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Syllabus & Examination Scheme

BACHELOR OF ENGINEERING CIVIL ENGINEERING

(Semester Scheme)

FOUR YEAR INTEGRATED COURSE B.E. Second Examination 2020-21 B.E. Third Examination, 2021-22 B.E. Fourth Examination, 2022-23

JAI NARAIN VYAS UNIVERSITY JODHPUR

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Contents

LIST OF TEACHING STAFF 3-4

TEACHING AND EXAMINATION SCHEME

ACADEMIC RULES 5

SECOND B.E.: III SEMESTER 10

1SECOND B.E.: IV SEMESTER 11

THIRD B.E.: V SEMESTER 12

THIRD B.E.: VI SEMESTER 13

FINAL B.E. : VII SEMESTER 14

FINAL B.E. : VIII SEMESTER 15

List of Electives 16

DETAILED SYLLABUS

SECOND B.E. : III SEMESTER 18

SECOND B.E. : IV SEMESTER 22

THIRD B.E. : V SEMESTER 25

THIRD B.E. :VI SEMESTER 28

FINAL B.E. VII SEMESTER 30

FINAL B.E. VIII SEMESTER 36

Electives ( CBCS Scheme) 39-39

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LIST OF MEMBERS OF TEACHING STAFF

CIVIL ENGINEERING DEPARTMENT

Professor & Head

1. Dr. Sunil Sharma B.E.(Civil) Hons., M.E. (Civil) Hons.

Ph.D (Civil Engineering)

Professors

1. Dr. Shrikant. Ojha B.E. , M.E. , Ph.D, L.L.B.

2. Dr. Suresh Kumar Singh B.E., M.E. (Hons), PGDM ( Fin Mgt) ,Ph.D

3. Dr. Ravi Saxena B.E., M.E., Ph.D

4. Dr. A.N. Modi B.E., M.E., Ph.D

Associate Professor

1. Shri Kamal Bhandari B.E., M.E. Assistant Professor 1 Sanu Meena B. Tech, M. Tech 2. Umesh Kumar B. Tech, M. Tech

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STRUCTURAL ENGINEERING DEPARTMENT

Professor & Head

1. Dr. Ajay Sharma B.E., M.E., Ph.D.

Professor

1. Dr. Ajay Kumar Gupta M.E., Ph.D

Associate Professor

1. Dr. Piyush Chowdhary B.E.(Hons.), M.Tech, Ph.D. .

2. Dr. Suresh Singh Sankhla B.E., M.E. (Hons.), Ph.D.

3. Dr. Shailesh Chowdhary B.E., M.E., Ph D

4. Dr. Mrs. Archana Bohra Gupta B.E.(Hons), M.E., Ph D

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Bachelor of Engineering

Four Year Integrated Course

Academic Rules

1. Admission :

A candidate for admission to the four year degree programme for B.E. (Building & Construction Technology, Civil

Engineering, Chemical Engineering, Computer Science & Engineering, Electrical Engineering, Electronics &

Communication Engineering, Electronics & Computer Engineering, Electronics & Electrical Engineering, Information

Technology, Mechanical Engineering, Mining Engineering, Production & Industrial Engineering must have passed

(10+2) Senior Secondary (with English, Physics, Chemistry & Mathematics) of a board situated in state of Rajasthan or

other examinations recognized as equivalent or higher thereto and selected through RPET or otherwise as per the procedure laid down by the University/State Govt. time to time.

2. Duration of course :

The course of study shall extend over a period of four years (eight semesters as an integrated course). A student shall

follow the prescribed course as given in the teaching and examination scheme of the course to which he/she is admitted.

3. Examination Rule : (a) There shall be a theory examination (Main Examination) at the end of each Semester in Building & Construction

Technology, Civil Engineering, Chemical Engineering, Computer Science & Engineering, Electrical Engineering,

Electronics & Communication Engineering, Electronics & Electrical Engineering, Electronics & Computer

Engineering, Information Technology, Mechanical Engineering, Mining Engineering, Production & Industrial

Engineering viz.,

At the end of First Semester : First B.E., First Semester Examination

At the end of Second Semester : First B.E., Second Semester Examination

At the end of Third Semester : Second B.E., Third Semester Examination

At the end of Fourth Semester : Second B.E., Fourth Semester Examination

At the end of Fifth Semester : Third B.E., Fifth Semester Examination

At the end of Sixth Semester : Third B.E., Sixth Semester Examination

At the end of Seventh Semester : Final B.E., Seventh Semester Examination

At the end of Eighth Semester : Final B.E., Eighth Semester Examination

(b) Practicals and Sessionals examinations of odd and even semester of First B.E., Second B.E., Third B.E. & Fourth B.E. will be held at the end of each semester of the year.

(c) A candidate will be given marksheet at the end of semester examination of I, II, III & IV year of the respective

semester/year to indicate performance of the candidate as per the scheme of teaching and examination after the

declaration of result.

4. Attendance Required:

The attendance requirement in the Faculty of Engineering & Architecture shall be, “In compliance of the decision of the

Hon’ble High Court all students are required to fulfil the 75% attendance rule in each subject and there must be 75%

attendance of the student before he/she could be permitted to appear in the examination”.

(a) Condonation of shortage of attendance: The shortage of attendance up to the limits specified below may be condoned on valid reasons:

(i) Upto 6% in each subject plus 5 attendances in all aggregate of subject/papers may be condoned by the

Vice-Chancellor on the recommendation of the Dean/Director/Principal for undergraduate students and

on the recommendation of the Head of the Department for the Post-graduate students.

(ii) The N.C.C./N.S.S. Cadets sent out to parades and camps and such students who are deputed by the

University to take part in games, athletics or cultural activities may for- purposes of attendance be

treated as present for the days of these absence in connection with the aforesaid activities and that

period shall be added to their subject wise attendance.

5. BE First Year Examination:

(a) A candidate who has attended a regular course of study in the Faculty of Engineering & Architecture for the first

semester of first B.E. shall be eligible for appearing at the second semester examination of first B.E. for the B.E.

degree which shall be common to all branches.

(b) Every candidate appearing for the first semester of first B.E. examination shall be required to show a competent

knowledge of the subjects as per examination and teaching scheme.

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(c) A candidate who has attended a regular course of study for the second semester of first B.E. and has appeared in

the first semester examination shall be eligible for appearing at the second semester examination of first B.E. for

the B.E. degree, which shall be common to all branches. (d) Every candidate appearing for the second semester of first B.E. examination shall be required to show a

competent knowledge of the subjects as per examination and teaching scheme.

6. BE Second Year Examination:

(a) The course of study for the Second B.E. Examination shall be separate for all branches of study.

A candidate who after passing I & II semester of I B.E. examination and has attended regular course of study in

a particular branch of Engineering for the Third Semester second B.E. shall be eligible for appearing at the third

semester examination of Second B.E. in that branch of study.

(b) Every candidate appearing for the third semester of second B.E. examination shall be required to show a

competent knowledge of the subject as per examination and teaching scheme.

(c) A Candidate who has attended a regular course of study for the Fourth semester examination of second B.E. and

has also appeared in the third semester examination of examination of second B.E. shall be eligible for appearing

at the fourth semester examination of second B.E. in that branch of study. (d) Every candidate appearing for the fourth semester of second B.E. examination shall be required to show a

competent knowledge of the subjects as per examination and teaching scheme.

7. BE Third Year Examination:

(a) A candidate who after passing III & IV semester of second B.E. examination and has attended a regular courses

of study in a particular branch of Engineering for the fifth semester examination of third B.E. in that branch of

study.

(b) Every candidate appearing for the fifth semester of third B.E. examination shall be required to show a competent

knowledge of the subjects as per examination and teaching scheme.

(c) A candidate who has attended a regular courses of study for the eighth semester examination of final B.E. and

also has appeared in V semester examination of the third B.E. shall be eligible for appearing at the eighth

semester examination of final B.E. in that branch of study. (d) Every candidate appearing for the eighth semester of final B.E. examination shall be required to show a

competent knowledge of the subjects as per examination and teaching scheme.

8. BE Final Year Examination:

(a) A candidate who after passing V and VI semester of third B.E. examination and has attended a regular courses of

study in particular branch of Engineering for the seventh semester of final B.E. shall be eligible of appearing at

the seventh semester examination of final B.E. in that branch of study.

(b) Every candidate appearing for the seventh semester of final B.E. examination shall be required to show a

competent knowledge o the subjects as per examination and teaching scheme.

(c) A candidate who has attended regular course of study for the eighth semester of final B.E. and has also appeared

in the seventh semester examination of final B.E. Shall be eligible for appearing at study.

(d) Every candidate appearing for the eighth semester of final B.E. examination shall be required to show a

competent knowledge of the subjects as per examination and teaching scheme.

9. Training after BE Second year and BE Third year:

Every candidate is required to undergo practical training in a workshop, factory, mines or engineering

works/design office approved by the Dean of the Faculty for a period as mentioned below:

(a) Building & Construction Technology after II and III Year 45+45=90 days

(b) Civil Engineering after II and III Year 45+45=90 days

(c) Chemical Engineering after II and III Year 45+45=90 days

(d) Computer Science & Engineering after II and III Year 45+45=90 days

(e) Electrical Engineering-after II and III Year 45+45=90 days

(f) Electronics & Comm. Engineering after II and III Year 45+45=90 days

(g) Electronics & Electrical Engineering after II and III Year 45+45=90 days

(h) Electronics & Computer Engineering after II and III Year 45+45=90 days (i) Information Technology after II and III Year 45+45=90 days

(j) Mechanical Engineering after II and III Year 45+45=90 days

(k) Mining Engineering after II and III Year 45+45=90 days

(l) Production & Industrial Engineering after II and III Year 45+45=90 days

10. Criteria to Pass and Allowed To Keep Term (ATKT)

(i) The candidate has to pass individually in all subjects of each semester from I to VIII semesters, as

mentioned in the specification of corresponding teaching and examination scheme.

(ii) For a candidate to pass in each semester he/she must obtain

For I and II semester examinations, if a candidate fails in not more than 3 units (excluding HUMANITIES & ENGLISH) in a semester examination, and for III to VII semester examinations, if a

candidate fails in not more than 3 units in a semester examination, he/she shall be allowed to keep term

(ATKT) in the next higher semester, subject to the provisions of clause 5(c),6(c),7(c), and 8(c). He/ She

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shall appear in the units (s) along with regular candidates whenever examination that semester is held

and pass in the unit (s) in which he/she has failed. For the purpose of the clause, each written paper and

each practical and sessional shall be counted as a separate unit. For I B.E. examination, candidates failing in HUMANITIES & ENGLISH shall be awarded and additional ATKT.

NOTE: A candidate who is unable to appear at the semester examination in some/all written papers, Practical

and sessionals due to any reason what so ever, shall be considered as having failed in those paper(s), Practical(s)

and Sessional(s).

11. Ex-student:

(i) For I and II semester examinations, if a candidate fails in more than 3 units (excluding HUMANITIES

& ENGLISH) in a semester examination, and for III to VII semester examinations, if a candidate fails

in more than 3 units in a semester examination, he/she shall be declared failed. Such candidate shall

appear in that semester examination as Ex-student in all papers.

(ii) The candidates, who are permitted to appear as ex-students shall be required to pay a fee of Rs. 500/-

for doing each practical and sessional during the semester.

(iii) A candidate who has passed all practicals and sessionals semester shall appear in the semester examination as Ex-student in all written papers. His practical and sessional marks of the semester shall

be carried over.

12. Change of Branch in Second Year:

A candidate, promoted to II year BE, may be permitted to change his/her branch of study, from GAS course to

GAS Course and from SFS Course to SFS Course only, Strictly on the base of merit secured in BE I year

examination (First and Second Semester Examination taken together) depending upon the vacancies available in

a particular branch of study which shall be determined as follows.

“The maximum strength of branch should not increase by more that 10 percent of the sanctioned strength and the

minimum strength of a branch should not be decreased to less than 90 percent of the sanctioned strength.”

The sanctioned strength of a branch shall be reckoned to be the intake capacity of that branch, approved by

AICTE.

13. Result Computation (Award of Grade and Grade Point Average)

(a) On the basis of percentage of obtained marks the process of result computation will be as follows, and

followings will be awarded:

For every subject: Grade and Score Point

For every semester: Semester Grade Point Average (SGPA) up to precision of two digits

after decimal.

For every semester: Cumulative Grade Point Average (CGPA) up to current semester, up

to precision of two digits after decimal.

Step 1: For each subject the percentage of obtained marks will be converted into

Grade as per Table I.

Table I: Percentage of Obtained Marks to Grade Conversion

Percentage of Obtained Marks in Theory Subjects

Percentage of Obtained Marks in Practical Subjects

Grade

85≤per 85≤per O

70≤per<85 70≤per<85 A+ 60≤per<70 60≤per<70 A 55≤per<60 55≤per<60 B+ 50≤per<55 50≤per<55 B 45≤per<50 NA C 35≤per<45 NA P

per<35 per<50 F Absent Absent AB

Step 2: For each subject convert the Grade to Score Point as per Table II.

Table II : Grade to Score Point

Grade Score Points

O 10

A+ 9

A 8

B+ 7

B 6

C 5

P 4

8

F 0

AB 0

Step 3: Semester Grade Point Average (SGPA) of kth semseter is

𝑆𝐺𝑃𝐴 =∑ 𝑃𝑖 ∗ 𝐶𝑖 𝑛

𝑖=1

∑ 𝐶𝑖𝑛𝑖=1

Where Pi is Score Points in ith subject, Ci is Credits of ith subject,

and n is total number of subjects in current kth semester

Step 4: Cumulative Grade Point Average (CGPA) of kth semester is

𝐶𝐺𝑃𝐴 =∑ 𝑆𝑗 ∗ 𝐶𝑗

𝑚𝑗=1

∑ 𝐶𝑗𝑚𝑗=1

Where Sj is SGPA of jth semester, Cj is total Credits in jth semester,

and m istotal number of semesters upto current kth semester.

(b) For determining merit position of the candidates at the final year level the SGPA obtained by them in III

semester to VIII semester shall only be considered, termed as MGPA (Merit Grade Point Average). MGPA shall

be calculated as below:

𝑀𝐺𝑃𝐴 =∑ 𝑆𝑖 ∗ 𝐶𝑖

8𝑖=3

∑ 𝐶𝑖8𝑖=3

Where Si is SGPA of ith semester, Ci is total Credits in ith semester.

(c) In case a candidate passes any subject in 2nd attempt or later one, the grade awarded shall not be higher than B+

in that subject.

(d) Awarded SGPA and CGPA shall be recalculated if a candidate passes a subject or all subjects of any semester in

2nd or later attempt.

(e) To calculate SGPA and CGPA, obtained marks for all subjects shall be considered irrespective of whether it is F

grade (Failed or Absent) or any other grade.

14. Requirement of additional degree:

(a) An engineering graduate of the Jai Narain Vyas University, Jodhpur who wish to qualify for an additional degree of Engineering of the University will be considered by a committee consisting of the Dean and the Head of the

Department concerned.

(b) He/She will be admitted in Second B.E. class of that branch. The written papers and practicals and sessionals

which he/she has to appear at the various examinations in that branch will be decided by the above committee.

(c) He /She will be awarded Grades and Grade Points on the basis of percentage of marks obtained by applying

result computation method mentioned in section 13.

(d) He/She has to undergo training after Second BE and Third BE as per Section 9.

(e) He/She will not be awarded any position in the class.

(f) Mention will be made in the certificate that he/she has qualified for the additional degree.

15. Medium of Instruction and Examination The medium of Instructions and Examination in all Engineering Examinations of

Theory/Practical and Sessional shall continue to be English as hitherto.

16. Make up Examination for VIII Semester:

(a) There shall be a Make up Examination for the VIII Semester only for those candidates, who are eligible for

ATKT in VIII semester, at a suitable interval of time after declaration of the result of the VIII Semester

Examination. Candidates, who fail or are unable to appear at this examination, shall appear in the immediate

corresponding ensuring Semester Examination.

(b) Candidates who have failed in the Final B.E. Examination but have passed in seminar, project, practical training

and tour, and obtained SGPA 5.00 or above in corresponding semester, shall be exempted from re-examination

in project, practical training and tour and shall be required to pass the examination in rest of the subjects only.

(c) A candidate who passes in a limited number of Theory papers/Practical and Sessional /Project in VIII Semester Examination shall be awarded division with a mention of “Pass in more than on attempt” on the marksheet with

asterisks on the respective Theory papers/ Practical and Sessional /Project.

17. On changing Teaching and Examination Scheme or contents of the offered subjects:

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(a) In case a candidate fails in any semester, and appears as ex-student, he will be given two attempts to pass

through OLD SCHEME. Otherwise he will be transferred to NEW SCHEME offered by the department

currently. (b) If a candidate joins any semester as regular student, in all cases he/she has to study as per the currently offered

scheme.

(c) In case a candidate fails in some of the subjects in a semester (ATKT), he will be given only two chances to pass

through OLD SCHEME. Otherwise he will be transferred to NEW SCHEME offered by the department

currently.

18. For lateral entry candidates admitted to Second B.E. (all branches):

(a) The diploma passed candidates admitted in the Second B.E. (all branches) shall be required to undergo a regular

course of study in Special Mathematics III and IV semesters of II B.E. along with other theory units of the

semester examinations. For a candidate to pass in Special Mathematics examination the combined marks

obtained in III & IV Semester shall be counted. Candidate failing in special mathematics shall be awarded one

additional ATKT.

(b) The B Sc Passed candidates admitted to Second BE (all branches) will have to clear deficiencies of engineering subjects (theory and practical of B.E. Ist year) as mentioned below :-

Theory Papers

CE 102 A : CIVIL ENGINEERING

SE 104 A: ENGINEERING MECHANICS

EE 105 A: BASIC ELECTRICAL ENGINEERING

CSE 151 A : INTRODUCTION OF COMPUTING

ME 154 A : ELEMENTS OF MECHANICAL ENGINEERING

ECE 155 A : BASIC ELECTRONICS

Practicals and Sessionals

CE 121B: ENGG. GRAPHICS

SE 123 B : ENGINEERING MECHANICS LAB CE 124 B: CIVIL ENGINEERING LAB

ME 125 B: WORKSHOP PRACTICE – I

EE 126 B: BASIC ELECTRICAL LAB

ME 171 B : MACHINE DRAWING

ME 173 B : MECHANICAL LAB

ME 175 B : WOTKSHOP PRACTICE - II

ECE 176 B : BASIC ELECTRONICS LAB

CSE 177 B : COMPUTER LAB

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B.E. II Year (Civil) 2020-21

SEMESTER III EXAMINATION SCHEME 2021

Deptt

Code

Subject

Code Subject L T Pr

Contact

Hours Credit

Exam

Hours

Marks

Theory Pract &

Sess Total

A: Theory Papers

CE 201 A Fluid Mechanics – I 2 - - 2 2 3 100 - 100

CE 202 A Surveying 2 - - 2 2 3 100 - 100

CE 203 A Construction Technology-I 3 - - 3 3 3 100 - 100

SE 204 A Strength of Materials 2 - - 2 2 3 100 - 100

SE 205 A Transportation Engineering-I 2 - - 2 2 3 100 - 100

MA 207 A Mathematics 2 - - 2 2 3 100 - 100

Total (A) 13 - - 13 13 - 600 - 600

B: Practicals and Sessionals

CE 201 B Fluid Mechanics – I - 1 3 4 2.5 - - 100 100

CE 202 B Surveying - 1 3 4 2.5 - - 100 100

CE 203 B Construction Technology-I - - 3 3 1.5 - - 100 100

SE 204 B Strength of Materials - 2 2 4 3 - - 100 100

G 206B Geology - 2 1 3 2.5 100 100

Total (B) - 6 12 18 12 - - 500 500

Grand Total (A+B) 13 6 12 31 25 - 600 500 1100

To pass, a candidate must obtain: (a) At least P Grade in each written paper. (b) At least B Grade in each practical & sessional. (c) At least 5.00 SGPA in a semester.

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B.E. II Year (Civil), 2020-21

SEMESTER IV EXAMINATION SCHEME 2021

Deptt

Code

Subject

Code Subject L T Pr

Contact

Hours Credit

Exam

Hours

Marks

Theory Pract &

Sess Total

A: Theory Papers

CE 251 A Fluid Mechanics-II 2 - - 2 2 3 100 - 100

CE 252 A Topographical Surveying 2 - - 2 2 3 100 - 100

CE 253 A Construction Technology-II 2 - - 2 2 3 100 - 100

SE 254 A Mechanics of Solids 2 - - 2 2 3 100 - 100

SE 255 A Transportation Engineering-II 2 - - 2 2 3 100 - 100

- OPEN ELECTIVE-I 3 - - 3 3 3 100 - 100

Total (A) 13 - - 13 13 - 600 - 600

B: Practicals and Sessionals

CE 251 B Fluid Mechanics-II - 1 2 3 2 - - 100 100

CE 252 B Topographical Surveying - 1 2 3 2 - - 100 100

CE 253 B Construction Technology-II - - 4 4 2 - - 100 100

SE 254 B Mechanics of Solids - 2 2 4 3 - - 100 100

SE 255B Transportation Engineering-II 2 2 4 3 - - 100 100

Total (B) - - 12 18 12 - - 500 500

Grand Total (A+B) 13 6 12 31 25 - 600 500 1100

CE 200 E Co-curricular Activities - - - - 0 - - - 100

List of Open Electives I: Enclosed with examination scheme of VIII Semester

To pass, a candidate must obtain:

(a) At least P Grade in each written paper. (b) At least B Grade in each practical & sessional. (c) At least 5.00 SGPA in a semester.

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B.E. III Year (Civil), 2021-22

SEMESTER V EXAMINATION SCHEME 2022

Deptt.

Code

Subject

Code Subject L T Pr

Contact

Hours Credit

Exam

Hours

Marks

Theory Pract &

Sess Total

A: Written Papers

CE 301 A Geotechnical Engineering-I 2 - - 2 2 3 100 - 100

CE 302 A Pipe Flow Hydraulics 2 - - 2 2 3 100 - 100

SE 303 A Theory of Structures-I 2 - - 2 2 3 100 - 100

SE 304 A Structural Design- I (RCC) 2 - - 2 2 3 100 - 100

SE 305 A Structural Design-II (Steel) 2 - - 2 2 3 100 - 100

OPEN ELECTIVE-II 3 - - 3 3 3 100 - 100

Total (A) 13 - - 13 13 - 600 - 600

B: Practicals and Sessionals

CE 301 B Geotechnical Engineering-I - 1 3 4 2.5 - - 100 100

CE 302 B Pipe Flow Hydraulics - 1 3 4 2.5 - - 100 100

SE 303 B Theory of Structures-I - 2 - 2 2 - - 100 100

SE 304 B Structural Design- I (RCC) - 1 3 4 2.5 - - 100 100

SE 305B Structural Design-II (Steel) - 1 3 4 2.5 - - 100 100

Total (B) - 6 12 18 12 - - 500 500

Grand Total (A+B) 13 6 12 31 25 - 600 500 1100

List of Open Electives II: Enclosed with examination scheme of VIII Semester

To pass, a candidate must obtain: (a) At least P Grade in each written paper. (b) At least B Grade in each practical & sessional. (c) At least 5.00 SGPA in a semester.

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B.E. III Year (Civil ), 2021-22

SEMESTER VI EXAMINATION SCHEME 2022

Deptt.

Code

Subject

Code Subject L T Pr

Contact

Hours Credit

Exam

Hours

Marks

Theory Pract &

Sess Total

A: Theory Papers

CE 351 A Geotechnical Engineering-II 2 - - 2 2 3 100 - 100

CE 352 A Open Channel Hydraulics 2 - - 2 2 3 100 - 100

CE 353 A Advanced Surveying 2 - - 2 2 3 100 - 100

SE 354 A Structural Design III (RCC) 2 - - 2 2 3 100 - 100

SE 355 A Structural Design IV (Steel) 2 - - 2 2 3 100 - 100

OPEN ELECTIVE-III 3 - - 3 3 3 100 - 100

Total (A) 13 - - 13 13 - 600 - 600

B: Practicals and Sessionals

CE 351 B Geotechnical Engineering-II - 2 2 4 3 - - 100 100

CE 352 B Open Channel Hydraulics - - 3 3 1.5 - - 100 100

CE 353 B Advanced Surveying - 2 3 5 3.5 - - 100 100

SE 354 B Structural Design III (RCC) - 1 2 3 2 - - 100 100

SE 355B Structural Design IV (Steel) 1 2 3 2 - - 100 100

Total (B) - 6 12 18 12 - - 500 500

Grand Total (A+B) 13 6 12 31 25 - 600 400 1100

CE 300 E Co-curricular Activities - - - - - - - - 100

List of Open Electives III: Enclosed with examination scheme of VIII Semester

To pass, a candidate must obtain: (a) At least P Grade in each written paper. (b) At least B Grade in each practical & sessional. (c) At least 5.00 SGPA in a semester.

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B.E. Final Year (Civil), 2022-23

SEMESTER VII EXAMINATION SCHEME 2023

Deptt

Code

Subject

Code Subject L T Pr

Contact

Hours Credit

Exam

Hours

Marks

Theory Pract &

Sess Total

A: Theory Papers

CE 401 A Environmental Engineering-I

2 - - 2 2 3 100 - 100

CE 402 A Hydrology & Dams 2 - - 2 2 3 100 - 100

CE 403 A Engineering Economics & Management

2 - - 2 2 3 100 - 100

SE 404 A Structural Design V (RCC) 2 - - 2 2 3 100 - 100

SE 405 A Structural Design VI (Steel) 2 - - 2 2 3 100 - 100

CE Elective – I 2 - - 2 2 3 100 - 100

Total (A) 12 - - 12 12 - 600 - 600

B: Practicals and Sessionals

CE 401 B Environmental Engineering-I

- 1 3 4 2.5 - - 100 100

CE 402 B Hydrology & Dams - 1 3 4 2.5 - - 100 100

SE 404 B Structural Design V (RCC) - 2 2 4 3 - - 100 100

SE 405 B Structural Design VI (Steel) - 2 2 4 3 - - 100 100

SE 435 B Estimating and Costing - 1 2 3 2 - - 100 100

Total (B) - 7 12 19 13 - - 500 500

Grand Total (A+B) 12 7 12 31 25 - 600 500 1100

To pass, a candidate must obtain:

(a) At least P Grade in each written paper. (b) At least B Grade in each practical & sessional. (c) At least 5.00 SGPA in a semester.

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B.E. Final Year (Civil), 2022-23

SEMESTER VIII EXAMINATION SCHEME 2023

Deptt

Code

Subject

Code Subject L T Pr

Contact

Hours Credit

Exam

Hours

Marks

Theory Pract &

Sess Total

A: TheoryPapers

CE 451 A Environmental Engineering-II 3 - - 3 3 3 100 - 100

CE 452 A Water Resources Engineering 3 - - 3 3 3 100 - 100

CE 453 A Town Planning 2 - - 2 2 3 100 - 100

SE 454 A Structural Design VII (RCC) 3 - - 3 3 3 100 - 100

SE 455 A Structural Design VIII (Steel & General)

3 - - 3 3 3 100 100

SE Elective –II 2 - - 2 2 3 100 - 100

Total (A) 16 - - 16 16 - 600 - 600

B: Practicals and Sessionals

CE 451 B Environmental Engineering-II - - 3 3 1.5 - - 100 100

CE 452 B Water Resources Engineering - - 3 3 1.5 - - 100 100

CE 454 B Structural Design VII (RCC) - 1 2 3 2 - - 100 100

CE 455 B Structural Design VIII (Steel)

& ESA Lab

- 1 2 3 2 - - 100 100

CE/SE *Project - 2 - 2 2 100 100

Total (B) - 4 10 14 9 - - 500 500

Total (A+B) 16 4 10 30 25 - 600 500 1100

C: Others

CE 475 C **Practical Training - - - - 13 - - 100 100

Total (C) - - - - 13 - - 100 100

Grand Total (A+B+C) 16 4 10 30 38 - 600 600 1200

CE 400 E Co-curricular Activities - - - - 0 - - - 100

*Project: The Head of the departments of Civil Engineering & Structural Engineering will together decide the number and topics to be offered for project work and examination, for each session , subject to maximum of 12 such topics which will be allotted to the students on the basis of choice-cum merit. The working load of 2 periods per week will be considered for the teachers supervising the project work. ** Practical Training: Students will take practical training as per the course requirement during II Year and III Year.

To pass, a candidate must obtain: (a) At least P Grade in each written paper. (b) At least B Grade in each practical & sessional. (c) At least 5.00 SGPA in a semester.

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List of Electives

Any one of the following for CE: Elective I – VII Semester Civil Engineering

CE 411 A Foundation Engineering

CE 412 A Rural Water Supply and Sanitation Engineering

CE 413 A Desert Technology

CE 414 A Hydraulic Machines

CE 415 A Dams

CE 416 A Water Resources and Management

CE 417 A Ground Water Hydrology

Any one of the following for SE: Elective II- VIII Semester Civil Engineering

SE 461 A Finite Element Method*

SE 462 A Prestressed Concrete

SE 463 A Dynamics of Structures

SE 464 A Industrial Building Structures

SE 465 A High Rise Structures

SE 466 A Composite Structures

SE 467 A Introduction to Earthquake Engineering

*If any student has opted ME 392A Open Elective-II: Finite Elements Method in

Sixth Semester from the list of electives offered by the other departments,

in that case he is not eligible to opt SE 461 A: Finite Element Method

paper.

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List of Open Electives available for Civil Engineering Students offered by other departments: Name of subject Semester BCT 291 A Open Elective-I: Sustainable Architecture

ChE 291 A Open Elective-I : Renewable Energy Sources

CSE 291A Open Elective-I :Object Oriented Programming Through C++

CSE 292A Open Elective-I :Object Oriented Programming Through JAVA EC 291 A Open Elective-I: Logic System Design

Ma-291 A Open Elective-I :Mathematical Statistics For Engineers

ME- 291A Open Elective-I:Renewable Energy Sources ME-292A Open Elective-I: Automobile Engineering

MI 291A Open Elective-I: Tunneling For Engineering Projects

PI 291A Open Elective-I: Manufacturing Science

Fourth Semester

ChE 341 A Open Elective-II : Petroleum Refining Technology CSE 341A Open Elective-II :Data Structures and Algorithms

EC 341 A Open Elective-II: Microprocessors & Microcontrollers

EE 341 A Open Elective-II : Optimization Techniques EE 342 A Open Elective-II : Artificial Intelligence

EE 341 A Open Elective-II : Industrial Applications of Electrical Drives

Ma 341 A Open Elective-II :Mathematical Theory of Operations Research

ME 342A Open Elective-II: Systems Design And Analysis MI 341A Open Elective-II: Application of GIS & Remote Sensing in Engineering

Fifth Semester

BCT 391 A Open Elective-III: Climate Responsive Architecture

ChE 391 A Open Elective-III : Nanotechnology CSE 391A Open Elective-III; Web Technology

CSE 392A Open Elective-III: Data Base Management System

CSE 393A Open Elective-III: Information Protection & Computer Security

EC 391 A Open Elective-III: Electronic Instrumentation EE 391 A Open Elective-III: Soft Computing Techniques

EE 392 A Open Elective-III: Energy Conservation

Ma 391 A Open Elective-III: Advanced Numerical Analysis ME 391A Open Elective-III: Design Planning And Control Of Production System

ME 392A Open Elective-III: Finite Elements Method

MI 391A Open Elective-III: Project Environment Clearance PI 391A Open Elective-III: Quality Management

Sixth Semester

Note: Students are allowed to opt only one subject from the combination given

below:

(a) EE 292 A Open Elective-I/ EE 391 A Open Elective –III

BCT: Building Construction Technology, CE: Civil Engineering, ChE: Chemical

Engineering, CSE: Computer Science, EC: Electronics & Communication, EE:

Electrical Engineering, ME:Mechanical Engineering, MI: Mining Engineering, PI: Production & Industrial Engineering, SE: Structural Engineering, Ma: Mathematics

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B.E. II Civil Engineering - III Semester CE 201 A: FLUID MECHANICS - I

2L, IT, 3P 3 HOURS, MM 100

Introduction: Fluid, its physical properties. Ideal and Real fluids. Newtonian and Non-

Newtonian fluids. Principles of fluid statics: Pressure at a point, Absolute, gauge and vacuum pressures. Pressure measurements by manometers, Pressure gauges and Transducers. Total pressure and centre of pressure on plane and curved immersed surfaces. Buoyancy, Floatation, Equilibrium of floating bodies, Metacentre and determination of

metacentric height. Kinematics of flow: Concepts of fluid flow – steady and unsteady flows, uniform and non-uniform flows, laminar and turbulent flows. Rotational and irrotational flows, Vorticity. Condition for two dimensional irrotational flows. Streaklines, streamlines and pathlines. Stream tubes, stream function. Continuity equation in Cartesian co-ordinates. Stream function and Velocity potential for two dimensional flow, Laplace equation. Flownet and its characteristics. Equation of motion, energy and momentum applications: General hydrodynamic equations for total accelerations, Euler’s equation of motion in Cartesian co-ordinates, integration of Euler’s equation of motion to obtain Bernoulli’s equation. Energy equation and its applications, Pitot tube, Fluid masses subjected to uniform accelerations. Free and forced vortex flows. Momentum equation and its applications, Navier Stoke’s equation

CE 202 A: SURVEYING

2L, 1T,3P 3 HOURS. MM 100 Plane Table Surveying: Principle, advantages and disadvantages of plane table surveying. Plane table equipments including Indian pattern tangent clinometer and telescopic alidade, Adjustments, setting up of the plane table, leveling, orientation and centering, Different methods of plane table surveying, radiation, traversing, intersection and resection. Two & three point problems and their solutions. Theodolite Surveying : Introduction : Measurement of horizontal and vertical angles,

other uses of theodolite. Errors in the measured values of horizontal and vertical angles

and the procedures adopted in the field to eliminate/minimize the errors.

Permanent adjustments of standard vernier theodolite. Elementary idea of the micro-

optic theodolites. Theodolite Traversing: Various methods of theodolite traversing. Traverse computation, Gales Traverse Table, Systems of co-ordinates, Adjustment of traverse by Bowditch and Transit rules. Area of a closed traverse by Double Meridian Distance Method. Omitted measurements and their calculations. Tacheometric Surveying: Theory of stadia tacheometer. Fixed hair stadia tacheometer and stadia rods. Instrumental constants, methods of observation with a fixed hair stadia tacheometer, horizontal and inclined sights, vertical and normal staff holdings. Reduction tables. Elementary treatment of self reducing tacheometers. Tangential tacheometery, substance methods of tacheometery. Errors and precision in tacheometric surveying. Contours and contouring: Methods of representation of relief on a map. Definition of contours. Choice of contour: Contour interval, Characteristics of contours, Contour interval for various purposes, Contour gradients, Uses of contour maps. Direct and indirect methods of contouring. Interpolation of contours. Volume of reservoir from contour map.

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CE 203: Construction Technology-I

3L, 3P 3 HOURS. MM :100

Selection of site of site of a building, planning , Orientation of buildings. Building bye

laws- general concept. Functional requirements of building. Planning for residential

buildings. Parts of the building.

Foundation: Function of foundation , requirement of foundation . Settlements of

foundation Failure of foundation.

Shallow & Deep Foundation: Wall foundation, isolated footing, raft foundation &

Grillage foundation ( description only). Pile foundation (( description only): various

types of pile , pile driving machinery, pile caps.

Design Loads: Dead load, live load, wind load, seismic load, snow load and other loads

as per BIS.

Concrete: Fundamental of concrete, various concrete mixtures.

Mortars: Lime and Cement mortar. Masonries: Stone, Brick., and hollow block masonry

Damp Proofing: Causes and effects of dampness, Parts of building likely to be affected ,

various methods of damp proofing of buildings including basement and roof.

Shoring, underpinning and scaffolding

Mechanised construction: Fundamentals of mechanization. Plants & tools for earth work,

transportation, movement , handling, concrete mixers & pumps.

Centreline of residential building and layout in field.

Origin of Earth.. Internal Structure of the Earth.

Various types of Rocks and their formation ( Description only) : Igneous, Sedimentary

and Metamorphic rocks

SE 204 A: Strength of Materials

2L,2T, 2P 3 HOURS, MM 100

Compound Stress: Stresses on inclined plane, Principle planes, principle stresses and

strains, Mohr’s Circle diagram.

Strain Energy, Resilience, proof resilience, strain energy for gradual, sudden and impact

loading, strain energy due to shear.

Theories of Failures – Maximum Principal Stress theory, Maximum Principal Strain

theory, maximum shear stress theory, maximum strain energy theory and maximum shear

strain energy theory.

Theory of Springs – Closed coil and open coil helical spring for axial pull, axial

couple/Torque, carriage or leaf spring. Spring in series and parallel.

Thin Cylindrical and Spherical Shells Longitudinal and hoop stresses for internal

pressure, change in volume. Thin cylinder/Tube externally reinforced by external

windings.

Columns and Struts-Elastic Instability, criteria for stability of equilibrium, Euler’s Theory

for long columns for different end conditions, limitations of Euler’s theory. Rankine’s

formula, Indian Standard formula, Built – up columns.

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Bending moment and shearing force diagrams under static loads, concentrated, uniformly

distributed and uniformly varying loads on cantilever, simply supported and overhanging

beams.

Theory of simple bending, distribution of normal stress due to bending, section modulus.

Shear stress distribution in rectangular, circular, I, Tee and L – section.

Torsion : Shear stress in solid and hollow circular shafts, angle of twist, power

transmitted by shaft under pure torsion. Combined bending and torsion.

Shear centre and its location. Introduction to unsymmetrical bending.

SE 205 A : TRANSPORTATION ENGINEERING- I

2L, 2T 3 HOURS. MM 100 General: Introduction: Principal modes of transportation , comparison and coordination History of Development of Road in India. Highway Engineering: Highway Planning and Finance, Principle of highway planning, factors affecting, preparation of Master Plan, Highway Financing - Various Methods. Traffic Engineering: Vehicular and Driver's characteristics, Reaction Time, PIEV theory, volume, speed and O and D studies . Traffic control methods, channelization , Road Intersection- Types, Traffic sign, signals and markings, Design of signal timings for two way intersection. Geometric Design: Factors affecting and controlling highway alignment, preliminary and location survey, Factors governing Geometric design, Vehicle Dimension and Design speed, Highway capacity, lane width camber side slopes. Formation width, Widening on curves, Superelevation on curves. Sight Distance: Stopping and overtaking, Gradients, grade compensation on curves,

vertical curves. Highway Material: Properties and tests on stone aggregates, bitumen and tar. Design characteristics of Bituminous concrete Mix - Marshal Method of mix design. Pavment Design: Factors affecting design of Highway, Flexible and Rigid pavements, Introduction to Boussinesqu's and Burmister's formula, concept of Equivalent single wheel load, C.B.R. method of flexible pavement design. Construction and Maintenance: Construction features of W.B.M., Bituminous and concrete Roads, specification for

20mm thick Premix Bituminous carpet and 50 mm thick grouted Bitumen Macadam.

Highway Maintenance: Brief Introduction of failure pattern and maintenance techniques

for WBM, bitumen and concrete Roads. Highway Drainage: Types of CD works.

Ma 207 A : Engineering Mathematics 2L 3 HOURS. MM 100 Differential Equation : Simultaneous differential equation. Total differential equations..

Partial differential equations of first order. Charpit’s method

Complex Analysis : Analytic functions, Complex integration

Cauchy’s Integral theorem, cauchy’s integral formula and its application, cauchy’s

residue theorem and its application to evaluate the integral of the type ᶴ0

2π f(sin θ, cos θ)dθ and ᶴ-∞+∞ f(x) dx

Probability & Statistics: Theory of probability and its application. Binominal probability

distribution, poisson probability distribution, normal probability distribution, correlation

and regression analysis of two variable system.

G206 B : Engineering Geology 2T,1P 3 HOURS. MM: 100 Earth Science and its branches. Introduction to engineering geology. Origin of Earth.. Internal Structure of the Earth. Standard geological time scale. The theory of Plate tectonics,. Applications of the Plate tectonic theory.

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Importance of weathering and erosion in Civil Engineering Geological work of river, glaciers and wind, Structural Geology : Bedding plane, Dip and Strike, Folds, Fault and unconformity, terminology classification and identification in the field and map. Earthquakes definition, Geological causes, measurement (Magnitude and intensity), Sesmic zone of India. Asesmic designs. Volcanoes – their products and distribution. Mineralogy: Definition and physical properties of minerals. Classification of minerals Rocks : Igneous, Sedimentary and Metamorphic rocks, their classification, texture and structure; Engineering properties of rocks and rocks as engineering materials.

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B.E. II Year Civil -IV Semester

CE 251 A : FLUID MECHANICS II (C)

2L, IT, 2P 3 HOURS. MM 100 Flow through pipes: Reynold’s experiment, Minor losses – loss of head due to sudden enlargement, sudden contraction, bend, entry and exit, loss of head due to friction – Darcy’s Weisbach equation,. Hydraulic gradient and total energy lines. Pipes in series and parallel. Equivalent pipeline, Bye pass, Flow through branched and uniformly tapped pipes. Flow measurement through pipes. Transmission of power through pipes, Water hammer in pipes due to gradual and sudden closure of valve. Allevi’s equation, Hydram. Dimensional analysis and similitude: Dimensions and units of measurement. Principle of dimensional homogeneity. Buckinghum’s pi theorem. Dimensional analysis of typical flow problems. Hydraulic experimentation for determination of omitted and superfluous variables. Geometric, Kinematic and dynamic similarity. Important dimensional-less numbers and significance. Planning and operation of undistorted models of typical flow problems. Merits, demerits and planning of distorted models. Flow through opening - Orifices, mouthpieces, nozzles, sluice gates, flow under varying head.

Orifice discharging free, Jet, Vena contracta, co-efficient of contraction, velocity and discharge. Notches and Weirs – rectangular, triangular and trapezoidal notches and weirs. Proportional weirs, Ogee profile, Flow under varying head.

CE 252 A: TOPOGRAPHICAL SURVEY

2L, 1T,2P 3 HOURS. MM 100 Curves and curve ranging : Necessity of curves. Classification of curves-simple, compound, Reverse and vertical curves. Element of Simple circular curves, methods of setting out a simple circular curve, obstacles in

setting out of simple circular curves, Elementary treatment of Compound and Reverse curves. Transition curves: Change of curvature, super elevation, Requirements of an ideal transition

curve, super elevation. Modifications to the ideal transition curve. Methods of setting out a

transition curve.

Vertical curves: Consideration of change of gradient and sight distance. Setting out of a vertical

curve. Hydrographic Surveying: Tide producing forces. Equilibrium theory, tide gauges.

Establishment of mean sea level. Sounding : Equipments used in sounding. Methods of sounding

for various depths of water. Location of soundings: Various methods of locating the sounding, three point problem and its solution by mechanical, graphical and analytical methods. Introduction to Barometric leveling. Tunnel Surveying. Necessity of tunneling, surface surveys and setting out. Correlation of surface and underground surveys. Transfer of levels underground. Transfer of surface alignment to underground by Coplanning and Weisbach Triangle Methods. Electronic Surveying: Principles, working of Geodimeter. Tellurometer and distomat Radar

system. Accuracy of different electronic distance measuring methods.

23

CE 253 A: CONSTRUCTION TECHNOLOGY – II

2L, 4P 3 HOURS. MM 100 Staircase: Requirements of goods staircase . Layout of staircases. Types of staircases. Planning and design of various types of staircase. Ramps, lifts & escalators ( Design requirements and consideration only). Floors: Various types, suitability for various purposes, construction details, floor finishes, composite floors, precast beam floors etc. Roof & Roof covering: Sloping roofs, flat roofs, roof covering ( AC Sheets, GI corrugated sheets, sheet materials, glass covering, stone roofing, RCC roofing etc) ,Doors & windows: Locations, size, materials, frames & fittings.

Type of doors: Battened & legged & braced, framed and panelled, glazed doors, flush doors,

metal doors, composite doors

Types of windows :Sliding , pivoted, double hung, casement etc, metal windows, composite

windows.

Plastering & pointing: Materials & tools, design consideration foe plastering, defects in

plastering.

Painting: Type of paints and process of painting. Distempering & white washing.

Wall cladding.

Joints: Expansion & construction joints in buildings.

Ventilation & Air conditioning: Purpose of ventilation . Methods of ventilation, systems of

ventilation. Rate of ventilation. Systems of air conditioning.

Thermal Insulation: Insulation of roofs, insulation by air spaces & cavities. Economics of

insulation.

Water Supply and Drainage: House connection alignment, laying and joining of service pipes

and fittings. House Drainage, sanitary fitting, traps, soil pipe waste pipe, vent pipe, anti-

syphonage pipe, inspection chamber, intercepting trap and soak pit.

Acoustics and Sound Insulation : General principles, sound absorbing materials, insulation of

walls and floors. Acoustical correction, optimum time of reverberation Fire Protection: Behaviors of different materials. Methods of fire proofing of walls, structural steel & wood.

SE 254 A : Mechanics of Solids 2L, 2T, 2P 3 HOURS. MM 100 Slope and Deflection of Statically Determinate Beams – Moment-curvature relation, Governing differential equation, double integration method, singularity function for beams, Macaulay’s method,

moment area method, conjugate beam method, relation between maximum stress and maximum

deflection. Deflection due to shear. Deflection of composite beams. Method of consistent deformation.

Fixed and Continuous Beams. Use of three moment theorem for solving statically indeterminate beams, drawing SFD, BMD and deflected shape for simple static loading.

Column analogy method for fixed beams.

Force Method Method of strain energy: basic concept, strain energy in linear elastic system, castigliano’s energy theorems, derivation application of Castigliano’s energy theorem, Maxwell’s reciprocal theorem,

Willot – Mohr diagram.

Analysis of statically indeterminate beams and frames: Law of reciprocal deflection, theorem of least

mode analysis of statically indeterminate beams and frames by minimum strain energy.

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Analysis of statically indeterminate trusses: Degree of indeterminacy, application’s of castigliano’s theorm, Maxwell’s method, stresses due to lack of fit, combined stresses, Externally Indeterminate

trusses. Trussed Beam.

SE 255 A : Transportation Engineering II

2L, 2T, 2P 3 HOURS. MM 100

General : History of Development of Rail and Air Transportation in India. Railway Engineering : Railway Track Assembly :- Permanent way, Gauge, Problem of having

different gauges, track modulus, Rail joints, stresses in rails, creep and wear of rails. Sleeper : Functions and requirements of an ideal sleeper, various types and their comparison, Rail to sleeper fixtures. Ballast: Function and requirement of ballast, Materials used for ballast, Renewal of ballast and maintenance of track. Railway Track –alignment – Basic principles and factors affecting geometric design of railway track, gradients, speed, Cant deficiency and negative cant curves, grade compensation on curves, Point and crossing, Turnouts, Symmetrical split, Switches double turnout, Diamond crossing, crossovers, single slip and double slip, Gauntlet track-Scissors crossover, Gathering lines. Railway Station and yards – Station site selection, facilities required by passengers. Platforms: goods and passengers Yards : Goods and passengers yards, Marshalling yards, Station yards. Airport Engineering : Airport Planning :- Regional planning, site selection, imaginary surfaces and zoning laws, Aircraft characteristics and controls their importance in airport planning and design. Runway orientation and design – Factors affecting; Wind rose diagram, cross wind component, Basic runway length, Runway length calculation, correction for elevation and temperature as per ICAO, Runway and Taxiway width, gradients; Minimum turning radius. Airport Layout and control :- Terminal Building, Apron, Hangers, Aircraft parking systems. Layout plans of an airport with single and multiple runway, Wind direction and Landing direction indicators. Airport lighting system, Airport drainage system (brief introduction)

Ma 261 A: Special Mathematics-I (For Diploma Passed Candidates - common for all branches)

3L,IT 3 Hrs. MM : 100

Differential Calculus :Asymptotes, curvature, envelops evolutes, and curve tracing

Integral Calculus : Rectification . Volumes and surfaces of solids of revolution, differentiations

under sign of integration

Differential Equations : Differential equations with constant coefficients and variable

coefficients.

Mechanics: Friction , common catenary, kinematics of uniplanar motion, simple harmonic

motion

Vector calculus: Gradient , divergence, curl, green’s theorem , stoke’s theorem, gauss

divergence theorem ( Verification only).

25

III B.E. Civil Engineering – V Semester

CE 301 A :Geotechnical Engineering I 2L,1T,3P 3 HOURS. MM 100

Soil and rock, Soil mass constituents. Definition of water content, Specific gravity, Void ratio,

Porosity, degree of saturation, air voids, density index etc. Phase relationship. Determination of water content. Specific gravity, particle size distribution, consistency limits, void ratio and density index, Classification of soil for Engineering use. Group index, Unified and I.S.Soil classifications, field identification tests. Soil structure, basis clay minerals. Flocculated and dispersed clays. Bearing capacity of soil. Terzaghi’s analysis of bearing capacity of shallow foundations,

skempton’s and hansen’s formula, local and general shear failure. Bearing capacity

determination by plate load test, standard penetration test and dutch cone test. Presumptive

bearing capacity. Soil water, Permeability of soil and its determination, Field pumping out test. Factors affecting permeability. Permeability of stratified soil deposits. Seepage and seepage pressure. Quick sand phenomena. Effective and total pressures. Change in effective stresses due to water flow conditions. State water Table and steady flow condition. Laplace equation for seepage. Flow net and its uses, its construction by graphical and electrical analogy methods. Piping; uplift pressure, Principle of drainage by Electro-osmosis. Principle of soil compaction. Laboratory compaction, standard and modified proctor compaction tests, Jodhpur Minicompactor test, Proctor needle. Determination of field density. Field compaction and its control. Vertical pressure distribution in soil. Boussinesq’s, equation. Vertical stress due to circular, rectangular and strip loaded areas, Newmarks chart and approximate methods, pressure bulb and its significance in foundation exploration. Contact pressure distribution. Settlement of foundation : Immediate, consolidation and differential, minimum depth of foundation. Proportioning of footings.

CE 302 A : Pipe Flow Hydraulics

2L,1T, 3P 3 HOURS. MM 100 Laminar Flow: Simple solution of Navier Stokes equations, Hagen-Poiseulli’s equation, Plane Poiseuille flow and coutte flow, Effect of Viscosity on Fluid flow:, Shear stress distribution, Equation of motion for laminar flows, Stoke’s law, Measurement of viscosity, Flow through parallel plates, Laminar flow through pipes, cavitations. Turbulent Flow: Nature of turbulence, Reynold’s momentum exchange concept and Prandtl’s

mixing length theory, Turbulent flow in pipes, equation for velocity, distribution and friction

coefficient, velocity distribution in smooth pipes, rough pipes. Nikuradse’s curves, Moody’s

diagram. Introduction to boundary layer theory, Development of boundary layer over a thin flat plate, Laminar and turbulent boundary layers, boundary layer thickness and boundary shear (by momentum integral equation), boundary layer separations and control. The Prandtl boundary layer equation. Solution for laminar boundary layer. Smooth and rough flat surfaces. Flow round a body – Drag, Skin friction drag, Pressure drag and friction drag on two

dimensional bodies submerged bodies. Wave drag, lift induced drag, Flow past sphere and

cylinder.

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SE 303 A: Theory of Structures 2L,2T 3 HOURS. MM 100

Fundamental approaches/methods. Statically Determinate structures v/s statically indeterminate

structures, conditions of geometry force/flexibility method, displacement/stiffness

method/displacement method.

The slope-deflection method, Derivation of slope-deflection method fundamental assumptions,

application of slope deflection method for solving statically indeterminate beams and portal

frames (with and without inclined members) and drawing SFD, BMD and deflected shape.

The moment distribution method: Basic concept, stiffness and carry over factors, Distribution

factors. Application of moment distribution method for solving statically indeterminate beams

and portal frame (with and without inclined members) and draw SFD, BMD and deflected shape

Analysis of statically indeterminate beams and frames: Law of reciprocal deflection, theorem of

least mode analysis of statically indeterminate beams and frames by minimum strain energy

Analysis of statically indeterminate trusses: Degree of indeterminacy, applications of

Castigliano’s theorem, Maxwell’s method, stresses due to lack of fit, combined stresses.

Externally Indeterminate trusses. Trussed Beam.

Rolling loads on beams and statically determinate trusses, shear force and bending moments due

to concentrated loads, uniformly distributed loads-longer and shorter than the span, equivalent

distributed load.

Influence lines for shear force, bending moments, stress and deflection for simply supported

beams and statically determine trusses, Muller-Breslleau principle.

SE 304 A : Structural Engineering Design-I (RCC)

2L,1T, 3P 3 HOURS. MM 100 Ingredient of cement concrete-cement, fine and coarse aggregates, water, chemical and mineral admixtures. Processes of concreting. Specification and tests for fresh and hardened concrete. Stress-strain curve, modulus of elasticity, creep and shrinkage of concrete. Types of cement and concrete. Properties and types of reinforcement-codal provisions Basic design concepts. Limit state design method, use of IS 456(latest version) provisions.

Behavior, analysis and design of flexural,Members: Singly and doubly reinforced rectangular

and ‘T’ section Design of one way, two way slab panels, flat slabs (direct design method) Design of form work for beam, slabs and columns Note : Use of IS 456-2000 is permitted in exams. .

SE 305 A : Structural Engineering Design-II (Steel)

2L,1T, 3P 3 HOURS. MM 100

Introduction to design – working stress method and limit state method. Factor of safety and

permissible stresses, partial safety factor for loads and material, types of structural steel and

section classification. Various loads on structures, floors and roofs.

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Types of connections-Bolted and welded joints, ordinary black bolts, turned bolts, high strength

blots. Axially and eccentrically loaded joints, Design of brackets, Prying forces.

Design of axially and eccentrically loaded tension members by LSD. Mode of failure, Lug

angles.

Design of compression members by LSD, Axially and eccentrically loaded columns, Design

of lacings and battens for built – up columns, Design of slab and gusseted base plate.

Design of Beams by limit state design. Simple and plated beams, web buckling and web

crippling, laterally supported and unsupported curtailment of plates. Note: (i). All design to confirm to IS:800 - 2007 (ii). The use of IS: 875, IS: 800-2007 and structural hand book no. 01(latest version) shall be

allowed in the examination.

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B.E. III Year Civil -VI Semester

CE 351 A : GEOTECHNICAL ENGINEERING-II

2L,2T,2P 3 HOURS. MM 100 Mohr circle of stress, shear strength of soil, its strength of sand and clays. Sensitivity and thixotrophy, skemption’s pore pressure coefficient. Stress path (introduction). Active, passive and at rest earth pressures, rank and coulomb’s earth pressure theories, rebhann’s and culmann’s construction for cohesionless soil back fill. Uniformally distributed surcharge. Bell’s equation for cohesive back fill. Stability of retaining wall, earth pressure on sheet piling and bulkheads. Stability of slopes. Causes of slope failures. Stability analysis by Swedish and friction circle method for total and effective stresses, Taylor’s method. Stability under sudden drawdown condition, Remedial measures. One-dimensional consolidation of soil, Consolidation test. Terzaghi’s one-dementional consolidation theory and its use in predicting rate of settlement. Total and differential settlements. Over consolidated and normally consolidated soils. Site investigation. Depth of exploration. Distributed and undisturbed samples. Types of samples. Brief description of procedures of boring and sampling. Depth, number and extent of bore holes for various structures. Soil stabilisation, Mechanical stabilisation with lime, cement, bitumen, hydroscopic and water proofing chemicals. Electrochemicals and thermal stabilisation. Deep Foundation: Types, functional classification of piles. Pile load capacity by dynamic and static formula. Pile load test, group effect, well foundation in detail. Foundation in black cotton soil. CBR Test and its application. Sub grade modules and its determination.

CE 352 A: Open Channel Hydraulics

2L, 3P 3 HOURS. MM 100 Flow through open channels: Uniform steady flow in open prismatic channels, Discharge formulae of Chezy’s, Manning’s, Bazin’s and Kutter’s. Most economical section, Conveyance of a channel section, Specific energy and discharge curves. Alternate depth and critical depth. Critical state of flow. Hump and channel contraction, Broad crested weir, Parshall flume. Dynamic equation of gradually varied flow in prismatic channels, Classification and analysis of surface curves, Computation od surface curve by step method. Rapidly varied flow, Hydraulic jump in prismatic channels, Specific force curve, Conjugate

depths, Hydraulic jump elements and energy loss, Location of the jump, surges and waves. Hydraulic turbines: Impact of free jet on curved vanes, Velocity vector diagrams. Types of hydraulic turbines, determination of vane angles, main dimensions and efficiencies. Study of Pelton, Francis and Kaplan turbines, Bulb turbines. Governing of hydraulic turbines, Surge tank, Unit quantities, Specfic speed, Charactersistic

curves and their uses. Problem of cavitation in turbines, Selection of turbines. Centrifugal

Pumps: Energy recuperation devices – volute casing, vortex chamber and diffuser ring. Pump

efficiencies. Effects of variation of discharge and speed of the pump, Specific speed.

Characteristics curves. Pumps in series and parallel. Multistage pumps and compressors.

CE 353A : Advanced Surveying

2L, 2T, 3P 3 HOURS. MM 100

Triangulation: Principles, objectives and classification. Triangulation layouts and figures. Station

markers and signals Satellite stations. Strength of figure. Computation and adjustments in

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triangulation. Weight of observation, Least squares method, most probable values. Base line

measurement. Adjustment of quadrilateral and polygon with central station.

Trigonometrical Levelling: Curvature and atmospheric refraction, single and reciprocal

observations, Eye and object (axis-signal) correction.

Trilateration: Brief introduction.

Photogrammetry: Introduction, limitation. Types of photographs, Aerial Photogrammetry,

Photocoordinate system, Geometry and scale of vertical photographs. Ground coordinates from

vertical photograph, Relief displacement. Flight planning, Planimetric mapping, photomaps and

mosaics. Stereoscopy, Parallax, difference in elevation.

Introduction to photo interpretation and remote sensing.

SE 354 A : Structural Engineering Design-III (RCC) 2L,1T,2P 3 HOURS. MM 100

High performance concrete : Role of microstructure. Mix dsign for compression and flexure using chemical and mineral admistures and various types of cement , durability aspects-deterioration, exposure condition, cement content. Water-cement ratio, cover to rebar, consideration for fire, acceptance criteria, non-destructive testing technique. Analysis and design of compression members : Axially loaded columns. Axial load and uni-axial

bending Design of isolated and combined footing. Design of retaining walls-cantilever and counterfort types design of staircases (excluding spiral

type) Note : use of IS 456-2000 is permitted in exam.

SE 355 A : Structural Engineering Design-IV (Steel) 2L,1T, 2P 3 HOURS. MM 100 Design of grillage foundation for individual column and two columns beam columns connection-framed, unstiffened and stiffened seated connections Design of Gantry grinder, impact effect Design of riveted and welded plate griders under dead and superimposed loads-flanges area and moment of inertia method. Splicing of web and flanges. Intermediate stiffeners-vertical horizontal and bearing stiffeners. Curtailment flange of plates. Roof trusses : type of trusses, economical spacing of trusses, design loads, design of purlins, struts, ties and joints including shoe joint Note : 1. All design to conform to IS : 800 – 2007, IS: 875(latest version) 2. The use of I.S. 800, I.S. 875(latest version) and structural hand book no. 01 (latest version)

shall be allowed in the examination.

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B.E. Final Civil Engineering -VII Semester

CE 401 A: Environmental Engineering- I

2L,1T, 3P 3Hrs, MM:100 Sources of water supply, quantity of water per capita variation in seasonal and hourly consumption. Forecast of pollution. Standards of purity for public water supplies Flow Diagram. Lakes and rivers intakes. Raw water pumping. Aeration, simple sedimentation and chemical precipitation. Quiescent and continuous flow types of tanks. Design of coagulation. Filtration – slow sand filters, Rapid sand filters. Disinfection – uses of excess lime, ozone, ultraviolet rays, chlorine and chloramines for disinfection, water softening. Different types of pipes used in water supply practice, joints in pipes, values, distribution of

water, Design of distribution system. Alignment, laying and jointing of pipes, Service reservoir

and fittings service connection, detection and prevention of wastage of water, Metering, Rural

Water Supply.

CE 402 A : HYDROLOGY & DAMS 2L, 1T, 3P 3 HOURS, MM:100 Hydrology : Descriptive hydrology, hydrological cycle, hydrologic budget. Precipitation: Precipitation, measurement and related data analyses, Hydrologic abstractions, Water losses, Evaporation and its estimation, transpiration, evapotranspiration, measurement of evapotranspiration, infiltration. Quantitative hydrology: Rainfall Runoff relationships, estimation quantity of runoff, flood estimation. Hydrograph : Storm hydrograph, factors affecting flood hydrograph, analysis : PMP, unit and synthetic hydrographs, its application, storage routing. Floods and their management, PMF; Streams and their gauging; Routing of floods; Capacity of Reservoirs. Regression and Correlation analysis. Ground water : Forms of subsurface water, Aquifer properties and well irrigation: source of ground water,

types of wells, steady flow into a well, Unsteady flow in a confined aquifer, well loss, specific capacity,

Ground water budget, construction, yield, maintenance and development of wells. River Engineering – River morphology; River training, embankments and Dikes, guide banks, groynes, Levees, spurs, Pitched island, cut off, bed pitching , butter panelling, design of launching apron, Revetment for bank protection, Classification rivers on alluvial plains – degrading, aggrading and meandering. Sediment transport – Origin and formation of sediments, stream erosion and deposition, definition of regime of flow, plane bed, ripple and dune regime, transition regime, anti-dune regime, introduction to bed loads, saltation, suspended load and wash load. Reservoir planning : Reservoir, economic considerations, environmental effects, yield, capacity of

reservoir, mass curve for inflow and demand. Reservoir sedimentation, site selection and flood routing through reservoirs. Dams : Basic principles for design and construction features of dams and spillways, forces on gravity dam, stability analysis, causes of failure, stress analysis, elementary profile, design of gravity dams, foundation treatment. Structural joints, keys and water seals, galleries, outlets. Earth dams : Types, methods of construction, design and stability analysis. Estimation and control of seepage, slope protection.Introduction and brief description of Arch, Buttress dams, rockfill dams, coffer dams. Hydro-Power : General features and components of hydropower station.

CE 403 A : Engineering Economics and Management

2L 3Hrs, MM:100 Principle and explanation of economic terms: Land, labour, capital, rent, wages, interest, production. Law of return, scale of industry, Location of industry, internal and external

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economics, Price determination under perfect completion and monopoly conditions, Derivation of revenue and cost curves, Index number. Taxation – Principle of incidence Contracts – various types and conditions. Business organisation – Sole proprietorship, partnership and joint stock companies, Different kinds of shares and debentures, co-partnership and profit sharing, Nationalisation of industries, State enterprise, monopoly. Industrial Relations – Trade Unions and their functions. Strikes and lockouts, Prevention and settlement of disputes, Unemployment and its solution. Management – Scientific management and relations. Rationalisation, qualities of good manager, office organisation, works organisation, organisation and management of stores. Accounts – Double entry system, cash book, journal and ledger, profit and loss account, valuation of business assets for balance sheet, trial balance, bad debts and depreciation. Financial Analysis : Determination of liquidity ratios, leverage ratios, activity ratios, profitability ratios.

SE 404 : Structural Engineering Design-V (RCC) 2L,2T,2P 3 HOURS. MM 100 Design of continuous beams on non-yielding supports Design of rectangular portal frame (one storey one bay) with different support conditions Analysis of beams curved in plan : Ring beams unifromally loaded and supported on-equispaced columns : Arcate beams fixed at the ends and uniformly loaded Analysis and design of a R.C. spherical dome for uniformly distributed load with or without a

central load. Design of overhead tanks : Rectangular, circular and intze type (membrane analysis only) Design of staging. Design of circular raft foundation Note: Following references can be used in exam:

1. The use of IS 456 - 2000 2. The use of SP 16 design aids to IS 456 and Reinforced concrete designer’s handbook

(latest version) by Reynolds and steedman shall be allowed in the examination

SE 405 : Structural Engineering Design-VI (Steel) 2L,2T,2P 3 HOURS. MM 100

Types of bridges: Through type and deck type bridges, plate girder and truss girder bridges,

different type of truss bridges : Limiting spans and economical span

Standard loading for railways and highway bridges : Tractive effort, braking forces and wind

forces. Principles of design of through and deck type bridges.

Design of plate girder bridges :Lateral bracings, cross frames and bearing

Design of railway bridge: Design of stringers or rail bearers, cross girders and main girders,

design of lateral bracing, sway and portal bracings. Design of Roller and rockers bearing

Introduction of light gauge sections : Description only, different shapes, stiffened and

unstiffened, post buckling strength. Use of high tensile bolts in joints of bridge trusses

(description only)

Influence lines for Pratt, Warren, Baltimore, Pettit and ‘k’ type trusses, influence lines for

cantilever and three pines arch bridges Note 1. The need of IS – 800 – 2007, IS – 875 and ISI hand book no. 01 shall be allowed in the

examination.

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2. Us of railway bridges rules and code of practice of steel bridges (Railway board) I.R.C. codes

I and II, IS: 1915 and ISI Structural hand book no. 01 shall be allowed in the examination

CE 411 A Elective I: Foundation Engineering

2L 3Hrs, MM:100 Shallow foundations; Failure modes. Effects of foundation shape, eccentricity and inclination of

load. Terzaghis and Mayerhof’s approaches. Bearing capacity computations, I.S. method. Influence of water table. Influence of adjacent footings, bearing capacity of a footing on stratifie

deposits. Settlement of footings on sands and clays, permissible total and differential settlement

of structures Foundation of swelling soils. Combined footing and strap footing, mat footing. Deep foundations : Type of piles. Allowable load. Pile load test. Pile group bearing capacity and settlement. Group action in piles. Well foundations: various shapes, depth of well foundation, forces acting, well curb, cutting edge, steining, bottom plug, well sinking, construction. Plate load test and Penetration tests and their applications in the design of shallow and deep foundations. Machine foundations, Introduction to dynamic loads on soil foundation Natural frequency of foundation soil system, Barken's method, bulb of pressure concept, Design criteria for reciprocating and impact type machines. CE 412A Elective I: Rural Water Supply & Sanitation

2L 3Hrs, MM:100

Rural Water Supply: Importance of village community in India, conditions of Indian villages with special regard to economic, social and health aspects. Quality of water needed for village community, Sources of water for village water supplies. Types of wells of sanitary aspects in well construction. Disinfections of wells. Different types of pumps used for village wells. Operation and maintenance of pumps, water borne diseases. Quantity of water Human and Cattle population and their water requirement Rate of water supply standards of potable water. Rain water storage. Treatment of water – Disinfection, desalination, defluoridation, Distribution of water. Communicable diseases : Disease and immunity, communicable disease sources, mode of transfer. Control of communicable diseases. Fly and Mosquito control. Life cycle of files and mosquitoes. Various methods of fly and

mosquito control. Milk and food sanitation. Essentials of dairy form and cattle shed sanitation. Tests for milk and dairy products. Food epdemics, food poisoning Botulism. Rural sanitation, village latrines, Aqua privies, storm water and sullege problems, animal waste, methods of composting. Biogas collection and disposal of refuse. Septic tank, percolation pits, sub surface disposal. Composting, Digestion for methane and

manure recovery.

CE 413A Elective I: Desert Technology 2L 3Hrs, MM:100

Desert: Definition, characteristics of desert area, world deserts Desertification and its

control. Types of sand dunes and their characteristics. Water supply, sanitation and housing problems in desert areas, and their remedy.

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Water harvesting. Dry land agriculture and soil conservation. Problems of constructing roads, their maintenance and remedial measures in desert areas. Mineral resources in desert areas. Medicinal plants and food plants of desert areas. Solar, wind and Geothermal energy; Bio gas plants. Soil salinity and alkalinity Animal wealth of desert areas

CE 414 A Elective I: Hydraulic Machines

2L 3Hrs, MM:100

Impact of jets : Impact of jets on plane and curved stationary and moving vanes; Velocity vector

diagrams.

Hydraulic Turbines : Types of hydraulic turbines, determinations of vane angles, main

dimensions and efficiencies; Study of Pelton wheel, Francis turbine, Caplan turbine and Bulb

turbine.

Governing of hydraulic turbines: Surge tanks, unit quantities, specific speed, characteristic

curves and their uses. Problem of cavitations in turbines selection of turbines.

Centrifugal Pumps: Energy recuperation devices – volute casing, vortex chamber and diffuser

ring; Pump efficiencies; Effects of variation of discharge and speed of the pump; Specific speed. Characteristic curves; Pumps in series and parallel; Multistage pumps. Submersible pump: Elementary study.

CE 415 A Elective I: Dams

2L 3Hrs, MM:100 General: Various types of dams; Site selection for dams and reservoirs; Coffer dams; Reservoir sedimentation; Trap efficiency and determination of useful life; Salient features of important dams in Rajasthan and India. Geology of dam site: Site investigation and their interpretations; Suitability of site for dam foundation; Treatment of foundation; Grouting. Gravity dams: Forces acting – uplift pressure, wave pressure and seismic forces, load combinations; Determination and distribution of shear, normal and principal stresses; Stability analysis with and without seismic forces; Practical profile of a gravity dam; Zones of a gravity dam; Design of first four blocks of a high gravity dam; Single step design method; Free-board determination; Control of shrinkage and cracking of concrete in gravity dams; Transverse and longitudinal joints, galleries, and stress concentration in gravity dams. Embankment dams: Safety criteria and design requirements; Zoning of dam section; General requirement for materials and compaction; Construction pore pressure and its determination; Seepage through body of the dam – phreatic line for different cases, quantity of seepage and its control; Control of seepage through foundation; Design of filter, relief well, and impervious blanket; Stability analysis of homogeneous and composite earth dams under steady seepage and sudden draw-down cases by slip arc method and sliding wedge method; Conduits through earth dams; protection of upstream and downstream slopes; Rockfill Dam – problems of design, different types of membranes, settlement, and construction methods. Arch and buttress dams: Arch dam – general considerations, different types, constructional features, basic design criteria and design of constant radius & centre and variable radius & centre arch dams by thin cylinder theory; Buttress dams – component parts, different types, constructional features, basic design criteria and design of deck and buttress.

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CE 416 A Elective I: Water Resources Planning and Management

2L 3Hrs, MM:100 Water Resources and their space-time distribution in global, national and state wise perspective, integral approach to water resources planning and development. Hydrological appraisal of water resources. Data collection, processing and frequency analysis. Assessment of water needs and planning objectives. Study of alternatives and selection of optimal project size. Multiple objective, Planning, Environmental considerations in water resources projects planning. Legislative aspects. Water laws and policy. Machinery for interstate and international disputes,

case study. Mathematics of finance – interest, present value, annuity, cost comparison and comparison of alternative proposals. Benefits and their determination; tangible and intangibles, Benefit cost analysis, Selection of a project, preparation of feasibility report. Problems of Project financing.

CE 417A Elective I: Ground Water Hydrology

2L 3Hrs, MM:100 General Introduction: Importance of study; Ground water in hydrologic cycle; Soil properties favorable for ground water; Vertical distribution of ground water; Geological formation; Different type of aquifers; Aquifer parameters. Ground water movement: Darcy’s law, and its range of validity; Streamline; Velocity potential; Stream function; Continuity equation for ground water flow; Laplace equation; General hydrodynamic equation for two dimensional ground water flow; Inhomogeneity; Anisotropy; Boundary conditions; Flownet. Well hydraulics: Differential equation governing ground water flow; Dupuit-Forchheimer assumptions; Steady unidirectional flow; Steady and unsteady radial flow to a fully penetrating well in confined and unconfined aquifers; Test pumping analysis with steady and unsteady flows; Introduction to flowing wells and stream depletion; Method of image for wells near stream and impermeable boundaries; Collector wells; Partially penetrating wells; Interference of wells; Well loss; Specific capacity and efficiency of wells; Design, construction, development and maintenance of wells. Ground water modeling: Necessity and objectives; Sand tank models; Hele-Shaw models; Thermal analog models; Electrical analog models; Introduction to Finite difference models; Introduction to mathematical modeling of a ground water basin. Ground water management: Ground water budget; Consumptive use; Ground water quality - standards and measures of quality, sources of pollution and their preventive measures; Artificial recharge of ground water - requirements and importance, water spreading and well methods of recharge, and recharge mounds; Saline water intrusion-sources, depth and shape of fresh-saline water interface, upconing, interface in island, and control measures against intrusion.

SE 435 B: Estimating & Costing

1T,2P 3Hrs, MM:100

Introduction to the subject: Definition of estimating and costing, Need for estimating and

costing, Procedure of estimating or method of estimating, Data required to prepare an estimate,

Types of estimates, Complete estimate, Rules and methods of measurements, Methods of taking

out quantities, specifications, Basic units, Conversion factors, Conversion of rates etc.

Measurement of Materials & Works: Units of measurements, Rules for measurement,

Measurement of plinth and carpet area of buildings, Calculation of reinforcement, Estimating

data for roof slopes, Road gradients etc., Quick methods for estimating material and labour

requirement in different types of buildings,

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Detailed Estimates: Detail estimates of buildings, R.C.C. works, earth work calculations for

roads and estimating of culverts, Services for building such as water supply, drainage and

electrification, irrigation works.

Analysis of Rates: Elements of builder cost, working out unit rates, working costs of tools and

plant, output of tools and plant, Labour output constants for building work, Cement constants,

Material constants, Current schedule of rates.

Valuation: Purposes, depreciation, sinking fund, scrap value, year’s purchase, gross and net

income, dual rate interest, methods of valuation, rent fixation of buildings, fixation of rent,

mortgage lease, Formulae useful in valuation of property.

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B.E. Final Year -VIII Semester CE 451A: Environmental Engineering II

3L,3P 3Hrs, MM:100 Systems of drainage, Surface drainage, Under drainage, Separate, Combined and Partially combined system. House drainage – conservancy and water carriage systems, Stoneware pipes, junctions, Intercepting traps, grease traps, Gulleys water closets urinals baths and lavatory basins soil, waste and antisyphonage pipes. Alignment and gradient of drains. Inspection chambers. Testing of drains. Ventilation of drains. Layout of sewerage systems, Design of sewers Quantity of sewage per capita, Estimating storm water by time of concentration method. Forms, corss section and inclination of severs appurtenances, Manholes, Flushing of sewess. Ventilation of sewers. Principles of sewage treatment. Arobic and anaerobic pactesial action. Sewage screening, grit separation, sewage puming, Disposal of sewage by dilution and land sedimentation with chemical precipitation. Septic tank, Imhoft tank, contact beds, percolating filters. Activated sludge process. Nature of sewage sludge. Sludge treatment, sludge gas rural sanitation. Collection and disposal of refuse.

CE 452 A : Water Resources Engineering 3L, 3P 3Hrs, MM:100 Irrigation Practices : Irrigation and its importance, assessment of water requirements for crops, factors affecting water-requirement of crops, consumptive use of water, determination of irrigation water requirement, command area, delta, duty, base period, relation between delta, duty and base period, Kor depth and Kor period. factors affecting duty and methods of improvement, methods of irrigation, canal and well irrigation comparison. Canal irrigation : Canal alignment, design principles of irrigation, curves in canals, canal losses, estimation of design discharge of a canal, design by Kennedy and Lacey’s theories, Tractive force concepts in canal design, construction and maintenance, canal outlets, lining of canals. Canal Head Works : Selection of site, components parts, Weirs and Barrages, Bligh’s and Khosla theory, Computation of uplift pressure and exit gradient. Canal Regulation Structures : Canal fall, types, Sarda fall, Glacis fall, Design of Distributary

head regulator, Cross regulator, control of sediment entry into an offtaking canal, canal escapes. Cross-drainage structures : Needs, types of cross drainage (CD) structures, selection of suitable CD structures, design of cross-drainage structures, waterway and headway of the stream, head loss through cross-drainage structures, energy dissipation. Canal outlets, ejectors and extractors, tail escape, fish ladder. Spillways, gates and outlet works, types of spillways, dynamic force on overflow spillways, energy dissipation below spillways, wing wall. Introduction and brief description of various types of crest gates, sluice ways, intake and

trashrack. Water-logging – Definition, adverse effects of water-logging, causes of water-logging, anti-water logging measures, Drainage system design.

CE 453 A : Town Planning 2L 3Hrs, MM:100 (i) Brief history of birth and growth of town. (ii) Definition and scope of town planning. Concept of Town Planning. Physical

Planning and Social Planning. (iii) Principles governing selection of site and town layout. Basic elements of city plan.

(iv) Transportation and communication. Traffic problems and remedies. Segregation and

channelisation of traffic, urban roads, functions, layouts parking, problems and

solutions. (v) Open space provision and standards.

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(vi) Land use Pattern and Zoning, Industrial Concept of zones and interrelationship. Neighbourhood planning, garden city concept, satellite town.

(vii) New trends in Town planning – Housing schemes, Future of towns, aesthetics of towns,

landscape.

(viii) Development of existing cities. Master Plan, Slum clearance and building bye laws. (ix) Town planning in ancient and modern India.

SE 454 A : Structural Engineering Design VII (RCC) 3L, 3P 3Hrs, MM:100 Design of a rectangular slab with the concept of yield line theory Introduction to I.R.C. codes for bridges. Design of slab culvert and T beam bridges Application of courbon’s theory. Use of Piegaud’s coefficients Design of bearings . Design of sub-structures elements Prestressed concrete – Advantages, methods of Prestressing, Analysis of rectangular and I section. Design of a simple beam of rectangular section (excluding end block) Note : Following references can be used in exam 1. The use of IS 456 (latest version) 2. The use of SP 16(latest version) 3. The use IRC section, I,II & III (latest version) and Reinforced concrete designer’s handbook

by Renynold and Steedman shall be allowed in the examination

SE 455 A : Structural Engineering Design VIII – (Steel and General) 3L,3P 3Hrs, MM:100 Design of rectangular and circular overhead steel storage tanks: Design of staging. Design of steel and masonary. Chimney, stacks excluding their foundation. Space structures : Analysis of statically determinate simple space frames. Fundamentals of the

plastic theory for steel structures, plastic analysis, design of continuous beams. Portal frames,

gable frames. Note 1. The need of IS :800 - 2007 IS : 875 and ISI hand book no. 01(latest version) shall be

allowed in the examination.

SE 461 A : Elective II- Finite Element Methods 2L 3Hrs, MM:100 Introduction to finite element method. Basic concept of finite element (F.E.) analysis of structures. Finite element analysis of an elastic continuum : Displacement approach, Direct formulation energy integral, Co and Cil continuity, convergence criteria Elements : Types and properties. Conforming and non conforming Shape function L General families for one and two dimensional elements, pascal triangle, serendity and langrangian family. Sper, sub and Iso parametric elements plane stress and plane strain problems, constant strain triangle. Steps in finite element analysis of an elastic continuum Natural coordinates and numerical integration (one and two dimensional cases)

SE 462 A : Elective II- Prestressed Concrete

2L 3Hrs, MM: 100 Prestressing systems and devices. Analysis and design of element for flexure, losses in pressure strength in flexure, shear and Torsional Behaviour, Transmission and Ancchorage zone, composite sections subjected to flexure, statically indeterminate structures.

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SE 463 A : Elective II - Dynamics of Structures

2L 3Hrs, MM:100 Source of vibration, types of vibration, degree of freedom, spring action and damping : viscous and coulomb’s damping. Single Degree of freedom system : undamped and damped and free and forced vibration (harmonic) Systems, subject to Transient Forces, Introduction of multi degree freedom system.: Response to unit impulse and arbitrary loading by Duhamel’s integral for SDOF system (Ramp and Pulse loading). Vibration measuring instruments. Vibration isolation, Response to ground motion and transmissibility. Introduction to multi degree of freedom system. Use of Codal provisions for earthquake resistant design IS : 13827, IS : 13828, IS : 13920, IS : 13935. Note: Use of IS : 1893 (latest version) shall be allowed in exams.

SE 464 A : Elective II: Industrial Building Structures

2L 3Hrs, MM: 100

Simple industrial building and steel mill buildings. Analysis and design of major components – roof trusses, gantry girder, side rails, eaves girder, sagrods, gable rafter, gable wind girder, vertical side bracing, Analysis and design of industrial bents, columns and bracket connections

Note: 1. All design to conforms to IS: 800 - 2007 and IS: 875 2. The use of IS 800, IS 800 IS-875 and ISI structural hand book no. 01(latest version) shall be

allowed in the examination.

SE 465 A : ELECTIVE-II – HIGH RISE STRUCTURES 2 L 3 Hrs., MM : 100

Basic concepts of structural systems. Effect of creep, shrinkage, fire. Analysis : Approximate methods for gravity and lateral loads – Portal, Cantilever, Substitute

frame.

Design of Frame (Skeletal), shear wall (planer) structures.

SE 466 A : ELECTIVE- II-COMPOSITE STRUCTURES 2L 3 Hrs. MM 100 Introduction to composite structural members, mechanics of composite action. Shear connectors-types and design considerations. Composite Beams, Floors and columns-design consideration. Structural joints for different elements.

SE 467A: ELECTIVE- II: Introduction to Earthquake Engineering 2L 3 Hrs., MM 100 Earthquakes, causes of earthquakes and their characteristics. Elastic rebound theory, plate tectonic theory. Movement of Indian plate. Past earthquake : India, World. Intensity and magnitude : Scales – Richter, Modified Mercalli, MSK. Response spectra. Tsunami, Types of Seismic waves, Epicentre, Hypocentre, focus, Iso-seismals. Consequences of Earthquake, Seismic zoning map of India. Seismic instruments. Strong ground motion characteristics : Near and far field problems. Selection of design earthquake. Methods of analysis for seismic loading. Factors affecting performance of structures under earthquakes. Base isolation, Ductile detailing.

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Syllabus of Open Electives available for Civil Engineering Students offered

by other departments:

LIST OF OPEN ELECTIVES-I

BCT 291 A Open Elective-I: Sustainable Architecture 3L 3 Hrs, MM 100

Concepts of sustainability : Energy and Global environment, Energy use and Climate change – Its impact, Types of

Energy systems, Concept of Sustainability - Principles of conservation -synergy with nature, Bioregionalism - community basis shelter technology within bioregional patterns and scales, Ethical- environmental degradation.

Sustainable planning & Design: Sustainable Development -Sustainable approach to site planning and design - site

inventories- relationships between site factors - development impacts from one area of the site on the other areas -

phasing of development - limits of change - Design facility within social and environmental thresholds

Sustainable Building Materials and Construction : Properties, Uses and Examples of -Primary, secondary and

Tertiary Sustainable Materials, Principles to improve the energy efficiency - siting and vernacular design, shade,

ventilation, earth shelter, thermal inertia and air lock entrances. Techniques of sustainable construction -

technologies, methods of effectiveness, and design synthesis – alternative materials and construction methods: solar

water heating panels; photovoltaic electricity generation; use of local materials and on site growth of food, fuel and

building materials.

Recycling and Reuse : Pre building, Building, Post building stages - Architectural Reuse, Waste prevention,

Construction and Demolition recycling- Conservation of natural and building resources- Energy and material savings – types of wastes - Elimination of waste and minimize pollution- various Decomposing methods –

Innovative reuse of various wastes Case Studies and Rating systems : Sustainable Development Case Studies:

illustrated examples of the planning, development, and construction. Green architecture and various international

rating systems for sustainability- EAM (UK), CASBEE (Japan), LEED (US), Green Star (Australia), etc. – Indian

systems – TERI GRIHA rating, LEED India rating, IGBC

ChE 291 A Open Elective-I : Renewable Energy Sources 3L 3 Hrs, MM:100 Sources of energy: Energy sources and their availability, renewable energy sources.

Energy from Biomass: Introduction, Biomass as a source of energy, Biomass conversion technologies,

Biogas generation, classification of biogas plants, Biomass gasification.

Solar Energy: Sun and solar energy, solar radiation and its measurement, solar energy collectors, solar energy storage, Photovoltaic systems, Application of solar energy.

Wind Energy: Wind as an Energy source, Basic principles of wind energy conversion, Types of Wind

machines, Components of wind energy conversion system, Performance of wind machines, application of wind energy.

Geothermal Energy: Introduction, Origin and distribution of geothermal energy, types of geothermal

resources, Hybrid geothermal power plant, Application of geothermal energy.

Hydrogen energy: Introduction, Hydrogen production, Hydrogen storage, Hydrogen transportation. Energy from the Oceans: Introduction, Ocean Thermal Electric Conversion (OTEC), Energy from Tides,

Ocean Waves.

CSE 291A Open Elective-I :Object Oriented Programming Through C++ 3L 3 Hrs, MM:100 A review of C. Concepts of object oriented programming using C++. Data types: elementary and derived

data types, literals.

Operators and expressions: operators, association and precedence rules of operators, expressions using unary, binary and ternary operators.

Statements: declarations as statements, selection statements, iteration statements, goto statement, break

statement, continue statement, return statement, try-catch block.

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Functions: void functions, functions with return value, call by value and call by reference parameter passing, default parameters, recursive functions, inline functions.

Classes: classes, objects, friend functions, classes within a class, local classes, global classes,

constructors, destructors.

Derived classes: single and multiple derivation of classes, multilevel and hybrid derivation of classes, constructors, destructors.

Polymorphism: function and operator overloading, virtual functions.

Streams: input and output of built-in data types, manipulators. File streams: opening a file, accessing a file, closing a file.

Exceptions: catching exceptions, rethrowing the exception, standard exceptions.

Templates: defining a template, template instantiation, function templates, class templates. Elementary case study of a object oriented database in C++.

CSE 292A Open Elective-I :Object Oriented Programming Through JAVA 3L 3 Hrs, MM:100

Overview of object oriented concepts in JAVA.

Introduction – Java & internet, java applets and its applications, Java features like – security, portability, byte code, java virtual Machine, object oriented, robust, multi threading, architectural neutral, distributed

& dynamic.

Data types and control structures, operators, arrays, Java methods and classes. Inheritance of procedures and data, Packages and interface, exception handling, multi-threaded

programming – thread priorities, synchronization, messaging, creating and controlling of threads. IO and

applets. String handling and various string functions.

Java utilities like java.lang, java.util and their uses, java.io, basics of networking using Java.

Java applets and their use, event handling, AWT and working with windows.

Introductory study of Java Beans, Servelets and JDBC.

EC 291 A Open Elective-I: Logic System Design 3L 3 Hrs, MM:100 Number Systems & Codes: Binary, Octal and Hexadecimal number systems. Different numerical and alpha-

numeric codes.

Basic Logic Circuits and Combinational logic: Positive and negative logic of OR, AND, NOT, NOR, NAND,

Exclusive OR and Exclusive NOR gates. Boolean algebra, Boolean functions and expressions. Simplification and

minimization techniques, K-map and tabular methods. Design of minimal combinational systems and realization.

Arithmetic circuits: Design and realization of Digital comparator, half and full adders, parallel and serial binary

adders, half and full subtractors.

Miscellaneous sub systems: Encoders, decoders and code converters. Parity generator and parity checking circuits. Multiplexers and demultiplexers.

Sequential logic: Storage devices and sequential sub systems. Introduction to synchronous and asynchronous

sequential systems. Mealay and moore circuits.

Synchronous sequential systems: Introductory examples, memory elements and their excitation functions.

Synthesis of synchronous sequential circuits. Analysis and design of synchronous sequential circuits.

Asynchronous sequential circuits: Fundamental mode circuits. Analysis procedure. Circuits with latches. Design

of pulse mode asynchronous sequential circuits. Problems in asynchronous circuits - races and hazards.

Ma-291 A Open Elective-I :Mathematical Statistics for Engineers

3L 3 Hrs., M M :100 Theory of probability : Theoretical probability distribution (Binomial, Poisson and Normal ).

Correlation and Regression Analysis : Karl-Pearson’s coefficient , Spearman’s coefficient, Regression analysis of

two variables system.

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Sampling Theory : Test of significance, Large sample tests for mean and proportions. χ2 (chi-square) , t and F Test

of significance for Small sample.

Theory of attributes: association and independence of attributes, coefficient of association.

Index Number: Various types of index numbers, construction of index number of prices, fixed base and chain base

methods

ME- 291A Open Elective-I: Renewable Energy Sources

3L 3 Hrs, MM:100

Principal types of fossil fuel fired power plants and their effects on livestock and environment; Concepts of NCES,

Criteria for assessing the potential of NCES, Limitations of RES.

Solar Energy - Solar radiation data, solar energy conversion into heat, Analysis of Flat plate and Concentrating

collectors, Testing procedures, Paraboloid Dish, Central Receiver; concept of collector tracking, energy storage

systems; Solar thermal systems for residential water heating, Solar Pond, industrial process heating and power

generation. Photo voltaic: p-n junctions, I-V characteristics of solar cells, Calculation of energy for photovoltaic

power generation; Battery Characteristics, DC Power Conditioning Converters, AC Power Conditioning -Inverters.

Wind Energy: Energy available from wind, General formula, Lift and drag. Basis of Wind energy conversion,

Effect of density, Frequency variances, Angle of attack, Wind speed, Determination of torque coefficient, Principle

of Operation of wind turbines, types of wind turbines and characteristics, Generators for Wind Turbines, Control

strategies.

Biomass and Biofuels: Conversion routes- combustion, pyrolysis of biomass to produce solid, liquid and gaseous fuels; Constructional details of gasifier; Aerobic and anaerobic digestion, Biofuels and their production; biofuels,

Biomass systems for thermal applications and power generation.

Geothermal Energy: Definition and classification of resources, typical geothermal gradient; Dry, flash and binary

steam systems; Utilization for electricity generation and direct heating, Wellhead power generating units. Basic

features: Atmospheric exhaust and condensing, Exhaust types of conventional steam turbines.

An overview of other renewable devices- Fuel cells: principle, types, applications; Ocean thermal energy conversion

(OTEC), Thermoelectric, MHD, Wave energy, Tidal energy, etc.

Economic Viability: Calculation of the cost of energy supply from renewables, Payback period, Carbon footprints;

Comparison with conventional fossil fuel driven systems in terms of costs and emissions; Calculation of carbon

dioxide reduction and incremental costs for renewable options.

ME 292 A Open Elective-I: Automobile Engineering 3L 3Hrs, MM:100

Power Unit: Automobile engine types, classification; Engine parts: cylinder head, block and crank case, piston and

rings; Carburation, fuel injection, valve operation; Fuel combustion, mechanical power and engine performance

characteristics; Engine cooling and thermal stresses in parts,.

Chassis and Suspension: Load on frame, general considerations for strength and stiffness, engine mounting;

Dampers, leaf and coil springs, various arrangements of suspension systems. Transmission System: Clutches, flywheels, torque convertors; Gear-box: simple, synchromesh and overdrive; Type

of universal joints, propeller shaft, differential; Rolling, air, gradient resistances and propulsive power calculation.

Steering: Steering geometry, Ackermann and Davis steering mechanisms; Telescopic steering; Steering shaft, gear-

box, linkages, steering angles, front and rear axles; Vehicle longitudinal, static and dynamic balancing and electronic

stability; Power steering: types and mechanism; Effect of caster, camber, toe-in and toe-out on tyre wear.

Brakes and Tyres: Servo-action, brake components; Bendix and Gerling system lock-head, hydraulic, vacuum, air

and power brakes, and retarders; Pneumatic and tubeless tyres;

Features of a Modern passanger Car: Introduction to ABS, Front and side air bags, EBD, Climatizer, ESP, night-

vision dashboard system; sun-roofing, collision warning system, Hybrid cars.

MI 291A Open Elective-I: Tunneling for Engineering Projects 3L 3 Hrs, MM:100

Tunneling: Introduction about tunnels, functions, advantages and disadvantages of tunnels compared to open cuts, Criteria for selection of size and shape of tunnels, consideration in tunneling, geological investigation, tunnel

alignment, tunnel shafts, pilot tunnels. Advantages of twin tunnels and pilot tunnels, portals and adits.

42

Conventional Method of Tunneling: Drilling, Blasting, Loading and Transport of Muck, Supports, Ventilation,

Drainage, and Equipments. Drivage work in varying ground conditions using conventional methods

Fast Tunneling: Dill jumbos, trackless mucking and transportation units. Tunnel boring machine

Tunneling in Soft Ground: General characteristics of soft ground, shield methods, needle beam method and

NATM method of tunneling in practice. Tunneling (rock bolting and guniting), Safety measures, Ventilation in tunneling, Lighting, Drainage.

PI 291A Open Elective-I: Manufacturing Science 3L 3 Hrs, MM:100

History and introduction to science of basic manufacturing processes and its classification.

Primary manufacturing processes: Introduction to liquid state forming process (casting), solid state forming

process (drawing, extrusion, rolling, forging and other sheet metal working) and power state forming process

(powder metallurgy).

Secondary manufacturing processes: Introduction to material removal processes

Conventional Machining processes (basic machining operations performed of lathe, shaper, milling, drilling and

grinding machine).

Introduction to basic metal joining processes (welding, brazing, soldering and mechanical fastening).

Non conventional machining processes (Basic introduction, classification, need for their development,

characteristics and their industrial applications).

LIST OF OPEN ELECTIVES-II

EE 341 A Open Elective-II : Optimization Techniques 3L 3 Hrs, MM:100

Introduction to Optimization : Historical Development, Engineering application of optimization, Statement &

Classification of optimization problems, Classical optimization techniques for single & multiple variable

functions.Linear Programming : Introduction, application, standard form, Basic Solutions, Simplex method, Revised Simplex method, Duality, Transportation problem, Carmarkar’s method.Nonlinear programming : Unconstrained

Optimization, Introduction, Fibonacci method, Golden section search, Gradient method, Newton’s method, Quasi

Newton method.Dynamic Programming : Introduction, Multistage decision process, Concept of optimization &

principle of optimality, Computational procedure in dynamic programming.Advanced topics in optimization :

Introduction, Separable programming, Multi objective optimization, Calculus of variation.

Books :

1. Engineering Optimization – S. S. Rao, New Age International Publishers.

2. An introduction to optimization – Er. K. P. Chong, S. H. Zak (Wiley Slident Edition)

3. Operations Research : An international – H. A. Taha (PHI)

4. Introduction to operation research – Hiller F.K. & Lieberman (TMH)

ChE 341 A Open Elective-II: Petroleum Refining Technology

3L, 3 Hrs, MM 100

Origin occurrence of petroleum, Formation and Evaluation of Crude Oil. Testing of Petroleum Products.

Petroleum refining processes, general processing, topping and vacuum distillations. Thermal cracking in vapor, liquid and mixed phase. Overview of Refinery Products

Catalytic cracking - Houdry fixed bed, fluidized bed, T.C.C. Houder flow etc. Catalytic reforming -

conversion of petroleum gases into motor fuel with special reference to alkylation, polymerization,

hydrogenation and dehydrogenation. Treatment Techniques: Removal of Sulphur Compounds in all Petroleum Fractions to improve

performance, Destruction of Sulphur Compounds and Catalytic Desulphurization, Solvent Treatment

Processes, Dewaxing, Clay Treatment and Hydrofining.

43

Production of aviation gasoline, motor fuel, kerosene, diesel oil, tractor fuel and jet fuel, hydrodesulfurisation, Lubricating oil manufacture, Petroleum waxes and asphalts.

Octane number, Cetane number, Diesel index, their determination and importance Storage of petroleum

products: tanks, bullets, special types of spheres etc. Transportation of petroleum products: road, rail, sea

and pipeline; Importance of pipeline transportation.

CSE 341A Open Elective-II :Data Structures and Algorithms 3L 3 Hrs, MM 100

Introduction to data structure, String storage representation and manipulation. Markov algorithm and

primitive data structures.

Concepts of non primitive data structures. Linear data structure. Array, stack, queue, their applications and implementations using sequential storage representation and linked

representation.

Linear linked list, double linked list, circular linear linked list and generalized lists and applications. Concept of non-linear data structures, Tree, graph, set and their representation, Binary Tree,

Threaded tree, different techniques of tree traversal, breadth first search, depth first search, application

of tree and graph such that Polish notation, concepts of heap.

Sorting, searching algorithms and comparative study of different sorting and searching techniques such that selection sort, heap sort, bubble sort, quick sort, merge sort and radix sort. Linear search and

binary search, hashing. External sorting.

Time and space complexity of the algorithms – Big-O,,, and small-o, Asymptotic complexity, Upper

and Lower bound time and space trade offs.

EC 341 A Open Elective-II: Microprocessors And Microcontrollers

3L, 3 Hrs, MM 100 Microprocessor Architecture: Architecture of 8-bit 8085 Microprocessor; instruction set and addressing

modes. Assembly language programming of Intel’s 8085 Microprocessor. Introduction to assemblers.

Microprocessor interfacing: Interfacing of address, data and control buses, Memory and I/O devices,

Interrupt and DMA for 8085 microprocessor. Introduction to Microcontrollers: Architecture and instruction set of MCS-51 series of

microcontrollers. Applications of Microcontrollers. 16 and 32-bit Microprocessors: CPU architecture, addressing modes and features of 16 and 32 bit

microprocessors – 8086. Salient features of 80286, 80386, 80486 and Pentium series microprocessors.

Bus standards: Introduction to Multibus , VME, RS-232-C, IEEE 488, PCI, USB, RS 422 and 485.

EE 341 Open Elective-II: Industrial Application Of Electrical Drives

3L 3 Hrs, MM:100

Operating-Characteristics : Individual, group and collective drives, steady state individual and

joint characteristics of electric motors and driven industrial units under different conditions of

operation.

Transient Characteristics : Causes of transient conditions starting, braking, reversing, speed

transition and sudden system changes. Forces and torques on the drives referred to a common

reference shaft. General equation of motion, Accelerating and deaccelerating times. Starting and

braking time and means of reducing.

44

Drives Control : Parameters characterizing speed control methods of electric drives, speed

control of Industrial d.c. and a.c. motors under constant and varying torque and h.p. conditions.

Families of speed torque characteristics : Idea of manual and automatic control gears, Master-

controller.

Motor Ratings : Continuous-short time and intermittent ratings, overload capacity. Effect of

altitude, Motor heating and cooling curves. Equivalent current, power and torque. Selection

motor for various duty cycles. Permissible frequency of starting, features of load diagram

construction. Load equalisation and use of fly wheels. Types of motor enclosures.

Illumination : Units of light, Point , linear and surfact sources. Laws of illumination. Candle

power distribution, MSCP and reduction factor, Indoor lighting system and their classification.

Contrast, glare, shadow and colour. Mounting height and spacing. General and local lighting

Total lumen and point by point methods of calculations. Outdoor lighting distributor and

protector fittings. Isolux diagram. Flood, gas, discharge and arc-lamp-working, characteristics

and applications.

Electric Heating and Welding : Principles of electric heating. Direct and indirect resistance

heating, lead baths and salf baths. Resistance oven convection and rediation ovens. Arc

resistance and induction furnance, elements of operation, performance and power supply

arrangements. temperature regulation of ovens and furnances. Induction, high frequency and

dielectric heating and their uses. Elementary study of different kinds of electric welding

operation, Power supply for welding. Elements of Electrics Traction : Electric traction versus

others System of electric traction for tramways, trolley buses, motor coach trains and locomotive

hauled trains. Idea about suitability of electric motor for traction. Conductor rail and pantograph.

meaning for multiple-unit operation.

Economics : Methods for economic selection of Industrial drives, loss factor and cost of losses,

Effect of load factor. Power factor and factory diversity factor. Methods of power factor

improvement and its economic limit. Economic calculations for illumination schemes Echnomic

value of good lighting.

Ma 341 A Open Elective-II :Mathematical Theory of Operations Research

3L 3 Hrs., MM : 100 Linear programming problems-Simplex Method, two phase method, Duality of LPP.

Theory of games: Competitive strategies, minimax and maximin criteria, two person zero-sum games with and

without saddle point, dominance .

Inventories: Single item deterministic inventory models with finite and infinite rates of replenishment, economic lot-

size model with known demand

Replacement problems: Replacement of item that deteriorate, replacement of items that fail completely, group

replacement policty, individual replacement policy

Queing theory-Ques with Poisson input and exponential service time, the queue length, waiting time and busy period in steady state case, model with service in phase, multiserver queueing models.

ME 342A Open Elective-III: Systems Design and Analysis 3L 3 Hrs, MM:100

System Fundamental Concept: System definition, systems approach, Classification- General Systems, Discrete

Systems, Controlled systems.

Procedure for Engineering a system: Defining system objective, formulation of objective criteria, Development of system alternatives.

Systems Optimization: Formulation of system, Design problem and application of search methods, Linear

programing and dynamic programing for optimum solutions.

System Schedule: Time models, resource allocation, Time cost trade-off, system cost economic flow graph.

45

MI 341A Open Elective-II: Application of GIS & Remote Sensing in Engineering 3L 3 Hrs, MM:100

Remote Sensing: Introduction to Remote Sensing, Terminology in Remote Sensing, Types of Remote

sensing, advantage and disadvantage of remote sensing data, Electromagnetic radiation atmospheric.

Windows remote sensing platforms and sensors systems, path-row referencing system, remote sensing data product, procedure for obtaining satellite data. Hardware and software related to remote sensing.

Different types of platforms, sensors and their characteristics, Orbital parameters of a satellite, Multi

concept in remote sensing. Image Interpretation and analysis: Elements of visual image interpretation, Digital image pre-

processing, radiometric correction, geometric correction, resolution of remote sensing data, image

enhancement, contract enhancement, spatial filtering band rationing image classification supervised and unsupervised classification, remote sensing applications in forestry, geology, hydrogeology, Land use and

land cover mapping.

Principles of interpretation of aerial and satellite images, equipments and aids required for interpretation,

ground truth – collection and verification, advantage of multidate and multiband images. Digital image Processing concept.

Geographic Information System (GIS): Fundamental of GIS: Basis concept including definition and

history of GIS, Essential Elements of GIS, Uses and users of GIS, General GIS Applications, Geodesy, Grids, Datum’s and projection systems, GIS Data structure, Data Formats, GIS layers and Digitization

overview of GPS and its application, Hardware and software related to GIS.

Raster and vector Based GIS: Raster based GIS, Definition of Raster Based GIS, Spatial Referencing Definition and Representation of Raster Data. Vector based GIS, Definition and concept of vector based

GIS, Data structure, Data Capture and Basic operations of spatial analysis, advantages and disadvantage

in raster and vector based GIS, Introduction to network in GIS, GIS Project Planning Management and

Implementation. Application of GIS :in Map revision, Land use, Agriculture, Forestry, Archaeology, Municipal, Geology,

water resources, soil Erosion, Land suitability analysis, change detection, Use of GIS in Mining.

EE 342 A Open Elective-II : Artificial Intelligence

3L 3 Hrs, MM: 100

Artificial Intelligence: Introduction to A1 Knowledge-based Expert Systems and I: Introduction.

Importance and Definition of A1, ES, ES, building tools and shells.

Knowledge-Representation: Concept of knowledge, Representation of knowledge using logic,

cemantic networks, frames and production systems.

Control Strategies: Concept of neuristic search and back-tracking forward and backward

chaining, study of the following search, techniques Depth-first search, Breath-first search,

Generate and Test.

Hill Climing Best-first search Learning; Concept of learning and knowledge acquisition study of

the following learning techniques: Rote learning, Induction, Explanation-based learning.

Neural Networks: Introduction: Evolution, Biological Neurons and Synapses, Characteristics of

Artificial Neural Networks (ANN) Types of Activation Functions.

Perceptrons: Perceptron representation: Concept of Linear separability, Limitations of

Perceptrons, Single layer and multi layer Perceptrons. Perception learning algorithms.

Basic Concept of Learning in ANN: Supervised learning, Back propagation, Unsupervised

learning, Self-Organisation, Kchonen's Network, Hopfield Network: configuration Hardware

Implementation, Learning, Stability.

Art Networks: Network configuration, Characteristics, Learning. Implimationm: Applications Conclusion: Recent trends and Future Applications.

46

LIST OF OPEN ELECTIVES-III

BCT 391 A Open Elective-III: Climate Responsive Architecture 3L, 3 Hrs, MM 100

Understanding Climate and its impact on architectural design, fundamentals of climatology and environmental

studies. Introduction – Elements of Climate, measurement and representation of climatic data. Classification of

climate, major climatic zones of India.

Thermal Comfort: Effect of climatic elements on Thermal comfort; indices for Thermal comfort Thermal

performance of building elements: Thermal and physical properties of building materials and their effect on indoor

environments.

Natural ventilation: Functions, effects of openings and external features on internal air circulation. Design

considerations for achieving natural ventilation.

Sun path diagram, use of solar charts, types of shading devices

Day light factor: components, design considerations for indoor spaces

Micro Climate: factors and effects

Construction techniques for improving thermal performance of walls and roofs. Passive cooling techniques: traditional and contemporary

Design considerations for buildings and settlements in tropical climates with special reference to hot-dry, warm-

humid and composite climates; Mahoney Tables.

Exercises: Design of shading devices.

Layout of Residence for hot - dry, warm-humid and composite climates.

ChE 391 A Open Elective-III: Nanotechnology 3L, 3 Hrs, MM 100

Introduction to Nanotechnology: Introduction to nanotechnology and materials, Nanomaterials, Introduction to nano sizes and properties comparison with the bulk materials, different shapes and sizes

and morphology.

Fabrication of Nanomaterials: Wet Chemical Synthesis Methods, Colloidal Nanoparticles Production, Sol Gel Methods, Microwave and Atomization, Gas phase Production Methods : Chemical Vapour

Depositions.

Kinetics at Nanoscale: Nucleation and growth of particles, Issues of Aggregation of Particles, Layers of

surface Charges, Zeta Potential and pH. Carbon Nanomaterials: Synthesis of carbon buckyballs, List of stable carbon allotropes extended

fullerenes, metallofullerenes solid C60, bucky onions nanotubes.

Nanomaterials characterization: Instrumentation Fractionation principles of Particle size measurements, Particle size and its distribution, XRD, Zeta potential Microscopies SEM, TEM, Atomic Forced

Microscopy, Scanning and Tunneling Microscopy

Applications in Chemical Engineering: Self-assembly and molecular manufacturing : Surfactant based system Colloidal system applications, ZnO,TiO2, Silver Nanoparticles Functional materials Applications,

Production Techniques of Nanotubes, Carbon arc, bulk synthesis, commercial processes of synthesis of

nanomaterials, Nanoclay, Commercial case study of nano synthesis - applications in chemical

engineering.

CSE 391A Open Elective-III; Web Technology 3L 3 Hrs, MM:100 Understanding Microsoft .NET Framework and ASP.NET, Creating components in Visual C#. CLR, Framework

Class Library, Undocumented Types.

Programming the .NET Framework, Common Types, Math, Strings, Collections, Regular Expressions. Core Types,

Serialization, Remoting, Graphics, Rich Client Applications, Globalization, Configuration, Advanced Component

Services.

47

Multithreading, Thread Synchronization, Inter-thread Communication and Monitor. Delegates & Events. Validating

User Input.

Creating a Connection to the Database, Displaying a DataSet, List-Bound Control, Paging and Selection, DataGrid

Control, Accessing Data with DataReaders and SqlDataReader. Overview of Stored Procedures.

Managing State, State management, Application and Session Variables, Cookies and Cookieless Sessions. Configuring, Optimizing. Using the Cache object.

Reading and Writing XML Data, Overview of XML Architecture, DataSet Object, XML Web Server Control,

Reading, Transforming, and Displaying XML, Nested Data. Creating an XML Web Service.

Securing a Microsoft ASP.NET Web Application, Web Application Security Overview, Windows-Based

Authentication, Forms-Based Authentication, Passport Authentication, Registering New Users, Permitting Users to

Sign Out.

AJAX.NET Architecture, Working with AJAX Pro and Controls, Accordion, Calendar, CascadingDropDown,

CollapsiblePanel, Filtered TextBox, Numeric Up Down, Modal Popup, Popup Control. Page_Load Event and Click

Event Procedure, Adding server controls to an ASP.NET Web Form basics, handling text and numbers.

CSE 392A Open Elective-III : Database Management Systems 3L 3 Hrs, MM:100

Purpose of data base system, data abstraction, data models, data independence, data definition language, data manipulation language, data base manager, data base administrator, data base users, overall system

structure. E-R Models, entities and entity sets, relationships and relationship sets, attributes, mapping constaraints, keys, E-R

diagrams, reducing E-R diagrams to tables, generation, aggregation, design of an E-R data base scheme

Basic concept of object oriented model, New database applications, object structure, class hierarchy, multiple

inheritance, object identity, object containment, physical organization, object oriented queries, scheme modification. File and system structure, overall system structure, file organization, logical and physical file organization,

sequential, random, hierarchical, inverted, multilist, Indexing and hashing, B-tree index files

Introduction to distributed database. Introduction to SQL Query and SQL joins.

CSE 393A Open Elective-III - Information Protection and Network Security

3L 3 Hrs, MM 100 Introduction to Cryptography: Simple substitution ciphers, divisibility and greatest common divisions, prime

numbers and unique factorization, cryptography before computer age.

Discrete Logarithms and Diffie-Hellman: Public Key cryptography, groups, discrete logarithm problem and its

hardness, Diffie-Hellman key exchange, Chinese remainder theorem.

Integer Factorization and RSA: Euler’s formula, RSA Public Key Crypto System, implementation and security

issues, primality testing.

Digital signature, Hash functions, modern symmetric crypto systems: DES and AES. Computer Security overview.

Common attacks and Detense Mechanisms; Evesdropping, cryptoanalysis, password pilfering, Identity spoofing,

Buffer-overflow, Repudiation, intrusion & IDS system Traffic analysis, DOS attacks, Malicious software.

Basic Security models and Security resources.

Network Perimeter Security. Packet Filters, Circuit Gateways, Application Gateways, Trusted Systems, Firewall

Configurations.

EC 391 A Open Elective-III: Electronic Instrumentation

3L 3 Hrs, MM:100 Transducers: Construction, characteristics and circuits for common types of resistive, capacitive, inductive,

magneto-structive; piezo-electric. Photo-electric and thermo-electric transducers for measurement of process

physical variables. Various sensing elements and transducers for measurement of Force, Pressure, Humidity,

Moisture, strain, Velocity, Acceleration and pH. Inductive and Capacitive proximity switches. Physical and electrical loading of and by the transducer Systems.

48

Signal Conditioning: Analog and digital signal conditioning for instrumentation. Objectives of DAS, components

of analog DAS and digital Data acquisition system, digital data recording system, multi channel DAS, modern

digital acquisition system.

Electronic Displays: Principle of LED numeric, matrix and alpha-numeric displays, flat panel CRT, LCD, electro-

luminiscent and electrophoretic and touch screen displays.

EE 391 A Open Elective –III :Soft Computing Techniques

3L 3 Hrs, MM:100 Soft Computing : Introduction of soft computing, soft computing vs. hard computing, various types of soft

computing techniques, applications of soft computing.

Artificial Intelligence : Introduction, Various types of production systems, characteristics of production systems,

breadth first search, depth first search techniques, other Search Techniques like hill Climbing, Best first Search, A*

algorithm, AO* Algorithms and various types of control strategies. Knowledge representation issues, Prepositional and predicate logic, monotonic and non monotonic reasoning, forward Reasoning, backward reasoning, Weak &

Strong Slot & filler structures, NLP.

Neural Network : Structure and Function of a single neuron: Biological neuron, artificial neuron, definition of ANN,

Taxonomy of neural net, Difference between ANN and human brain, characteristics and applications of ANN, single

layer network, Perceptron training algorithm.

Fuzzy rule base system : fuzzy propositions, formation, decomposition & aggregation of fuzzy rules, fuzzy

reasoning, fuzzy inference systems, fuzzy decision making & Applications of fuzzy logic.

EE 392 A Open Elective –III: Energy Conservation

3L 3 Hrs, MM:100

Elements of Energy Conservation and Management : General energy problem, Sector wise Energy consumption,

demand supply gap, Scope for energy conservation and its benefits, Energy conservation Principle Maximum energy

efficiency, Maximum cost effectiveness. Mandatory provisions of EC act Features of EC act Standards and

labeling, designated consumers, Energy Conservation Building Codes (ECBC). Energy management concept and

objectives Initializing Planning, Leading, Controlling, Promoting, Monitoring and Reporting, energy management

programmes.

Energy Conservation Approaches In Industries : energy saving opportunities in electric motors Benefits of Power

factor improvement and its techniques Shunt capacitor, Synchronous Condenser etc., Effects of harmonics on

Motors, and remedies leading to energy conservation Energy conservation by VSD Methods and techniques of energy conservation in ventilation and air conditioners compressors pumps, fans and blowers Area Sealing,

Insulating the Heating / cooling fluid pipes, automatic door closing Air curtain, Thermostat / Control Energy

conservation in electric furnaces, ovens and boilers lighting techniques Natural, CFL, LED lighting sources and

fittings

Energy Conservation in Power Generation, Transmission and Distribution : Performance improvement of existing

power plant: cogeneration, small hydro, DG Set. Demand side management Load response programmes Types of

tariff and restructuring of electric tariff Technical measures to optimize T and D losses.

Ma 391 A Open Elective-III: Advanced Numerical Analysis

3L 3 Hrs., MM : 100 Solution of Algebraic and Transcendental Equations: Newton-Raphson method for real multiple roots, for complex

roots and for system of non-linear equations; Synthetic Division, Birge-Vieta Method.

Solution of simultaneous Linear Equations and Eigen Value Problems: Direct methods: Gauss-elimination, Gauss-

Jordan, Iterative Methods: Jacobi iteration, Gauss-seidel iteration and Successive Relaxation method. Eigen value

Problems: power method

Curve fitting and Function Approximation: Chebyshev approximations, Chebyshev Expansion, Chebyshev Polynomials. Economization of Power Series.

Numerical Solution of Partial Differential Equations: Finite difference Approximation to partial derivatives.

Solution of Laplace and poisson equations, Solution of one and two dimensional heat and wave equation by the

method of separation of variables.

49

ME 391A Open Elective-III: Design Planning and Control of Production System 3L 3 Hrs, MM:100

Production Planning: Planning horizon, product exploring, Make and buy decisions, operations planning, demand

forecasting, conversion of forecast into production goal.

Scheduling: Operation sequencing and balancing, Scheduling for mass production and job order production, MRP,

ERP.

Inventory System: Cost factors relevant to operations and inventory control, EOQ with shortages and uniform

production, quantity discount.

Project Planning and Control:Network control, control cost consideration and optimization, Resource allocation and

levelling, Aggregate production planning, decision rules.

Supply Chain Management:: Strategic framework of Supply chain – meaning, scope and performance of supply

chain, supply chain drivers and obstacles. Role of e-business in a supply chain.

ME 392A Open Elective-II: Finite Elements Method 3L 3 Hrs,MM: 100

Introduction: Basic concept of Finite element method; Rayleigh-Ritz and weighted residual method of variational

approximation, Numerical Solution of equilibrium problem by Gaussian elimination.

Finite Element Analysis of One-dimensional Problem; Basic Concepts, derivation of elements equations, connectivity of elements, imposition of boundary conditions, Solution of equations, Application in One dimensional

problem of Solid mechanics and heat transfer.

Finite Element Analysis of Two Dimensional Problem: Single variable problems: finite element discertization,

interpolation, function, numerical integration and modeling considerations for triangular, rectangular, Quadrilateral,

Isoparametric and Plane frame elements, Evaluation of equation and their solutions, Application in Two

Dimensional Problem of Solid mechanics, Heat Transfer and Eigen value problems.

MI 391A Open Elective-III: Project Environment Clearance

3L 3 Hrs, MM:100

Brief introduction of Environment Protection Act 1986 and other relevant legal provisions

applicable to get environment clearance in India.

Impact of major engineering projects on various components of the environment: Socio-

Economy, Land, Water, Air, Noise and others.

Preparation of Environment management plan: Public hearing, collecting baseline data,

Environment impact assessment and predication, Environment management plan, environment

monitoring and management.

PI 391A Open Elective-III: Quality Management

3L 3 Hrs,MM: 100 Introduction: History of Quality, Objectives , importance and need of quality, Contributions of Quality Gurus-

Juran, Deming, Crosby, Feigenbaum, Ishikawa, Taguchi etc., Impact of Quality on business performance.

Process and Statistical Quality Control: Quality System; Quality control techniques; Process capability; Control Charts- Theory of control charts, control limits and specification limits, Control charts for variables-X R Charts,

Control Charts for attributes p, np, c and u charts.

Acceptance Sampling : Fundamental concepts of acceptance sampling; OC Curves; Single , Double and multiple

sampling;

Quality Management: Introduction to Quality management; quality control and quality assurance; Quality control

tools; cost of quality and cost of poor quality.

ISO 9000: ISO 9000 series; terminologies; need for ISO 9000 certification; basic procedure and work instructions;

steps in ISO 9000 registration; Internal and third party audit for registration; Clauses of ISO 9000-2000 .

50

List of Open Electives ( for other departments students offered by Civil & Structural

Engg Department) Name of subject Semester

CE 291A Open Elective-I :Energy Efficient Building Design

SE 291A Open Elective-I: Computer oriented Numerical Analysis

Fourth Semester

CE 341A Open Elective-II: Non Urban Public Hygiene & Drinking Water

SE 341A Open Elective-II :Structural Dynamics

Fifth Semester

CE 391A Open Elective-III: Ecosystem & Biodiversity

SE 391A Open Elective-III :Finite Element Method

Sixth Semester

LIST OF OPEN ELECTIVES-I ( IV Sem)

CE 291A Open Elective-I :Energy Efficient Building Design 3L 3 Hrs, MM:100

Environment and man, external environment and built environment, Built-environment – integrated approach.

Climate: elements of climate, classification of climate, Micro-climate, site climate.

Comfort: desirable conditions, thermal comfort factors, comfort indices, effective and corrected effective temp. Tropical summer index.

Thermal Design: heat loss from a building under steady state condition, heat gains due to solar radiation,

steady state and cyclic conditions, Means of thermal control – mechanical, structural control, air

infiltration into buildings by natural means, shape of buildings,-thermal cube, fabric heat loss, ventilation loss and volume.

Light & Lighting: illumination requirement, day-lighting, artificial lighting, energy conservation.

Noise Control: Sources of noise, means of control, control requirements, behaviour of sound in rooms, vibration & vibration control.

Building Services: Mechanical & electrical services in building, lifts, escalators.

SE 291A Open Elective-I: Computer Oriented Numerical Analysis

3L, 3 Hrs, MM 100

Error Analysis:- Approximations and errors, Round off errors.

Roots of Equations:- Bisection method, Newton – Raphson method.

Curve Fitting:- Linear Regression, Least Square Ft, Co-relation.

Interpolation:- Linear & Quadratic, Newton’s & Lagrange’s polynomials.

Numerical Differentiation:- Forward / Backward / Centered F.D. method.

Numerical Integration:- Trapezodial rule, Simpson’s rule.

Solution of simultaneous Linear algebraic equations.

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LIST OF OPEN ELECTIVES-II ( V Sem)

CE 341A Open Elective-II: Non Urban Public Hygiene & Drinking Water

3L, 3 Hrs, MM 100 Communicable disease: Disease and immunity, communicable disease sources, mode of transfer. Control of

communicable disease.

Fly and mosquito control: Life cycle of flies and mosquitoes. Various methods of fly and mosquitoes control.

Milk and food sanitation: Essential of dairy farm and cattle shed sanitation. Tests for milk and dairy products. Food

epidemic, food poisoning. Botulism. Rural sanitation, village latrines, aqua privies, storm water and sullage

problems, animal waste, methods of composting. Biogas collection and disposal of refuse, solid waste management

through vermicomposting.

Septic tank (only salient features), percolation pits, sub surface disposal.

Rural water supply: Importance of village community in India, conditions of Indian villages with special regards to

economic, social and health aspects. Quality of water needed for village community, sources of water for village

water supplied, domestic roof water harvesting. Types of wells of sanitary aspects in well construction.

Disinfections of wells. Different types of pumps used for village wells. Operation and maintenance of pumps, water borne diseases. Quality of water, human and cattle population and their water requirement. Rate of water supply.

Standards of potable water. Rain water storage.

Treatment of water: Disinfection, desalination, Defluoridation, distribution of water.

SE 341A Open Elective-II :Structural Dynamics

3L 3 Hrs, MM: 100 Vibrations of single degree of freedom system, sources of vibration, Types of vibration, Degree of freedom, spring

action and damping, equation of motion of single degree of freedom system, undamped system of single degree of

freedom, combination of stiffnesses, damped system of single degree of freedom, dry friction, damping forced

vibration of damped system, introduction to multi degree freedom system.

LIST OF OPEN ELECTIVES-III ( VI Sem)

CE 391A Open Elective-III: Ecosystem & Biodiversity 3L, 3 Hrs, MM 100

Concept of an ecosystem, structure & function of ecosystem, Bio-Geo chemical cycles (Hydrological, carbon,

oxygen, nitrogen, phosphorus & sulphur cycle), energy flow in ecosystem, food chain

Major ecosystems (Description only) : Forest ecosystem, Grassland ecosystem, Desert ecosystem, Aquatic

ecosystem, Riverine and stream ecosystem, Marine ecosystem, Estuarine ecosystem.

Biodiversity : Definition and its importance. Biodiversity at global, national & local level. Hot spots of biodiversity,

Threats to biodiversity & causes of biodiversity loss. Conservation of biodiversity.

Value of biodiversity: Consumptive use, productive use, social value, ethical value, aesthetic value& optional value.

Bio-geographical classification of India. India as mega- diversity nation

SE 391A Open Elective-III :Finite Element Method

3L 3 Hrs,MM: 100

Introduction to Finite Element Method, Basic Concept of Finite Element Method, Analysis of

continuum:- Structural, thermal, Potential etc., Finite Element Analysis of an elastic continuum:-

Displacement approach, Direct Formulation, Energy Integral, Co and C1 continuity,

Convergence criteria.

Elements:- Types and Properties. Conforming and Non conforming.

Shape Functions:- Langrangian and Serendity family for one and two dimensional cases.

Pascal triangle, Super / Sub and Iso parametric elements.

Steps in Finite Element Analysis of an elastic continuum.