

pressure at point, Pascal’s law, Variation of pressure in horizontal and vertical direction in static

liquid, Pressure diagram. Total hydrostatic pressure and center of pressure.

MEASUREMENT OF LIQUID PRESSURE IN PIPES : Concept of pressure head and its unit, Intensity

of pressure, Variation of pressure with depth of liquid, Types of pressure- atmospheric gauge and

absolute pressure. Conversion of pressure head of one liquid in to other, devices for pressure

measurements in pipes – Piezometer, manometer, Bourdon’s pressure gauge. Principle of working

and limitations.

UNIT: - III

10hrs

FUNDAMENTALS OF FLUID FLOW : Concept of flow, Gravity flow and pressure flow. Types of flow

– steady and Unsteady, uniform and non-uniform, Laminar and turbulent. Various combinations of

flow with practical examples, Reynolds number and its application, Stream line and equi-potential

line. Flow net and its uses. Discharge and its units, Continuity equation for fluid flow. Various forms

of energies present in fluid flow-potential, kinetic, & pressure energy. Datum head, pressure head,

velocity head and total head, Bernoulli’s theorem, its assumptions and limitations. Loss of head and

modified Bernoulli’s theorem. Application of Bernoulli’s theorem.

UNIT: - IV

8hrs

FLOW OF LIQUID THROUGH PIPES : Loss of head due to friction, Darcy-Weisbach Equation

Friction factor, relative roughness. Common range of friction factor for different types of pipe

material. Minor loss of head in pipe flow- loss of head due to sudden Contraction, sudden

expansion, gradual contraction & expansion, at entrance and exit of pipes and in various pipe

fittings. Pipes in series and parallel, Equivalent pipe – Dupuit’s equation.

UNIT: - V

10hrs

FLOW THROUGH OPEN CHANNEL : Types of channels- artificial & natural, purposes of artificial

channel, Different shapes of artificial channels. Geometrical properties of channel section – wetted

area, wetted Perimeter, hydraulics radius. Prismatic channel sections, steady- uniform flow

through prismatic channel section. Chezy’s equation and Manning’s equation for calculation of

discharge through an open channel, Most economical channel section, conditions for most

economical channel sections. Froud’s number and its significance. Critical, sub-critical and

supercritical flow in channel, Hydraulic jump its occurrence in field, uses of hydraulic jump, Flow

Measuring Devices.

REFERENCES:-

1 Hydraulics & Fluids Mechanics, Dr. P.N.Modi & Dr.S.M.Seth, Standard BookHouse, Dehli.

2. Hydraulics & Fluids Mechanics, S.Ramamrutham, Rai & Sons,Delhi.

3 A Text Book of Hydraulics, R.S.Khurmi.

4 Fluids Mechanics & Hydraulics S.Chand & CompanY S.Chand & Company Ltd. New, Delhi.

Machines

5 A Text Book of Fluids MechanicsHydraulics Machines, R.K.Rajput,S.Chand

6 Fluids Mechanics & Hydraulics, Dr. Jagdish Lal, Metropolitan Book Co. Private Ltd. New Delhi.

LIST OF THE EXPERIMENT:-

1 Measurements of pressure and pressure head by Piezometer, U-tube manometer.

2 Measurement of pressure difference by U-tube differential manometer. Study of bourdon’s gauge.

3 Verification of Bernoulli’s theorem.

4 Reynolds experiment to study types of flow.

5 Determination of Darcy’s friction factor for a given pipe.

6 Determination of Minor losses in pipes (any two).

7Determination of Manning’s constant or Chezy’s constant for given rectangular channel section.

8 Demonstration of Hydraulic jump.

9 Determination of coefficient of discharge for given rectangular or triangular notch.

10 Determination of coefficient of discharge for a given Venturimeter.

11 Demonstration and use of Pitot tube and current meter.

12 Determination of hydraulic coefficients for sharp edge orifice.

13 Study & use of water meter.

14 Study of a model of centrifugal and reciprocating pump.

15 Use of characteristic curves/ charts / catalogs from manufactures for selection of pump for the

designed discharge.

DCE-305 BUILDING DRAWING


DCE-305 BUILDING DRAWING 4 2 6

OBJECTIVES:

• To develop in students, graphic skills for communication of concepts, ideas and design of

engineering products.

• To expose them to existing national standards related to technical drawings.

OUTCOMES:

On Completion of the course the student will be able to

• perform free hand sketching of basic geometrical constructions and multiple views of objects.

• do orthographic projection of lines and plane surfaces.

• draw projections and solids and development of surfaces.

• prepare isometric and perspective sections of simple solids.

• demonstrate computer aided drafting.

UNIT-I

8hrs

CONVENTIONS :. Conventions as per IS:962-1967 and other practices Types of Lines – Visible line,

Centerline, Hidden line, Section line, Dimension line, Extension line, Pointers, Arrow heads or dots.

Dimensioning systems. Symbols – Materials used in construction, building components. Reading of

available ammonia prints of residential buildings

UNIT-II

8hrs

PLANNING OF BUILDING : Principles of planning of Residential and Public building. Space

requirements and norms for various units of Residential and Public building. Rules and byelaws of

local governing authorities for construction. Drawing of line plans for Residential and Public

building.

UNIT-III

7hrs

BUILDING DRAWING : Development of plan from line plan of a residential building, Elevation,

Section, Site plan, Location Plan, Foundation plan, Area statement and other details. Submission

Drawing and Working Drawing.

UNIT-IV

9hrs

DETAILED DRAWING: Drawing of staircase, drawing of steel truss & lean to roof, drawing of

layout plan of water supply line with accessories. Layout plan of sanitary line - position of

inspection chamber, septic tank, sanitary fittings. Position of wash basin, sink etc.

UNIT-V

9hrs

PERSPECTIVE DRAWING : Definition, Necessity, Principles of Perspective Drawing, Terms used in

perspective drawing, Two point perspective view of a small object like pedestal, step block, small

single storied building with flat roof etc.

REFERENCES:-

1 Text Book of BuildingDrawing, Shah, Kale & Patki

2. Elements of Building Drawing, D. M. Mahajan

3 Planning and Design of Building Y. S. Sane

4 Civil Engineering Drawing Malik & Meo, New Asian Publishers New Delhi .

5 Building Drawing,. V.B.Sikka

LIST OF EXPERIMENTS

1. Drawing various types of lines, lettering and symbols of materials, doors and windows etc. Used

in construction on Full Imperial size drawing sheet.

2. Drawing the lines plans of following buildings on Full Imperial size graphpaper.

3. Residential Building ( Min. three rooms )

4. Public Building – School building, Primary health center / Hospital building, Bank, Post Office,

Hostel building etc.(At least four)

5.Measured Drawing of an existing residential Building (Load bearing/ Framed structure Type ) ,

showing Plan , Elevation, Sections, Construction notes, Schedule of openings, Site Plan, Area

statement etc.

6.Submission Drawing of two storied residential building (Framed structure type) showing Plans ,

Elevation, Sections, Foundation Plan ,construction notes, Schedule of openings, Site Plan ,Area

statement etc.

7. Working drawing of above drawing sheet preferably one plan, section through stair case to scale

1:50

8. Two point perspective view of a building drawn in submission drawing.

9. Tracing of a submission drawing prepared at Sr. No.4 above.

10. Ammonia print of submission drawing prepared at Sr. No.4 above.

DCE-401 ADVANCE SURVEYING


DCE-401 ADVANCE SURVEYING 4 4

OBJECTIVE:-

To study Field survey and the basic requirement for preparing any engineering maps or

drawings.

To carry out Field survey professionally various steps involved in the survey work are

known with skills of operating modern survey equipment.

To study about these aspects so as to develop their understanding, performance oriented

abilities in order to apply their knowledge in construction industry.

OUTCOME:-

After successful completion of this course, students will be able to

Calculate heights of different structures using appropriate instruments.

Calculate relative altitudes and distances of different points on ground.

Perform setting of horizontal curves on field.

Carry-out survey work using total station.

UNIT-I

9hrs

PLANE TABLE SURVEY: Principles of plane table survey. Accessories required. Setting out of plane

table , Leveling ,Centering and orientation. Methods of plane table surveying – Radiation,

Intersection, and Traversing. Merits and Demerits of plane table Surveying. Situations where plane

table survey is used. Use of Telescopic Alidade.

UNIT-II

10hrs

THEODOLITE SURVEY: Components of Transit Theodolite and Their functions. Technical terms

used. Temporary adjustments of Transit Theodolite. errors eliminated by method of repetition.

Measurement of Deflection angle, horizontal angle & Vertical angle. Measurement of magnetic

bearing of a line. Prolonging a Straight line. Sources of errors in Theodolite Surveying. Permanent

adjustment of transit Theodolite. Traversing with Theodolite,Calculation of bearings from angles.

Traverse Computation - Latitude, Departure Consecutive.

UNIT-III

8hrs

TACHEOMETRIC SURVEY: Principle of Tacheometry. Essential requirements of Tacheorneter. Use

of Theodolite as a Tacheometer with staff held in vertical and fixed hair method (No derivation).

Determination of tacheometric constants, simple numerical problems on above topics

UNIT-IV

9hrs

CURVES: Types of curves used in road and railway alignments. Notations of simple circular curve.

Designation of curve by radius and degree of curves. Method of Setting out curve by offset from

Long chord method and Rankine’s method of deflection. angles. Simple Numerical problems on

above topics

UNIT-V

10hrs

ADVANCED SURVEY EQUIPMENTS: Construction and use of one second Micro Optic Theodolite,

Electronic Digital Theodolite. Features of Electronic Theodolite Principle of E.D.M, Components of

E.D.M and their functions, use of E.D.M. Total station , Aerial survey , Remote sensing and its

application.

REFERENCE BOOKS:

1. Surveying and Levelling, N N Basak, Tata Mc Graw-Hill.

2. Surveying and Levelling Part I and II, T .P. Kanetkar & S. V, Kulkarni, PuneVidhyarthi Griha

Prakashan.

3. Surveying and Levelling Vol. I and II Dr. B. C. Punamiya Laxmi Publication.

4. Text book of Surveying, S.K.Husain, M.S. Nagaraj S. Chand and company.

5. Surveying and Levelling Vol. I and II, S. K. Duggal, Tata Mc Graw-Hill.

6. Plane Surveying, A.M.Chandra, New Age International Publishers.

7. Higher Surveying, A.M.Chandra New Age International Publishers.

DCE-402 SOIL MECHANICS


DCE-402 SOIL MECHANICS

4 2 6

OBJECTIVE:-

To study different soil properties and characteristics.

To study different loading conditions soil is subjected to various stresses and problems like

water logging, liquefaction of soil, seepage through soil and settlement.

OUTCOME:-

After successful completion of this course, students will be able to-

Calculate standard soil properties and classify a soil.

Carry-out laboratory tests for measuring engineering property parameters of a soil sample.

Specify the essential features and requirements of site investigation

Calculate stresses in soil under various loading conditions.

UNIT-I

10hrs

PHYSICAL PROPERTIES OF SOIL: Soil as a three phase system. Water content, Determination of

water content by oven drying method. Void ratio, porosity and degree of saturation, density index.

Unit weight of soil mass – bulk unit weight, dry unit weight, unit weight of solids, saturated unit

weight, submerged unit weight. Determination of bulk unit weight and dry unit weight by core

cutter method and sand replacement method. Specific gravity, determination of specific gravity by

pycnometer.

UNIT-II

10hrs

CLASSIFICATION OF SOIL : Field identification tests of fine grained soil, IS. classification chart.

Consistency of soil, stages of consistency, Atterberg's. limits of consistency. Determination of liquid

limit, plastic limit and shrinkage limit as per IS code. Classification of fine grained soil by using

plasticity chart. Seive analysis of soil and sedimentation of soil, log scale of particle size. Strokes

law, Consistency limit diagram. Particle size distribution, mechanical sieve analysis, effective

diameter of soil, Uniformity coefficient and coefficient of curvature, well graded and uniformly

graded soils.

UNIT-III

9hrs

PERMEABILITY OF SOIL & SEEPAGE ANALYSIS : Permeability. Laminar and turbulent flow.

Importance of permeability. Darcy’s law of permeability, coefficient of permeability, typical values

of coefficient of permeability for different soil. Factors affecting permeability. Determination of

coefficient of permeability. Seepage through earthen structures, seepage velocity, seepage

pressure, phreatic line, flow lines and equipotential lines. Flow net, characteristics of flow net,

application of flow net.

UNIT-IV

8hrs

SHEAR STRENGTH OF SOIL: Shear failure of soil, field situation of shear failure. Concept of shear

strength of soil. Components of shearing resistance of soil. Purely cohesive and cohesion less soils.

Laboratory determination of shear strength of soil, plotting strength envelope, determining shear

strength parameters of soil.

UNIT-V

10hrs

COMPACTION OF SOIL & STABILIZATION: Concept of compaction, purpose of compaction.

Standard proctor test , Compaction curve, optimum moisture content, maximum dry density, Zero

air voids line. Modified proctor test. Factors affecting compaction. Field methods of compaction.

CBR test, significance of CBR value. Difference between compaction and consolidation. Concept of

soil stabilization & its necessity Different methods of soil stabilization.

REFERENCE BOOKS:

1. Soil Mechanics & Foundation Engineering, Dr. B. C. Punmia, Standard Book house, New Delhi.

2. Soil Mechanics & Foundation Engineering, V.N.S. Murthi Tata McGraw Hill , New Delhi.

3. Soil Mechanics, B. J. Kasmalkar Pune Vidhyarti Griha, Pune

4. Geo-technical Engineering, Gulhati & Dutta Tata McGraw Hill , New Delhi

LIST OF EXPERIMENT:

1. Determination of water content of given soil sample by oven drying method as per IS Code.

2. Determination of bulk unit weight dry unit weight of soil in field by core cutter method as per IS

Code. 3. Determination of bulk unit weight dry unit weight of soil in field by sand replacement

method as per IS Code.

4. Determination of Liquid limit & Plastic limit of given soil sample as per IS Code.

5.Determination of grain size distribution of given soil sample by mechanical sieve analysis as per

IS Code.

6.Determination of CBR value of given soil sample.

DCE-403 MECHANICS OF STRUCTURE


DCE-403 MECHANICS OF STRUCTURE 4 2 6

OBJECTIVES: • To know the method of finding slope and deflection of beams and trusses using energy theorems and to know the concept of analysing indeterminate beam • To estimate the load carrying capacity of columns, stresses due to unsymmetrical bending and various theories for failure of material. OUTCOMES:

• Students will have through knowledge in analysis of indeterminate beams and use of energy

method for estimating the slope and deflections of beams and trusses.

• They will be in a position to assess the behavior of columns, beams and failure of materials.

UNIT-I 9hrs

STRESS & STRAIN : Definition of rigid body, plastic body, mechanical properties of metal such as elasticity & elastic limit . Definition of stress, strain, modulus of elasticity, S.I. Unit. Stress-strain curve for mild steel and HYSD bar, percentage elongation. Deformation of body- due to axial load, stepped c/s due to axial load, max. stress and min. stress induced. Stresses in bars of composite section & deformation. Shear stress, shear strain & modulus of rigidity, state of simple shear, punching shear.

UNIT-II 8hrs

ELASTIC CONSTANTS & PRINCIPAL STRESSESS: Definition of lateral strain, Poisson’s ratio, bulk modulus, Change in lateral dimensions. Volumetric strain due to uni-axial force and change in volume. Biaxial and tri-axial stresses and volumetric strain & change in volume. Relation between modulus of elasticity, modulus of rigidity and bulk modulus. Definition of principal planes & stresses. Strain Energy : Types of loading, Definition of strain energy, modulus of resilience and proof resilience.

UNIT-III 10hrs

SHEAR FORCE AND BENDING MOMENT: Types of beams, types of loading, support reactions for determinate structures. Concept of shear force and bending moment, sign convention. S.F. and BMD for simply supported beams, overhanging beams and cantilever subjected to point loads, UDL and couples, point of contra flexure. MOMENT OF INERTIA: Concept of M.I, M.I of plane areas. Parallel axis and perpendicular axis theorem, M.I of composite sections, built up sections, symmetrical and unsymmetrical sections, radius of gyration & polar moment of inertia.

UNIT-IV 8hrs

STRESSES IN BEAMS: Bending Stresses in Beams: Concept of pure bending, theory of simple bending, assumptions in theory of bending, neutral axis, bending stresses and their nature, bending stress distribution diagram, moment of resistance. Application of theory of bending. Shear stresses in beams, Shear stress equation, shear stress distribution for type section. Relation between max. shear stress and average shear stress.

UNIT-V

9hrs ANALYSIS OF TRUSSES: Definition frames, classification of frames, perfect, imperfect, redundant

and deficient frame, relation between members and joints, assumption in analysis. Method of joint.

COLUMNS : End conditions, and equivalent length. Slenderness ratio classification as per mode of

failure. Euler’s and Rankine’s formulae. Use of Euler’s and Rankine’s formulae in solving various

problems.

REFERENCE BOOKS:

1 Strength of Materials F. L. Singer, Harpe Collins Publishers India , Delhi

2. Strength of Materials, R. S. Khurmi, S. Chand & Company, Delhi

3 Mechanics of Structures, S. B. Junnarkarvolume –I & II, Charotar Publishing House, Anand.

4 Strength of Materials, Sadhu Singh.


1. Torsion test on mild steel rod

2. Impact test on metal specimen

3. Hardness test on metals - Brinnell and Rockwell Hardness Number

4. Deflection test on beams

5. Compression test on helical springs

6. Strain Measurement using Rosette strain gauge

DCE-404 TRANSPORTATION ENGG-I


DCE-404 TRANSPORTATION ENGG-I 4 2 6

OBJECTIVE:-

To know the economy of any country is widely dependent either direct or indirect way on

the transportation of various commodities which in turn dependent upon the “How

efficiently the transportation system of the country is functioning.” Therefore, knowledge

and understanding of various designs, construction and maintenance aspects of roads,

railway and bridges are very important for engineers working at site in order to make

transportation system safe and efficient.

To study about these aspects of roads, railways and bridges so as to develop their

understanding in order to apply their knowledge in improving civil infrastructure for

transportation.

OUTCOME:-

After successful completion of this course, students will be able to

Prepare drawing of basic components of roads as per standards.

Setting out and supervise construction of different types of pavements such as flexible, rigid.

Select appropriate road materials for road construction at different stages as per design and

specification.

Interpret geometric design fundamentals.

UNIT-I

9hrs

OVERVIEW OF TRANSPORTATION ENGINEERING: Role of transportation in the development of

nation. Modes of transportation system – roads, railway, airways, waterways, Importance of each

mode, comparison and their relative merits and demerits. Necessity & importance of Cross

drainage works for roads & railways.

UNIT-II

8hrs

RAILWAY ENGINEERING: Alignment and Gauges, Classification of Indian Railways, zones of Indian

Railway. Alignment- Factors governing rail alignment. Rail Gauges – types, factors affecting

selection of gauge. Rail track cross sections – standard cross section of BG & M.G Single & double

line in cutting and embankment. Permanent ways.

UNIT-III

10hrs

IDEAL REQUIREMENT, COMPONENT PARTS: Rails – function & its types. Rail Joints –

requirements, types, Creep of rail - causes & prevention of creep. Sleepers – functions &

Requirement, types & their suitability, sleeper density. Ballast – function & different types with

their properties, relative merits & demerits. Rail fixtures & fastenings. Gradient & its types, Super

elevation, limits of Super elevation on curves, Cant deficiency, negative cant. Definition of point &

crossing. Inspection of points and crossings. Station and Yards: Site selection for railway stations,

Requirements of railway station, Types of stations & various types of yards.

UNIT-IV

9hrs

BRIDGE ENGINEERING : Site selection and investigation Factors affecting selection of site of a

bridge. Bridge alignment, Classification of bridges according to function, material, span, size,

position of HFL. Component parts of bridge. Plan & sectional elevation of bridge showing

component parts of substructure & super structure. Different terminology used in bridges etc.

Foundation-function, types, requirements. Abutment, Wing walls & Bearing – functions & types.

Permanent and Temporary Bridges.

UNIT-V

10hrs

TUNNEL ENGINEERING: Definition, necessity, advantages, disadvantages. Classification of tunnels.

Shape and Size of tunnels. Tunnel Cross sections for highway and railways. Tunnel investigations

and surveying –Tunnel surveying locating center line on ground. Shaft - its purpose & construction.

Methods of tunneling in Soft rock & in Hard rock. Precautions in construction of tunnels. Drilling

equipments. Tunnel lining and ventilation.

REFERENCE BOOKS:

1.Railway Engineering, S.C. Saxena Dhanpatrai & sons 2. Railway Track K.R. Antia, The New Book Co. Pvt. Ltd Mumbai 3. Principles of Railway Engineering S.C. Rangwala, Charotar Publication. 4. Principles and Practice of Bridge Engineering, S.P. Bindra Dhanpatrai & sons. 5. A Text Book of Transportation Engineering N.L.Arora and S.P.Luthra, IPH New Delhi. 6. Elements of Bridge Engineering J.S. Alagia Charotar Public . 7. Tunnel Engineering, S.C. Saxena, Dhanpatrai & sons.

LIST OF EXPERIMENT:

1. To Determine The Crushing Value of Coarse Aggregates. 2. To determine the penetration Value of Bitumen. 3. To Determine the Impact Value of Coarse Aggregates. 4. Determination of CBR Value of soil sample in the Lab or in Field. 5. To determine the Flash and Fire Point of Bituminous material.

DCE-405 ENTREPRENEURSHIP


DCE-405 ENTREPRENEURSHIP 4 4

OBJECTIVES:-

The purpose of the course is that the students acquire necessary knowledge and skills required for

organizing and carrying out entrepreneurial activities, to develop the ability of analysing and

understanding business situations in which entrepreneurs act and to master the knowledge

necessary to plan entrepreneurial activities. The objective of the course is, further on, that the

students develop the ability of analysing various aspects of entrepreneurship – especially of taking

over the risk, and the specificities as well as the pattern of entrepreneurship development and,

finally, to contribute to their entrepreneurial and managerial potentials.

OUTCOME:-

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

Have the ability to discern distinct entrepreneurial traits

Know the parameters to assess opportunities and constraints for new business ideas

Understand the systematic process to select and screen a business idea

Design strategies for successful implementation of ideas

Write a business plan

UNIT-I

9hrs

INTRODUCTION TO ENTERPRENEURSHIP • Definition of Entrepreneur / Entrepreneur •

Difference between Entrepreneurship / Entrepreneurship • Need for Entrepreneurship • qualities

of successful entrepreneur • Myths about Entrepreneurship • Classification of entrepreneurs on the

basis of different criteria • Reasons for the failure of entrepreneurs

UNIT-II

10hrs

INDUSTRIES AND BUSINESS ORGANIZATIONS • Concept of Industry or Enterprise •

Classification of Industries (a) On the basis of capital investment - Tiny (Micro) Industry - Small

Scale - Medium Scale - Large Scale (b) Others - Rural Industry - Cottage Industry (c) Forms of

Business Organization - Proprietorship - Board & Co-operative - Partnership - Public Ltd. - Private

Ltd. - IT Sector - Government Co-operative / Undertakings (d) Tiny small scale Industry - Definition

- Its significance in National Development. - Govt. policies for SSI promotions.

UNIT-III

10hrs

INSTITUTIONAL ASSISTANCE (a) Types of Institutional assistance - Infra - structural assistance -

Technical Assistance - Financial assistance - Marketing Assistance (b) Information / guidance &

Training - SISI - ASK - MPCON - CSIR - CED- MA - NRDC (c) Infrastructure - D/C - AVN/AKVN (e)

Finance - SIDBI - KVIB MPFC - NABARD - MPWDC NSIC M.P.A.V.V.N. (d) Marketing - MP- AGRO -

NSIC - PM.LUN - EXPORT COPPORATION - KVIP - MPHSVN MPLDC (e) Quality Control - BIS - FPO -

MPLUN F.D.A. - AG. MKT. Board.

UNIT-IV

10hrs

INCENTIVES / CONCESSION / FACITLITIES AVAILABLE • Seed money • Incentive / subsidies •

Others ( Phones, Lands etc). PLANNING OF AN INDUSTRIAL UNIT (SSI) • Pre- Planning Stage -

Scanning the environment - Market survey - Seeking information - product / project selection •

Implementation Stage - PPR Preparation - DIC registration - Arrangement of Land - Arrangement of

Power - Obtaining NOC / Licenses from various departments - DPR Preparation - Seeking financial

assistance - Commercial Production • Post Implementation stage - Permanent registration from

D.I.C. - Availing Subsidies - Diversification / Modification - Setting up of marketing channel /

Distribution.

UNIT-V

8hrs

ACHIVEMENT MOTIVATION • Historical perspective • Concept of achievement motivation •

Significance of achievement motivation • Development of achievement motivation FINANCIAL

MANAGEMENT OF AN INDUSTRIAL UNIT (SSI) • Tools of financial analysis • Ratio analysis • Fund

Flow / Cash flow analysis • Working capital and concepts • Financial accounting.

REFERENCE BOOKS:

1 Entreprenerial Development Vol. I,II,III By Vasant desai Himalaya Publicaton

2 CEDMAP (Center of Entrepreneurial development Madhya Pradesh)

3. Udyamita Vikas By Anand Prakashan

.

DCE- 501 IRRIGATION ENGINEERING


DCE- 501 IRRIGATION ENGINEERING 4 4

OBJECTIVE:-

To introduce the students to the concept of soil-plant characteristics and their water

requirements and to understand the necessity of planning an irrigation system to provide

water at the right time and right place.

To develop theoretical knowledge with emphasis on certain aspects of irrigation

engineering an attempt has been made. The topics viz. hydrology, runoff, rain gauges, etc.

have been specifically dealt in the curriculum.

To understand the design of canals and reservoirs.

OUTCOME:-

Describe the irrigation and its different methods. Describe the basics of requirements and estimation of crop water Design the various types of hydraulic structure includes dams, reservoir and canals. Design the components of irrigation canal include canal drops and cross drainage works Apply the concepts of Irrigation water management, water user association for participatory

irrigation management. To know the basic knowledge about the processing of rainfall data

UNIT-I 10 hrs

INTRODUCTION :- Definition – Irrigation and irrigation engineering, advantages of irrigation,

types of irrigation project, Methods of irrigation. Analyze data for irrigation project, supervision of

reservoir and canal structure, weir and barrages, lift irrigation scheme, its suitability, advantages

and limitations Capacity of reservoir ,Principle of Hydrology Relation between water and crop

Rainfall, Crops, Dams Weir, Barrages, Area Capacity curve Capacity Canal Concept of runoff duty

delta and base period.

UNIT-II 11 hrs

HYDROLOGY:- Hydrological cycle, Definition of rainfall , rain gauge and rain gauge station , types

of rain gauges (names only) average annual rain fall and its calculation , definition of run off, factor

affecting run off, calculation of run off by run off coefficient, English formula , Stranges and Binnie’s

tables and curves. Maximum flood discharge and methods of calculation. Unit hydrograph Yield and

Dependable yield and methods calculation.

UNIT-III 8 hrs

INVESTIGATION AND RESERVOIR PLANNING:- Survey for irrigation project data collected for

irrigation project. Area capacity curve, silting of reservoir, rate of silting, factors affecting silting,

methods to control levels and respective storage in reservoir. Fixing control levels.

UNIT-IV 09 hrs

DIVERTION HEAD WORKS:- Weirs – components parts, unction and types, layout of diversion

head works wits its components and their function, canal head regular, silt excluders and silt

ejectors. Barrages – components and their function, Difference between weir and barrage irrigation

department standard design and specifications.

UNIT-V 11 hrs

CANALS:- Classification of canals according to alignment and position in the canal network. Design

of most economical canal section. Canal lining – Definition, purpose, types of canal lining

advantages of canal lining properties of good canal lining material. CD. works- different C.D. works,

canal falls, escapes, cross regulators and canal outlets.

REFERENCE BOOKS-

1.Irrigation and water power Engineering B.C. PUNAMIYA

2. Introductory Irrigation Engineering B.C. PUNAMIYA

3. Fundamental principle of Irrigation Engineering V.B. Priyani

4. Fundamental principles of Irrigation Engineering Bharat Singh

5. Irrigation Engineering. & Hydraulic structures S.K. Garg.

DCE- 502 QUANTITATIVE SURVEYING ESTIMATING & COSTING – I


DCE- 502 QUANTITATIVE SURVEYING ESTIMATING & COSTING – I

4 4

OBJECTIVE:- To study about basic units, measurement and quantities. Prepare rate analysis of different item works, quantity of items and valuation of properties. To study about the methods of computing the quantities. To study the estimate of compound wall, Two room up to plinth, Single storey and two-

storey residential building, R.C.C Beam, R.C.C column with footing, R.C.C slab, R.C.C weather shed and R.C.C retaining wall.

OUTCOME:- To know the basic measurements method, rate analysis, quantity of items and valuation of

properties. To know about specifications and rate analysis. To know the estimation and valuation.

UNIT-I 09hrs Overview Of Estimating & Costing :- Meaning of the terms estimating, costing. Purpose of estimating and costing . Types of estimate – Approximate Detailed. Approximate estimate Types- Plinth area rate method, Cubic Content method, Service Unit method, Approximate Quantity method , Problems on Plinth area rate method & application of Service Types of estimate Detailed estimate for new work. UNIT-II

10hrs Detailed Estimate:- Unit quantity method, Total quantity method, Data required for detailed estimate. Factors to be considered during estimate, Specification, Quantity availability of material, Location of site, Labour Component. Steps in preparing detailed estimate. Taking out quantities, squaring, abstracting. Preparing check list – by adoption of Sequence of execution. drafting Brief Specification of items, contents Abstract sheet , measurement sheet

UNIT-III 8hrs

Mode of Measurements :- General Rules for fixing units of Measurements for different– items of work as per IS 1200 & As per PWD Hand Book Desired accuracy in taking measurements of various items of work & rules for deductions as per IS 1200 & P.W.D. handbook.

UNIT-IV

10hrs

Procedure for Preparing Detailed Estimate:- Procedure for taking out quantities for various items of works by P.W.D & IS 1200 for. a) for Load bearing Structure –Long Wall and short wall method , Center line method . b) Framed Structure building. -- - By using thumb rules for reinforcement quantity calculation - By preparing bar bending Schedule Provisions in detailed estimate for contingencies, work charged establishment, Provisional items, Provisional Sum, Provision for water Supply & Sanitary works, Electrical wiring & installations, centage charges, Tools & Plants, Prime cost, Day work.

UNIT-V 10hrs

Rate analysis ;- Meaning of term Rate analysis –Factors affecting rate analysis, lead, lift, task work, materials and labour component, Market Rate and labour rate. Transportation of Materials, load factor for different materials. Standard lead , extra lead, Transportation Charges , Labour - Categories of labours, labour rates, overheads contractor’s profit, water charges, taking out quantities of materials for different items of works. Preparing rate analysis of different items of work Standard Schedule of rates, full rates & labour rates.

REFERENCE BOOKS-

1. Estimating & costing in Civil Engineering B.N. Dutta UBS Publishers Distributors

Pvt Ltd New Delhi.

2. Estimating & costing, Specification and Valuation in Civil Engineering M. Chakraborti M.

Chakraborti , Calcutta

3. Estimating & costing S.C. Rangwala Charotar Publication Anand

4. Civil Engineering Estimating, Contracts and accounts Vol . I B.S. Patil Orient Longman, Mumbai

5. Estimating & costing G. S. Birdie Dhanpat Rai and Sons Delhi.

DCE-503 WORK ORGANIZATION & MANAGEMENT


DCE-503 WORK ORGANIZATION & MANAGEMENT

4 2 6

OBJECTIVE:- To study about P.W.D. functions, procedure & departmental method. To study the preparation of contract and tender. To study about the accounts of P.W.D. and payment mode to contractor.

OUTCOME:-

To know the procedure of P.W.D. work. To know about preparation of contract and tender. To know the payment mode to contractor and accounts of P.W.D.

UNIT-I 10 hrs

PROCEDURE OF EXECUTION OF WORK BY P.W.D ORGANIZATION:- of P.W.D. functions of their personnel. P.W.D. procedure of initiating the work administrative approval, technical sanction, budget provision. Method used in P.W.D. for carrying out works contract method and departmental method, Rate list method, piece work method, day’s work method, department method.

UNIT-II 10 hrs

CONTRACT:- Definition of contract, objects of contract, requirements of valid contract. Types of engineering contract- Lump sum contract, item rate contract, percentage rate contract, cost plus percentage, cost plus fixed fee, cost plus variable percentage and cost plus variable fee contract, labor contract, demolition contract , fee contract, target contract, negotiated contract. Class of contractor, Registration of contractor BOT Project.

UNIT-III 10 hrs

TENDER AND TENDER DOCUMENT- Tender-Definition & its necessity, Types of Local & Global .Tender Notice-points to be included while drafting Tender Notice & Drafting. Meaning of terms: Earnest money, security deposit, validity period, right to reject one or all tenders, corrigendum to tender notice and its necessary. Tender documents – List & scheduled. Terms related to Tender documents. Filling the tender by contractor and points to be observed by him. Procedure- submitting filled in Tender document & opening tender.

UNIT-IV 7 hrs

ACCOUNTS OF P.W.D.:- Various Accounts Forms and their uses – measurement, Books, Nominal Muster Roll, Imprest Cash, indent, Invoice, Bills, Vouchers, Cash Book, Temporary advance

UNIT-V 8 hrs

PAYMENT TO CONTRACTORS MODE OF PAYMENT TO THE CONTRACTOR : Interim payment and its necessity, Advance payment, secured advance, on account payment, Final payment, first and final payment, retention money, reduced rate payment, petty advance, mobilization advance.

REFERENCES :-

1. A.B.C. of PWD Accounts C.M. Kaul

2. Overseer accounts & Duties Kumar

3. PWD Managements, Accounts & Labour Relation H.S. Pandit

4. Construction Management & PWD Accounts Agrawal & Arora

5. MPPWD Manual Vol.-I & Vol.-II

6. Manual of Labour Relations R.C. Shrivastava

7. Civil Engineering management O.N. Wakhle, D.K. Publisher

8. Estimating & costing in civil Engineering B.N. Datta USB Publisher

9. Estimating & costing G.S. Birdie Dhanpat rai & son

LIST OF EXPERIMENTS :

1. Collecting old set of tender document and writing a report on it.

2. Collection of tender notices published in newspapers for various items of civil engineering works

(At least 5) write salient features of them.

3. Drafting Tender Notice for construction of a Civil Engineering work (W.B.M. Road, Residential

Building)

4. Preparation of Tender Document for the building. (Detailed Estimate prepared for R.C.C. building

in estimating and costing shall be used)

5. Collection of various account forms from PWD & wiring report on in it.

6. Writing a report on store procedure and account producer of PWD. For it A – a) Guest Lecture of

PWD Official may be arranged.

7. Writing detailed specifications for one item from each of following :

A) Building construction system. B) Irrigation engineering system. C) Transportation engineering

system. D) Environment engineering system.

8. Solving CPM and Net work problems

9. Preparation a ‘ E” Tendering of a particular project .

VISITS : 1. Visit to public sector/Govt. Industry/ Organization.like PWD ,RES, 2. Visit to private sector Industry.

DCE-504 TRANSPORTATION ENGINEERING-II


DCE-504 TRANSPORTATION ENGINEERING-II

4 2 6

OBJECTIVES:-

The Course will try to introduce the basic engineering principles that helps in the planning, design,

construction, operation and maintenance of Railways and Airports.

OUTCOMES:-

Can handle the design, construction, and operation of railroads and mass transit systems

that use a fixed guideway.

Tasks that include determining horizontal and vertical alignment design, station location

and design, and construction cost estimating.

Will able to design and construct airports.

Can account for the impacts and demands of aircraft in their design of airport facilities.

UNIT-I

8 hrs

ROAD ENGINEERING- Importance of road in India. Classification of roads according to Nagpur plan (Location and function), and third road development plan. Traffic and tonnage, Classification of urban roads. different road yojana , like pradhan mantra gram sadak yojana ,Mukhya mantri sadak yojna. UNIT-II

9 hrs INVESTIGATION FOR ROAD PROJECT - Reconnaissance survey, Preliminary survey and Location survey for a road project. Detailed survey for cross drainage- L-section and C/S sections. Fixing the alignment of road, factors affecting alignment of road. Drawings required for road project- Key map, Index map, Preliminary survey plan and detailed location survey plan, L section and C/S sections cross drainage work, land acquisition plan. Survey for availability of construction material, location plan of quarries. UNIT-III

8 hrs IDEAL REQUIREMENT, COMPONENT PARTS GEOMETRIC DESIGN OF HIGHWAYS- Camber- definition, purpose, types, IRC – specifications. Kerbs , road margin, road formation, right of way. Design speed. Gradient , Sight distance. Curves–Necessity, types. Widening of roads on curves. Super Elevation and methods of providing super elevation. Sketching of standard C/S of national highway in embankment and cutting. Simple problems on geometric design of road. UNIT-IV

10hrs CONSTRUCTION OF ROADS PAVEMENTS AND MATERIALS- Types of road materials and Tests – soil, aggregates, bitumen, Cement Concrete. Test on soil sub grade, Aggregate & bitumen. Pavement – objective, structure & function of pavement components, types of pavement. Construction of earthen road – general terms used- borrows pits, spoil bank, lead and lift, balancing of earthwork. Soil stabilized roads – necessity, methods of soil stabilization. Water bound macadam roads construction procedure. Construction of bituminous roads & Terms used in it. Types of bituminous surface, Bitumen/Tar carpets – procedure of construction. Cement concrete pavements- Construction procedure and equipment, Construction joints, joint filler & sealer.

UNIT-V 09 hrs

DRAINAGE OF ROADS- Surface drainage – side gutter, catch water drains, surface drainage. Sub-surface drainage –Longitudinal drains and cross drains. Maintenance and Repairs of Roads – Necessity of maintenance of roads, Classification of maintenance operation – ordinary, routine and periodic maintenance. Maintenance of W.B.M., bituminous and cement concrete roads.

REFERENCE BOOKS-

1. Highway Engineering Khanna & Justo Khanna Pub.

2. Transportation Engineering N.L.Arora,S.P.Luthara I.P.H. New Delhi

3. Transportation Engineering Vazarani & Chandola Khanna Pub.

4. Road, Railway, Bridges Biridi & Ahuja. S.B.H.New Delhi

5. Transportation Engineering Kamala T.M.H. New Delh


1. Road project for a road of minimum 0.5 km. length having at least one small cross drainage work.

2. Visit to a road under construction/constructed to study the construction of (a) WBM road (b)

flexible pavement (c) Rigid pavement roads for observing the type of construction and construction

equipment.

3. Preparing drawings of detailed cross sections of (a) major district road (b) state Highway (c)

National highway (d) Express Highway in cutting and banking showing details and dimensions

with proper scale. (Any two)

4. Traffic volume study and its representation of an important road intersection in your city.

5. Visit to a W.B.M. and Bituminous road for observing the different types of defects in roads.

6. Prepare a visit report. Which should consist of (a) List of various defects observed b) Suggestions

regarding the possible remedial measure.

7. Types of road materials and Tests – soil, aggregates, bitumen, Cement Concrete. Test on soil sub

grade- C.B.R. test, Test on Aggregate – Los Angeles abrasion, impact, and shape test. Tests on

bitumen- Penetration, Ductility and Softening point test.

8. Study of Different Highway software. Road SOR , MOST 1- Geometrics 2- Pythagoras 3- C-Lx

DCE-505 STRUCTURAL DESIGN AND DRAFTING


DCE-505 STRUCTURAL DESIGN AND DRAFTING

4 2 6

OBJECTIVE:- To impart knowledge on basic of concepts of design of reinforced concrete structures and to make the students able to design and detail the basic elements like beam, slab, column, footing and staircase. OUTCOMES:

Design the beam under shear and torsion, Calculate the anchorage and development length

and check the serviceability requirements for RC structural elements.

Design a RC slab and staircase and draw the reinforcement details.

UNIT - I 8 hrs

BASIC PRINCIPLES OF STRUCTURAL DESIGN : Assumptions, Mechanism of load transfer, Various properties of concrete and reinforcing steel, Introduction to working stress method and limit state methods of design, partial safety factor for load and material. Calculation of various loads for structural design of singly reinforced beam, Partial load factors.

UNIT - II 8 hrs.

DESIGN OF BEAMS: Doubly reinforced rectangular & Flanged Beams, Lintel, Cantilever, simply supported and continuous beams, Beams with compression reinforcement: Redistribution of moments in continuous beams, Circular girders: Deep beams. Design of beam for shear and bond.

UNIT-III 7 hrs

DESIGN OF SLABS: Slabs spanning in one direction. Cantilever, Simply supported and Continous slabs, Slabs spanning in two directions, Circular slabs, Waffle slabs, Flat slabs, Yield line theory.

UNIT -IV 10 hrs

COLUMNS & FOOTINGS: Effective length of columns, Short and long cloumns- Square, Rectangular and Circular columns, Isolated and combined footings, Strap footing, Columns subjected to axial loads and bending moments (sections with no tension), Raft foundation.

UNIT -V 10 hrs

STAIRCASES: Staircases with waist slab having equal and unequal flights with different support conditions,Slabless tread-riser staircase. NOTE :- All the designs for strength and serviceability should strictly be as per the latest version of IS:456. Use of SP-16 (Design aids)

REFRENCE BOOKS: -

1. Plain & Reinforced Concrete Vol. I & II – O.P. Jain & Jay Krishna

2. Limit State Design by P.C.Varghese ; Prentice Hall of India, New Delhi

3. Design of Reinforced Concrete Elements by Purushothman; Tata McGraw Hill, New Delhi

4.. Plain & reinforced concrete - Rammuttham

5. Plain & reinforced concrete – B.C. Punmia

Sketch book: (LIST OF EXPRIMENTS)

Sketch book consists of approximately ten plates from R.C.C. Design shall include important

information of clauses of IS 456-2000 code. Typical sketches of components members/stress

distribution & strain distribution diagrams R.C.C. section / detailing of reinforcement in joints /

members. Design of R.C.C. structural components by LSM. Introduction to RCC design software

STAAD.PRO The students should make detailed simple design and drawing of reinforcement

detailing on two full imperial size sheets finished in pencil on any five of the following R.C.C.

components members of a two-storied building with detailing of reinforcement (G+1) at the joints

as per requirements & IS 13920.

1. One-way simply supported slab.

2. Two-way simply supported slab.

3. Cantilever slab/chajja.

4. T-Beam

5. Column and column footing.

6. Dog-legged staircase

DCE-506

FIELD VISIT


DCE-506 FIELD VISIT 2 2

1. FIELD VISITS –

a) Visit to a construction site where the RCC work is in progress.

b) Visit to a construction site where the irrigation work is in progress.

c) Visit to a bridge site. Batching plant for cement concrete and bituminous road

d) Visit to water treatment plant.

e) Visit to a dam site Canal site.

f) Visit for a power plant site.

g) Visit for a construction site where multistoried mal /shoping complex

2. SEMINAR –

a) Seminar on low cost housing ,

b) Inter linking of rivers & irrigation structure rain water harvesting.

c) Cement concrete roads & joints in cement concrete roads .

d) Traffic engineering .

e) Ductile detailing ,

f) use of different ISI codes for civil engineers ,releted to RCC & Earth quake resistant structure

g) Earthquake resistant structure ,design concepts for buildings

DCE-601 PUBLIC HEALTH ENGINEERING


DCE-601

PUBLIC HEALTH ENGINEERING

4 4

OBJECTIVES:-

To introduce the students to the concept of Public health engineering and to understand the

necessity and importance of public health engineering.

To know that ground water table is declining rapidly due to its excessive use and misuse

and also due to insufficient rainfall every year.

To understand the quality of water and methods of purification of water.

To understand the building sanitation and rural sanitation.

OUTCOME:-

To know the needs and importance of public health engineering. To know about the sources of water its quality and purification process. To know the building sanitation and rural sanitation.

UNIT-I 6 hrs

Introduction: Duties of P.H. Engineer, Need and importance of P.H.E. UNIT-II

11 hrs Quantity of Water & Source of water : Demands of water: Domestic, Industrial, Commercial & Institutional, Public use, Losses and wastes, Fire demand ;Factors affecting rate of Demand, Variations of water demands, Forecasting of population, Methods of forecasting of population, Design period for water supply scheme. Estimation of quantity of water supply required for a town or city, Types of water supply schemes Source of water: Surface and Subsurface sources of water, Ground water, Open well, Tube-Well, infiltration well, infiltration gallery, infiltration pipes. Construction of dug well. Construction of tube well, Well Testing. Yield of well., Intake Structures-Definition and types, Factors governing the location of an intake structure, Water conservation, Ground water recharging – Necessity Importance and advantages.

UNIT-III 11 hrs

Quality of Water & Purification of Water: Effect of different impurities on water, surface/ground water, Water borne disease. Need for analysis of water, Characteristics of water-Physical, Chemical and Biological, Testing of water for Total solids, hardness, chlorides, dissolved Oxygen, pH, Bacteriological tests, Sampling of water, Water quality standards as per I.S. Purification of Water : Screening- Types of screens, Aeration- objects and methods of aeration, Plain sedimentation, Sedimentation with coagulation, principles of coagulation, types of coagulants, Jar Test, process of coagulation, types of sedimentation tanks, Filtration theory of filtration, classification of filters : slow sand filter, rapid sand filter, pressure filter, domestic filter, filter media, construction and working of slow sand filter and rapid sand filter, Disinfection: Objects, methods of disinfection, Chlorination- Application of chlorine, forms of chlorination, types of chlorination practices, residual chlorine and its importance, Flow diagram of water treatment plants.

UNIT-IV 10 hrs

Building Sanitation : Importance and necessity of sanitation, Necessity to treat domestic sewage, Recycling and Reuse of domestic waste Definitions Sewage, sullage, types of sewage, Definitions of the terms related to Building Sanitation-Water pipe, Rain water pipe, Soil pipe , Sullage pipe, Vent pipe, Building Sanitary fittings- Water closet – Indian and European type, flushing cistern, wash basin, sinks, Urinals, Traps- types, Systems of plumbing – one pipe, two pipe, single stack, layoutplan for building sanitary fittings (drainage plan) , inspection and junction chambers, their necessity, location

UNIT-V 9 hrs

Rural Sanitation: Environmental Sanitation Necessity and importance, rural sanitation- Types of Privies – Aqua privy and Bore Hole Latrine construction and working Composting (Nadep or Vermiculture). LIST OF REFEENCE BOOKS: 1. Text Book of Water supply and sanitary Engg. Husain. S.K. Oxford and IBH publishing Co. NewDelhi 2. Water supply and Sanitary Engg. Birdie, G.S. and Bridie, J.S. Dhanpat Rai & Sons, Delhi 3 Jal Apurti Evam Swachchhata Engg. Sunil and Rajjan Navbhart Prakashan, Meerut 4 Water Supply & Sanitary Engg. Gurucharan Singh Standard Publishers 5 The committee on PHE Manual and code of practice, The Ministry of Health, Govt. of India, “PHE Manual and code of practice – Sections, I, II, III and IV

DCE-602 QUANTITY SURVEYING & COSTING-II

Subject Code Subject Name L P Total credit DCE-602

QUANTITY SURVEYING & COSTING-II

4 4

OBJECTIVE:-

To study about estimation of different type of structures. Prepare estimation of steel, timber and R.C.C. structures. To study about the methods of computing the quantities. To study the estimate of R.C.C Beam, R.C.C column with footing, R.C.C slab, steel timber

structure, culverts, bridges, water supply and sanitary fitting. OUTCOME:-

To know the preparation of estimation of different structure i.e. R.C.C strcture, Steel and timber structure, culverts, bridges, water supply and sanitary fitting.

To know about specifications and rate analysis. To know the estimation and valuation.

UNIT-I 09 hrs

Estimate of R.C.C. Structure: Estimate of slab, beam, T-beam. Estimate of R.C.C. column with its footing. Preparation of Abstract of above items. Preparation of Bar bending schedule, and to calculate amount of steel

UNIT-II 10 hrs

Estimate of Steel / Timber Structures: Estimate of steel column (Stanchion) Estimate of steel Truss and Gusset Plate. Estimate of Roof covering materials.G.I. Roof, A.C. Roof. Estimate of steel frames for Doors & Windows. Estimate of Wooden Doors and Windows. Estimate of Roof Covering materials.

UNIT-III 09 hrs

Estimate of Culverts & Bridges: Estimate of Hume pipe culvert with splayed type of wing wall, Turn wall, and face wall. Estimate of R.C.C. Slab Bridge, straight type wing walls.

UNIT-IV

10 hrs Estimate of Water Supply and Sanitary Fittings: Detailed Estimate of Water Supply for building work. Detailed Estimate of Sanitary works for building work. Estimate of S.W. pipe line. Estimate of Septic Tank.

UNIT-V 11 hrs

Valuation & Rent Fixation: Definition, Necessity of Valuation. Defination, Cost price, Value, Difference between them. Types of value, Book value, scrap value, salvage value, Market value, Depreciation, obsolescence, Sinking fund. Methods of calculation of depreciation, straight line method, sinking fund method constant percentage method, quantity survey method. Computation of capitalized value, Gross income, outgoing, net income, Years purchase. Types of outgoing and their percentages. Valuation of Lands & Buildings, factors affecting their valuation, Fixation of Rent as per PWD practice.

LIST OF REFEENCE BOOKS:- 1. Estimating and costing By. B.N. Dutta S.Datta & Co. Tagroe Path Motilal Bose Road, Lucknow. 2. Estimating and costing & Valuation By Rangwala Charotar Publications Station Road, Anand 3 Estimating & Costing By Birdie, J.C, Kapoor Dhanpat Rai & Sons Delhi and Jullundur. 4 Estimating & Costing Vol-I & Vol.-II By J.C. Malhotra Khanna Publishers 2B, Nath Market, Nai Sarak New Delhi

DCE-603 STRUCTURAL DESIGN & DRAFTING-II (STEEL)


DCE-603

STRUCTURAL DESIGN & DRAFTING-II STEEL

4 2 6

OBJECTIVE:

Analysis and design of steel structure. Design of bolted and welded connections. Analysis and design of axially loaded tension member, axially loaded column, design of

lacing and batten system, design of slab base foundation. OUTCOME:

1) To know the basic properties of steel and to understand the behavior according to it.

2) To know the different steel structure analysis and design. 3) To know the design and analysis of angle sections, bolted & welded connection. 4) Design of steel structures according to IS-800-2007 by limit state method.

UNIT-I

8 hrs Introduction : Types of sections used, Hollow Square section Rectangular section Tubular section, Z Section, Angle Section, T, I, C, L Section etc. Grades of steel and strength characteristics; advantages and disadvantages of steel as construction material; Use of steel table and relevant I. S. code; Types of loads on steel structure and its I. S. code specification.

UNIT-II 09 hrs

Connections: Riveted connections, Types of rivets and their use, Nominal dia, Gross dia. Unwin’s formula, Pitch of rivets, Edge distance, Tacking rivets, and permissible stress in rivet riveted joint and its failure, Strength of riveted joint and efficiency of a riveted joint. Assumptions in theory of riveted joint, Design of riveted joint for axially loaded member. Eccentric riveted connection Welded connection Introduction, Permissible stress in weld, strength of weld, advantages and disadvantages of welded joint. Types of weld and their symbols. Design of fillet weld and butt weld subjected to axial load.

UNIT-III 07 hrs

Tension member: Types of Sections used, Permissible Stresses in Axial Tension, gross and net cross sectional area of tension member, Analysis and design of tension member with welded and riveted connection.

UNIT-IV 10 hrs

Compression Member: Criteria of failure of short column and long column, end conditions Effective length of a column, slenderness ratio and corresponding compressive stress: Angle struts Types of sections used, Analysis and Design of axially loaded angle struts with welded and riveted connection. Stanchion and Columns, types of sections used, simple and built up sections. Analysis and design of axially loaded column. Design of compound column. Design of lacing angles and Batten plates.

UNIT-V 09 hrs

Column Bases: Types of column bases, design of slab base & concrete block. Cleat angles, their use and introduction to gusseted base (no numerical problems on gusseted Base) Timber Structures: Grades of Timber – stress in timber. Factors affecting stress/strength of timber. Design of Timber column & Timber Beam. LIST OF EXPERIMENTS:- Term work shall consist of sketch book and design report of steel roof truss for an industrial building. Sketch book shall consists of any five plates out of the below mentioned 1. Sketching of different types of riveted joints and welded joints. Typical sketches of sections of tension member, determination of net effective cross-sectional area of tension member for angle section. 2. Typical sketches of sections of compression member, lacing and battening. 3. Graphical solution of frames to find out the stress in the member. Type of trusses for different spans. 4. Working drawing of steel truss with the details of joint 5. Detailed drawing of slab base and gusseted base. 6. Important information of clauses of IS800-1984 and IS875 LIST OF REFEENCE BOOKS 1 Steel structures By Ramanatham 2. Structural Engg. Vol.-IV (Steel) By Vazirani 3 Steel Structures By Ram Chandra 4 Steel Structures By Arya and Ajmani 5 Steel Structures By Malhotra M.M. 6. I.S. Code 800-1984 7. Steel Structures By R.K. Dhoble & D.S. Dharmadhikari 8. Steel Structures Negg.

DCE-604

SOIL MECHANICS-II


DCE-604

SOIL MECHANICS-II

4 2 6

OBJECTIVES:- To impart knowledge to classify the soil based on index properties and to assess their engineering properties based on the classification. To familiarize the students about the fundamental concepts of compaction, flow through soil, stress transformation, stress distribution, consolidation and shear strength of soils. To impart knowledge of design of both finite and infinite slopes. OUTCOMES:

Analyze the pin-jointed plane and space frames Understand the concept of moment distribution and analysis of continuous beams and rigid

frames with and without sway. Analyze the indeterminate pin jointed plane frames continuous beams and rigid frames

using matrix flexibility method. Understand the concept of matrix stiffness method and analysis of continuous beams, pin

jointed trusses and rigid plane frames.

UNIT - I 08 hrs

Basic Definitions & Index Properties: Definition and scope of soil mechanics, Historical development. Formation of soils. Soil composition. Minerals, Influence of clay minerals on Engineering behaviour. Soil structure. Three phase system. Index properties and their determination. Consistency limits. Classification systems based on particle size and consistency limits.

UNIT - II 08 hrs

Soil Water and Consolidation: Soil water, Permeability Determination of permeability in Laboratory and in field. Seepage and seepage pressure. Flow nets, uses of a flow net, Effective, neutral and total stresses. Compressibility and consolidation, Relationship between pressure and void ratio, Theory of one dimensional consolidation. Consolidation test, Fitting Time curves. Normally and over consolidated clays. Determination of reconsolidation pressure, settlement analysis. Calculation of total settlement.

UNIT – III 07 hrs

Stress Distribution in Soils and Shear Strength of Soils: Stress distribution beneath loaded areas by Boussinesq and water guard’s analysis. New mark’s influence chart. Contact pressure distribution. Mohr - Coulomb’s theory of shear failure of soils, Mohr’s stress circle, Measurement of shear strength, Shear box test, Triaxial compression test, unconfined compression test, Value shear test, Measurement of pore pressure, pore pressure parameters, critical void ratio, Liquefaction.

UNIT-IV 10 hrs

Shallow Foundations: Type of foundations shallow and deep. Bearing capacity of foundation on cohesion less and cohesive soils. General and local shear failures. Factors effecting B.C. Theories of bearing capacity - Prandle, Terzaghi, Balla, Skempton, Meyerh of and Hansan. I.S. code on B.c. Determination of bearing capacity. Limits of total and differential settlements. Plate load test.

UNIT-V

10 hrs Deep Foundation: Pile foundation, Types of piles, estimation of individual and group capacity of piles in cohesion less and cohesive soils. Static and dynamic formulae.. Pile load test, Settlement of pile group, Negative skin friction, under- reamed piles and their design. Piles under tension, inclined and lateral load Caissons. Well foundation. Equilibrium of wells. Analysis for stability tilts and shifts, remedial measures. LIST OF EXPERIMENTS 1. Indian Standard Light Compaction Test/Std. Proctor Test 2. Indian Standard Heavy Compaction Test/Modified Proctor Test 3. Determination of field density by Core Cutter Method 4. Determination of field density by Sand Replacement Method 5. Determination of field density by Water Displacement Method 6. The corifiled Compression Test 7. Triaxial compression test 8. Lab. Vane Shear test 9. CBR Test 10. Demonstration of Plate Load Test SPT & DCPT REFERENCE BOOKS: -- 1. Soil Mechanics & Foundation Engg. by Dr. K.R. Arora - Std. Publishers Delhi 2. Soil Mechanics & Foundation Engg. by B.C. Punmia - Laxmi Publiscations Delhi 3. Modern Geotech. Engg. by Dr. Alam Singh-IBT Publishers Delhi. 4. Geotech. Engg. by C.Venkatramaiah-New AGE International Publishers, Delhi 5. Found. Engg. by GALeonards McGraw Hill Book Co. Inc. 6. Relevant IS Code

MANDATORY COURSES

Sr. No.

Course

Code Course Title Credits Preferred

Semesters

1 MC [Environmental Sciences, Induction Program, NSS/NCC] Constitution of India

Nil I, III, IV,

Total 0

INDUCTION PROGRAM


IP Induction Program(2Hrs/week)

0 0 0

Induction program (mandatory) 3 weeks duration

(Please refer Appendix-A for guidelines & also details available in the curriculum of

Mandatory courses)

Induction program for students to be offered right at the start of the first year.

Physical activity Creative Arts Universal Human Values Literary Proficiency Modules Lectures by Eminent People Visits to local Areas Familiarization to Dept./Branch &

Innovations

A student has to undergo this induction program after joining the institute and before the commencement of classes. Normal classes of the Diploma engineering program shall begin after the students have undergone a three-weeks induction program. The Induction program for students comprises of Physical activities; Creative Arts Literature & Cinema; Social Awareness; Lectures &Visits; Universal Human Values; Familiarization to Department/ Branch, College& Innovations.

NSS/NCC


NSS/NCC

NSS/NCC 2Hrs/Week

0 0 0

OBJECTIVE

To develop qualities of Character, Courage, Comradeship, Discipline, Leadership, Secular Outlook, Spirit of Adventure and the ideals of Selfless Service amongst the Youth of the Country.

To Create a Human Resource of Organized, Trained and Motivated Youth, to Provide Leadership in all Walks of life and be always available for the Service of the Nation

To Provide a Suitable Environment to Motivate the Youth to Take Up a Career in the Armed Forces.

OUTCOMES:

To develop student’s personality through community services Instilling discipline in the souls of the cadets, Imparting leadership, discipline, integration, adventure, military, physical and community

development training

Course Content: The National Cadet Corps (India)) was formed under NCC Act of 1948 and is open to school and college students on voluntary basis. The Cadets are given basic military training in small arms and parades. The motto of NCC is “Unity and Discipline”. One week long NSS camp is organized every year where students undertake various social welfare activities like Blood Donation Camp, Tree Plantation and awareness programs on drug de-addiction, AIDS, Swine-flu and campaign for saving water and cleanliness.

PO/Course

Assesment Tools Types

PO/Course Assesment

Tools

PO 1 PO2 PO3 PO4 PO5 PO6 PO7

PO8 PO9 PO1

0

Engin

eerin

g

Know

ledge

Pro

ble

m

Ana

lysi

s

exper

iment

and

practi

ce

engin

eerin

g

tools

The

Engi

neer

and

Soci

ety

Enviro

nment

and

Sustai

nabilit

y

Et

hic

s

Indiv

idual

and

Tea

m

Wor

k

Commu

nication

Life-

Lon

g

Lear

ning

Direct Tools

Test

Assignments

lab /seminar/ind

ustrial training/projects(Rubrics)

Indirect

Tools

Course end survey

Exit survey

Faculty Survey

Alumni Survey

Program Statistics