academic regulations syllabus - charusat.ac.in€¦ · academic regulations & syllabus ... b.sc...

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ACADEMIC REGULATIONS

& SYLLABUS

Faculty of Technology & Engineering

Bachelor of Technology Programme (Computer Engineering)

CHARUSAT 2015 Page 2 of 250

CHAROTAR UNIVERSITY OF

SCIENCE & TECHNOLOGY

Education Campus Changa, (ECC), hitherto a conglomerate of institutes of professional

education in Engineering, Pharmacy, Computer Applications, Management, Applied

Sciences, Physiotherapy and Nursing, is one of the choicest destinations by students. It

has been transformed into Charotar University of Science and Technology

(CHARUSAT) through an Act by Government of Gujarat. CHARUSAT is permitted to

grant degrees under Section-22 of UGC- Govt. of India.

The journey of CHARUSAT started in the year 2000, with only 240 Students, 4

Programmes, one Institute and an investment of about Rs. 3 Crores (INR 30 million). At

present there are seven different institutes falling under ambit of six different faculties.

The programmes offered by these faculties range from undergraduate (UG) to Ph.D

degrees including M.Phil. These faculties, in all offer 32 different programmes. A quick

glimpse in as under:

Faculty Institute Programmes Offered

Faculty of Technology & Engineering

Charotar Institute of Technology B. Tech

M. Tech

Ph. D

Faculty of Pharmacy Ramanbhai Patel College of Pharmacy

B. Pharm

M. Pharm

Ph. D

PGDCT/

PGDPT

Faculty of Management Studies Indukaka Ipcowala Institute of Management

M.B.A

PGDM

Ph.D

Dual Degree

BBA+MBA

Faculty of Computer Applications

Smt. Chandaben Mohanbhai Patel Institute of Computer Applications

M.C.A/MCA

(Lateral)

M.Sc IT

Ph. D

Dual Degree


BCA+MCA

Faculty of Applied Sciences P.D.Patel Institute of Applied Sciences

M.Sc

M.Phil

Ph.D

Dual Degree

B.Sc+M.Sc

Faculty of Medical Sciences

Ashok and Rita Institute of Physiotherapy

Manikaka Topawala Institute of Nursing Charotar Institute of Paramedical Sciences

B.PT

M.PT

Ph.D

B.Sc (Nursing)

M.Sc

GNM

Ph.D

PGDHA

The development and growth of the institutes have already led to an investment of over

Rs.80 crores (INR 800 Million). The future outlay is planned with an estimate of Rs. 250

Crores (INR 2500 Million).

The University is characterized by state-of-the-art infrastructural facilities, innovative

teaching methods and highly learned faculty members. The University Campus sprawls

over 105 acres of land and is Wi-Fi enabled. It is also recognized as the Greenest Campus

of Gujarat.

CHARUSAT is privileged to have 350 core faculty members, educated and trained in IITs,

IIMs and leading Indian Universities, and with long exposure to industry. It is also proud

of its past students who are employed in prestigious national and multinational

corporations.

From one college to the level of a forward-looking University, CHARUSAT has the vision

of entering the club of premier Universities initially in the country and then globally.

High Moral Values like Honesty, Integrity and Transparency which have been the

foundation of ECC continue to anchor the functioning of CHARUSAT. Banking on the

world class infrastructure and highly qualified and competent faculty, the University is

expected to be catapulted into top 20 Universities in the coming five years. In order to


align with the global requirements, the University has collaborated with internationally

reputed organizations like Pennsylvania State University USA, University at Alabama at

Birmingham USA, Northwick Park Institute UK, ISRO, BARC, etc.

CHARUSAT has designed curricula for all its programmes in line with the current

international practices and emerging requirements. Industrial Visits, Study Tours, Expert

Lectures and Interactive IT enabled Teaching Practice form an integral part of the unique

CHARUSAT pedagogy.

The programmes are credit-based and have continuous evaluation as an important feature.

The pedagogy is student-centred, augurs well for self-learning and motivation for enquiry

and research, and contains innumerable unique features like:

Participatory and interactive discussion-based classes.

Sessions by visiting faculty members drawn from leading academic institutions

and industry.

Regular weekly seminars.

Distinguished lecture series.

Practical, field-based projects and assignments.

Summer training in leading organizations under faculty supervision in relevant

programmes.

Industrial tours and visits.

Extensive use of technology for learning.

Final Placement through campus interviews.

Exploration in the field of knowledge through research and development and

comprehensive industrial linkages will be a hallmark of the University, which will mould

the students for global assignments through technology-based knowledge and critical

skills.


The evaluation of the student is based on grading system. A student has to pursue his/her

programme with diligence for scoring a good Cumulative Grade Point Average (CGPA)

and for succeeding in the chosen profession and life.

CHARUSAT welcomes you for a Bright Future


CHAROTAR UNIVERSITY OF SCIENCE AND TECHNOLOGY

Faculty of Technology and Engineering

ACADEMIC REGULATIONS Bachelor of Technology (Computer Engineering) Programme

Charotar University of Science and Technology (CHARUSAT) CHARUSAT Campus, At Post: Changa 388421, Taluka: Petlad, District: Anand

Phone: 02697-247500, Fax: 02697-247100, Email: [email protected] www.charusat.ac.in

Year 2015-2016


CHARUSAT

FACULTY OF TECHNOLOGY AND ENGINEERING ACADEMIC REGULATIONS

Bachelor of Technology Programmes

To ensure uniform system of education, duration of undergraduate and post graduate programmes, eligibility criteria for and mode of admission, credit load requirement and its distribution between course and system of examination and other related aspects, following academic rules and regulations are recommended.

1. System of Education

The Semester system of education should be followed across The Charotar University of Science and Technology (CHARUSAT) both at Undergraduate and Masters levels. Each semester will be at least 90 working day duration. Every enrolled student will be required to take a specified load of course work in the chosen subject of specialization and also complete a project/dissertation if any.

2. Duration of Programme

Undergraduate programme (B. Tech.)

Minimum 8 semesters (4 academic years) Maximum 12 semesters (6 academic years)

3. Eligibility for admissions

As enacted by Govt. of Gujarat from time to time.

4. Mode of admissions As enacted by Govt. of Gujarat from time to time.

5. Programme structure and Credits As per annexure 1 attached


6. Attendance All activities prescribed under these regulations and enlisted by the course faculty members in their respective course outlines are compulsory for all students pursuing the courses. No exemption will be given to any student regarding attendance except on account of serious personal illness or accident or family calamity that may genuinely prevent a student from attending a particular session or a few sessions. However, such unexpected absence from classes and other activities will be required to be condoned by the Principal.

Students attendance in a course should be 80%.

7. Course Evaluation

7.1 The performance of every student in each course will be evaluated as follows: 7.1.1 Internal evaluation by the course faculty member(s) based on continuous

assessment, for 30% of the marks for the course; and 7.1.2 Final examination by the University through modes such as; written paper

practical test or oral test or presentation by the student or a combination of any two or more of these, is set to 70% of the marks for each the course

7.2 Internal Evaluation

As per Annexure 1 attached

7.3 University Examination

The final examination by the University for 70% of the evaluation for the course will be through written paper or practical test or oral test or presentation by the student or a combination of any two or more of these.

7.4 In order to earn the credit in a course a student has to obtain grade other than

FF.

7.5 Performance at Internal & University Examination 7.5.1 Minimum performance with respect to internal marks as well as university

examination will be an important consideration for passing a course. Details of minimum percentage of marks to be obtained in the examinations (internal/external) are as follows

Minimum marks in University Exam per course

Minimum marks Overall per course

40% 45%

7.5.2 A student failing to score 40% in the final examination will get an FF grade.


7.5.3 If a candidate obtains minimum required marks in each course but fails to obtain minimum required overall marks, he/she has to repeat the university examination till the minimum required overall marks are obtained.

8. Grading

8.1 The total of the internal evaluation marks and final University examination marks

in each course will be converted to a letter grade on a ten-point scale as per the following scheme: Table: Grading Scheme (UG)

Range of Marks (%) 80


9. Award of Degree

9.1 Every student of the programme who fulfils the following criteria will be eligible for the award of the degree: 9.1.1. He/ She should have earned minimum required credits as prescribed in

course structure; and 9.1.2. He/ She should have cleared all internal and external evaluation

components in every course; and 9.1.3. He/ She should have secured a minimum CGPA of 5.0 at the end of the

programme; 9.1.4. In addition to above, the student has to complete the required

formalities as per the regulatory bodies, if any.

9.2 The student who fails to satisfy minimum requirement of CGPA will be allowed to improve the grades so as to secure a minimum CGPA for award of degree. Only latest grade will be considered.

10. Award of Class:

The class awarded to a student in the programme is decided by the final CGPA as per the following scheme: Distinction: CGPA 7.5 First class: CGPA 6.0 Second Class: CGPA 5.0

11. Transcript:

The transcript issued to the student at the time of leaving the University will contain a consolidated record of all the courses taken, credits earned, grades obtained, SGPA,CGPA, class obtained, etc.

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CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY (CHARUSAT) TEACHING & EXAMINATION SCHEME FOR B TECH PROGRAMME IN CE/IT/EC ENGINEERING

(CHARUSAT 2015 Batch)

Sem Course

Code Course Title

Teaching Scheme Examination Scheme

Contact Hours Credi

t

Theory Practical Tota

l Theor

y

Practic

al

Tutori

al Total

Intern

al

Extern

al

Intern

al

Extern

al

FY

Sem-

1

MA101 Engineering Mathematics-I 4 0 1 5 4 30 70 0 0 100

ME102

Fundamentals of

Mechanical Engineering 4 2 0 6 5 30 70 25 25 150

EC101

Basics of Electronics

Engineering 3 2 0 5 4 30 70 25 25 150

CE103

Computer Concepts &

Programming 3 4 1 8 5 30 70 50 50 200

IT102 ICT Workshop 0 2 0 2 1 25 25 50

CL102.

01 Environmental Sciences 2 0 0 2 2 30 70 0 0 100

HS101 A Course from Liberal Arts 2 2 2 - - 50 50 100

30 23 850

FY

Sem-

2

MA102 Engineering Mathematics-II 4 0 1 5 4 30 70 0 0 100

CL104 Basics of Civil Engineering 2 2 0 4 3 30 70 25 25 150

ME101.

01 Engineering Graphics 2 4 1 7 4 30 70 50 50 200

CE104

Object Oriented

Programming with C++ 3 4 0 7 5 30 70 50 50 200

PY101 Engineering Physics 3 2 0 5 4 30 70 25 25 150

HS111

Study of English language

and Literature 2 2 2 25 25 25 25 100

16 12 2 30 22 900


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY (Effective from CHARUSAT 2014 Batch)

TEACHING & EXAMINATION SCHEME FOR B TECH PROGRAMME IN COMPUTER ENGINEERING

Sem Course Code

Course Title Teaching Scheme Examination Scheme

Contact hrs. Credit

Theory Practical Total

Theory Practical Total Internal External Internal External

SY Sem-3

MA201.01 Discrete Mathematics 4 0 4 4 30 70 0 0 100 CE201.02 Data Structures & Algorithms 3 4 7 5 30 70 50 50 200 CE217.01 Database Management System 3 2 5 4 30 70 25 25 150 CE216.02 Computer Organization & Peripherals 3 2 5 4 30 70 25 25 150 CE204.01 Digital Electronics 3 2 5 4 30 70 25 25 150 CE218.01 Software Group Project 0 2 2 1 0 0 25 25 50

HS122 Values And Ethics 2 0 2 2 30 70 0 0 100

18 12 30 24 180 420 150 150 900

SY Sem-4

CE219.01 Object Oriented Programming using Java

3 4 7 5 30 70 50 50 200

CE202.01 Data Communication & Networking 3 2 5 4 30 70 25 25 150 CE220.01 Software Engineering 2 2 4 3 30 70 25 25 150 CE214.01 Microprocessor & Interfaces 3 2 5 4 30 70 25 25 150 CE221.01 Operating System 3 2 5 4 30 70 25 25 150 CE222.01 Software Group Project 0 2 2 1 0 0 25 25 50

HS123 Critical Thinking and Logic 2 0 2 2 50 50 0 0 100

16 14 30 23 200 400 175 175 950

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CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY (Effective from CHARUSAT 2013 Batch) TEACHING & EXAMINATION SCHEME FOR B TECH PROGRAMME IN COMPUTER ENGINEERING

Sem Course Code

Course Title Teaching Scheme Examination Scheme

Contact hrs. Credit



TY Sem-5

CE312 Web Programming 2 4 6 4 30 70 50 50 200 CE313 System Software 3 2 5 4 30 70 25 25 150

CE314 Advanced Database Management System

3 2 5 4 30 70 25 25 150

CE315 Design & Analysis of Algorithm 3 2 5 4 30 70 25 25 150

Elective-I 3 2 5 4 30 70 25 25 150

CS301.01 Professional Communication-I 0 2 2 1 0 0 25 25 50 CE319 Software Group Project 0 2 2 1 0 0 25 25 50

14 16 30 22 150 350 200 200 900

TY Sem-6

CE320 Computer Network & Internetworking Layers

3 2 5 4 30 70 25 25 150

CE321 Cryptography & Network Security 3 2 5 4 30 70 25 25 150 CE306.01 Theory of Computation 3 0 3 3 30 70 0 0 100

CE322 Data Warehousing & Data Mining 3 2 5 4 30 70 25 25 150

Elective-II 2 4 6 4 30 70 50 50 200

CS302.01 Professional Communication-II 0 2 2 1 0 0 25 25 50 CE324 Software Group Project 0 4 4 2 0 0 50 50 100

14 16 30 22 150 350 200 200 900


LIST OF ELECTIVE SUBJECTS FOR B TECH PROGRAMME IN COMPUTER ENGINEERING E

LE

CT

IVE

S

Code Elective I Code Elective II

CE316 Artificial Intelligence CE307.02 Advanced Java programming

CE317 Computer Graphics CE308.02 Advanced Programming using .NET Framework

CE318 Software Project Management & Quality

Assurance CE323 Advanced Web Technology

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CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY (Effective from CHARUSAT 2011 Batch)

TEACHING & EXAMINATION SCHEME FOR B TECH PROGRAMME IN COMPUTER ENGINEERING

Sem Course Code

Course Title

Teaching Scheme Examination Scheme

Contact hrs. Credit



Final Year

Sem-7

IT402 Wireless Communication & Mobile Computing

4 2 6 5 30 70 25 25 150

CE401 Compiler Construction 4 2 6 5 30 70 25 25 150

CE402 Advanced Operating Systems 4 2 6 5 30 70 25 25 150

Elective - II 4 2 6 5 30 70 25 25 150

CE403 Data Warehousing & Data Mining 4 2 6 5 30 70 25 25 150

Assignment Practices 4

CE406 Software Project-II 2 2 1 25 25 50

20 12 36 26 150 350 150 150 800

Final Year

Sem-8

CE408 Software Project Major 0 36 36 20 0 0 250 350 600

36 20

600

LIST OF ELECTIVE SUBJECTS FOR FOURTH YEAR B TECH PROGRAMME IN COMPUTER ENGINEERING

EL

EC

TIV

ES

Code Elective - II

CE407 Artificial Intelligence

IT405 Advanced Computing

IT401 Advanced Web Technologies

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B. Tech. Engineering Programme

SYLLABUS (First Year)

CHAROTAR UNIVERSITY OF SCIENCE AND TECHNOLOGY


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY FACULTY OF TECHNOLOGY & ENGINEERING

DEPARTMENT OF CIVIL ENGINEERING CL102.01: ENVIRONMENTAL SCIENCES

Credits and Hours:

Teaching Scheme Theory Practical Total Credit

Hours/week 2 0 2 2

Marks 100 0 100

A. Objectives of the Course:

Objectives of introducing this subject at first year level in all the branches are

Imparting basic knowledge about environment and thereby developing an attitude

of concern for environment.

Creating awareness on Various Environmental Pollution Aspects and Issues.

To give a comprehensive insight into natural resources, ecosystem and biodiversity.

To educate the ways and means to protect the environment from various types of

pollution.

B. Outline of the Course:

Sr. No. Title of the Unit Minimum Number of Hours

1 Introduction 07

2 Environmental Pollution 10

3 Ecology & Ecosystems 10

4 Population & Natural Resources 03

Total Hours (Theory): 30

Total Hours (Lab): 00

Total Hours: 30


C. Outline of the Course:

1 Introduction 07 Hours 24%

1.1 Basic definitions

1.2 Objectives and guiding principles of environmental studies

1.3 Components of environment

1.4 Structures of atmosphere

1.5 Man-Environment relationship

1.6 Impact of technology on the environment

2 Environmental Pollution 10 Hours 33%

2.1 Environmental degradation

2.2 Pollution, sources of pollution, types of environmental

pollution

2.3 Air pollution: Definition, sources of air pollution, pollutants,

classifications of air pollutants (common like SOX & NOX),

sources & effects of common air pollutants

2.4 Water pollution: Definition, sources water pollution,

pollutants & classification of water pollutants, effects of water

pollution, eutrophication

2.5 Noise pollution: Sources of noise pollution, effects of noise

pollution

2.6 Current environmental global issues, global warming & green

houses, effects, acid rain, depletion of Ozone layer

3 Ecology & Ecosystems 10 Hours 33%

3.1 Ecology: Objectives and classification

3.2 Concept of an ecosystem: Structure & function

3.3 Components of ecosystem: Producers, consumers,

decomposers

3.4 Bio-Geo-Chemical cycles & its environmental significance

3.5 Energy flow in ecosystem

3.6 Food Chains: Types & food webs

3.7 Ecological pyramids

3.8 Major ecosystems


4 Population & Natural Resources 03 Hours 10%

4.1 Natural ressources: Renewable resources, non-renewable

resources, destruction versus conservation

4.2 Energy resources: Conventional energy sources & its problems,

non-conventional energy sources-advantages & its limitations ,

problems due to overexploitation of energy resources

D. Instructional Method and Pedagogy:

At the start of course, the course delivery pattern, prerequisite of the subject will

be discussed.

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

OHP etc.

Attendance is compulsory in lectures which carries 10 Marks weightage.

Two internal exams will be conducted and average of the same will be converted

to equivalent of 15 Marks as a part of internal theory evaluation.

Assignment/Surprise tests/Quizzes/Seminar will be conducted which carries 5

Marks as a part of internal theory evaluation.

E. Students Learning Outcomes:

On the successful completion of the course the students will be able

To understand basics about environment and its related recent problems.

To identify environmental issues around them.

To make the people aware, around them, about environment protection &

improvement and thus creating awareness amongst the society.

F. Recommended Study Material:

Text Books:

1. Varandani, N.S., Basics of Environmental Studies

2. Sharma, J. P., Basics of Environmental Studies

Reference Books:

1. Shah Shefali & Goyal Rupali, Basics of Environmental Studies

2. Agrawal, K.C., Environmental Pollution : Causes, Effects & Control

3. Dameja, S. K., Environmental Engineering & Management

4. Rajagopalan, R., Environmental Studies, Oxford University Press


5. Wright Richard T. & Nebel Bernard J., Environmental Science

6. Botkin Daniel B. & Edward A. Keller, Environmental Science

7. Shah, S.G., Shah, S.G. & Shah, G. N., Basics of Environmental Studies, Superior

Publications, Vadodara

Web Materials:

1. http://nptel.iitm.ac.in/courses/Webcourse-contents/IIT-

Delhi/Environmental%20Air%20Pollution/index.htm

2. http://nptel.iitm.ac.in/video.php?subjectId=105104099

3. http://apollo.lsc.vsc.edu/classes/met130/notes/chapter1/vert_temp_all.html

4. http://www.epa.gov

5. http://www.globalwarming.org.in

6. http://nopr.niscair.res.in

7. http://www.indiaenvironmentportal.org.in

http://nptel.iitm.ac.in/courses/Webcourse-contents/IIT-Delhi/Environmental%20Air%20Pollution/index.htmhttp://nptel.iitm.ac.in/courses/Webcourse-contents/IIT-Delhi/Environmental%20Air%20Pollution/index.htmhttp://nptel.iitm.ac.in/video.php?subjectId=105104099http://apollo.lsc.vsc.edu/classes/met130/notes/chapter1/vert_temp_all.htmlhttp://nopr.niscair.res.in/http://www.indiaenvironmentportal.org.in/



DEPARTMENT OF CIVIL ENGINEERING CL104: BASICS OF CIVIL ENGINEERING

Credits and Hours:

Teaching

Scheme

Theory Practical Tutorial Total Credit

Hours/week 2 2 -- 4 3

Marks 100 50 -- 150



The students will have a broad perspective to identify the oldest branch of

engineering providing basic infrastructure for development of civilized society.

With an understanding of principles associated with civil engineering the students

will persuade different civil engineering works like buildings, surveying and

materials which are an integral part of every engineering professionals life

irrespective of the discipline.



1 Introduction to Civil Engineering 04

2 Surveying & Levelling 12

3 Elements of Building Construction 10

4 Civil Engineering Materials 04



Total Hours: 60


C. Detailed Syllabus:

1 Introduction to Civil Engineering 04 Hours 13%

1.1 Civil engineering and basic human needs, role of civil engineer

1.2 Branches of civil engineering and their importance

2 Surveying 12 Hours 40%

2.1 Introduction: Surveying and levelling, object and uses, primary

divisions, fundamental principles, classification of surveying,

plans and maps, scales, units of measure, conventional symbols

2.2 Linear measurements: Methods, instruments used in chaining,

chain surveying, ranging, obstacles, errors in chaining, tape

corrections

2.3 Compass surveying: Types and uses of compass, bearings, Whole

Circle Bearings, and Reduced Bearings, computation of angles,

meridians; declinations and dip of needle, local attraction

2.4 Introduction to elevation measurements: Levelling - object and

uses, terms used, methods, instruments used

3 Elements of Building Construction 10 Hours 34%

3.1 Planning: Elementary principles and basic requirements of a

building planning, elements of building drawing, layout and

drawing of residential & industrial buildings, foundation plan

3.2 Construction: Classification of buildings based upon occupancy

and structure, design loads, common building components their

functions and nominal dimensions, building byelaws

4 Civil Engineering Materials 04 Hours 13%

4.1 Properties and uses of Brick, Cement, Concrete and Glass



be discussed.


OHP etc.

Attendance is compulsory in lectures and laboratory which carries 10 Marks

weightage.






The course includes a laboratory, where students have an opportunity to build an

appreciation for the concepts being taught in lectures.

Experiments/Tutorials related to course content will be carried out in the

laboratory.

E. Student Learning Outcome:

On the successful completion of this course

The course helps student to understand the basics of civil engineering works that

they come across in their professional and also in personal life for example

planning and construction of their own residence and industries in future..

With an overview of surveying & building planning students learn to prepare the

layouts of buildings and other infrastructures, obtain understanding of the basic

civil engineering materials.


Text Books:

1. Khasia, R.B. and Shukla, R. N., Elements of Civil Engineering, Mahajan Publication

2. Kandya Anurag, Elements of Civil Engineering, Charotar Publishing House

Reference Books:

1. Punamia, B.C., Surveying Vol. I & II

2. Kanetkar, T.P. & Kulkarni, S.V., Surveying and Levelling Vol. I & II

3. Lewis Keeble, Principles of Town planning

4. Singh Parbin, Civil Engineering Materials

Web Materials:

1. http://www.nptel.iitm.ac.in/courses.php?branch=Civil

2. http://www.nptel.iitm.ac.in/courses/Webcourse-contents/IIT-

ROORKEE/SURVEYING/home.htm

3. http://www.nptel.iitm.ac.in/video.php?courseId=1040

4. http://www.nptel.iitm.ac.in/video.php?courseId=1059

http://www.nptel.iitm.ac.in/courses.php?branch=Civilhttp://www.nptel.iitm.ac.in/courses/Webcourse-contents/IIT-ROORKEE/SURVEYING/home.htmhttp://www.nptel.iitm.ac.in/courses/Webcourse-contents/IIT-ROORKEE/SURVEYING/home.htmhttp://www.nptel.iitm.ac.in/video.php?courseId=1040http://www.nptel.iitm.ac.in/video.php?courseId=1059


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY FACULTY OF TECHNOLOGY & ENGINEERING DEPARTMENT OF MECHANICAL ENGINEERING

ME101.01: ENGINEERING GRAPHICS

Credits and Hours:

Teaching Scheme Theory Practical Tutorial Total Credit

Hours/week 2 4 1 7 4

Marks 100 100 -- 200


Objectives of introducing this subject at first year level in all the branches are:

To introduce the student to the universal language and tool of

communication of engineers.

To acquire a sound knowledge of the Engineering Drawing without which a

really satisfactory progress cannot be achieved in any branch of Engineering.

To make them thorough in understanding and using the various concepts

elements and grammar of Engineering Drawing.


Sr. No. Title of the

Unit

Minimum

Number of

Hours 1 Fundamentals of Engineering Graphics 04

2 Projections of Points and Lines 05

3 Projections of Planes 03

4 Projections & Section of Solid 04

5 Development of Lateral Surfaces 04

6 Orthographic Projection* 04

7 Isometric Projections* 04

8 Computer Aided Drafting & Modeling* 02



Total Hours: 90

* Topics to be covered during laboratory hours.



1 Fundamentals of Engineering Drawing 04

Hours

13%

1.1 Importance of engineering drawing, drawing instruments

and materials, BIS and ISO

1.2

Different types of lines used in engineering practice, methods

of dimensioning & symbol for methods of projections as per SP

46-1988, Plane Scale

1.3 Engineering Curves

2 Projections of Points and Lines 05 Hours 17%

2.1 Introduction to methods of projections

2.2 Projections of lines inclined to both the planes

3 Projections of Planes 03 Hours 10%

3.1 Projection of plane

3.2 Auxiliary Projection Method

4 Projections & Section of Solid 04 Hours 13%

4.1 Projection of solids

4.2 Sectional view

4.3 True shape of Sections

4.4 Auxiliary Inclined Plane (AIP), Auxiliary Vertical Plane (AVP)

5 Development of Lateral Surfaces 04 Hours 13%

5.1 Method of Development

5.2 Developments of cylinder, cone, prism, pyramid

6 Orthographic Projection 04

Hours

14%

6.1 Principle projection

06 Hours

6.2 Methods of first and third angle projection with examples /

problems

7 Isometric Projections 04 Hours 13%

7.1 Terminology, Isometric scale

7.2

Isometric view and Isometric projection with examples /

problems

8 Computer Aided Drafting & Modeling 02 Hours 7%


8.1 Introduction to 2D drafting facilities in CAD software

8.2 Introduction to 3D modelling & its relationship with 2D drawing

views



be discussed.


OHP etc.


weightage.





The course includes a design laboratory, where students have an opportunity to

build an appreciation for the concepts being taught in lectures.

Design of major problems/Tutorials related to course content will be carried out in

the laboratory.

In the lectures and laboratory discipline and behaviour will be observed strictly.

E. Student Learning Outcomes:

At the end of the semester students will be to able understand the drawing

which is used in industries.

This course will provide fundamentals of engineering drawing which will be

helpful for students to understand the courses like Design Concept & Machine

Drawing, Dynamic of Machine, & Machine Design in higher semesters.

Student will be able to know the fundamental of Computer Aided Drafting

& 3D Modeling.



Text Books:

1. Shah, P. J., Engineering Drawing Vol. I & II, S. Chand & Co.

2. Bhatt, N. D., Engineering Drawing, Charotar Publishing House

Reference Books:

1. Gopal Krishna K.L., Engineering Drawing, Subhas Publications

2. Venugopal, K., Engineering Drawing made Easy, Wiley Eastern Ltd.

3. Agrawal, M.L. & Garg, R.K., Engineering Drawing Vol-I, Dhanpatrai & Co.

4. French, T.E., Vierck, C.J. & Foster, R. J., Graphic Science and Design, McGraw

Hill

5. Luzadder, W. J. & Duff, J.M., Fundamentals of Engg. Drawing, Prentice Hall

6. Venugopal, K., Engg. Drawing and Graphics, New Age international Pry. Ltd.

Web Materials:

1. users.rowan.edul~eyerettlcourseslfrcliilLectureslDraw.ppt

2. mechanical-engineering-drawing.ppt.fyxm.net

3. www.authorstream.coml...lSilyia-39854-Engineering-Drawing

http://www.authorstream.coml/


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY FACULTY OF TECHNOLOGY & ENGINEERING DEPARTMENT OF MECHANICAL ENGINEERING

ME102: FUNDAMENTALS OF MECHANICAL ENGINEERING

Credits and Hours:

Teaching Scheme Theory Practical Tutorial Total Credit

Hours/week 4 2 -- 6 5

Marks 100 50 -- 150


The objectives of the course are

To introduce the student to the fundamentals of Mechanical Engineering, so that

they get a sound knowledge of the important aspects of Engineering.

To share the knowledge related to Energy and its sources with emphasis on energy

conversion and transmission to Mechanical Energy.

To know about various applications of mechanical power which play an important

role in industries as well as in our day-to-day life.



1 Conventional and Non-Conventional Energy Sources 04

2 Properties of Steam 06

3 Steam Generators 11

4 Properties of Gases 07

5 Internal Combustion Engines 10

6 Refrigeration and Air Conditioning 04

7 Air Compressors and Pumps 07

8 Transmission of Motion and Power and its Control 06

9 Clutch, Couplings and Brakes 05



Total Hours: 90



1 Conventional and Non-conventional Energy Sources 04 hours 07%

1.1 Types of fuels

1.2 Calorific value of fuels

1.3 Calculation of minimum air required for complete combustion

of fuel

2 Properties of Steam 06 Hours 10%

2.1 Introduction: Steam formation, types of steam

2.2 Enthalpy specific volume, dryness fraction and internal energy

of steam, steam tables

2.3 Non-flow process

2.4 Measurement of dryness fraction : Throttling calorimeter,

Separating calorimeter, combined calorimeter

3 Steam Generators 11 Hours 18%

3.1 Definition, classification

3.2 General study of Cochran, Babcock Wilcox, Lancashire and

FBC technology

3.3 Boilers mountings and accessories

3.4 Draught classification, calculation of chimney height

3.5 Boiler efficiency and numerical

4 Properties of Gases 07 Hours 11%

4.1 Gas laws, Boyles law, Charless law, combined gas law

4.2 Gas constant, internal energy, Relation between Cp and Cv,

enthalpy

4.3 Non flow process

4.4 Constant volume process, constant pressure process,

isothermal process, poly-tropic process, adiabatic process

5 Internal Combustion Engines 10 Hours 17%

5.1 Definition, classification and components, various efficiencies

5.2 Working of the two stroke and four-stroke cycle engines, S.I.

and C.I. Engines


5.3 Air standard cycles Otto, diesel & dual cycle & numerical

6 Refrigeration and Air Conditioning 04 Hours 07%

6.1 Definition refrigeration and air conditioning, vapour

compressor system

6.2 Domestic refrigerator, ice plant, window air conditioner

7 Air Compressors and Pumps 07 Hours 12%

7.1 Introduction, uses of compressed air

7.2 Reciprocating compressors, operation of a compressor, work

for compression, power required, reciprocating compressor

efficiency, multistage reciprocating compressors

7.3 Rotary compressors

7.4 Reciprocating pump, types and operation, bucket pump, air

chamber

7.5 Centrifugal pumps, types and priming, rotary pumps

8 Transmission of Motion and Power and its Control 06 Hours 10%

8.1 Introduction, methods of drive, power transmission elements,

shaft and axle

8.2 Belt-drive, pulleys, power transmitted by a belt, chain drive,

friction drive

8.3 Gear drive

9 Couplings, Clutches and Brakes 05 Hours 08%

9.1 Introduction, couplings, clutches, brakes

9.2 Types of brakes, difference between a brake and a clutch



be discussed.


OHP etc.


weightage.






The course includes a laboratory, where students have an opportunity to build an


Minimum 5 experiments shall be carried out in the laboratory related to course

contents.

Minimum 6 tutorials which includes solution of minimum 5 numerical under each

head.


At the end of the course

The students will be able to understand the Mechanical Engineering in general

and Thermal science, energy conversion in particular.

This course will provide fundamentals of mechanical engineering which will be

helpful for students to understand the courses of higher semester.

Students will also be able to identify, solve and analyze problems related to energy

conversion, energy transmission and energy utilization.


Text Books:

1. Nag, K., Mechanical Engineering, Tata McGraw-Hill publications

Reference Books:

1. Rajput, R.K., Thermal Engineering, Laxmi Publications

2. Rajan, T.S., Basic Mechanical Engineering, Wiley Eastern Ltd.

3. Mathur, S.B. & Domkundwar, S., Elements of Mechanical Engineering, Dhanpat

Rai & Sons

4. Kapoor, H.R., Thermal Engineering Vol. I & II, Tata McGraw Hill Co. Ltd.

5. Sawhney, G.S., Fundamental of Mechanical Engineering, Prentice Hall of India

Publication New Delhi

6. Kumar, D.S., Thermal Science and Engineering, S.K. Kataria & sons Publication

New Delhi

Web Materials:

1. www.howstuffworks.com

E-Journals:


1. ASME Journal of engineering for gas turbine and power

(http://www.asmedl.org/GasTurbinesPower)

2. ASME Journal of solar engineering (http://www.asmedl.org/Solar)

3. ASME Journal of turbo machinery (http://www.asmedl.org/Turbomachinery)

Other Materials:

Steam Tables


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY

FACULTY OF TECHNOLOGY & ENGINEERING DEPARTMENT OF COMPUTER ENGINEERING

CE 103: COMPUTER CONCEPTS & PROGRAMMING Credit and Hours:

Teaching Scheme



Marks 100 50 - 150

A. Objective of the Course:

The main objectives for offering the course computer concepts and programming are:

To create students interest for programming related subjects and to make them

aware of how to communicate with computers by writing a program.

To impart basic knowledge of programming.

To make them comprehend and analyze input, output and process (method).

To foster the ability of solving various analytical and mathematical problems with

algorithms within students.

To make them study structural programming concepts using various

programming language constructs (i.e. token classes and lexemes).

To make them learn regarding different data structures and memory management

in the programming language.

To promote skills like Development of logic and implementation of basic

mathematical and other problems at individual level.

To make them learn and understand coding standards, norms, variable naming

conventions, commenting adequately and how to form layout of efficient program.

To make them recognize memory management concepts.

To explain them concepts of pointer.

To impart the process of compilation and execution of the program to

students.

To clarify file management concepts.

To simplify difference between derived and user-defined types.

To elucidate profiling to students.



Sr. No.

Title of the unit Minimum number of hours

1. Introduction to Computation 01

2. Algorithms and Flowcharts 02

3. Introduction to Programming 01

4. Introduction to C 01

5. Constants, Variables & Data Types in C 02

6. Operators and Expression in C 04

7. Managing Input & Output Operations 02

8. Conditional Statements & Branching 03

9 Looping 04

10 Arrays 03

11. Character Arrays 03

12. User-Defined Function in C 05

13. Structures 04

14. Pointers 04

15. File Management in C 03

16. Dynamic Memory Allocation 03

Total hours (Theory): 45

Total hours (Lab): 60 Total hours: 105


1 Introduction to Computation 01Hours 4%

1.1 Program, Software, Instruction, data, debug, test, file, directory, linking, loading,

libraries, compilation, execution.

1.2 Introduction, and Block diagram and functions of various components of computer,

Concepts of Hardware and Software, Types of software.

2 Algorithms and Flowcharts 02 Hours 5%

2.1 Algorithms, Flow-charts.

3 Introduction to Programming 01 Hours 2%

3.1 Program & Programming, Programming Languages, Types of Languages, Compiler


3.2

and Interpreter.

Procedure Oriented Language and Object Oriented Language.

4 Introduction to C language 01 Hours 2%

4.1 History of C, Characteristics of C, Basic structure, Compiling process of C Program.

5 Constants, Variables & Data Types in C 02 Hours 5%

5.1 Character set, C tokens.

5.2 Data types classes of data type, declaration & initialization, User-defined type

declaration - typedef, enum, Basic input-output operations, Symbolic constant

(#define).

6 Operators and Expression in C 04 Hours 5%

6.1 Classification of operators: Arithmetic, Relational, Logical, Assignment, Increment /

Decrement, Bitwise, Special Operators. Unary, Binary and Ternary Operators,

Shorthand Operators.

6.2 Arithmetic expression, Evaluation, Type conversion: Implicit &Explicit, Precedence

and Associativity.

7 Managing Input & Output Operations 02 Hours 3%

7.1 Input a character, Introduction to ASCII code, Various library functions from

ctype.h.

7.2 Formatted input using scanf( ), Formatted output of integer and real data using

printf ( ).

8 Conditional Statements & Branching 03 Hours 7%

8.1 Decision making using if, ifelse statement, nesting of ifelse, elseif Ladder.

8.2 Switch, use of ifelse instead of conditional operator, goto statement.

9 Looping 04 Hours 8%

9.1 Need of looping, (pre-test) entry-controlled loop: while, for, (post-test) exit-

controlled loop: dowhile, difference, Use of sentinel values.

9.2 Nesting of looping statements, use of break & continue, use of ifelse in loop,

infinite loop.

10 Arrays 03 Hours 10%

10.1 Need of array, Declaration & Initialization 1D array, Programs of 1D.

10.2 2D array, Memory allocation of 1D and 2D array, 2D array basic programs.

11 Character Arrays 03 Hours 8%

11.1 Difference of character array with numeric array and importance of NULL character.


11.2 Declaration, Initialization and various input and output methods of string,

formatted output of string, arithmetic operations on characters.

11.3 Various functions of string.h: strlen, strcat, strcmp, strcpy, strrev, strstr, etc.

11.4 Two dimensional character array (table of strings).

12 User-Defined Function in C 05 Hours 10%

12.1 Need of modularization, advantages, Introduction to user-defined function,

Function Prototype, Function Call, Function Body.

12.2 Call by value, Actual &Formal Arguments, return value, Categories of functions,

Nesting of Functions, Recursion.

12.3 Array as Function arguments, Storage Classes: Scope, Life of a variable in C.

13 Structures 04 Hour 7%

13.1 Need of user-defined data type, Structure definition, Declaration and Initialization

of variables, Array as member, Array of structure variables.

13.2 Structure within structure, Structure as function arguments, Union, Bit fields.

14 Pointers 04 Hour 10%

14.1 Introduction to pointer, declaration & initialization, access value using pointer,

indirection (*) operator.

14.2 Pointers in expressions, scale factor, 1D-array and pointer, pointer with strings,

Array of pointers.

14.3 Pointer as arguments in function, Call by address, Functions returning pointers,

Pointers with structures, Pointer to pointer.

15 File Management in C 03 Hours 9%

15.1 Introduction, need, create and close file, modes of file, read & write single character

and integer to file, use of fprintf and fscanf functions.

15.2 Error handling functions, random access of files using ftell, rewind, fseek, command

line argument.

16 Dynamic Memory Allocation 03 Hours 5%

16.1 Introduction, memory allocation process

16.2 Use of functions: malloc( ), calloc( ), realloc( ) and free( ).

16.3 Allocation of memory for array & structure.



At the beginning, the course delivery pattern, prerequisite of the subject will be

discussed.

Lectures will be conducted with the aids like multi-media projector, black

board, OHP

etc.

Attendance is compulsory in lectures and laboratory which carries 5

Marks weightage respectively as a part of internal evaluation.

Two internal exams will be conducted and average of the same will be

converted to

equivalent of 15 Marks as a part of internal theory evaluation.

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

each

unit/topic and will be evaluated at regular interval. It carries a weightage of 5

Marks

as a part of internal theory evaluation.

Surprise tests/Quizzes/Seminar will be conducted which carries 5 Marks as a

part of

internal theory evaluation.

The course includes a laboratory, where students have the opportunity to

build



laboratory.


After completing this course, the student should demonstrate the knowledge and ability

to:

Understand the basic terminology used in computer programming

Write, compile and debug programs with C compiler

Make Efficient use of different data types in a computer program

Implementation of code for numerical calculations

Efficient programming related to scientific simulation in their projects.

Demonstrate a range of basic programming and IT skills


Design programs involving decision structures, loops and functions

Gain the complete knowledge on arrays, structure, union, pointers and files

Expound the difference between call by value and call by reference

Comprehend the dynamics of memory by the use of pointers

Use different data structures and create/update basic data files


Text Books:

1. Programming in ANSI C, 6th Edition by E Balagurusamy, McGraw-Hill

2. Programming in C, 2nd Edition by Pradip Dey, Manas Ghosh, Oxford University

Press

3. Computer Fundamentals by P.K. Sinha

Reference Books:

1. Let us C, 12th Edition by Yashwant Kanitkar, BPB Publication

2. C How to program, 7/E by Deitel & Deitel, Prentice Hall

3. C Programming Language (ANSI C Version), 2/e by Brian Kernighan, Dennis

Ritchie

Reference Links/ e-content:

1. www.tutorials4u.com/c/

2. www.cprogramming.com/tutorial.html

3. www.howstuffworks.com/c.htm

4. http://www.programmingtutorials.com/c.aspx

5. http://www.physics.drexel.edu/courses/Comp_Phys/General/C_basics/

http://www.tutorials4u.com/c/http://www.cprogramming.com/tutorial.htmlhttp://www.howstuffworks.com/c.htmhttp://www.programmingtutorials.com/c.aspx/http://www.physics.drexel.edu/courses/comp_phys/general/c_basics/



DEPARTMENT OF COMPUTER ENGINEERING CE 104: OBJECT ORIENTED PROGRAMMING WITH C++

Credit and Hours: Teaching Scheme



Marks 100 50 - 150

A. Objective of the Course:

The main objectives for offering the course Object Oriented programming with C++

are:

To introduce students with object-oriented programming in C++ language.

To provide a solid introduction to the topic of Object Oriented Concepts.

To explain the importance of object oriented concepts and programming.

To display how the object oriented approach differs from procedural approach.

To demonstrate how various kinds of features available in it.

To distinguish the lower level aspects of object oriented approach.

To discuss, in detail, the data structures necessary for achieving its efficiency in

objectives.

Know some of the higher-level data structures, tools and recognize the difference

between various techniques.

To apply the techniques in the design of C++ programs for solving various file

management problems.


Sr. No.

Title of the unit Minimum number of hours

1. Introduction to Object Oriented concepts and Design 3

2. Principles of object-oriented Programming 3

3. Introduction of C++ 3

4. Tokens and Expressions & Control Structure 4

5. Functions 3

6. Classes and objects 5

7. Constructor and Destructors 4


8. Operator Overloading 3

9 Inheritance 5

10 Pointers and Virtual Functions 4

11. Managing Console I/O Operations 3

12. Working with Files 5

Total hours (Theory): 45

Total hours (Lab): 60 Total hours: 105


1 Introduction to Object Oriented concepts and Design 03Hours 5%

1.1 What is object oriented (OO), history, Object Concepts, OO methodology, OO

themes, Introductions to OO Models.

2 Principles of object-oriented Programming 03 Hours 5%

2.1

2.2

Basic concept of object-oriented Programming , Benefits of OOP

Difference between object oriented language and procedure oriented language

3 Introduction of C++ 03 Hours 3%

3.1

3.2

What is C++, Simple C++ Program, Applications of C++

Introduction to class, object and creating simple program using class, Structure of

C++ program

4 Tokens and Expressions & Control Structure 04 Hours 4%

4.1

4.2

4.3

4.4

Tokens, Keywords, identifiers and constants, Basic Data Types and user defined data

types and derived data types, symbolic constants

Type compatibility, Declaration of variables, Dynamic initialization, Reference

variables

Scope Resolution Operator, Memory Management Operator, Manipulators, Type

cast operator

Expressions and their types, implicit Conversion Operator Precedence and Control

Structure

5 Functions 03 Hours 8%

5.1 The main function, simple functions, call by reference, return by reference, inline

functions, overloaded functions, default arguments

6 Classes and objects 05 Hours 15%


6.1 Limitation of C structure, Declaring class and defining member function, making

outside function inline , Nesting member function, Private member function arrays

within a class, memory allocation of objects, Static data members and Member

functions.

6.2 Arrays of Objects, Object as a function argument, Friend functions, Returning

objects, constMember functions.

7 Constructor and Destructors 04 Hours 8%

7.1 Introduction to Constructors, Parameterized Constructors, Multiple Constructors

in class, Constructors with default argument, Dynamic initialization of

Constructors, Dynamic Initialization of objects, Copy Constructor, Dynamic

Constructor

7.2 Destructors

8 Operator Overloading 03 Hours 10%

8.1 Introduction, Defining Operator overloading, overloading unary and binary

operators, overloading binary operator using friend function, rules for overloading

operators

8.2 Type Conversion

9 Inheritance 05 Hours 12%

9.1

9.2

9.3

Introduction, Defining a derived class, Example of Single Inheritance, Public and

private inheritance.

Multilevel, multiple and hierarchical Inheritance, Hybrid Inheritance

Virtual Base Class, abstract class nesting of classes, constructors in derived classes

10 Pointers and Virtual Functions 04 Hours 15%

10.1 Introduction, pointer to object, this pointer, pointer to derived class

10.2 Virtual functions, pure virtual functions

11 Managing Console I/O Operations 03 Hours 5%

11.1 Introduction, C++ stream, C++ stream classes

11.2 Unformatted and for matted console I/O Operations

12 Working with Files 05 Hours 10%

12.1

12.2

12.3

Introduction, Classes for file stream operations, Opening and closing a file,

Detecting End of File

File modes, file pointers and their manipulations, Sequential I/O operations

Error Handling during File operations, Command-line arguments



At the beginning, the course delivery pattern, prerequisite of the subject will be

discussed.

Lectures will be conducted with the aids like multi-media projector, black

board, OHP

etc.

Attendance is compulsory in lectures and laboratory which carries 5

Marks weightage respectively.

Two internal exams will be conducted and average of the same will be

converted to

equivalent of 15 Marks as a part of internal theory evaluation.

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

each

unit/topic and will be evaluated at regular interval. It carries a weightage of 5

Marks

as a part of internal theory evaluation.

Surprise tests/Quizzes/Seminar will be conducted which carries 5 Marks as a

part of

internal theory evaluation.

The course includes a laboratory, where students have the opportunity to

build



laboratory.


After completing this course, the student should demonstrate the knowledge and ability

to:

Understand object-oriented approach.

Learn programming in C++.

Explain the importance of object oriented concepts and programming.

Show how various kinds of features available in it.

Show how the object oriented approach differs from procedural approach.


Know the low level aspects of object oriented approach.

Explain the operator and overloading concepts

Understand the concept of constructor and destructor and operate file using

C++.

Implementation of some of the learned techniques and concepts using C++ for

solving various file and management problems.


Text Books:

1. Programming with C++ by E.Balagurusami(TMH-)

2. Object Oriented Programming in Turbo C++ by Robert Lafore (Galgotia-)

Reference Books:

4. Let us C++, 3rd Edition by Yashwant Kanitkar, BPB Publication

5. C++ How to program, 8/E by Deitel & Deitel, Prentice Hall

6. C++ Programming Bible, 1st Edition by Al Stevens and Clayton Walnum,

Prentice Hall

7. The Complete Reference, 4th Edition by Herbert Schildt, Tata McGraw Hill

Reference Links/ e-content:

1. http://www.cplusplus.com/doc/tutorial/

2. http://www.learncpp.com/

3. http://www.cprogramming.com/tutorial/c++-tutorial.html

4. http://www.tutorialspoint.com/cplusplus/index.htm

5. http://www.dre.vanderbilt.edu/~schmidt/C++/



DEPARTMENT OF INFORMATION TECHNOLOGY IT102: ICT WORKSHOP

B TECH 1ST SEMESTER (CE/IT/EC)

Credits and Hours:

Teaching scheme Theory Practical Total Credit

Hours/week 0 02 02 01

Marks 0 50 50

A. Objective of the course:

The main objectives for offering the course computing & programming are:

To explain the fundamentals of computers and peripherals.

To introduce hardware and software computers basics.

To deliver concept and methodology of different parts of computer and their

assembling.

To give descriptions of keyboard, monitors, printers, motherboard, etc.

To brief the students regarding computer networks and connections.

To give clear idea of pc trouble shooting and repairing.

To introduce the basic concepts of Electronic components and

devices/Instruments used in Laboratory. The course would focus to

troubleshoot and analysis with Electronic circuits.

B. Detailed syllabus

Following contents will be delivered to the students during laboratory sessions.

Sr.

No. Subject content

1. Introduction to computer hardware

1.1 definition of computer 1.2 computer hardware, software and firmware 1.3 history of computer 1.4 classification of computer 1.5 basic parts of digital computer 1.6 general faults of computer system

2. Motherboard

2.1 types of motherboard


2.2 functional block diagram of motherboard 2.3 cpu and supporting chips 2.4 bios 2.5 cmos setup 2.6 types of buses on the motherboard 2.7 jumper setting on motherboard 2.8 connectors on motherboard 2.9 battery on motherboard 2.10 faults of motherboard

3. Pc troubleshooting

3.1 hardware troubleshooting and repairing 3.2 software troubleshooting and repairing

4. Display unit

4.1 types of monitor 4.1.1 crt monitor 4.1.2 lcd monitor 4.2 faults of monitor 4.3 display card

5. Keyboard and mouse 5.1 types of keyboard 5.1.1 wired keyboard

Din type keyboard Ps/2 type keyboard Usb keyboard

5.1.2 wireless keyboard Bluetooth keyboard Infrared(ir) keyboard Radio frequency keyboard

5.2 types of keyboard switches 5.3 faults of keyboard 5.4 types of mouse 5.4.1 wired mouse

Serial port mouse Ps/2 type mouse Usb mouse

5.4.2 wireless mouse Bluetooth mouse Infrared(ir) mouse Radio frequency mouse

5.5 faults of mouse 6. Printer

6.1 general features of printer 6.2 classification of printer 6.2.1 impact printer

Dot matrix printer Line printer

6.2.2 non impact printer Thermal printer

7. Power supply


7.1 smps 7.1.1 working principle of smps 7.1.2 block diagram of smps 7.1.3 difference between linear power supply and ups 7.1.4 output connectors of smps 7.1.5 faults of smps 7.2 ups 7.3 stabilizer

8. Secondary storage devices

8.1 types of memory 8.2 floppy disk 8.3 hard disk 8.4 cd drive 8.5 dvd drive

9. Assembling the computer system

9.1 study of configuration of computer system 9.2 introduction of computer assembling 9.3 instruction for assembling the computer system 9.4 instruction for disassembly the computer system 9.5 calculation of power supply requirement for the computer laboratory 9.6 calculation of a.c. requirement for the computer laboratory 9.7 calculation of ups requirement for the computer laboratory

10. Installation of various os

11. Configuration & troubleshooting installation of os

12 Basics of electronics

12.1 Introduction to basic components (Resistors , Capacitors, Inductors, Bread board, soldering iron, de soldering machine, cutter, all types of connecting wires and all connectors )

12.2 Introduction to basic semiconductor components(Diode, Transistor, Logic Gates, LED)

12.3 Introduction to different types of Power supply 12.4 Troubleshooting with Multi-meter 12.5 Study of front panel of Function generator 12.6 Study of front panel of C.R.O. (cathode ray oscilloscope) and Spectrum

Analyzer 12.7 Introduction to different Kinds of P.C.B.(single layer P.C.B, double layer

P.C.B, multi-layer P.C.B)

C. Instructional method and pedagogy:


be discussed.

Laboratories will be conducted with the aid of multi-media projector, white board,

computers, OHP etc.


Attendance is compulsory in laboratory. This, including assignments/tests/quizzes

carries 10 marks in overall evaluation.

D. Student learning outcome:

By taking this course,

Students will be having the basic knowledge of computer architecture, peripherals

and all the hardware and software basics required for a computer engineering

student.

Students will be able to effectively solve any hardware/software troubleshooting

problem.

Students will be able to understand working of various components of computers.

Student will able understand requirement of operating system.

Students are able to design and develop high performance computing system.

Student will Able to understand designing of electronic circuits Able to design

different electronics projects

F. Recommended study material:

Reference books:

1. The Complete PC Upgrade and Maintenance Guide, 16th Edition, Mark Minasi, Quentin Docter, Faithe Wempen, SYBEX publication

2. Ibm Pc And Clones Govindarajulu, Tata McGraw Hill 3. Printed Circuit Boards: Design and Technology, Bosshart, Tata McGraw Hill

Orcad/PCBII, Users Guide. URL Links: 1. http://www.technologystudent.com/elec1/resist1.htm 2. http://www.electronics-tutorials.ws/capacitor/cap_1.html 3. http://en.wikipedia.org/wiki/Inductor 4. http://www.radio-electronics.com/info/formulae/inductance/inductor-inductive-

reactance-formulae-calculations.php 5. http://alternatezone.com/electronics/files/PCBDesignTutorialRevA.pdf 6. http://www.scribd.com/doc/39508404/CRO-Manual


CHAROTAR UNIVERSITY OF SCIENCE TECHNOLOGY FACULTY OF APPLIED SCIENCES

DEPARTMENT OF MATHEMATICAL SCIENCES MA 101: ENGINEERING MATHEMATICS-I

_____________________________________________________________

Credits and Hours:

Teaching Scheme Theory Tutorial Total Credit

Hours/week 4 1 5 4

Marks 100 - 100



This course lays the foundation for engineering Mathematics in subsequent semesters,

so that students get a sound knowledge and important aspects of the course.

A good engineer has to have an excellent background of mathematics. Engineering

mathematics is one of the essential tools for learning technology, engineering and

sciences.



1 Infinite Series 09

2 Algebra of Complex Numbers 10

3 Matrix Algebra 11

4 Higher Order Derivatives and Applications 10

5 Partial Differentiation 10

6 Applications of Partial Differentiation 10



Total Hours: 60



1 Infinite Series 09 Hours 14%

1.1 Convergence and divergence of infinite series

1.2 necessary condition for convergence

1.3 Geometric series

1.4 Tests of convergence viz., comparison test, p-series test, ratio

test, nth root test, integral test and power series

2 Algebra of Complex Numbers 10 Hours 17%

2.1 Complex numbers & their geometric representation

2.2 complex numbers in polar and exponential forms

2.3 De Moivres theorem and its applications

2.4 Exponential, logarithmic, trigonometric and hyperbolic

functions

3 Matrix Algebra 11 Hours 18%

3.1 Gauss-Jordan method for computing inverse

3.2 Triangular matrices and triangularization of matrices by

elementary transformations

3.3 Determination of rank by row operation (Row- Echelon form)

3.4 Rank and nullity of a matrix

3.5 Consistency of system of linear equations

3.6 Solutions of system of linear equations, existence and

uniqueness of the solutions

4 Higher Order Derivatives and Applications 10 Hours 17%

4.1 Real world problems involving concepts of first and higher

order derivatives

4.2 successive differentiation

4.3 nth derivative of elementary functions viz., rational, logarithmic,

trigonometric, exponential and hyperbolic

4.4 Leibnitz rule for the nth order derivatives of product of two

functions

4.5 Lagranges and Cauchy mean value theorems

4.6 Expansion of functions: Maclaurins & Taylors series

expansion and their convergence

4.7 Indeterminate forms: L Hospitals rule and related applications


5 Partial Differentiation 10 Hours 17%

5.1 Partial derivative and geometrical interpretation

5.2 Eulers theorem with corollaries and their applications

5.3 Implicit differentiation

5.4 Chain rule

5.5 Total differentials

6 Applications of Partial Differentiation 10 Hours 17%

6.1 Errors and approximations

6.2 Langrages method of multiplier

6.3 Tangent plane and normal line to a surface

6.4 Maxima and Minima

6.5 Jacobian



be discussed.


OHP etc.


weightage.







The students will be able to understand the basic concepts of Engineering

Mathematics.

Student will be able apply concepts of these course to learn MA 102: Engineering

Mathematics-II and may be some courses other than Mathematics.

Students will be able to apply the mathematical concepts in other engineering


courses.


Text Books:

1. Erwin Kreyszig, Advanced Engineering Mathematics, 8th Ed., Jhon Wiley &

Sons, India, 1999

Reference Books:

1. Weir, M.D., et. al., Thomas Calculus, 11th Ed., Pearson Education, 2008

2. Stewart James, Calculus Early Transcendental, 5th Ed., Thomson India, 2007

3. Wylie & Barrett, Advanced Engineering Mathematics, Mc graw Hill pub.

4. Greenberg, M.D., Advanced Engineering Mathematics, , 2nd ed., Pearson

Web Materials:

1. http://mathworld.wolfram.com/

2. http://en.wikipedia.org/wiki/Math

http://mathworld.wolfram.com/


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY FACULTY OF APPLIED SCIENCES

DEPARTMENT OF MATHEMATICAL SCIENCES MA 102: ENGINEERING MATHEMATICS -II

Credits and Hours:

Teaching Scheme Theory Tutorial Total Credit

Hours/week 4 1 5 4

Marks 100 - 100



To learn the implementation of technology using mathematical tools / models.

To study the fundamental concepts of Engineering Mathematics, so that students

get a sound knowledge and important aspects of the subject.



1 First Order Ordinary Differential Equations 09

2 Higher Order Linear Differential Equations 11

3 Partial Differential Equations 10

4 Matrix Algebra 10

5 Special Functions 10

6 Multiple Integrals 10



Total Hours: 60



1 First Order Ordinary Differential Equations 09 Hours 14%

1.1 Modeling of real world problems in terms of first order ODE

1.2 Initial value problems

1.3 Concept of general and particular solutions

1.4 Existence and uniqueness solutions by illustrations

1.5 Linear, Bernoulli and Exact differential equations

1.6 Solutions of above mathematical model

2 Higher Order Linear Differential Equations 11 Hours 18%

2.1 Model of real world problems of higher order LDE

2.2 Complementary function and particular integral and LDE of

higher order with constant coefficients

2.3 Methods for finding particular integrals viz. variation of

parameters and undetermined coefficients

2.4 LDE of higher order with variable coefficients, viz. Cauchys,

Legendres and Bessels homogeneous linear differential

equations and their solutions

2.5 System of two first order linear differential equations

3 Partial Differential Equations 10 Hours 17%

3.1 Modeling of real world problem in terms of first order PDE

3.2 Initial and Boundary valued conditions

3.3 Methods of solutions of first order PDE

3.4 Lagranges Equations

3.5 Special types of Nonlinear PDE of the first order

4 Matrix Algebra 10 Hours 17%

4.1 Determinant and their properties

4.2 Cofactor expansion of nn determinant

4.3 Eigen values and Eigen vector of matrices

4.4 Cayley-Hamilton theorem

4.5 Special matrices viz. Symmetric, Skew-symmetric, Hermitian,

skew Hermitian

4.6 Orthogonal and unitary matrices and their properties

5 Special Functions 10 Hours 17%


5.1 Improper integrals and their convergence

5.2 Definitions, properties and examples of Beta, Gamma and error

functions

5.3 Bessel functions and their properties

5.4 Legendres polynomials and their properties

5.5 Reduction formulae

6 Multiple Integrals 10 Hours 17%

6.1 Tracing of curve

6.2 Evaluation of double and triple integrals

6.3 Change of order of integration

6.4 Transformation to polar

6.5 spherical and cylindrical coordinates

6.6 applications of double and triple integrals: area, volume and

mass



be discussed.


OHP etc.


weightage.







The students will be able to understand the fundamental concepts of Engineering

Mathematics.

Students will be able to apply these concepts to Mathematics for higher semesters


in courses other than Mathematics.


Text Books:

1. Erwin Kreyszig, Advanced Engineering Mathematics, 8th Ed., Jhon Wiley & Sons,

India, 1999.

Reference Books:

1. Weir, M.D., et. al., Thomas Calculus, 11th Ed., Pearson Education, 2008

2. Stewart James, Calculus Early Transcendental, 5th Ed., Thomson India, 2007

3. Wylie & Barrett, Advanced Engineering Mathematics, Mc graw Hill pub.

4. Greenberg, M. D., Advanced Engineering Mathematics, 2nd ed., Pearson

Web Materials:

1. http://mathworld.wolfram.com/

2. http://en.wikipedia.org/wiki/Math

http://mathworld.wolfram.com/http://en.wikipedia.org/wiki/Math


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY C S PATEL INSTITUTE OF TECHNOLOGY

V.T. PATEL DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

EC 101: BASICS OF ELECTRONICS ENGINEERING B TECH IST SEMESTER (CE/IT/EC)

Credit Hours:


Hours/week 3 2 5 4

Marks 100 50 150


The educational objectives of this course are:

To present a problem oriented introductory knowledge of the Fundamentals

Electronics Engineering.

To focus on the study of electronics parameters & different engineering

applications based principles.

To address the underlying concepts & methods behind Electronics Engineering.

To identify & formulate solutions to problems relevant to any discipline of

engineering through the application of electronics engineering theory, tools &

techniques.

B. Outline of the course:

Sr

No.

Title of the unit Minimum

number of

hours

1. Fundamental of Circuit Analysis 06

2. Capacitance of Capacitor 07

3. Single Phase Transformer 05

4. Diodes and Applications 12

5 Transistor and Transistor Characteristics 07

6. Fundamental of Digital Electronics 06

7. Fundamental of Electronic Instrumentation and

Measurements

02

Total hours Theory: 45

Total hours (Lab): 30

Total hours: 75



1. Fundamental of Circuit Analysis 06

Hours

13%

1.1 Ohms law, Kirchhoff laws 1 Hour

1.2 Series circuits, Parallel networks 1 Hour

1.3 Current Divider rule and Voltage Divider rule 1 Hour

1.4 Mesh and Nodal Analysis 2 Hours

1.5 Star delta transformation 1 Hour

2. Capacitance of Capacitor 07

Hours

16%

2.1 Introduction to capacitors, Permittivity, Electrostatic field, Electric field

strength, Electric flux density, Electric Field Intensity, Relation between D & E,

some examples

2 Hours

2.2 Capacitance, Capacitors, Types of capacitor, Dielectric Constant 1 Hour

2.3 Capacitors connected in parallel and series, The parallel plate capacitor, Multi-

plate Capacitors.

2 Hours

2.4 Energy stored in capacitors, Charging and Discharging capacitors 2 Hours

3. Single Phase Transformer 05

Hours

11%

3.1 Construction and principle of single-phase transformer, operation at no load

and on load

1 Hour

3.2 Vector diagram, equivalent circuit, losses, efficiency and regulation 2 Hours

3.3 Determination of regulation and efficiency by direct load test and indirect test

methods

2 Hours

4. Diodes and Applications 12

Hours

27%

4.1 Crystalline material: mechanical properties, energy band theory, Fermi levels

2L Conductors, Semiconductors and Insulators: electrical properties, band

diagrams.

2 Hours

4.2 Semiconductors: intrinsic and extrinsic, energy band diagram, electrical

conduction phenomenon, P-type and N-type semiconductors, drift and diffusion

carriers

1 Hour


4.3 PN Junction, Forward & Reverse Bias PN Junction, V-I Characteristics of PN

Junction

2 Hours

4.4 Junction Break down, Zener and Avalanche Break down 1 Hour

4.5 Junction Capacitor and Equivalent Circuit 1 Hour

4.6 Diode Resistance, PN Junction Diode, V-I Characteristic and Diode

Parameters

2 Hours

4.7 Diode Ratings or Specification, Photo Diode, Zener Diode 1 Hour

4.8 Full wave and half wave rectifiers, C, LC, Filters 2 Hours

5. Transistor and Characteristics 07

Hours

16%

5.1 Introduction of BJT, Transistors components emitter, base and collector 2 Hours

5.2 Transistor Construction and Biasing 2 Hours

5.3 Transistor Circuit Configuration: Common Base, Common Emitter, Common

Collector Configuration

2 Hours

5.4 DCOperating point 1 Hour

6. Fundamental of Digital Electronics 06

Hours

13%

6.1 Number Systems-Binary, Octal, Decimal, Hexadecimal 2 Hours

6.2 Base Conversions, Complements, Logic Arithmetic operation 2 Hours

6.3 Logic Gates 2 Hours

7. Fundamental of Electronic Instrumentation and Measurements 02 Hours

04%

7.1 Digital Voltmeter System, Digital Multimeter, Cathode-ray Oscilloscopes,

Deflection Amplifier, Waveform Display, Oscilloscope Time Base, Oscilloscope

Controls, Measurement of Voltage, Frequency, and Phase

1 Hour

7.2 Signal Generator: Function Generators, Laboratory Power Supplies

:Unregulated DC Power Supplies, Power Supply Performance and Specifications,

DC Power Supply Use

1 Hour


Lectures will be taken in class room with the use of multi-media presentations and/or

black board.

Each unit of the course is followed by an assignment which is a component of course

evaluation.


Quizzes and interactive period will also carry out during lecture/s.

E. Recommended Study Material:

Text Books:

1. Electronic Devices & Circuit by Boylestead & Louis Nashelsky,6th Edition,

Pearson Education Asia.

2. Principle of Electronics Engineering by V K Mehta,1st Edition, S.Chand

Publication.

3. Fundamental of digital circuit by A Anandkumar, 2nd Edition, PHI Publication.

Reference Books:

1. Integrated Electronics by Jacob Millman and Halkias, Tata McGraw Hill

Edition,1991.

2. Digital Principles and Application by Malvino & Leach, THI-1999.

3. Semiconductor Devices and Circuits by Aloke K. Dutta.

4. Digital Logic and Computer Design by Morris Mano, PHI Publication 2002.

Web Material:

1. http://hyperphysics.phy-astr.gsu.edu/hbase/Electronic/etroncon.html

2. http://www.facstaff.bucknell.edu/mastascu/eLessonsHTML/EEIndex.html

3. http://www.onesmartclick.com/engineering/basic-electrical-engineering.html

F. Outcome of the course:

On successful completion of the course, a student can acquire the basic knowledge of

electric circuits, electronic and electronic fundamentals, thus being prepared to pursue

any area of engineering spectrum in depth as desired. Students will be able to effectively

employ electronics and electronic systems and lead the exploration of new applications

and techniques for their use.

http://hyperphysics.phy-astr.gsu.edu/hbase/Electronic/etroncon.htmlhttp://www.facstaff.bucknell.edu/mastascu/eLessonsHTML/EEIndex.htmlhttp://www.onesmartclick.com/engineering/basic-electrical-engineering.html


CHAROTAR UNIVERSITY OF SCIENCE & TECHNOLOGY FACULTY OF APPLIED SCIENCES

DEPARTMENT OF PHYSICS PY101: ENGINEERING PHYSICS

Credits and Hours:


Hours/week 3 2 5 4

Marks 100 50 150


The main objectives of the subject are

To study the basic concepts of physics and engineering applications of physics.

To develop physical intuition, mathematical reasoning, and problem solving skills.

To prepare students for the necessarily rigorous sequence in physics and engineering.

To develop an ability to identify, formulate and solve physics and engineering

problems through numerical analysis and laboratory methods.


Sr. No. Title of the Unit Minimum Number of

Hours 1 Error Analysis 04

2 Wave Motion and Sound 08

3 Modern Optics 09

4 Solid State Physics 10

5 Structure of Materials 07

6 Nano science 07



Total Hours: 75



1 Error Analysis 04 Hours 09%

1.1 Introduction and Basic definitions

1.2 Average error, r.m.s. error, probable error and error

propagation

1.3 Significant digit and figures

1.4 Numericals

2 Wave Motion and Sound 08 Hours 18%

2.1 Propagation of waves, longitudinal and transverse waves,

mechanical and non-mechanical waves

2.2 Sound waves, architectural acoustics, classification of sound

2.3 Loudness, Weber-Fechner law, Bel and Decibel

2.4 Absorption coefficient, reverberation, Sabines formula

2.5 Factors affecting acoustics of buildings and their remedies

2.6 Ultrasonic properties, Production, piezoelectric and

magnetostriction method, applications

2.7 Numericals

3 Modern Optics 09 Hours 20%

3.1 Lasers and its properties, spontaneous and stimulated

emission, population Inversion

3.2 Einstein coefficients

3.3 Gas laser ( Co2 Laser), Solid (Nd YaG) Laser

3.4 Hologram- Introduction, construction and reconstruction

process

3.5 Applications of Lasers

3.6 General ides of optical fibre

3.7 NA of fibre, step index and graded index fibre

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