b.tech.Syllabusbook

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REGULATIONS, COURSE STRUCTURE AND SYLLABIFOR B.TECH. (I, II SEMESTERS) UNDER AUTONOMOUS

STATUS FOR 2009 ADMITTED BATCH

AFFILIATED TO JNTU KAKINADAMADHURAWADA , VISAKHAPATNAM-530048

(AUTONOMOUS)

ALL BRANCHES ARE ACCREDITED BY NBA OF AICTEACCREDITED BY NAAC WITH A GRADE WITH A CGPA OF 3.47/4.00

REGULATIONS, COURSE STRUCTURE AND SYLLABIFOR B.TECH. (I, II SEMESTERS) UNDER AUTONOMOUS

STATUS FOR 2009 ADMITTED BATCH

AFFILIATED TO JNTU KAKINADAMADHURAWADA , VISAKHAPATNAM-530048

(AUTONOMOUS)

GAYATRI VIDYA PARISHADCOLLEGE OF ENGINEERING

Meeting of the Joint Board

of Studies held on 9th July 2009

G V P College of Engineering (Autonomous)G V P College of Engineering (Autonomous)

VisionVisionVisionVisionVision

To evolve into and sustain as a Centre of To evolve into and sustain as a Centre of To evolve into and sustain as a Centre of To evolve into and sustain as a Centre of To evolve into and sustain as a Centre of

Excellence in Technological EducationExcellence in Technological EducationExcellence in Technological EducationExcellence in Technological EducationExcellence in Technological Education

and Rand Rand Rand Rand Research with a holistic approach.esearch with a holistic approach.esearch with a holistic approach.esearch with a holistic approach.esearch with a holistic approach.


FOREWORD

The autonomy is conferred on any institution by the U.G.C. onthe recommendations of the affiliating University and the StateGovernment based on its performance history as well as futurecommitment and competency to deliver quality education. It is a markof its ability function independently in accordance with the set normsof the monitoring bodies like UGC and AICTE. It reflects theconfidence of the affiliating University in the autonomous institution touphold and maintain standards it expects to deliver on its own behalfand thus awards degrees on behalf of the institution. Thus, anautonomous institution is given the freedom to have its own curriculum,examination system and monitoring mechanism, independent ofthe affiliating University but under its eagle eyes.

The G.V.P. College of Engineering is proud to win the confidenceof all the above bodies monitoring the quality in education and hasgladly accepted the responsibility of sustaining, if not improve uponthe standards and values it has been striving for more than a decade inreaching its present standing in the arena of contemporary technicaleducation of the region. As a follow up, statutory bodies like AcademicCouncil and Boards of studies are constituted with the guidance of theGoverning Body of the College and recommendations of the JNTU-Kakinada to frame the regulations, Course structure and syllabi underautonomous status.

The autonomous regulations, course structure and syllabi havebeen prepared after prolonged and detailed interaction with severalexperts taken from academics, industry and research, in accordancewith the vision and mission of the college to give a quality engineeringgraduate to the society.

MissionMissionMissionMissionMission

To produce high quality engineering graduatesTo produce high quality engineering graduatesTo produce high quality engineering graduatesTo produce high quality engineering graduatesTo produce high quality engineering graduates

with the requisite theoretical and practicalwith the requisite theoretical and practicalwith the requisite theoretical and practicalwith the requisite theoretical and practicalwith the requisite theoretical and practical

knowledge and social awareness to be able toknowledge and social awareness to be able toknowledge and social awareness to be able toknowledge and social awareness to be able toknowledge and social awareness to be able to

contribute effectively to the progress of thecontribute effectively to the progress of thecontribute effectively to the progress of thecontribute effectively to the progress of thecontribute effectively to the progress of the

society through their chosen field of endeavoursociety through their chosen field of endeavoursociety through their chosen field of endeavoursociety through their chosen field of endeavoursociety through their chosen field of endeavour.....

TTTTTo undertake Ro undertake Ro undertake Ro undertake Ro undertake Research & Development, andesearch & Development, andesearch & Development, andesearch & Development, andesearch & Development, and

extension activities in the fields of Science andextension activities in the fields of Science andextension activities in the fields of Science andextension activities in the fields of Science andextension activities in the fields of Science and

Engineering in areas of relevance for immediateEngineering in areas of relevance for immediateEngineering in areas of relevance for immediateEngineering in areas of relevance for immediateEngineering in areas of relevance for immediate

application as well as for strengthening orapplication as well as for strengthening orapplication as well as for strengthening orapplication as well as for strengthening orapplication as well as for strengthening or

establishing fundamental knowledge.establishing fundamental knowledge.establishing fundamental knowledge.establishing fundamental knowledge.establishing fundamental knowledge.


ACKNOWLEDGEMENT

This College took a bold step of asking for autonomy with theencouragement of erstwhile JNTU and the APSCHE gracefully rec-ommended its case to UGC.

The UGC was kind enough to recommend to JNTU to grantautonomy to this college.

The Vice-Chancellor and the Registrar of JNTUK acted withextraordinary speed to make autonomous status a reality and to saveone year of autonomy for this college.

Many experts gave their consent and responded at short no-tice to be part of the most important activity of giving direction toprospective engineering students of this college. They sat throughlong hours to discuss in depth to make it practicable.

All the faculty consulted several course structures and syllabito bring out the best. They cooperated in sitting through lengthy meet-ings till late evenings.

The non-teaching staff toiled through hot summer in typing,printing several drafts before they are finalised. They spent late nightsin the college to facilitate the smooth conduct of Board of studies,Academic council and Governing Body meetings.

The management extended all material and moral support tokeep up the accelerated time schedules.

All are gratefully acknowledged for strengthening the handsof the administration.

PRINCIPAL

All the faculty are advised to read, understand, and follow theregulations in letter and spirit. In case of doubts /clarifications,interpretations have to be made carefully and cautiously with elderlyguidance. No controversies shall arise in implementation.

All the parents and students are requested to go throughcarefully and be through. Any clarifications needed are to be sought atappropriate time and with official of the college, without presumptions,to avoid unwanted subsequent inconveniences and embarrassments.

The Cooperation of all the stake holders is sought for thesuccessful implementation of the autonomous system in the largerinterests of the college and prospective engineering graduates.

PRINCIPAL

REGULATIONS

G V P College of Engineering (Autonomous)

REGULATIONS

R 1.0 Qualification for Admission and duration :R1.1 The selection for category A and B seats shall be as per Govt.

of Andhra Pradesh rules.

R1.2 The duration of the programme for the Degree of Bachelor ofTechnology will be four academic years, with two semestersin each year. However if a student cannot complete within 4years, he can do so by taking more time but not more than 8years.

R1.3 The duration of each semester will normally be 20 weeks with5 days a week. A working day shall have 7 periods each of 50minutes.

R 2.0 Structure of the Programme :

Note: Except elective subjects in VII, VIII semesters all courses are compulsory.

Semester No.of Courses per semester CreditsTheory + Lab

I 5 + 3 26II 5 + 3 26III 6 + 2 28IV 6 + 2 28V 6 + 2 28VI 6 + 1+

Advanced Communication skills Lab (V/VI semesters)28

Industry oriented Mini Project 02VII 6(Two electives) + 2 28

VIII3(Two electives) + Seminar +

30Comprehensive Viva +Project

Total 224

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If a candidate gets an unsatisfactory Grade, he/she has to repeat theabove activity in the subsequent years to get a satisfactory grade.

R 3.0 Method of Evaluation :The performance of a student in each semester shall be evaluatedsubject-wise with a maximum of 100 marks each for theory andpractical/Drawing subjects. In addition, Industry oriented mini-project,seminar, Comprehensive Viva-Voce and Project work shall beevaluated for 50, 50, 100 and 200 marks, respectively.

R 3.1 Theory :For all lecture based theory courses, the evaluation shall be for 40marks through internal evaluation and 60 marks through external end-semester examination of three hours duration.

R 3.1 a. Internal evaluation :The 40 internal marks are divided as 20+10+10.

1. Quiz/Subject type test 20 marks2. Assignment/tutorial 10 marks3. Seminar/Viva/

Any other method 10 marksas notified by the teacher

The internal marks shall be computed as per the procedure givenabove, as the weighted average of the two internal evaluations at 2:1with the higher score carrying a weightage of 2.

R 3.1 b. External evaluation :The question paper shall be set externally and valued both internallyand externally.

R 3.2 Practicals :Practicals/drawing shall be evaluated for 100 marks, out of which 50marks are for external examination and 50 marks are for internal

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a) The curriculum in the first and second semesters shall becommon for all the B.Tech. programmes except forDepartmental options.

b) Each course is normally assigned a certain number of creditsas follows:

• 1 credit per lecture period per week and no credits fortutorials

• 2 credits per laboratory class of 3 periods per week• 2 credits for Industry oriented Mini Project• 2 credits for Seminar with 3 periods per week• 4 credits for comprehensive viva-voce examination• 12 credits for project work

c) The curriculum for any programme of study shall have a totalof 224 credits out of which a minimum of 216 credits arerequired to be obtained by a student for the award of B.Techdegree. The default of 8 credits is permitted only from theelectives in VII and VIII semesters.

d) Participation in extra- and co-curricular activities like Sports,Social Service, Cultural and Literary associations iscompulsory for all the students as and when they are planned.

i) A student has to record a participation of minimum of32 hours per semester in his/her chosen activity duringthe first year.

ii) The activities are monitored and grades are awardedas given below:

EXCELLENTGOODSATISFACTORYUNSATISFACTORY

2


R 3.5 Comprehensive Viva-Voce :The comprehensive Viva-Voce will be conducted by a committeecomprising Head of the Department, two senior faculty of therespective department and an External Examiner from outside theCollege. This is aimed at assessing the student’s understanding ofvarious subjects studied during the entire program of 4 years. TheComprehensive Viva-Voce shall be evaluated for 100 marks at theend of VIII semester. A minimum of 50% of maximum marks shallbe obtained to earn the corresponding credits.

R 4.0 Project :The Project work shall be spread over the entire VIII Semester and ofsomewhat innovative in nature, exploring the research bent of mindof the student. A project batch shall comprise of not more than fourstudents. A mid-course review is conducted by HOD and theSupervisor on the progress for 20% of the marks. On completion ofthe project a second evaluation is conducted for award of internalmarks of another 20% before the report is submitted making the totalinternal marks 40%. The final evaluation shall be based on the reportsubmitted and a viva-voce exam for 60% marks by an externalexaminer.

R 5.0 Attendance Requirements :It is desirable for a candidate to put up 100% attendance in the classin all the subjects. However, a candidate shall be permitted to appearfor the end semester examination provided he records a minimum of75% attendance for each subject in any semester. However,condonation for shortage of attendance may be given on Medicalgrounds, if a certificate to the extent is submitted to the HOD whenthe candidate first returns to the classes. Certificates submittedafterwards shall not be entertained on any count. A condonation feeas fixed by the college for those who put in attendance between 65

5

evaluation. The 50 internal marks are distributed as 25 marks forday-to-day work and 25 marks for internal end-examination. Theinternal end- examination shall be conducted by the teacher concernedand another faculty member of the same department.

10 out of 12 to 16 experiments/exercises recommended are to becompleted in a semester.

R 3.3 Industry Oriented Mini Project :The industry oriented mini project shall be carried out during thesummer break for a minimum of 4 weeks after the VI Semester andcompleted before the start of the VII semester. A report has to besubmitted at the beginning of the VII semester for assessment by aninternal evaluation committee comprising Head of the Departmentand two faculty of the department including the project Supervisorfor 50 marks. A minimum of 50% of maximum marks shall be obtainedto earn the corresponding credits.

R 3.4 Seminar :The seminar shall have two components, one chosen by the studentfrom the course-work without repetition and approved by the facultySupervisor. The other component is suggested by the Supervisor andcan be a reproduction of the concept in any standard research paperor an extension of concept from earlier course work. A hard copy ofthe information on Seminar topic in the form of a report is to besubmitted for evaluation along with presentation. The presentation ofthe seminar topics shall be made before a committee comprising theHead of the Department, seminar supervisor and a senior faculty ofthe department. The two components of the seminar are distributedbetween two halves of the semester and are evaluated for 50 markseach. The average of the two components shall be taken as the finalscore. A minimum of 50% of maximum marks shall be obtained toearn the corresponding credits.

4


ii. A student shall be deemed to have satisfied the minimumacademic requirements and earned the credits allotted to eachtheory, if he / she secures not less than 35% of marks in externalend-examination, and a minimum of 40% of marks on theaggregate of internal evaluation and external examinationtaken together.

iii. In case of practical / drawing / project / seminar, a studentshall be deemed to have satisfied the minimum academicrequirements and earned the credits allotted to each of them ifhe/she secures not less than 50% of marks on the aggregate inthe internal evaluation and external end-examination takentogether.

iv. A student shall be promoted from IV to V semester only if hefulfills the academic requirement of 48 credits from theexaminations held up to end of II semester includingsupplementary examinations.

v. A student shall be promoted from VI to VII semester, only ifhe / she fulfills the academic requirements of total 100 creditsout of which all 52 from first year shall be completed, fromthe examinations held up to IV semester includingsupplementary examinations.

vi. Student shall register and put up minimum attendance in all224 credits and earn 216 credits or more. Marks obtained inthe best 216 out of 224 credits shall be considered for theaward of Percentage/Class/Division.

vii. A student who fails to earn 216 credits as indicated in thecourse structure including compulsory subjects as indicatedin table given in R2.0 within eight academic years from theyear of his/her admission shall forfeit his/her seat and his/heradmission stands cancelled.

7

and 74 per cent shall be charged before the student is permitted to theend examination.

Attendance may also be condoned as per the State Government rulesfor those who participate in prestigious sports, co- and extra-curricularactivities provided their attendance is in the minimum prescribed limitsfor the purpose and recommended by the concerned authority.

Attendance will be indicated in the marks memo by a letter code asfollows :

Grading of Attendance :90% and above A (Very Good)75% to 89% B (Good)65% to 74% C (Condoned)Below 65% D (Detained)

A student who gets less than 65% (D Grade) attendance in a maximumof two courses in any semester shall not be permitted to take the end-semester examination in which he/she falls short. His/her registrationfor those courses will be treated as cancelled. The student should re-register and repeat those courses as and when offered next in summer.

R 5.1 : If a student gets D grade in more than two courses in anysemester he/she shall be detained and has to repeat the entire semester.

R 6.0 Minimum Academic Requirement :The following academic requirements shall be met along with theattendance requirements mentioned above to be eligible for the awardof the B.Tech. degree.

i. A student shall acquire at least C grade in attendance to beeligible to appear for the end-semester examination in theconcerned subject.

6


award of B.Tech degree. The best 216 out of 224 credits shall beconsidered for the award of class/division.

R 10.0 General :i. Where the words ‘he’, ‘him’, ‘his’, occur, they imply ‘she’,

‘her’, ‘hers’, also.

ii. The academic regulation should be read as a whole for thepurpose of any interpretation.

iii. In the case of any doubt or ambiguity in the interpretation ofthe above rules, the decision of the Chairman, AcademicCouncil is final.

iv. The college may change or amend the academic regulationsor syllabi from time to time and the changes or amendmentsmade shall be applicable to all the students with effect fromthe dates notified by the college.

Q

9

R 7.0 Summer program for defaulters :A summer term course is open only to those students who had takenthe course earlier and failed to fulfill the attendance requirements inthe earlier semesters. However, this facility shall not be extended tothose candidates who are detained for want of attendance as perregulations R 5.1

Summer term courses shall be announced at the end of the evensemester before the commencement of the end-semester examinations.The announcement of subjects offered for the summer programme isat the discretion of the Principal. A student shall have to register withinthe time stipulated in the announcement by paying the prescribed fee.

The number of total contact hours and method of evaluation for anysummer program shall be the same as those for a regular semester.

No student can register for more than two courses during a summerterm.

Withdrawal from a summer program after registration will not entitlefor any refund of fees.

R 8.0 Supplementary examinations :Supplementary examinations for the odd semester shall be conductedwith the regular examinations of even semester and vice versa, forthose who appeared and failed in regular examinations.

R 9.0 Class/Division :70% and above : First Class with distinction60% and above, but less than 70% : First Class50% and above, but less than 60% : Second Class.Less than 50% : Fail* A candidate shall get an aggregate of 50% overall at the end ofVIII semester while fulfilling a minimum of 216 credits for the

8


II. P.G. PROGRAMMES :Courses Intake

i) M.TECHChemical Engineering 18Computer science and Engineering 18CAD/CAM 18Infrastructural Engg. & Mgmt. in Civil Engg. 18Power System Control and Automation 18Software Engineering 18ii) M.C.A 60

PROGRAMMES OF STUDY AND INTAKE

I. U.G. PROGRAMMES :

Courses IntakeChemical Engineering 60Civil Engineering 120Computer Science & Engineering 120Electrical and Electronics Engineering 120Electronics and Communication Engineering 120Information Technology 90Mechanical Engineering 60

10

COURSE STRUCTURE


CHEMICAL ENGINEERING

I SEMESTER :

COURSE THEORY/LAB L T P CCODEAHE1101 English 4 0 0 4ABM1101 Mathematics-I 4 1 0 4ABC1101 Chemistry 4 1 0 4

ACH1101 Introduction to Chemical 4 1 0 4Engineering

ACT1102 Computer Programming through C 4 1 0 4AHE1102 English Language Lab. 0 0 3 2ACT1103 Computer Programming Lab. 0 0 3 2AME1101 Engineering Workshop 0 0 3 2

Total 20 4 9 26

II SEMESTER :

COURSE THEORY/LAB L T P CCODEABM1102 Mathematics-II 4 1 0 4AME1103 Engineering Mechanics 4 1 0 4ABP1101 Physics 4 1 0 4ABC1101 Organic Chemistry 4 1 0 4ABE1102 Environmental Studies 4 0 0 4ABP1102 Physics and Chemistry Lab 0 0 3 2ABC1103 Organic Chemistry Lab 0 0 3 2AME1103 Engineering Drawing 0 0 3 2

Total 20 4 9 26

11


VI SEMESTER :

COURSE THEORY/LAB L T P CCODE

ACH1122 Process Modeling & Simulation 4 1 0 4ACH1123 Process Dynamics And Control 4 1 0 4ACH1124 Chemical Reaction Engineering-II 4 0 0 4ACH1125 Chemical Plant Design & Economics 4 0 0 4ACH1126 Biochemical Engineering 4 0 0 4ACH1127 Chemical Process Equipment Design-I 4 0 0 4AHE1103 Advanced Communication Skills Lab 0 0 3 2ACH1128 Process Dynamics & Control Lab. 0 0 3 2

Total 24 2 6 28

VII SEMESTER :


ACH1129 Chemical Process Equipment 4 0 0 4Design-IIACH1130 Transport Phenomena 4 1 0 4ACH1131 Chemical Engineering Mathematics 4 1 0 4ACH1132 Membrane Separation Processes 4 0 0 4

Elective-I 4 0 0 4ACH1133 Applied Numerical Methods ACH1134 Corrosion Engineering ACH1135 Safety & Hazard Analysis

Elective-II 4 0 0 4ACH1136 Polymer Engineering

ACH1137 Petroleum Refining &Petrochemicals

ACH1138 Energy Engineering

ACH1139Computer Aided Design ofChemical Equipment Lab

0 0 3 2

ACH1140 Application Of MATLAB InChemical Engg 0 0 3 2

ACH11MP Industry oriented Mini-Project - - - 2Total 24 2 6 30

13

III SEMESTER :COURSE THEORY/LAB L T P CCODEABM1105 Probability & Statistics 4 1 0 4ACH1102 Momentum Transfer 4 1 0 4ACH1103 Chemical Process Calculations-I 4 0 0 4ABC1104 Physical Chemistry 4 0 0 4ACH1104 Mechanical Unit Operations 4 0 0 4ACH1105 Process Instrumentation 4 0 0 4ACH1106 Mechanical Unit Operations Lab. 0 0 3 2ABC1105 Physical Chemistry Lab. 0 0 3 2

Total 24 2 6 28

IV SEMESTER :COURSE THEORY/LAB L T P CCODEACH1107 Heat Transfer 4 0 0 4AHM1102 Management Science 4 0 0 4ACH1108 Chemical Process Calculations-II 4 1 0 4

ACH1109 Material Science For Chemical 4 0 0 4EngineersACH1110 Mass Transfer Operations-I 4 1 0 4ACH1111 Chemical Engg. Thermodynamics-I 4 0 0 4ACH1112 Heat Transfer Lab 0 0 3 2ACH1113 Momentum Transfer Lab. 0 0 3 2

Total 24 2 6 28

V SEMESTER :COURSE THEORY/LAB L T P CCODEACH1114 Chemical Engg. Thermodynamics - II 4 0 0 4ACH1115 Chemical Reaction Engineering-I 4 1 0 4ACH1116 Mass Transfer Operations-II 4 1 0 4ACH1117 Industrial Pollution & Control 4 0 0 4ACH1118 Design & Analysis Of Experiments 4 0 0 4ACH1119 General Chemical Technology 4 0 0 4ACH1120 Chemical Reaction Engg. Lab 0 0 3 2ACH1121 Mass Transfer Lab 0 0 3 2

Total 24 2 6 28

12


CIVIL ENGINEERING

I SEMESTER :

COURSE THEORY/LAB L T P CCODEABM1101 Mathematics-I 4 1 0 4ACT1102 Computer Programming through C 4 1 0 4ACE1101 Surveying 4 1 0 4ACE1102 Introduction to Civil Engineering 4 1 0 4ABE1101 Environmental Studies 4 0 0 4ACE1103 Surveying Lab 0 0 3 2ACT1103 Computer Programming Lab 0 0 3 2AME1102 Engineering Drawing 0 0 3 2

Total 20 4 9 26

II SEMESTER :

COURSE THEORY/LAB L T P CCODEAHE1101 English 4 0 0 4ABM1102 Mathematics-II 4 1 0 4AME1103 Engineering Mechanics 4 1 0 4ABP1101 Physics 4 1 0 4ABC1101 Chemistry 4 1 0 4AHE1102 English Language Lab 0 0 3 2AMT1101 Engineering Workshop 0 0 3 2ABP1102 Physics and Chemistry Lab 0 0 3 2

Total 20 4 9 26

15

VIII SEMESTER :

COURSE THEORY/LAB L T P CCODEACH1141 Optimization Of Chemical Processes 4 0 0 4

Elective-III 4 0 0 4

ACH1142Chemical Engineering Principlesin Drug Delivery

ACH1143Non-Newtonian Flow InChemical Engineering

ACH1144 Design of Multiphase ReactorsElective-IV 4 0 0 4

ACH1145 Computational Fluid Dynamics

ACH1146Down Stream Processing InBio-processing

ACH1147 Multi Component Mass Transfer ACH11SM Seminar 0 0 3 2ACH11CV Comprehensive Viva - - - 4ACH11PW Project work 0 0 9 12

Total 12 0 12 30

14


VI SEMESTER :


ACE1126 Structural Analysis – II 4 1 0 4ACE1127 Design of Steel Structures 4 1 0 4ACE1128 Environmental Engineering-I 4 1 0 4ACE1129 Remote Sensing & GIS 4 0 0 4ACE1130 Transportation Engineering – II 4 0 0 4ACE1131 Geotechnical Engineering-II 4 1 0 4ACE1132 Geomatics Lab 0 0 3 2AHE1103 Advanced Communication Skills Lab 0 0 3 2

Total 24 4 6 28

VII SEMESTER :

COURSE THEORY/LAB L T P CCODEACE1133 Environmental Engineering-II 4 0 0 4ACE1134 Finite Element Methods 4 1 0 4ACE1135 Construction Management 4 0 0 4ACE1136 Reinforced Concrete Structures-II 4 1 0 4

Elective -I 4 0 0 4ACE1137 Earthquake Resistant Design

ACE1138 Industrial Waste and WasteWater Management

ACE1139 Traffic EngineeringElective -II 4 0 0 4

ACE1140 Air Pollution and ControlACE1141 Ground Improvement TechniquesACE1142 Bridge EngineeringACE1143 CAD Lab 0 0 3 2ACE1144 Environmental Engineering Lab 0 0 3 2ACE11MP Industry oriented Mini-Project - - - 2

Total 24 2 6 30

17

III SEMESTER :COURSE THEORY/LAB L T P CCODE

ABM1103 Probability, Statistics and 4 1 0 4Numerical MethodsACE1104 Strength of Materials – I 4 1 0 4ACE1105 Fluid Mechanics-I 4 1 0 4ACE1106 Building Materials & Construction 4 1 0 4ACE1107 Engineering Geology 4 0 0 4ACE1108 Elements of EE and ME 4 0 0 4ACE1109 Structural Engineering Lab 0 0 3 2ACE1110 Engineering Geology Lab 0 0 3 2

Total 24 4 6 28

IV SEMESTER :COURSE THEORY/LAB L T P CCODEACE1111 Strength of Materials – II 4 1 0 4ACE1112 Fluid Mechanics-II 4 1 0 4ACE1113 Concrete Technology 4 0 0 4ACE1114 Building Planning Services & Drawing 3 0 2 4

AHM1101 Managerial Economics and 4 0 0 4Financial AnalysisACE1115 Water Resources Engineering-I 4 0 0 4ACE1116 Fluid Mechanics Lab 0 0 3 2ACE1117 Concrete Technology Lab 0 0 3 2

Total 23 2 8 28

V SEMESTER :COURSE THEORY/LAB L T P CCODEACE1118 Structural Analysis – I 4 1 0 4ACE1119 Reinforced Concrete Structures-I 4 1 0 4ACE1120 Geotechnical Engineering-I 4 1 0 4ACE1121 Water Resources Engineering-II 4 1 0 4ACE1122 Transportation Engineering-I 4 0 0 4ACE1123 Estimation & Quantity Surveying 4 0 0 4ACE1124 Transportation Engineering Lab 0 0 3 2ACE1125 Geotechnical Engineering Lab 0 0 3 2

Total 24 4 6 28

16


COMPUTER SCIENCE AND ENGINEERING

I SEMESTER :

COURSE THEORY/LAB L T P CCODEABM1101 Mathematics-I 4 1 0 4ABP1101 Physics 4 1 0 4ABC1101 Chemistry 4 0 0 4AME1103 Engineering Mechanics 4 1 0 4AEE1136 Basic Electrical Engineering 4 1 0 4ABP1102 Physics and Chemistry Lab 0 0 3 2AME1102 Engineering Drawing 0 0 3 2ACT1101 PC Software Lab 0 0 3 2

Total 20 4 9 26

II SEMESTER :

COURSE THEORY/LAB L T P CCODEAHE1101 English 4 0 0 4ABM1102 Mathematics-II 4 1 0 4

ABM1103 Probability, Statistics andnumerical Methods 4 1 0 4

ABE1101 Environmental Studies 4 0 0 4ACT1102 Computer programming through C 4 1 0 4AHE1102 English Language lab. 0 0 3 2AMT1101 Engineering Workshop 0 0 3 2ACT1103 Computer programming Lab 0 0 3 2

Total 20 3 9 26

19

VIII SEMESTER :

COURSE THEORY/LAB L T P CCODEACE1145 Prestressed Concrete 4 0 0 4

Elective –III 4 0 0 4ACE1146 Advanced Structural Design

ACE1147 Transportation Planning andDesign

ACE1148 Soil Dynamics & MachineFoundationsElective –IV 4 0 0 4

ACE1149 Advanced Structural Analysis

ACE1150 Environmental ImpactAssessment & Management

ACE1151 Advanced Foundation EngineeringACE11SM Seminar 0 0 3 2ACE11CV Comprehensive Viva - - - 4ACE11PW Project work 0 0 9 12

Total 12 0 12 30

18


VI SEMESTER :


ACT1119 Software Testing Methodologies 4 1 0 4AHM1102 Management Science 4 0 0 4ACS1102 Network Security and Cryptography 4 1 0 4ACT1134 Web Programming 4 1 0 4ACS1103 Compiler Design 4 1 0 4ACT1120 Object Oriented Analysis and Design 4 0 0 4ACS1104 Web Programming and UML lab 0 0 3 2ACS1105 Network Security and Cryptography Lab 0 0 3 2

Total 24 4 6 28

VII SEMESTER :

COURSE THEORY/LAB L T P CCODEACT1121 Embedded Systems 4 1 0 4

ACT1122 Multimedia and Application 4 0 0 4Development

ACS1106 Advanced Computer Architecture 4 1 0 4ACT1123 Data Warehousing and Data Mining 4 1 0 4

Elective-I 4 1 0 4ACS1107 Natural Language Processing ACT1124 Network Programming ACT1133 Bio-Informatics

Elective-II 4 1 0 4ACT1125 Information Retrieval Systems ACT1126 Software Project Management ACS1108 Client-Server Computing ACS1109 Embedded Systems lab 0 0 3 2

ACS1110 Data mining and Data 0 0 3 2Warehousing lab

ACS11MP Industry Oriented Mini-project - - - 2Total 24 5 6 30

21

III SEMESTER :COURSE THEORY/LAB L T P CCODEABM1106 Discrete Mathematical Structures 4 1 0 4ACT1104 Computer Organization 4 1 0 4AEC1142 Digital Logic Design 4 0 0 4AEC1143 Electronic Devices and circuits 4 1 0 4

AHM1101 Managerial Economics andFinancial Analysis 4 0 0 4

ACT1105 Data structures using C++ 4 1 0 4AEC1144 Electronic Devices and circuits Lab 0 0 3 2ACT1106 Data structures Lab 0 0 3 2

Total 24 4 6 28IV SEMESTER :COURSE THEORY/LAB L T P CCODEACT1107 Unix & Shell Programming 4 0 0 4ACT1108 Operating Systems 4 1 0 4ACT1109 Database Management Systems 4 1 0 4

ACT1110 Object Oriented Programmingthrough Java 4 1 0 4

ACS1101 Principles of Programming Languages 4 0 0 4ACT1130 Computer Networks 4 1 0 4ACT1111 Operating System Lab 0 0 3 2ACT1112 Database Management Systems lab 0 0 3 2

Total 24 4 6 28V SEMESTER :COURSE THEORY/LAB L T P CCODEACT1113 Computer Graphics 4 0 0 4ACT1114 Formal languages and Automata Theory 4 1 0 4ACT1131 Artificial Intelligence 4 0 0 4ACT1115 Microprocessors and Interfacing 4 1 0 4ACT1116 Design and Analysis of Algorithms 4 1 0 4ACT1117 Software Engineering 4 1 0 4ACT1118 Microprocessors and Interfacing lab 0 0 3 2AHE1103 Advanced communication skills lab 0 0 3 2

Total 24 4 6 28

20


ELECTRONICS AND COMMUNICATIONENGINEERING

I SEMESTER :

COURSE THEORY/LAB L T P CCODEAHE1101 English 4 0 0 4ABM1101 Mathematics-I 4 1 0 4ABP1101 Physics 4 1 0 4ABC1101 Chemistry 4 1 0 4AEE1101 Basic Network Analysis 4 1 0 4AHE1102 English Language Lab 0 0 3 2AMT1101 Engineering Workshop 0 0 3 2ABP1102 Physics and Chemistry Lab 0 0 3 2

Total 20 4 9 26

II SEMESTER :

COURSE THEORY/LAB L T P CCODEABM1102 Mathematics -II 4 1 0 4AME1103 Engineering Mechanics 4 1 0 4ABE1101 Environmental Studies 4 0 0 4ACT1102 Computer Programming through C 4 1 0 4AEC1101 Electronic Devices 4 1 0 4AEC1102 Electronic Devices Lab 0 0 3 2ACT1103 Computer Programming Lab 0 0 3 2AME1102 Engineering Drawing 0 0 3 2

Total 20 4 9 26

23

VIII SEMESTER :

COURSE THEORY/LAB L T P CCODEACS1111 Human Computer Interaction 4 0 0 4

Elective-III 4 1 0 4ACT1127 Network Management SystemsACS1112 Neural NetworksACT1128 Image Processing

Elective-IV 4 1 0 4ACT1129 Pattern RecognitionACT1132 Mobile ComputingACS1113 Virtual RealityACS11SM Seminar 0 0 3 2ACS11CV Comprehensive Viva - - - 4ACS11PW Project Work 0 0 9 12

Total 12 2 12 30

22


VI SEMESTER :


AHM1101 Managerial Economics & 4 0 0 4Financial Analysis

AEC1120 Telecommn.Switching Sys. & 4 1 0 4NetworksAEC1121 Microcontrollers and Applications 4 1 0 4AEC1122 Microwave Engineering 4 1 0 4AEC1123 Digital Signal Processing 4 1 0 4

AEC1124 Elec. Measurements & 4 1 0 4Instrumentation

AEC1125 Microprocessors & 0 0 3 2Microcontrollers LabAHE1103 Advanced Communication skills Lab 0 0 3 2

Total 24 5 6 28

VII SEMESTER :

COURSE THEORY/LAB L T P CCODEAHM1102 Management Science 4 0 0 4AEC1126 TV & RADAR Engineering 4 1 0 4AEC1127 Data Communications 4 1 0 4AEC1128 Optical Communications 4 1 0 4

Elective-I 4 1 0 4AEC1129 Digital Image ProcessingAEC1130 Bio Medical InstrumentationAEC1131 Robotics

Elective-II 4 1 0 4AEC1132 Satellite CommunicationsAEC1133 EMI/EMCACT1108 Operating SystemsAEC1134 Microwave & Optical Commn. Lab 0 0 3 2AEC1135 Digital Signal Processing Lab 0 0 3 2AEC11MP Industry Oriented Mini-Project - - - 2

Total 24 5 6 30

25

III SEMESTER :COURSE THEORY/LAB L T P CCODEABM1104 Mathematics –III 4 0 0 4AEC1103 Electronic Circuits 4 1 0 4AEC1104 Signals & Systems 4 1 0 4AEE1137 Electrical Technology 4 1 0 4AEC1105 Pulse & Digital Circuits 4 1 0 4AEC1106 Switching Theory and Logic Design 4 1 0 4AEC1107 Electronic Circuits Lab 0 0 3 2AEE1138 Electrical Technology Lab 0 0 3 2

Total 24 5 6 28

V SEMESTER :COURSE THEORY/LAB L T P CCODEAEE1109 Control Systems 4 0 0 4AEE1139 Network Analysis & Synthesis 4 1 0 4AEC1114 Digital Communications 4 1 0 4AEC1115 Microprocessors and Interfacing 4 1 0 4AEC1116 Antennas and Wave Propagation 4 1 0 4AEC1117 VLSI Design 4 1 0 4AEC1118 VLSI Design Lab 0 0 3 2AEC1119 Digital Communications Lab 0 0 3 2

Total 24 5 6 28

IV SEMESTER :COURSE THEORY/LAB L T P C

CODEABM1107 Mathematics –IV 4 0 0 4AEC1108 Digital IC Applications 4 1 0 4AEC1109 Analog Communications 4 1 0 4AEC1110 Linear IC Applications 4 1 0 4ACT1104 Computer Organization 4 1 0 4AEC1111 EM Waves and Transmission Lines 4 1 0 4AEC1112 IC and PDC Lab 0 0 3 2AEC1113 Analog Communications Lab 0 0 3 2

Total 24 5 6 28

24


ELECTRICAL AND ELECTRONICSENGINEERING

I SEMESTER :

COURSE THEORY/LAB L T P CCODEAHE1101 English 4 0 0 4ABM1101 Mathematics – I 4 1 0 4ACT1102 Computer Programming through C 4 1 0 4AEE1101 Basic Network Analysis 4 1 0 4AME1103 Engineering Mechanics 4 1 0 4AME1102 Engineering Drawing 0 0 3 2AHE1102 English Language Lab 0 0 3 2ACT1103 Computer Programming Lab 0 0 3 2

Total 20 4 9 26

II SEMESTER :

COURSE THEORY/LAB L T P CCODEABM1102 Mathematics-II 4 1 0 4ABP1101 Physics 4 1 0 4ABC1101 Chemistry 4 1 0 4AEC1101 Electronic Devices 4 1 0 4ABE1101 Environmental Studies 4 0 0 4AEE1102 Networks Lab 0 0 3 2ABP1102 Physics and Chemistry Lab 0 0 3 2AMT1101 Engineering Workshop 0 0 3 2

Total 20 4 9 26

27

VIII SEMESTER :

COURSE THEORY/LAB L T P CCODEAEC1136 Computer Networks 4 1 0 4

Elective-III 4 1 0 4AEC1137 Digital Design using VerilogAEC1138 Embedded SystemsAEC1139 Industrial Electronics

Elective-IV 4 1 0 4AEC1140 DSP ArchitectureAEC1141 Wireless CommunicationsAEE1140 Power ElectronicsAEC11SM Seminar 0 0 3 2AEC11CV Comprehensive Viva - - - 4AEC11PW Project work 0 0 9 12

Total 12 3 12 30

26


VI SEMESTER :


AEE1115 Digital Signal Processing 4 1 0 4AEE1116 Microprocessor and Microcontrollers 4 1 0 4AEE1117 Power Electronics & Drives 4 1 0 4ABM1109 Optimization Techniques 4 1 0 4AEE1118 Switchgear and Protection 4 0 0 4

AHM1101 Managerial Economics and 4 0 0 4Financial AnalysisAEE1119 AC Machines Lab. 0 0 3 2AEE1120 Power Electronics and Drives Lab 0 0 3 2

Total 24 4 6 28

VII SEMESTER :

COURSE THEORY/LAB L T P CCODEAHM1102 Management Science 4 0 0 4AEE1121 Power Systems Analysis & Stability 4 1 0 4AEE1122 Power System Operation and Control 4 1 0 4AEE1123 Power Distribution Engineering 4 1 0 4

Elective - I 4 1 0 4AEE1124 Renewable Energy Sources

AEE1125 Reliability Engineering &Application to Power Systems

AEE1126 Neural Networks and Fuzzy Logic Elective - II 4 1 0 4

AEE1127 Programmable Logic ControllersACT1121 Embedded Systems AEE1128 Distribution Automation AEE1129 Simulation of Electrical Systems Lab 0 0 3 2

AEE1130 Microprocessors and 0 0 3 2Microcontrollers LabAEE11MP Industry Oriented Mini Project - - - 2

Total 24 5 6 30

29

III SEMESTER :COURSE THEORY/LAB L T P CCODEABM1104 Mathematics – III 4 1 0 4AEC1103 Electronics Circuits 4 1 0 4ACE1152 Prime Movers and Pumps 4 0 0 4AEC1146 Digital Electronics 4 1 0 4AEE1103 Electromagnetics 4 1 0 4AEE1104 Performance and Design of DC Machines 4 1 0 4AEC1107 Electronic Circuits Lab. 0 0 3 2AEE1105 DC Machines Lab. 0 0 3 2

Total 24 5 6 28

IV SEMESTER :COURSE THEORY/LAB L T P CCODEABM1107 Mathematics-IV 4 1 0 4AEE1106 Network Analysis and Synthesis 4 1 0 4AEC1105 Pulse and Digital Circuits 4 1 0 4AEE1107 Power Generation Engineering 4 0 0 4AEE1108 Performance and Design of AC Machines-I 4 1 0 4AEE1109 Control Systems 4 1 0 4AEE1110 Control Systems Lab. 0 0 3 2ACE1153 Prime Movers and Pumps Lab. 0 0 3 2

Total 24 5 6 28

V SEMESTER :COURSE THEORY/LAB L T P CCODEACT1104 Computer Organization 4 0 0 4AEC1147 Linear and Digital IC Applications 4 1 0 4AEE1111 Power Transmission Engineering 4 1 0 4AEE1112 Power Electronics 4 1 0 4

AEE1113 Performance and Design of 4 1 0 4AC Machines – II

AEE1114 Electrical Measurements and 4 1 0 4InstrumentationAHE1103 Advanced Communication Skills Lab 0 0 3 2AEC1148 Pulse and Digital circuits Lab 0 0 3 2

Total 24 5 6 28

28


INFORMATION TECHNOLOGY

I SEMESTER :

COURSE THEORY/LAB L T P CCODEAHE1101 English 4 0 0 4ABM1101 Mathematics-I 4 1 0 4ABP1101 Physics 4 1 0 4ABC1101 Chemistry 4 1 0 4AME1103 Engineering Mechanics 4 1 0 4ABP1102 Physics and Chemistry Lab 0 0 3 2AHE1102 English Language Lab 0 0 3 2AMT1101 Engineering Workshop 0 0 3 2

Total 20 4 9 26

II SEMESTER :

COURSE THEORY/LAB L T P CCODEABM1102 Mathematics-II 4 1 0 4

ABM1103Probability, Statistics and

4 1 0 4numerical MethodsAEE1136 Basic Electrical Engineering 4 1 0 4ABE1101 Environmental Studies 4 0 0 4ACT1102 Computer Programming through C 4 1 0 4ACT1101 PC Software Lab 0 0 3 2ACT1103 Computer programming Lab 0 0 3 2AME1102 Engineering Drawing 0 0 3 2

Total 20 4 9 26

31

VIII SEMESTER :

COURSE THEORY/LAB L T P CCODEAEE1131 Utilization of Electrical Energy 4 1 0 4

Elective – III 4 1 0 4AEE1132 HVDC Transmission AEE1133 EHV AC Transmission AEE1134 High Voltage Engineering

Elective – IV 4 1 0 4AEC1149 VLSI Technology ACT1109 Data Base Management Systems AEE1135 Digital Control Systems AEE11SM Seminar 0 0 3 2AEE11CV Comprehensive Viva - - - 4AEE11PW Project Work 0 0 9 12

Total 12 3 23 30

30


VI SEMESTER :


AIT1104 Middleware Technologies 4 1 0 4ACT1130 Computer Networks 4 1 0 4

AIT1105 Enterprise Resource Planning & 4 1 0 4Supply chain ManagementACT1119 Software Testing Methodologies 4 1 0 4ACT1123 Data Warehousing and Data Mining 4 1 0 4ACT1120 Object Oriented Analysis and Design 4 0 0 4

AIT1106 Computer Networks and Case 0 0 3 2Tools Lab

AHE1103 Advanced communication skills lab 0 0 3 2Total 24 5 6 28

VII SEMESTER :

COURSE THEORY/LAB L T P CCODEACT1121 Embedded Systems 4 1 0 4

ACT1122 Multimedia and Application 4 0 0 4DevelopmentACT1124 Network Programming 4 1 0 4ACT1132 Mobile Computing 4 1 0 4

Elective-I 4 0 0 4ACT1125 Information Retrieval SystemsAIT1107 Information SecurityACT1131 Artificial Intelligence

Elective-II 4 1 0 4ACT1126 Software Project ManagementAIT1108 Advanced Computing Concepts

ACT1114 Formal Language andAutomata Theory

AIT1109 Multimedia and Application 0 0 3 2Development LabAIT1110 Network Programming Lab 0 0 3 2AIT11MP Industry Oriented Mini Project - - - 2

Total 24 4 6 30

33

IV SEMESTER :COURSE THEORY/LAB L T P CCODEACT1107 Unix & Shell Programming 4 0 0 4ACT1108 Operating Systems 4 1 0 4ACT1109 Database Management Systems 4 1 0 4

ACT1110 Object Oriented Programming 4 1 0 4through JavaACT1116 Design and Analysis of Algorithms 4 1 0 4ACT1113 Computer Graphics 4 0 0 4ACT1111 Operating Systems Lab 0 0 3 2ACT1112 Database Management Systems Lab 0 0 3 2

Total 24 4 6 28

V SEMESTER :COURSE THEORY/LAB L T P CCODEAIT1101 Data Communication Systems 4 1 0 4AIT1102 E-Commerce 4 0 0 4ACT1134 Web Programming 4 1 0 4ACT1115 Microprocessor and Interfacing 4 1 0 4AHM1102 Management Science 4 0 0 4ACT1117 Software Engineering 4 1 0 4ACT1118 Microprocessors and Interfacing Lab 0 0 3 2AIT1103 Web Programming Lab 0 0 3 2

Total 24 4 6 28

III SEMESTER :COURSE THEORY/LAB L T P CCODEABM1106 Discrete Mathematical Structures 4 1 0 4ACT1104 Computer Organisation 4 1 0 4AEC1142 Digital Logic Design 4 0 0 4AEC1143 Electronic Devices and circuits 4 1 0 4

AHM1101 Managerial Economics and 4 0 0 4Financial AnalysisACT1105 Data structures using C++ 4 1 0 4AEC1144 Electronic Devices and circuits Lab 0 0 3 2ACT1106 Data structures Lab 0 0 3 2

Total 24 4 6 28

32


MECHANICAL ENGINEERING

I SEMESTER :

COURSE THEORY/LAB L T P CCODEABM1101 Mathematics-1 4 1 0 4ABP1101 Physics 4 1 0 4ABE1101 Environmental Studies 4 0 0 4AME1101 Basic Workshop Technology 4 1 0 4ACT1102 Computer Programming through C 4 1 0 4AME1102 Engineering Drawing 0 0 3 2ACT1103 Computer Programming Lab 0 0 3 2AMT1101 Engineering Workshop 0 0 3 2

Total 20 4 9 26

II SEMESTER :

COURSE THEORY/LAB L T P CCODEAHE1101 English 4 0 0 4ABM1102 Mathematics-II 4 1 0 4AME1103 Engineering Mechanics 4 1 0 4ABC1101 Chemistry 4 1 0 4AEE1136 Basic Electrical Engineering 4 1 0 4ABP1102 Physics and Chemistry Lab 0 0 3 2AHE1102 English Language lab 0 0 3 2AME1104 Advanced Engineering Drawing 0 0 3 2

Total 20 4 9 26

35

VIII SEMESTER :

COURSE THEORY/LAB L T P CCODEAIT1111 Distributed Databases 4 0 0 4

Elective-III 4 1 0 4AIT1112 Multimedia DatabasesACT1127 Network Management SystemsAIT1113 Biometrics

Elective-IV 4 1 0 4ACT1133 Bio-informaticsACT1128 Image processingACT1129 Pattern RecognitionAIT11SM Seminar 0 0 3 2AIT11CV Comprehensive Viva - - - 4AIT11PW Project Work 0 0 9 12

Total 12 2 12 30

34


VI SEMESTER :


AHM1103 Industrial Management 4 0 0 4ABM1110 Operations Research 4 0 0 4AME1125 Design of Machine Members-2 4 1 0 4AME1126 Heat Transfer 4 1 0 4AME1127 Instrumentation & Control Systems 4 0 0 4AME1128 Production Planning & Control 4 0 0 4AHE1103 Advanced Communication Skills Lab 0 0 3 2AME1129 Heat Transfer Lab 0 0 3 2

Total 24 2 6 28

VII SEMESTER :


AME1130 CAD/CAM 4 0 0 4AME1131 Robotics 4 1 0 4AME1132 Finite Element Method 4 0 0 4AME1133 Mechatronics 4 1 0 4

Elective-I 4 0 0 4AME1134 Design OptimizationAME1135 Non-Conventional Sources of EnergyAME1136 Rapid Prototyping

Elective-II 4 0 0 4AME1137 Mechanics & Mfg. of CompositesAME1138 Power Plant EngineeringAME1139 Project ManagementAME1140 Prod. Drwg. & Instrumentation Lab 0 0 3 2AME1141 CAD/CAM & Mechatronics Lab 0 0 3 2AME11MP Industry Oriented Mini-Project - - - 2

Total 24 2 6 30

37

III SEMESTER :COURSE THEORY/LAB L T P CCODEABM1105 Probability & Statistics 4 0 0 4AME1105 Thermodynamics 4 1 0 4AME1106 Mechanics of Solids 4 1 0 4AME1107 Material Science & Metallurgy 4 0 0 4AEC1145 Basic Electronics 4 0 0 4AME1108 Fluid Mechanics 4 0 0 4AME1109 MOS & Metallurgy Lab 0 0 3 2AME1110 Electrical & Electronics Lab 0 0 3 2

Total 24 2 6 28

IV SEMESTER :COURSE THEORY/LAB L T P CCODEAME1111 Machine Drawing 2 0 3 4ABM1108 Numerical Methods 4 1 0 4AME1112 Hydraulic Machinery & Systems 4 0 0 4AME1113 Production Technology 4 0 0 4AME1114 Kinematics of Machines 4 1 0 4AME1115 Thermal Engineering-1 4 0 0 4AME1116 Production Technology Lab 0 0 3 2AME1117 FM & HMS Lab 0 0 3 2

Total 22 2 9 28

V SEMESTER :COURSE THEORY/LAB L T P CCODE

AHM1101 Managerial Economics and 4 0 0 4Financial AnalysisAME1118 Dynamics of Machinery 4 0 0 4AME1119 Design of Machine Members-1 4 1 0 4AME1120 Thermal Engineering-2 4 1 0 4AME1121 Machine Tools 4 0 0 4AME1122 Metrology 4 0 0 4AME1123 Thermal Engineering Lab 0 0 3 2AME1124 Machine Tools & Metrology Lab 0 0 3 2

Total 24 2 6 28

36


VIII SEMESTER :

COURSE THEORY/LAB L T P CCODEAME1142 Unconventional Machining Processes 4 0 0 4

Elective-III 4 0 0 4AME1143 Material Handlin gAME1144 Automobile EngineeringAME1144 Value Engineering

Elective-IV 4 0 0 4AME1145 Automation in ManufacturingAME1146 Computational Fluid DynamicsAME1147 Advanced Mechanics of SolidsAME11SM Seminar 0 0 3 2AME11CV Comprehensive Viva - - - 4AME11PW Project work 0 0 9 12

Total 12 0 12 30

38

SYLLABI


ENGLISH

Course Code : AHE1101 L T P C4 0 0 4

Reading and Writing skills

Objectives :The primary objective of the course is to help students of engineeringto achieve a sound foundation in communicational skills, basicgrammar and vocabulary. It also enables them to become successfulcommunicators in academic, professional and social areas of life.

The course aims to enable the students to use English effectively forthe purpose of

� Understanding class room lectures in different subjects� Reading technical and general materials� Effective written communication in professional contexts

Outcomes :� The learners develop adequate skills in skimming,

scanning, intensive and extensive reading� The learners also develop enough vocabulary to be clearly

expressive in any group - Professional or Managerial orSocial

� The learners can correspond and communicate indescriptive, analytical modes with ease.

Course work :To achieve the above objectives, instruction will be imparted throughrelevant ESP materials, articles from newspapers, technical journals,

GVPCOE AUTONOMOUS FOR 2009 ADMITTED BATCH

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UNIT - IV1. New Information Technology and Poverty Eradication

(English for Engineers)2. The media (Language in Use)

UNIT - V1. What we must Learn from the West (English for Engineers)2. Paragraph writing, Note-making and Minute writing

UNIT - VI1. Essay writing2. Value added Life (English for Engineers)

UNIT - VII1. Breaking the Law (Language in Use)2. Key item (English for Engineers)

UNIT - VIII 1. Letter and Précis writing 2. Dialogue writing

Text Books :1. Language in Use(Intermediate)-CUP2. English for Engineers-RIE-Bangalore (Foundation Books)

References :1. “Study reading- A course in reading skills for academic purposes”-

CUP by Eric H. Glendinning & Beverly Holmstorm2. Study writing – Liz Hamp Lyons, Ben Heasley-CUP3. Word Power- Norman Lewis4. Practical English Usage- OUP5. Murphy’s English Grammar-Murphy-CUP

Suggested Reading : Stories of humour, adventure, mystery andautobiographies of eminent scientists.

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magazines, industry materials etc. in classes and laboratory. Studentswill be given individual and holistic practice in LSRW skills.

Contents :Reading :

� Reading with a purpose; Reading for understanding;skimming, scanning etc;

� Reading and interpreting charts and diagrams� Vocabulary, synonyms, antonyms, prefixes, suffixes,

confusables, one-word substitutes etc.

Writing :o common errors, articles, prepositions, tenses, concord, phrasal

verbs, modals, conditionals etc. ( Remedial Grammar)o Practice of writing- definition, descriptiono Paragraph writing with coherence, cohesiveness and clarityo Essay, report and précis writing

Reference skills : Use of dictionary, thesaurus, library and internetmaterials.

UNIT - I1. Around the House (Language in Use)2. Education on Education (English for Engineers)

UNIT - II1. On Holiday (Language in Use)2. Vocabulary- synonyms, antonyms, prefixes, suffixes,

confusables, one-word substitutes etc.UNIT - III

1. Imagining (Language in Use)2. Tenses & Concord, Articles & Prepositions

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9. Telephoning Skills.10. Giving Directions.

Suggested Software :• Cambridge Advanced Learners’ English Dictionary with CD.• The Rosetta Stone English Library• Clarity Pronunciation Power• Mastering English in Vocabulary, Grammar, Spellings,

Composition• Dorling Kindersley series of Grammar, Punctuation, Composition

etc.• Language in Use, Foundation Books Pvt Ltd with CD.• Learning to Speak English - 4 CDs• Microsoft Encarta with CD• Murphy’s English Grammar, Cambridge with CD

References :1. Spoken English (CIEFL) in 3 volumes with 6 cassettes, OUP.2. English Pronouncing Dictionary Daniel Jones Current Edition

with CD.3. Spoken English- R. K. Bansal and J. B. Harrison, Orient

Longman 2006 Edn.4. A Practical course in English Pronunciation, (with two Audio

cassettes) by J. Sethi, Kamlesh Sadanand & D.V. Jindal,Prentice-Hall of India Pvt. Ltd., New Delhi.

5. A text book of English Phonetics for Indian Students byT.Balasubramanian (Macmillan)

6. English Skills for Technical Students, WBSCTE with BritishCouncil, OL

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ENGLISH LANGUAGE LAB

Course Code: AHE1102 L T P C0 0 3 2

The Language Lab focuses on the production and practice of soundsof language and familiarizes the students with the use of English ineveryday situations and contexts.

Objectives :• To make students recognise the sounds of English through Audio-

Visual aids and Computer Software.

• To help them overcome their inhibitions and self- consciousnesswhile speaking in English and to build their confidence. The focusshall be on fluency rather than accuracy.

• To enable them to speak English correctly with focus on stressand intonation.

Syllabus :The following course content is prescribed for the English LanguageLaboratory sessions:1. Introduction to the Sounds of English- Vowels, Diphthongs &

Consonants.2. Introduction to Stress and Intonation.3. Situational Dialogues / Role Play.4. Oral Presentations- Prepared and Extempore/Speaking personally5. ‘Just A Minute’ Sessions (JAM).6. Describing things / Narration7. Information Transfer8. Debate


42


UNIT - IVLaplace transform of elementary functions, properties, Transformsof derivatives and integrals – Unit step function – second shiftingtheorem, Periodic function.(21.1-21.5, 21.7-21.11)

UNIT - VInverse transform –- Inverse transform of Derivatives and Integrals -Convolution theorem – Application of Laplace transforms to ordinarydifferential equations, Unit step function, Unit impulse function.(21.12-21.15, 21.17, 21.18)

UNIT - VIPartial differentiation: Total derivative, change of variables, Jacobians,Taylor’s theorem for functions of two variables, maxima and minimaof functions of two variables.(5.5 – 5.9, 5.11)

UNIT - VIIFormation of partial differential equations by elimination of arbitraryconstants and arbitrary functions – solutions of first order linear(Lagrange) equation and nonlinear first order (standard type)equations.(17.1 to 17.3, 17.5, 17.6)

UNIT - VIIIMethod of separation of variables – Classification of second orderlinear Partial Differential Equations, solutions of one dimensionalheat equation, wave equation and two-dimensional Laplace’s equationunder initial and boundary conditions.( 18.1 to 18.7)

45

MATHEMATICS – I

Course Code : ABM1101 L T P C4 1 0 4

Aim : To impart the necessary fundamental principles that are essentialto study the core courses of Engineering.

Objective : To motivate and inculcate the logical thinking andmethodical approach to solve mathematical problems

UNIT - ISequences – Series – Convergence and divergence – Comparison test– Ratio test –Integral test –Alternating series, Leibniz’s test(9.1 to 9.9, 9.12).

Rolle ’s theorem – Lagrange’s Mean Value Theorem – Cauchy’s meanvalue Theorem –Taylor’s theorem and Maclaurin’s series (all theoremswithout proof)(4.3, 4.4).

UNIT - IIDifferential equations of first order (linear, Bernoulli), Lineardifferential equations with constant coefficients, Method of Variationof parameters .(11.9, 11.10, 13.1, 13.3-13.8(i), 13.9)

UNIT - IIIApplications of Linear differential equations: orthogonal trajectories,Newton’s law of cooling, Simple harmonic motion, Oscillatoryelectrical circuits (LC and LCR circuits).(12.3, 12.6, 14.2, 14.5)


44


MATHEMATICS – II

Course Code : ABM1102 L T P C4 1 0 4

Aim : To impart the necessary fundamental principles that are essentialto study the core courses of Engineering

Objective : To motivate and inculcate the logical thinking andmethodical approach to solve mathematical problems

UNIT - IMatrices: Rank – Normal form - Echelon form – Consistency –Solution of system of simultaneous linear homogeneous and non-homogeneous equations.(Gauss Jordan)

(2.8, 2.11)

UNIT - IIEigen values, Eigen vectors – properties – Cayley-Hamilton Theorem(only statement) - Inverse and powers of a matrix by Cayley-Hamiltontheorem – Diagonalisation of matrix. (2.14-2.17)

UNIT - IIIQuadratic forms - Linear Transformation - Orthogonal Transformation.Reduction of quadratic form to canonical form, Nature of the quadraticform.

(2.12, 2.18 , 2.19).

UNIT - IVDouble and triple integrals, Change of order, change of variables

(7.1 – 7.3 , 7.5, 7.7).


47

Text Book :Dr.B.S.Grewal “Higher Engineering Mathematics”, 40th Edition,Khanna Publishers

References :

1. Kreyszig E, “Advanced Engineering Mathematics”, 8th Ed. JohnWiley, Singapore (2001)

2. Greenberg M D, “Advanced Engineering Mathematics”, 2nd Ed,Pearson Education, Singapore, Indian Print (2003).

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PROBABILITY, STATISTICS AND NUMERICALMETHODS

Course Code : ABM1103 T L P C4 1 0 4

Aim : To acquire basic knowledge in concepts of Probability Statisticsand Numerical Computation.

Objective : The student shall be able to apply the methods ofProbability distributions, perform Statistical analysis and drawinference in various Engineering problems and also shall be able toapply methods of Numerical Computation for real time problems.

Pre requisites : Basic concepts of Probability

UNIT - IRandom variables - Discrete distribution - continuous distribution -expectation-moment generating function – probability generatingfunction.

(26.7, 26.8, 26.9, 26.10, 26.11, 26.12)

UNIT - IIDistributions - Binomial distribution - Poisson distribution - normaldistribution - probable error – Normal approximation to Binomialdistribution

(26.13, 26.14, 26.15, 26.16, 26.17, 26.18)

UNIT - IIISampling distribution – Test of Hypothesis – test of significance forlarge samples – sampling distribution of the mean – central limit


49

UNIT - VVector Differentiation: Differentiation of vectors, Scalar and Vectorpoint functions. Gradient of a scalar field and directional derivatives-Divergence and curl of a Vector field and it’s physical interpretation.(8.1, 8.4 – 8.8)

UNIT - VIVector Integration - Line integral – -Circulation-work done - surfaceand volume integrals Vector integral theorems: Green’s theorem-Stoke’s and Gauss’s Divergence Theorem (Without proof). Verificationof Green’s - Stoke’s and Gauss’s Theorems. (8.10 – 8.17)

UNIT - VIIFourier series: Euler’s formulae, Conditions for Fourier expansion,Change of interval, even and odd functions, half range series.(10.1 – 10.7)

UNIT - VIIIFourier integral theorem – Fourier sine and cosine integrals. Fouriertransforms – Fourier sine and cosine transforms – properties – FiniteFourier transforms.(22.1 – 22.4)

Text Book :1. Dr.B.S.Grewal “Higher Engineering Mathematics”, 40th Edition,

Khanna Publishers

References :1. Kreyszig E, “Advanced Engineering Mathematics”, 8th Ed. John

Wiley, Singapore (2001)

2. Greenberg M D, “Advanced Engineering Mathematics”, 2nd

Ed, Pearson Education, Singapore, Indian Print (2003).

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UNIT - VIIINumerical solution of Ordinary Differential equations - Picard’smethod - Solution by Taylor’s series - Euler’s Method – ModifiedEuler’s method - Runge-Kutta Method.(31.1, 31.2, 31.3, 31.4, 31.5, 31.7)

Text Book :1. Dr.B.S.Grewal “Higher Engineering Mathematics”, 40th Edition,

Khanna Publishers

References :1. Probability and statistics for engineers: Erwin Miller and John

E.Freund. Prentice-Hall of India / Pearson, Sixth edition.

2. Introductory methods of Numerical Analysis: S.S .Sastry / PHI,Fourth edition.

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theorem – confidence limits for unknown mean – Test of significancefor large samples(27.1 to 27.12)

UNIT - IVSampling of Variables-small samples – Students t- distribution –significance test of a sample mean - significance test of differencebetween sample means – Chi square test – Goodness of fit

(27.13, 27.14, 27.15, 27.16, 27.17, 27.18)

UNIT - VSolutions of algebraic and transcendental equation – Bisectionmethod – Regula Falsi – Newton Raphson method, deductions fromNewton Raphson method – finite differences – differences ofpolynomial - other difference operators.

(28.1, 28.2, 28.3, 29.1, 29.2, 29.4)

UNIT - VIInterpolation - Newton’s forward interpolation – Newton’s backwardinterpolation – Interpolation with unequal intervals – Legrange’sinterpolation - Newton’s divided difference interpolation

( 29.5, 29.8)

UNIT - VIINumerical Differentiation - derivatives using Newton’s forwardformula - derivatives using Newton’s backward formula

Numerical Integration –Newton cotes formula - Trapezoidal rule –Simpson’s 1/3 Rule –Simpson’s 3/8 Rule – weddle’s rule.

(29.10, 29.12)

50


Diffraction: Fresnel and Fraunhoffer diffraction, Diffraction at singleslit and diffraction grating, determination of wavelengths of variousspectral lines, resolving power of grating.

Polarization: Types of Polarizations, Brewster’s law, Doublerefraction, Nicol Prism, Polaroid’s.(Engineering Physics - Gaur & Gupta Chap - 26, 27, 28 & 29)

UNIT – IIICrystal Physics & Superconductivity :i) Crystal Physics : Space lattice, basis and crystal structure, Unit

cell, primitive cell, Seven crystal systems, Bravais lattices- SC,BCC, FCC crystal structures- crystal planes and Directions- Millerindices, Derivation of inter planar spacing.(Applied Physics for Engineers - P K Palanisamy Chap - 2)

ii) Superconductivity: superconducting phenomenon, Meissnereffect, Type I & Type II Super conductors, BCS theory, DC andAC Josephson effects, SQUIDS, High Temperature Superconductors-Applications.(Applied Physics for Engineers - P K Palanisamy Chap - 9)

UNIT – IVQuantum Mechanics :Dual nature of matter, DeBroglie wave length, Time independentSchrödinger wave equation, Physical significance of wave function,particle in a potential well, rigid and non rigid walls, Tunneling effect(Applied Physics for Engineers - P K Palanisamy Chap - 3)

UNIT – VFree Electron Theory :Introduction, Quantum free electron theory, Fermi-Dirac distributionand its dependence on temperature, Fermi energy, Electron scattering

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PHYSICS

Course Code : ABP1101 L T P C4 1 0 4

Aim : To give prerequisites in understanding the advanced Physicsleading to applications in engineering field.

Objective : To impart the students the concept and principles inEngineering to enable them to comprehend and take up theexperimental work independently.

UNIT - IVibrations & Acoustics of buildings :i) Overview of vibrations with emphasis on damped and forced

oscillations- resonance, coupled oscillators - two coupledpendulums and normal mode solutions.

(Engineering Physics - Gaur & Gupta Chap - 33, and UnifiedPhysics, Vol-1, S L Gupta & Sanjeev Gupta, Chap-11 (coupledoscillators)

ii) Reverberation and Reverberation time – Sabine’s formula forreverberation time – measurement of absorption coefficient ofmaterial- Basic requirements of acoustically good hall -Factorsaffecting the architectural acoustics and their remedies.(Engineering Physics - Gaur & Gupta Chap - 14)

UNIT – IIPhysical Optics :Interference: Superposition of waves, Young’s double slit experiment,Interference in thin films by reflection, Newton’s rings experimentwith necessary theory.


52


(Engineering Physics by V Rajendran, Chap - 21, 24, 25, materialsScience - M Armugam for Metal Matrix composites andElectrets, SMART Materials chap -11)

ii) Nanophase materials: Introduction to nano materials, types ofnano materials, Fabrication Techniques: ball milling, nanolithography, CVD, carbon nano tubes (CNT’s), Applications.(Engineering Physics M R Sirnivasn, Chap - 15)

Text Books :1. Engineering Physics - R.K. Gaur and S.L.Gupta2. Applied Physics - P.K. Palanisamy3. Engineering Physics - M.R. Srinivasan4. Engineering Physics - V. Rajendran

References :1. Introduction to Solid State Physics - C.Kittel2. Structure and properties of Materials - M Ross, Lowrence

(Volume-4, Electronic properties) Shepard, J Wulff3. Engineering Physics - Avadhanulu &

Kshirasagar4. Solid State Physics - S.O. Pillai5. Nano Technology - Principles and Practices - Sulabh. K. Kulkarni6. Material Science - V.Raghavan7. Solid State Physics - R.L.Singhal8. Perspectives in Modern Physics - A. Beiser.9. Electrical Engineering materials - A.J. Dekker10. Material Science - M. Armugam11. Unified Physics, Vol - 1 - S.L. Gupta, &

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and resistance, motion of an electron in periodic potential, Kronig-Penney model (qualitative treatment), effective mass; classificationof solids.(Applied Physics for Engineers - P K Palanisamy Chap - 4 & 5)

UNIT – VIDielectrics :Basic definitions, relation between P,D and E vectors, Polarizationmechanisms, expression for electronic polarizability, Internal fieldsin solids, Claussius-Mosotti equation, frequency and temperaturedependence of electronic polarization, Dielectric strength, Dielectricloss, Loss tangent and Dielectric breakdown, Applications.(Applied Physics for Engineers - P K Palanisamy Chap - 6)

UNIT – VIILasers and Fiber Optics :i) Introduction, Characteristics of lasers, Induced absorption,

spontaneous and stimulated emission of radiation, PopulationInversion, Einstein’s coefficients, Low and high power Lasers,Ruby laser, He-Ne laser, CO2 and semiconductor laser,Applications of lasers.(Applied Physics for Engineers - P K Palanisamy Chap - 10)

ii) Basic principle of propagation of light in optical fibers, Numericalaperture, acceptance angle, Derivation of Numerical aperture,Classification of optical fibers on the basis of refractive indexprofile, Fiber optic communication system, Applications.(Applied Physics for Engineers - P K Palanisamy Chap - 2)

UNIT – VIIIFunctional Materials :i) Bio materials, SMART materials, metallic glasses, metal matrix

composites, Electrets – piezo and ferro electric matrerials.

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anodic and cathodic coatings; Hot dipping-Galvanizing and Tinning,Metal cladding; Electroplating; Electro less plating; cementation ordiffusion coatings.

UNIT - IIIChemical kineticsArrhenius theory-effect of temperature on reaction rates –concept ofactivated complex; collision theory of reaction rates; Lindeman'stheory of unimolecular reactions, steady state approximation;Transition state theory.

UNIT - IVBonding in coordination compoundsValence bond theory- limitations, crystal field theory, ligand fieldtheory- octahedral and tetrahedral complexes. Spectral properties ofd1 ions & magnetic properties of low spin and high spincomplexes.Molecular orbital theory as applied to octahedralcomplexes not involving pi-bonding.

UNIT - VPrinciples and Mechanisms of organic reactionsBond fission – homolysis and heterolysis-examples. Types of reagents-electrophilic and nucleophilic reagents -examples. Concept ofaromaticity, Huckel’s (4n+2) rule. Introduction to mechanistic aspectof electrophilic aromatic substitution- nitration, sulphonation. Friedel-Crafts alkylation and acylation.

UNIT - VIPolymer science and TechnologyNomenclature; Types of polymerization, Mechanism of addition andcondensation polymerization, Effect of polymer structure onproperties. Plastics- Thermo and thermosetting plastics, constituentsof a plastic. Preparation, properties and uses of polythene, PVC, Teflon,nylons-6,6, bakelite and silicones.

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CHEMISTRY

Course Code : ABC1101 L T P C4 1 0 4

Aim : The aim of the course is to provide basic chemistry backgroundrequired for under graduate students of engineering.

Objective : The Objective of the course is to provide an over view ofchemical properties of materials which the engineers are likely to useduring their professional careers.

UNIT - IElectromotive forceElectrode potential, Nernest equation, EMF of electro chemical cell,calculation of cell potential, concentration cell, determination of PH

of solution.

Batteries - primary cell-Dry or Lachanche cell, alkaline battery;secondary cells (storage batteries or accumulators) – Lead-acidAccumulator, Nickel-cadmium battery.and lithium ion battery.

Fuel cells - hydrogen, oxygen fuel cell, phosphoric acid fuel cell,solid oxide fuel cells.

UNIT - IICorrosion and its controlIntroduction-Dry or chemical corrosion, Wet or Electrochemicalcorrosion-Hydrogen evolution type, oxygen absorption type, Galvaniccorrosion and concentration cell corrosion, pitting ,waterline, andstress corrosion; passivity; Galvanic series; factors influencingcorrosion. Corrosion control-proper designing, cathodic protection,modifying the environment and using inhibitors. Protective coatings-

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References :1. Engineering Chemistry –Sashi chawala

2. A Text Book of Engineering Chemistry – C. ParameswaraMurthy, C.V. Agarwal and Andhra Naidu, B.S. Publications

3. Concise inorganic Chemistry-J.D.Lee

4. Advanced organic chemistry-Arun Bahl & B.S.Bahl

5. Physical chemistry- Gurudeep Raj.

6. Text book of Engineering Chemistry - S.S. Dara

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Rubber - Natural rubber-structure-vulcanization, compounding ofrubber; synthetic rubbers-Buna-Sand Buna-N.

UNIT - VIISemi conducting materialsBand theory of solids, Types-Intrinsic, extrinsic,( n-type, p-type,) non-elemental semi conducting materials- stoichiometric semi conductingcompounds, defect semiconductors, controlled valencysemiconductors. Preparation of semiconductors- Zone refining,Czochralski crystal pulling technique, Doping technique.

UNIT - VIIIChemistry of engineering materialsCement - classification; Portland cement- raw materials, manufactureof Portland cement, chemical constititution of Portland cement, settingand hardening of Portland cement.

Refractories - Classification and properties of refractories

Fuels - classification; calorific value and its determination using Bombor Junker's gas calorimeter, theoretical calculation of calorific value-Proximate and ultimate analysis of coal; Refining of petroleum-,catalytic cracking; catalytic reforming, knocking, octane rating,improvement in anti knock characteristics, unleaded petrol; dieselengine fuels, cetane value

Lubricants - Friction- mechanism of lubrication-Fluid filmlubrication; thin or boundary lubrication and extreme pressurelubrication, classification-Lubricating oils, greases and solidlubricants.

Text books :1. A text book of Engineering Chemistry by Jain& Jain, Dhanapat

Roy publishing company

2. Engineering chemistry by Shiva Shankar, Tata Mc Graw Hill

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08. Study of I-V characteristics of a solar cell

09. Optical Fibers – Determination of numerical aperture and lossesin fibers

10. Measurement of dielectric constant of material by Waveguidemethod

LIST OF CHEMISTRY EXPERIMENTSAny SIX of the following experiments are to be performed duringthe semester.

1. Preparation of standard potassium dichromate and determinationof ferrous iron.

2. Determination of hardness of water by EDTA method.

3. Determination of dissolved oxygen in water.

4. Determination of chlorides in water.

5. Determination of iron-II by potentiometric method.

6. Determination of viscosity of lubricant by viscometer.

7. Determination of flash and fire points of oils.

8. Determination of percentage residue of carbon in oils.

9. Determination of calorific value of solid fuels.

10. Colorometric determination of iron in cement.

References :1. Vogel’s text book of quantitative chemical analysis, 6th ed.

J.Mendham Et.al., Pearson Education.

2. Chemistry practical lab manual by Dr. K. B. Chandrasekhar

3. Laboratory Manual on Engineering Chemistry by K.Sudha Rani

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PHYSICS AND CHEMISTRY LAB

Course Code : ABP1102 L T P C0 0 3 2

Aim : To give prerequisites in understanding the advanced Physics &Chemistry leading to applications in engineering field.

Objectives : Training the students to understand the principles,concepts helpful in doing laboratory classes individually. To mouldthem to solve any technical problem in general.

LIST OF PHYSICS EXPERIMENTSAny SIX of the following experiments are to be performed duringthe semester

01. Determination of rigidity modulus of the material of a given wire–Torsional pendulum

02. Verification of laws of vibration of stretched string - Sonometer

03. Determination of radius of curvature of a given convex lens -Newton’s rings

04. Determination of wavelength of spectral lines of a mercuryspectrum - Diffraction grating

05. Study of frequency response of LCR series and parallel resonantcircuits

06. Study of variation of magnetic field along a circular currentcarrying conductor – Stewart & Gee apparatus

07. Determination of Hall coefficient and carrier concentration -Hall effect

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UNIT - VPointers and arrays: Pointers and addresses, Pointers and arrays,Pointers and function arguments, address arithmetic, character pointersand functions

UNIT - VIPointers to pointers, multi-dimensional arrays, initialization of pointerarrays, command line arguments, pointers to functions, functionpointers.

UNIT - VIIStructure definition, initializing, assigning values, passing of structuresas arguments, arrays of structures, pointers to structures, self referenceto structures, unions, type-defs, bit fields, C program examples.

UNIT - VIIIConsole and file-I/O: Standard I/O, Formatted I/O, Opening andclosing of files, I/O operations on files, command line arguments.

Text books :1. Complete Reference Using C: Herbert Schild

2. Let us C: Yashawanth Kanethkar

References :1. Computer Science, A structured programming approach using

C, B.A.Fouruzan and R.F.Gilberg Third edition, Thomson.

2. C Programming Language: B.W.Kerninghan and Dennis M.Ritche. Pearson Education.

3. Programming in C – Stephen G.Kochan. Third Edition. PearsonEducation.

4. C & Data structures by N. B. Venkateswarlu, E. V. Prasad, S.Chand publications.

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COMPUTER PROGRAMMING THROUGH C

Course Code : ACT1102 L T P C4 1 0 4

Aim : To give the basic idea about programming.

Objective : To make the students capable of programming in highlevel computer languages as well as applications.

UNIT - IAlgorithm, Flow chart, Program development steps, Basic structuresof C Language, C tokens, Data types and sizes, Declaration ofvariables, Assigning values, Arithmetic, Relational and Logicaloperators, Increment and decrement operators, Conditional operator,Bitwise operators, Type conversions, Expressions, evaluation, Inputoutput statements, blocks.

UNIT - IIIf and switch statements, while, do while and for statements. Cprograms covering all the above aspects.

UNIT - IIIOne dimensional and two dimensional arrays, Initialization, Stringvariables declaration, reading, writing, basics of functions, parameterpassing, String handling functions.

UNIT - IVUser defined functions, recursive functions, variables and storageclasses, scope rules, block structure, header files, C preprocessor,Example C Programs.

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iii) To solve Towers of Hanoi problem.

4. The total distance traveled by vehicle in ‘t’ seconds is given bydistance=ut+1/2at2 where ‘u’ and ‘a’ are the initial velocity (m/sec) and acceleration (m/sec2). Write a C program to find thedistance traveled at regular intervals of time given values of ‘u’and ‘a’. The program should provide the flexibility to the user toselect his own time intervals and repeat the calculations fordifferent values of ‘u’ and ‘a’.

5. Using switch-case statement, write a C program that takes twooperands and one operator from the user, performs the operationand then prints the answer. (consider operators +, -, *, and %).

6. Write a C program to find the largest and smallest number in alist of integers.

7. Write a C program that uses functions to perform the followinga. Addition of Two Matricesb. Multiplication of Two Matrices

8. Write a C program that uses functions to perform the followingoperationsa. To insert a sub-string in to given main string from a given

positionb. To delete n characters from a given position in given string.

9. Write a C program to determine if the given string is a palindromeor not.

10.a) Write a C program that displays the position or index in

the string S where the string T begins, or -1 if S does notcontain T.

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COMPUTER PROGRAMMING LAB


Aim : To give basic knowledge with practical orientation ofprogramming language.

Objective : To train the students to write programmes in C languagefor different applications.

List of Programmes :1. To write C programs for the following

a) Sum of individual digits of a positive integer.b) A Fibonacci sequence is defined as follows: the first and

second terms in the sequence are 0 and 1.Subsequent termsare found by adding the preceding two terms in the sequence.Write a c program to generate to generate the first n termsof the Fibonacci sequence.

2a) To write a C program to generate all the prime numbers

between 1 and n, where n is a value supplied by the userb) To write a C program to calculate the following sum:

Sum=1+x2/2!+x4/4! ————— upto given ‘n’ terms.c) To write a c program to find the roots of a quadratic equation.

3. To write C programs that uses both recursive and non-recursivefunctionsi) To find the factorial of a given number.ii) To find the GCD(greatest common divisor) of two given

integers.


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b) to reverse the first n characters in a file.(Note: the file name and n are specified on the command line)c) to fine the no. of characters, no. of words, no. of lines in a

given file.

16. To implement the algorithms for the below given iterativemethods using C to find one root of the equation f(x)=x sinx +cosx=0a) Bisection b) False Position c) Newton-Raphsond) Successive approximation

17. To write C programs to implement the Lagrange interpolation

18. To implement the Newton- Gregory forward interpolation usingC language.

19. To implement in C the linear regression algorithm.

20. To implement in C the polynomial regression algorithm.

Text Books :1. Programming in C , P. Dey & M. Ghosh, Oxford Univ. Press

2. C and Data Structures, E. Balaguruswamy, TMH publications

3. C Programming and Data structures, P. Padmanabham, 3rd

Edition, BS publications.

4. Numerical Methods for Scientific and Engineering Computation,M.K. Jain, S.R.K. Iyengar & R.K. Jain, New Age InternationalPublishers.

5. Elementary Numerical Analysis, Aitkinson & Han, Wiely India,3rd Edition 2006.

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b) Write a C program to count the lines, words and charactersin a given text.

11. To write a C programa) to generate Pascal’s triangleb) to construct a pyramid of numbers

12. To write a C program to read in two numbers, x and n, and thencompute the sum of this geometric progression 1+x+x2+x3+…xn

For example : if n is 3 and x is 5, then the program computes1+5+25+125. print x,n, the sum.Perform error checking. For example the formula does not makesense for negativeExponents – if n is less than 0. Have your program print an errormessage if n<0, then go back and read in the nest pair of numbersof without computing the sum. Are any values of x also illegal?If so, test for them too..

13. To write a C programa) to find the 2’s compliments of a binary number.b) to convert a Roman numeral to its decimal equivalent

14. To write a C program that uses functions to perform the followingoperationsa. Reading a complex numberb. Writing a complex numberc. Addition of 2 complex numbersd. Multiplication of 2 complex numbers

(Note: represent complex number using a structure)

15. To write a C programa) to copy the contents from one file to another.

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� Foundry: Preparation of a sand mould using a single piecepattern

� Foundry: Preparation of a sand mould using a split piecepattern

� Tin-Smithy: Preparation of a sheet metal pipe-joint usingtin-smithy tools

� Tin-Smithy: Preparation of a sheet metal funnel using tin-smithy tools

� Welding: Making a Lap joint through arc welding� Lathe Machine: Demonstration of turning related activities

on Lathe machine� Black smithy: Demonstration of Black smithy trade� Plumbing: Demonstration of Plumbing trade� Installation of Linux on the computer wherein the windows

was installed. The system should be configured as dual bootwith both windows and Linux.

� Hardware Troubleshooting : Identification of the problemof a PC which does not boot (due to improper assembly ordefective peripherals) and fixing it to get the computer backto working condition.

� Software Troubleshooting : Identification of the problemof a malfunctioning CPU (due to some system softwareproblems) and fixing it to get the computer back to workingcondition.

� Connectivity Boot Camp : Connectivity to the Local AreaNetwork and accessibility to the Internet. TCP / IP setting.

� Web Browsers, Surfing the Web : Customization the webbrowsers with the LAN proxy settings, bookmarks, searchtoolbars and pop up blockers. Also, plug-ins likeMacromedia Flash and JRE for applets should be configured.

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ENGINEERING WORKSHOP

Course Code : AMT1101 L T P C0 0 3 2

Aim : To provide hands on experience on basic Engineering and ITrelated skills.

Objectives :* To train the student in the basics of computer components,

maintenance, software(s) installation and office tools.* To demonstrate and train the students in basic professional

trades.

Compulsory Exercises :� Identification of the peripherals of a computer, components

in a CPU and its functions - Block diagram of the CPUalong with the configuration of each peripheral. Disassemblyand assembly of a personal computer.

� Installation of MS windows on the personal computer.� One lamp controlled by a one-way switch and (b) Two-way

switching for stair-case lamp

Any Nine Exercises From The Following :� Carpentry: Making a Cross-half lap joint using wooden

pieces� Carpentry: Making a Mortise and Tenon joint using wooden

pieces� Fitting: Preparation of a V-fit between mild steel flat pieces� Fitting: Preparation of a Square-fit between mild steel flat

pieces


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� Power point presentation

� Exposure to basic power point utilities and tools (PPTOrientation, Slide Layouts, Inserting Text, Word Art,Formatting Text, Bullets and Numbering, Auto Shapes, Linesand Arrows in both LaTeX and Power point, Hyperlinks,inserting Images, Clip Art, Audio, Video, Objects, Tables,Charts) .to create basic power point presentation.

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� Using LaTeX and / word : Creation of project certificate.Exposure to features like:- Formatting Fonts in word, DropCap in word, Applying Text effects, Using CharacterSpacing, Borders and Colors, Inserting Header and Footer,Using Date and Time option in both LaTeX and / Word.

� Creating project abstract : Features to be covered are:Formatting Styles, Inserting table, Bullets and Numbering,Changing Text Direction, Cell alignment, Footnote,Hyperlink, Symbols, Spell Check, Track Changes.

� Creating a Newsletter : Features to be covered are : Tableof Content, Newspaper columns, Images from files andclipart, Drawing toolbar and Word Art, Formatting Images,Textboxes and Paragraphs

� Creating a Feedback form - Features to be covered are:Forms, Text Fields, Inserting objects, Mail Merge in Word.

� Excel Orientation : Introduction of Excel as a Spreadsheettool, Using Excel –Accessing, overview of toolbars, savingexcel files, Using help and resources

� Creating a Scheduler - Features to be covered are:Gridlines, Format Cells, Summation, auto fill, FormattingText

� Calculating GPA - Features to be covered:- CellReferencing, Formulae in excel – average, standarddeviation, Charts, Renaming and Inserting worksheets,Hyper linking, Count function, LOOKUP/VLOOKUP

� Performance Analysis - Features to be covered:- Split cells,freeze panes, group and outline, Sorting, Boolean and logicaloperators, Conditional formatting

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11 Isometric projections12 Demonstration & Practice: Computer aided drafting of solids

and dimensioning.

Text Books :1. Engineering Drawing by N.D. Bhatt

2. Engineering graphics with Auto CAD- R.B. Choudary/AnuradhaPublishes

3. Computer Aided Engineering Drawing - Trymbaka Murthy - I.K.International.

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ENGINEERING DRAWING

Course Code : AME1102 L T P C0 0 3 2

Aim & Objectives :1. To make the student well familiar to the drawing practices

and convention

2. To familiarize the various engineering curves used inindustry

3. To enable student draft simple engineering components.

LIST OF EXERCISES1 Introduction to Engineering drawing & basics of Geometrical

construction

2 Construction of parabola, ellipse, hyperbola

3 Construction of Involutes and Cycloidal curves

4 Projections of points and lines inclined to one plane

5 Projections of lines inclined to both the planes

6 Projections of planes in simple positions, planes inclined to oneplane

7 Projections of planes inclined to both the planes

8 Demonstration & Practice: Computer aided drafting of lines,planes and dimensioning

9 Projections of solids in simple positions

10 Projections of solids inclined to both the planes


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UNIT – VArea moment of Inertia : Moment of inertia – polar moment ofInertia – Radius of gyration - Transfer theorem for moment of Inertia– Moment of inertia of composite areas – product of inertia – Transferformula for product of Inertia.

Mass Moment of Inertia : Moment of inertia of masses – Radius ofgyration – Transfer formula for mass moment of inertia – Massmoment of Inertia by Integration.

UNIT – VIKinematics : Rectilinear motion-curvilinear motion - Rectangularcomponents of curvilinear motion - Normal and Tangentialcomponents of acceleration, Radial and transverse components -Kinematics of rigid bodies - angular motion – fixed axis rotation –Definition and analysis of plane motion.

UNIT – VIIKinetics: Kinetics of rigid bodies – equation of planes motion – fixedaxis rotation – rolling bodies (simple examples) - general plane motion(Simple examples).

UNIT – VIIIWork energy methods : Work energy equations for translation –applications to particle motion – connected systems – fixed axisrotation (Simple cases)

Text Books :1. Applied Mechanics - I.B. Prasad

2. Engineering Mechanics-Ferdinand L. Singer, Harper CollinsPublishers India.

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ENGINEERING MECHANICS


Aim & Objectives :1. To develop logical thinking approach to engineering problems.2. Calculation and estimation of fourses developed in various

engineering structures.

UNIT – ISystems of forces : Introduction – parallelogram law – Forces andcomponents - Resultant of coplanar concurrent forces - componentforces in space - vector notation – moment of force – principle ofmoments – couples. Resultant of planar force systems and spatialconcurrent force system.

UNIT – IIEquilibrium of force systems : Equilibrium – free body diagrams –Equations of equilibrium – equilibrium of planar systems – graphicalmethods and analytical methods for equilibrium of planar systems –equilibrium of spatial concurrent force systems.

UNIT – IIIFriction: Introduction – Theory of friction – Angle of friction – Lawsof friction - static friction – Kinetic friction-friction in bodies movingup or down on an inclined plane-screw friction and screw jack.

UNIT – IVCentroids and centers of gravity : Centre of gravity – centroids ofarea and lines – determination of centroids by integration – centroidsof composite figures – theorems of Pappus.

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ENVIRONMENTAL STUDIES

Course Code : ABE1101 L T P C4 0 0 4

Aim : To create awareness on environmental hazards.

Objective : The student shall acquire knowledge regarding utilizationof natural resources, and the imbalance in ecosystems, environmentalpollution caused by various practices and safe guards to be taken.

UNIT - IMultidisciplinary nature of Environmental Studies : Definition,Scope and Importance – Need for Public Awareness.

UNIT - IINatural Resources : Renewable and non-renewable resources –Natural resources and associated problems – Forest resources – Useand over – exploitation, deforestation, case studies – Timber extraction– Mining, dams and other effects on forest and tribal people – Waterresources – Use and over utilization of surface and ground water –Floods, drought, conflicts over water, dams – benefits and problems -Mineral resources: Use and exploitation, environmental effects ofextracting and using mineral resources, case studies. - Food resources:World food problems, changes caused by agriculture and overgrazing,effects of modern agriculture, fertilizer-pesticide problems, waterlogging, salinity, case studies. – Energy resources: Growing energyneeds, renewable and non-renewable energy sources use of alternateenergy sources. Case studies. Land resources: Land as a resource,land degradation, man induced landslides, soil erosion anddesertification. Role of an individual in conservation of naturalresources. Equitable use of resources for sustainable lifestyles.

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References :1. Engineering Mechanics by Irving. H. Shames

2. Engineering Mechanics by Timoshenko & Young

3. Engineering Mechanics by Tayal

4. Engineering Mechanics by K.L. Kumar

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f. Thermal pollutiong. Nuclear hazards

Solid waste Management : Causes, effects and control measures ofurban and industrial wastes. – Role of an individual in prevention ofpollution. - Pollution case studies. - Disaster management: floods,earthquake, cyclone and landslides.

UNIT - VISocial Issues and the Environment : From Unsustainable toSustainable development -Urban problems related to energy -Waterconservation, rain water harvesting, watershed management -Resettlement and rehabilitation of people; its problems and concerns.Case Studies -Environmental ethics: Issues and possible solutions. -Climate change, global warming, acid rain, ozone layer depletion,nuclear accidents and holocaust. Case Studies. -Wasteland reclamation.-Consumerism and waste products. –Environment Protection Act. -Air (Prevention and Control of Pollution) Act. -Water (Preventionand control of Pollution)

Act -Wildlife Protection Act -Forest Conservation Act -Issues involvedin enforcement of environmental legislation. -Public awareness.

UNIT - VIIHuman Population and the Environment : Population growth,variation among nations. Population explosion - Family WelfareProgramme. -Environment and human health. -Human Rights. -ValueEducation. -HIV/AIDS. -Women and Child Welfare. -Role ofinformation Technology in Environment and human health. -CaseStudies.

UNIT - VIIIField work : Visit to a local area to document environmental assetsRiver /forest grassland/hill/mountain -Visit to a local polluted site-

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UNIT - IIIEcosystems : Concept of an ecosystem. - Structure and function ofan ecosystem. - Producers, consumers and decomposers. - Energyflow in the ecosystem - Ecological succession. - Food chains, foodwebs and ecological pyramids. - Introduction, types, characteristicfeatures, structure and function of the following ecosystem:

a. Forest ecosystemb. Grassland ecosystemc. Desert ecosystemd. Aquatic ecosystems

(ponds, streams, lakes, rivers, oceans, estuaries)

UNIT - IVBiodiversity and its conservation : Introduction - Definition: genetic,species and ecosystem diversity.- Bio-geographical classification ofIndia - Value of biodiversity: consumptive use, productive use,social,ethical, aesthetic and option values - . Biodiversity at global,National and local levels. - . India as a megadiversity nation - Hot-sports of biodiversity - Threats to biodiversity: habitat loss, poachingof wildlife, manwildlife conflicts. - Endangered and endemic speciesof India - Conservation of biodiversity: In-situ and Exsitu conservationof biodiversity.

UNIT - VEnvironmental Pollution : Definition, Cause, effects and controlmeasures of :

a. Air pollutionb. Water pollutionc. Soil pollutiond. Marine pollutione. Noise pollution

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BASIC ELECTRICAL ENGINEERING

Course Code : AEE1136 L T P C4 1 0 4

Aim : The aim of the course is to teach the Basic Fundamentals ofElectrical Engineering.

Objectives : Basic Electrical Engineering is a basic fundamentalcourse for the disciplines of CSE and IT. Hence it is introduced in I-Year –I Sem so that the students will have to understand the topicsrelated to Electrical Applications in the later studies.

UNIT - IIntroduction to Electrical EngineeringIntroduction, SI units, charge & current, voltage, power & energy,circuit elements. Ohm’s law, Nodes, Branches & Loops, Kirchoff’slaws, series resistors and voltage division, parallel resistors andcurrent division(simple problems).

UNIT - IIDc CircuitsWye–Delta transformation, source transformation, super position,Thevenin’s, Norton’s, Maximum power transfer theorems (simpleproblems).

UNIT - IIIMagnetic CircuitsMagnetic field due to Electric current, force on current carryingconductor, Electro Magnetic Induction, Direction of Induced EMF’s,EMF induced in a coil, comparison of electric, magnetic circuits, selfand mutual inductance.

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Urban/Rural/industrial/ Agricultural Study of common plants, insects,birds. - Study of simple ecosystems-pond, river, hill slopes, etc.

Text Books :1 Textbook of Environmental Studies for Undergraduate Courses

by Erach Bharucha for University Grants Commission.

2 Environmental Studies by R. Rajagopalan, Oxford UniversityPress.

Reference :

1. Textbook of Environmental Sciences and Technology by M. AnjiReddy, B

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(PMMC) instruments, Moving Iron of Ammeters and Voltmeters(elementary treatment only).

Text Books :1. Fundamentals of Electric circuits – Charles k Alexander, Mathew

N.O. Sadiku, McGraw-Hill Companies. (Units 1,2,4)

2. Theory and Problems of basic Electrical Engineering by D.P.Kothari & I.J. Nagrath - PHI(Units 3, 5, 6, 7, 8)

Reference :1. Electrical & Electronic Technology , Hughes by I Mckenzie

Smith, Pearson Education.

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UNIT - IVAC CircuitsIntroduction, Capacitors, series and parallel capacitors, Inductors,series, parallel inductors, sinusoids, Phasors, phasor relationships forcircuit elements, impedance, admittance, instantaneous and averagepower, RMS values, apparent power, power factor, complex power.

UNIT - VTransformersWorking Principle, construction, types, rating, induced EMF, idealtransformer,magnetizing and core loss current, voltage regulation,efficiency (simple problems), Auto transformer (elementary treatmentonly).

UNIT - VIDC MachinesConstructional features, emf and torque, DC machine excitation,characteristics of DC motors and speed control, losses, efficiency(simple problems), (elementary treatment only).

UNIT - VIIAC MachinesSynchronous Machine : Constructional details, EMF equation,determination of synchronous reactance, voltage regulation (simpleproblems), Principle of operation of a synchronous motor.

Induction Motor : Constructional details, principle of operation, slip,rotor frequency, torque equation (simple problems) (Elementarytreatment only).

UNIT - VIIIBasic InstrumentsIntroduction, classification of Instruments, operating Principles, Basicrequirements for measurement, Moving Coil Permanent Magnet

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UNIT - VRL , RC and RLC – Series , parallel and series parallel circuits, averagepower and power factor , Impedance , complex impedance , complexpower , real and reactor powers, Response of RLC Networks toharmonic excitation, Locus diagrams.

UNIT - VIResonance in RLC Circuits: Series resonance, parallel resonance,bandwidth & quality factor. Implications with voltage and currentexcitation.

UNIT - VIIThree phase circuit analysis: 3 –phase sources & loads (balanced &unbalanced) 3-phase, 4 -wire and 3 phase 3-wire systems. Analysisof balanced and unbalanced circuits, 3-phase power.

UNIT - VIIINetwork Theorems (with proofs) : Linearity and superposition,superposition theorem , reciprocity theorem , Thevenin and Nortontheorem, compensation theorem, Millmani’s Theorem.

Text Book :Network Analysis by N.C.Jagan and C-Lakshmi Narayana,B.S.Publications (From relevant chapters.)

References :1. Network Analysis , by M.E Van Valkenburg , Prentice Hall of

India, PVT Ltd, New Delhi.

2. Circuit Analysis , by Hayt and Kemmerly.

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BASIC NETWORK ANALYSIS


Aim : The aim of the course is to teach Principles of Electrical NetworkAnalysis.

Objectives : Network Analysis is a basic foundation course for thedisciplines EEE and ECE .Hence this is introduced in I-Year –I Semso that the students feel comfortable with various other electrical andElectronics Courses they come across.

UNIT - INetwork elements , Active & passive elements, Volt- Ampere – Powerrelation in R,L,C with basic laws , Constant Flux linkage & ConstantCharge theorems , Mutual Inductance and Dot Convention, SourceTransformation.

UNIT - IID-C Resistive Circuit Analysis, Branch variables, solving by directapplication KCL & KCL, Mesh (loop)Analysis, Nodal Analysis,Super Mesh and super Node, Star – Delta Transformation.

UNIT - IIITransient in R-L, R-C & RLC circuit with DC Excitation, usingdifferential equations.Concept of steady state.

UNIT - IVSinusoidal steady state: Effective value of an alternative current /voltage excitation to inductance and capacitance. Inductive andCapacitive reactances, Average Power, Phasor representation.

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UNIT - IIIPN JunctionThe contact potential , equilibrium Fermi levels, space charges at ajunction, qualitative and quantitative description of current flow at ajunction, carrier injection, majority and minority carrier current. Zener& Avalanche Breakdown, time variation of stored charge, reverserecovery transient, capacitance of PN Junction region, ohmic contacts.

UNIT - IVSemiconductor Diode CharacteristicsV-I characteristics of diode, temperature dependence, Zener diodecharacteristics, Zener diode as series and shunt regulator, VaractorDiode, LED, Photodiode, Solar cells.

UNIT - VRectifiers, Filters & RegulatorsHalf-wave rectifier, ripple factor, full-wave rectifier, Bridge rectifier,harmonics components in a rectifier circuit, inductor filter, capacitorfilter, L- Section filters, multiple L- section filter, PI filter, comparisonof various filter circuits in terms of ripple factor and regulation,Introduction to Power Supply and regulators.

UNIT - VIBJT CharacteristicsJunction transistor, transistor current components, transistor as anamplifier & switch, input and output characteristics of transistor inC-B, C-E, C-C configuration, α & β and γ relation, typical voltagevalues.

UNIT - VIIFET & UJT CharacteristicsJFET characteristics (qualitative & quantitative discussion), MOSFETcharacteristics.

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ELECTRONIC DEVICES

Course Code : AEC1101 L T P C4 1 0 4

Aim & Objectives :All electronic equipment in the world consist of various componentsLike Diodes , Transistors, SCR etc. The different combinations ofthese active components result in the development of new equipmentfor various applications.

In this course the fundamental characteristics of various devices(components) are studied. The applications of all these devices arediscussed.

UNIT - IEnergy bands and charge carriers in SemiconductorsBonding forces in solids, energy bands, Metal, Semiconductor,Insulators, Direct & Indirect Semiconductor, Variation of energy bandswith alloy composition, Electrons and holes, Effective mass, Intrinsicand Extrinsic material, Fermi level, carrier concentrations atequilibrium, temperature dependence of carrier concentrations,compensation and space charge neutrality, conductivity, mobility, halleffect.

UNIT - IIExcess Carriers in SemiconductorsDirect recombination, indirect recombination, Steady state carriergeneration, diffusion processes, diffusion and drift of carriers,continuity equation, steady state carrier injection, diffusion length.


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ELECTRONIC DEVICES LAB

Course Code: AEC1102 L T P C0 0 3 2

Aim and Objectives :The lab is intended for the student to get the hands on experience indealing with components. The experiments are conducted as per thecircuits given to them. The students shall make an attempt to find thesimilarities and the dissimilarities between the text book data and thedata observed during the experimentation in the lab.

Any ten of the following experiments are to be performedduring the semester

LIST OF EXPERIMENTS

1. PN Junction Diode Characteristics2. Zener Diode Characteristics & Voltage Regulator3. Rectifiers without Filters(Full wave & Half wave)4. Rectifiers with Filters(Full wave & Half wave)5. Bipolar Junction Transistor CB Characteristics6. Bipolar Junction Transistor CE Characteristics7. Bipolar Junction Transistor CC Characteristics8. JFET Characteristics9. MOSFET Characteristics10. UJT Characteristics11. LED Characteristics12. TRIAC Characteristics13. SCR Characteristics14. DIAC Characteristics


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(Enhancement and Depletion Type), Negative resistance, UJTcharacteristics and applications.

UNIT - VIIISpecial DevicesDegenerate semiconductors, tunnel diode, Semiconductor Lasers,PNPN device, SCR, DIAC, TRIAC, LCD, Schottky diode.

Text Books :1. Electronic Devices and Circuits: Millman Jacob Halkias C

Christos : Tata Mcgrawhill Publications.

2. Solid State Electronic Devices: B.G. Streetman :Prentice-Hall ofIndia publications.

References :1. Electronic Devices And Circuits, B.Visweswara Rao,

K.Bhaskarram Murthy, K.Raja Rajeswari, P.Chalam RajuPantulu. Pearson Publications,2nd Edition.

2. Electronic Devices And Circuits: Raju GSN, IK International.

3. Electronic Devices And Circuits Theory : Boylestad.Robert, PHIpublications.

4. Electronic Devices & Circuits Vol I: Lal Kishore, BSPpublications.

5. Electronic Devices And Circuits: Sanjeev Gupta, Dhanpat Raipublications.

6. Electronic Devices And Circuits, K.Satyaprasad.

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Using file processing commands (move, copy, dir, mkdir, rmdir,attrib)

7. Hands on Exposure on DOS commands -2:Using text processing commands (find ,findstr, etc..)Using disk utility commands (format, chkdsk, chkntfs, disk compdisk copy etc..)

8. Hands on Exposure on Unix shell commands -1:Using man, info commands for finding information aboutcommands.Using file processing commands (ls, cp, mv, ln, mkdir, rmdir,chmod etc..)

9. Hands on Exposure on Unix shell commands-2:Using text processing commands ( grep, egrep, sed etc…)Using disk utility commands, mount commands (du,df,mountetc..)

10. Using Vi Editor: learning the three modes of Vi Editor-InsertMode-command mode-Colon mode

11. Modification of CMOS settings :Changing of Boot device priority, putting passwords, disablingand enabling of external devices.

12. Installation and Uninstallation of Antivirus :Installation of any free Antivirus like AVG , MCAFEE etc..Uninstallation of Antivirus.

13. Using System tools in windows:Disk defragmenter, system Restore ,Disk cleanup, character map

14. Installation and configuration of printer and scannersoftware.Installation and configuration of any printer and scanner software.

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PC SOFTWARE LAB


Aim : To give basic computer knowledge for the students in softwareinstallation and hardware

Objective : To make the students self reliant in maintaining theircomputer system

List of Experiments :1. Installation of Linux : on the computer wherein the windows

was installed. The system should be configured as dual boot withboth windows and Linux.

2. Hardware Troubleshooting : Identification of the problem of aPC which does not boot (due to improper assembly or defectiveperipherals) and fixing it to get the computer back to workingcondition.

3. Software Troubleshooting: Identification of the problem of amalfunctioning CPU (due to some system software problems)and fixing it to get the computer back to working condition.

4. Connectivity Boot Camp : Connectivity to the Local AreaNetwork and accessibility to the Internet. TCP / IP setting.

5. Exposure on Internet and usage of Internet: mail accountcreation and use, using search engines, interaction with peopleusing forums.

6. Hands on Exposure on DOS commands -1:Using help command for finding information about commands.

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UNIT - VHeat transfer: Conduction, convection (omit correlations forcalculation of heat transfer coefficients, heat transfer with change inphase) and radiation. Flow arrangement in heat exchangers, variationof fluid temperatures in heat exchangers.

UNIT - VIHeat transfer equipment (double pipe & Shell and tube heatexchanger), evaporation, long tube vertical type and forced circulationtype evaporators, multiple effect evaporation, methods of feeding.

UNIT - VIIMass transfer: Diffusion, mass transfer operation, absorption, Vapour-Liquid Equilibrium, Relative Volatility, Distillation with Reflux,Liquid- Liquid Extraction, Distribution Coefficient, Triangular graphs,Selection of Solvent.

UNIT - VIIIEquipment of Gas-Liquid Operations, Selection of Equipment for gas-liquid operations.

Text book :1. Introduction to Chemical engineering by S. K. Ghosal, S. K.

Sanyal and S. Dutta, TMH publications, 1993.

Reference :1. Unit operations in chemical engineering by W.L. McCabe and

J.C. Smith and Peter Harriott, Mc Graw Hill 5th ed. 1993.

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INTRODUCTION TO CHEMICAL ENGINEERING

Course Code : ACH1101 L T P C4 1 0 4

Aim : To introduce the student to the fundamental principles ofChemical Engineering.

Objectives : The student should be able to learn the basics ofa) Unit Operations

b) Materials Energy Balance

c) Fluid Mechanics

d) Heat Transfer

e) Mass Transfer

UNIT - IIntroduction, units and dimensions, unit processes, unit operations,Basic laws of heat mass and energy.

UNIT - IIEnergy, humidity and saturation. Material balance, energy balance.

UNIT - IIIFlow of fluids: Introduction, nature of fluid, viscosity, velocity profile,flow field, types of fluid motion, laminar and turbulent flow, flow ofa fluid past a solid surface.

UNIT - IVReciprocating, rotary, and centrifugal pumps.

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RearrangementsPinacol-Pinacalone rearrangementBeckmann rearrangementFries rearrangement

UNIT - IVReaction mechanism and applications of the followingAldol condensationPerkins’s reaction,Claisen condensationRimer-Timmer reaction

UNIT - VDyes: classification based on chemical structure and method ofapplication. Witt’s theory of color and chemical constitution. Synthesisand uses of the following dyes- Cong red, Bismark brown, Malachitegreen, Rosaniline and Fluorescein.

UNIT - VIActive methylene compounds : Preparation of Malonic andAcetoacetic ester, isomerism and synthetic applications of malonicand acetoacetic ester with reference to mono and dicarboxylic acids(n-butyric, succinic and adipic acids), α, β- unsaturated acid (crotonicacid), dialkyl substituted acid (isobutyric acid), amino acid (glycine)and ketones (ethylmethylketone). Ketonic and acidic hydrolysis.

UNIT - VIIHeterocyclic compounds - nomenclature, preparation, structure,properties and uses of Furan, Pyrrole, Thiophene, Pyridine, Quinoline,Isoquinoline.

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ORGANIC CHEMISTRY


Aim : The aim of the course is to provide necessary organic chemistryback ground for under graduate students of Chemical engineering.

Objective : To provide an understanding of the principles, mechanismsand properties of organic reaction which chemical engineers mayencounter in their subsequent professional carreer.

UNIT - IElectron displacement effectsPermanent effects – Inductive and Resonance effect, applications ofInductive and Resonance effects. Temporary effects – Inductomericand Electromeric effects; Hyper conjugation and it’s applications.

UNIT - IIBioorganic chemistryCarbohydrates - Classification, structrual Elucidation of glucose andfructose.Conversions of Aldohexose to ketohexose and aldopentose toaldohexose.

Natural Products - Vitamins- structural elucidation vitamine B12

UNIT - IIINuclophilic substitution reactionsNuclophilic substitution reactions of unimolecular and bimolecularreactions-examples. Mechanism of SN1 and SN2 reactions. Conceptof Walden inversion and steric hindrance


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ORGANIC CHEMISTRY LAB


Aim : The aim of the Course is to develop the basic experimentalskills

Objective : Objective is to make the student familiar with certainchemical techniques which may be useful in the later professionalcarrier.

1. Qualitative analysis of simple organic compounds by followingsystematic procedure.Analysis includes state, B.P&M.P, solubility, flame, unsaturation,sodium fusion extract for the identification of heteroelement,functional groups-carboxylic acids, phenols carbohydrate aldehydes,ketones, amides, esters, amines and nitro groups. Conformation offunctional group by the preparation of derivative.

2. Preparation of organic compounds.a) Aspirinb) Acetanilidec) Nitrobenzened) Urea –formaldehyde

Books recommended :1. Vogel’s Text book of Practical Organic Chemistry by PWG.Smith

& B.S.Furniss


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UNIT - VIIIStereo isomerism :Configurational isomerism : Optical isomerism, Conditions for anoptically active compound-elements of symmetry, Optical activity ofLactic acid and Tartaric acid. Relative and Absolute configuration-Sequence rules, Geometrical isomerism-E & Z system ofnomenclature.

Conformational Isomerism : Conformations of ethane, n-butane and1,2-dihaloethane.Bayer’s strain theory-limitations, Sachey and Mohrtheory, conformations of cyclohexane

Textbooks :1. Advanced Organic Chemistry –Arun Bahl & B.S. Bahl

2. Text book of Organic Chemistry- Morrison and Boyd

References :1. Reaction mechanism- Peter Skyes.

2. Reaction and Reagents- O.P.Agrawal

3. Polymer science-Gaurikar and others

4. Synthetic Organic Chemistry-O.P.Agrawal

5. Organic chemistry-C.N.Pillai –University press

6. Organic chemistry- B.Mehata& M.Mehata

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UNIT - VTheodolite : Theodolite, description, uses and adjustments –temporary and permanent, measurement of horizontal and verticalangles. Trigonometrical leveling, Traversing.

UNIT - VITacheometric Surveying : Stadia and tangential methods ofTacheometry. Distance and Elevation formulae for Staff verticalposition.

UNIT - VIICurves : Types of curves, design and setting out – simple andcompound curves.

UNIT - VIIIErrors and Approximations

Text Books :1. “Surveying (Vol – 1, 2 & 3), by B.C.Punmia, Ashok Kumar Jain

and Arun Kumar Jain - Laxmi Publications (P) ltd., New Delhi2. Duggal S K, “Surveying (Vol – 1 & 2), Tata Mc.Graw Hill

Publishing Co. Ltd. New Delhi, 2004.3. Surveying and levelling by R. Subramanian, Oxford university

press, New Delhi.

References :1. Arthur R Benton and Philip J Taety, Elements of Plane Surying,

McGraw Hill – 20002. Arora K R “Surveying Vol 1, 2 & 3), Standard Book House,

Delhi, 20043. Chandra A M, “Plane Surveying”, New age International Pvt.

Ltd., Publishers, New Delhi, 2002.4. Chandra A M, “Higher Surveying”, New age International Pvt.

Ltd., Publishers, New Delhi, 2002.Q

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SURVEYING

Course Code : ACE1101 L T P C4 1 0 4

Aim : To introduce the basic concepts of survey.

Objectives : Overview of plane survey and Geodetic survey. Studyingvarious instruments for taking linear and angular measurements.Computing areas and volumes, Designing and setting out simplecurves.

UNIT - IIntroduction : Overview of plane surveying (chain, compass andplane table), Objectives, Principles and classifications. IntroductionTotal Station and Global positioning system,

UNIT - IIDistances and Direction : Distance measurement conventions andmethods; use of chain and tape, Electronic distance measurements,Meridians, Azimuths and Bearings, declination, computation of angle.

UNIT - IIILeveling and Contouring : Concept and Terminology, Temporaryand permanent adjustments- methods of leveling, characteristics andUses of contours- methods of conducting contour surveys and theirplotting.

UNIT - IVComputation of Areas and Volumes : Area from field notes,computation of areas along irregular boundaries and area consistingof regular boundaries. Embankments and cutting for a level sectionand two level sections with and without transverse slopes,determination of the capacity of reservoir, volume of barrow pits.

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INTRODUCTION TO CIVIL ENGINEERING


Aim : To introduce the basic concepts of civil engineering.

Objectives : To attain knowledge on civil engineering by introducingthe new developments, various disciplines, challenges, responsibilitiesand achievements in Civil engineering.

UNIT - IHistorical background

UNIT - IIRole of Civil Engineers in Society;

UNIT - IIIOutstanding accomplishments of the profession;

UNIT - IVExplanation of applications of various disciplines of CivilEngineeringTransportationEnvironmentalGeotechnicalStructuralWater ResourcesSurveying, EstimationQuality ControlProject Management

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SURVEYING LAB


Aim : To introduce the concepts of plane surveying equipments

Objectives : The main objective is to attain the knowledge ofequipments used for taking linear and angular measurements andsetting contours. Transferring points on ground and Locating groundstations on map.

LIST OF EXERCISES1 Survey of an area by chain survey (closed traverse) and

Plotting2 Determination of Distance between two in-accessible points

with compass3 Surveying of a given area by prismatic compass (closed

traverse) and plotting after adjustment.4 Radiation method & Intersection methods by plane table

survey5 An exercise of Longitudinal Section & Cross Section and

plotting with dumpy level(Two exercises)6 An exercise on contouring using dumpy level7 Measurement of horizontal angles by method of repetition

and reiteration with theodolite8 Trigonometric leveling – Heights & Distance problem (Two

exercises)9 Height & distance using principles of tachometric surveying.

10 Curve setting – Different methods (Two exercises)Q

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NETWORKS LAB


Aim : To introduce the student to the fundamental principles ofNetwork Analysis.

Objectives : The student should be able to learn the basics ofa) Network theoremsb) Resonance Phenomenac) Self and Mutual Inductance of a coupled coild) Time Response of Electric circuitse) Fundamentals of A.C.Circuits

* The following experiments are required to be conducted ascompulsory experiments:1) Verification of Thevenin’s and Nortons Theorem

2) Verification of Maximum Power Transfer Theorem

3) Verification of Superposition Theorem

4) Locus Diagrams of RL and RC Series Circuits

5) Series and Parallel Resonance

6) Verification of Reciprocity Theorem

7) Determination of Self, Mutual Inductances and Coefficientof coupling

8) Determination of Form Factor for a Non-SinusoidalWaveform


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UNIT - VPresent status and future challenges of civil engineering profession.

UNIT - VIProfessional responsibility.

UNIT - VIIConcepts of analysis & design, interpretation of results and decisionmaking, computational approaches, experiments.

UNIT - VIIITechnical Report writing

Invited lectures

Case Studies

Site visits.

Professional Societies in Civil Engineering and their activities

References :1. Engineers and Engineering, Oxford Univ. Press, 1970

2. Engineering Cases, ASEE, 1982

3. Invitation to Civil Engineering, Laithwaite, E., Basil BlackwellInc., Oxford, UK., 1984

4. Engineering- an outline for the intending student, Thing, M.W.,Routledge & Kegan Paul, London 1972.

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BASIC WORKSHOP TECHNOLOGY


Aim & Objectives :1. To make the student gain fundamental knowledge of basic

workshop processes

2. The course has focused on making the student understandthe physics of various workshop processes

3. To introduce the concept of workshop job estimates.

UNIT - IIntroduction: Introduction to Basic Manufacturing processes: woodand wood working - foundry practice- sheet metal working - smithyand forging - soldering, brazing and welding - bench work and fitting- machining.

UNIT - IIWood and wood working: Structure of wood, Grain in wood, seasoningof wood, classification of wood. Carpentry tools - marking andmeasuring tools, cuttings tools, planes, boring tools, striking tools,and holding tools. Carpentry processes, Marking, Sawing, Planning,Chiseling, Boring, Grooving. Carpentry joints. Wood workingMachines.

UNIT - IIIFoundry: Introduction - Pattern: materials, types, pattern making tools.Core prints, core boxes, Foundry: moulding tools and equipments,moulding sands, sand additives. Properties of moulding sand. Risers& gates - functions. Preparation sand moulds. Outline of sand casting.


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* In addition to the above eight experiments, at least any twoexperiments from the following list are required to be conducted.

9) Harmonic analysis of non sinusoidal waveform signals.

10) Harmonic analysis of non-sinusoidal waveform signal.

11) Time Response of RL And RC Network for periodic Non-sinusoidal Input

12) Measurement of Active Power for Balanced Loads.

Text book :Network Analysis by N.C.Jagan and C-Lakshmi Narayana,B.S.Publications

References :1. Network Analysis , by M.E Van Valkenburg , Prentice Hall of

India, PVT Ltd, New Delhi.

2. Circuit Analysis , by Hayt and Kemmerly.

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ADVANCED ENGINEERING DRAWING


Aim & Objectives :1. To make the student well familiar to the drawing practices

and convention

2. To familiarize the various engineering curves used in industry

3. To enable student draft simple engineering components

LIST OF EXCERCISES

1 Sectional views of Prism, Cylinder, Pyramid, and Cone in simplepositions

2 Sectional views of Prism, Cylinder, Pyramid, and Cone inclinedto both the planes

3 Development of Surfaces of Prisms, Cylinder

4 Development of Surfaces of Pyramid, Cone

5 Interpenetration of Cylinder & Cylinder, Cylinder & Prism

6 Interpenetration of Cylinder & Cone

7 Conversion of Isometric Views to Orthographic Views (simplecases)

8 Conversion of Isometric Views to Orthographic Views

9 Conversion of Orthographic Views to Isometric Views

10 Perspective View of Points, Lines, Planes, Simple Solids-Vanishing Point Method, Visual ray method

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UNIT - IVSheet metal working: Introduction - Metals used in sheet metal work.sheet metal hand tools - sheet metal operations - sheet metal jointsHems and seams, sheet metal allowance - sheet metal workingmachines.

UNIT - VSmithy and forging: Introduction to black-smithy - operations - typesof forging - hand tools and appliances - smith forging operations -examples. forging processes - types - grain flow effects of forging -forged parts Vs. cast parts, defects in forging, advantages andlimitation.

UNIT - VISoldering, brazing and Welding: Introduction to metal joining process- soldering, brazing and welding - types of welding, Arc welding -Gas welding - welded joints and edge prepations weld defects.

UNIT - VIIBench work and fitting: Introduction - Vices Hammers - Chisels, files,Hacksaw marking tools and accessories drilling operations, taping.

UNIT - VIIIMachining: Introduction - removal of material on lathe -parts of lathe- operations on lathe.

Text Books :1. Elements of Workshop Technology, Vol.1 & Vol.2: Manufacturing

Processes; by S.K.Hajra Choudary and A.K. Hajra Choudary

References :1. Workshop Technology, by B.S. Raghu vamsi2. Workshop Technology, by W A J Chapman

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Meeting of the Academic Council held on 11th July 2009

LIST OF MEMBERS OF THE ACADEMIC COUNCILDr. N. BALASUBRAHMANYAMProfessor, Department of ECEDr. MANCHIKANTI SRINIVASAssociate Professor, Dept. of Civil Engg.SRI PRASANTH KUMAR DASAssociate Professor, Dept. of EEEMrs. P.V. RAJESWARIAsst. Professor, Dept. of PhysicsSRI V. RAJANNAGM & Head, AP Region,Tata Consultancy Services, HyderabadProf. S.V. RAGHAVANDept. of CSE, IIT-Madras, Chennai

Dr. S. NARASIMHA RAOCivil Engineering Consultant, ChennaiSRI K. RAGHAVAIAHDirector, Sujana Towers Ltd., HyderabadDr. E.V. PRASADProfessor of CSE & Principal,University College of Engineering, JNTUKDr. I. SHANTI PRABHAProfessor of ECE,University College of Engineering, JNTUKSmt. V. LAKSHMIAsst. Professor in Civil Engg.,University College of Engineering, JNTUKDr. M.P.K. KISHORE, Member-SecretaryAssociate Professor, Dept. of InformationTechnology, GVP College of Engg.

Prof. N.S.V.V.S.J. GANDHI, ChairmanPrincipal, GVPCOEDr. B. SRINIVASProfessor & Head, Department of Chemical Engg.Prof. P. VEERABHADRA RAOProfessor & Head, Department of Civil Engg.Dr. V.SITARAMAMProfessor & Head, Department of CSEDr. D.S. MURTHYProfessor & Head, Department of ECEDr. G. GOVINDA RAOProfessor & Head, Department of EEEDr. K.B. MADHURIProfessor & Head, Department of ITDr. B. GOVINDA RAOProfessor & Head, Department of Mechanical Engg.SRI G.S. MALLIKARJUNA RAOAssociate Professor & Head, Dept. of M.C.A.Dr. G.V.S.R. DEEKSHITULUAssociate Professor & Head, Dept. of MathematicsDr. Y.V.P.K. RAGHAVAProfessor & Head, Dept. of PhysicsDr. J. RAVINDRANATHAssociate Professor & Head, Dept. of English

Dr. R. RAMBABUProfessor & Head, Dept. of ChemistryDr. P. VENKATA RAOAssociate Professor & Head, Dept.of Management StudiesG V P College of Engineering (Autonomous)

11 Modeling of typical geometrical elements in AutoCAD

12 Modeling of typical geometrical elements in AutoCAD

Text Books :1. Engineering Drawing, N.D. Bhat / Charotar

2. Engineering graphics with Auto CAD- R.B. Choudary/AnuradhaPublishes.

3. Computer Aided Engineering Drawing- Trymbaka Murthy- I.K.International.

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Dr. B. SWAMI, M.B.B.S., M.D., ChairmanFormer Professor Medicine and Supdt.KG Hospital, Visakhapatnam, FormerVice-Chancellor, Nagarjuna University,Member, Indian Medical Council;President, Gayatri Vidya Parishad

SRI V. SEETHARAMAIAH, CAChartered Accountant, Brahmaiah & Co;Vice-President, Gayatri Vidya Parishad

SRI A.S.N. PRASAD, B.E., M.I.E.Director, Sri Rama Corporation; Member,Srinivasa Vidya Parishad;Secretary, Institute of Development &Planning Studies, Visakhapatnam;Vice-President, Gayatri Vidya Parishad

Prof. P. SRINIVASA RAOB.Tech. (Hons), M.Tech., Dr.Ing (Munich),Advisor (Tech. Edn. and R&D), GVPFormerly Professor of Civil Engineering,Dean of Industrial Consultancy, IIT Madras,Dean of Academic Courses, IIT Madras

Prof. P. SOMA RAJU, M.A., Ph.D.Professor of Mathematics and Member,Gayatri Vidya Parishad

Sri V.R.K.S. SIVA PRASAD, C.A.Chartered Accountant and Treasurer, GayatriVidya Parishad

Dr. SHAKEEL AHMAD, Ph.D.Deputy Secretary, UGC, New Delhi

Dr. M.D. CHRISTOPHER, Ph.D.Secretary, A.P. State Councilof Higher Education

Dr. J.V.R. MURTHY, Ph.D.Professor, Department of CSEUniversity College of Engineering,JNT University-Kakinada

Prof. N.S.V.V.S.J. GANDHI, Ph.D.Formerly Principal, JNTU College ofEngineering, Kakinada Principal,GVP College of EngineeringProf. P.V.C. SARMA, Ph.D.Formerly Professor of PhysicsNominee of Teachers' Co-operativeHouse Building Society, Visakhapatnam

G.V.P. COLLEGE OF ENGINEERING(Autonomous)

LIST OF MEMBERS OF THE GOVERNING BODY

Prof. R.V. SUBBA RAJU, Ph.D.Formerly Professor of Chemical Engineering,Nominee of Teachers' Co-operative HouseBuilding Society, Visakhapatnam

SRI D. DAKSHINA MURTHY, M.Sc.Coordinator, Gayatri Vidya Parishad College forDegree & PG Courses & Secretary,Gayatri Vidya Parishad

Dr. P. RAJAGANAPATHI, M.Sc., Ph.D.Former Principal, Govt. Degree College,Joint-Secretary, Gayatri Vidya Parishad.

Dr. B. SUBBA RAO, M.S., M.Ch. (Neuro Surgery)Director, MIMS, Vizianagaram, Former Professorof Neuro Surgery, AMCVice-Principal, AMC, Additional Director ofHealth Services, Govt. of Andhra Pradesh.

SRI D.V.S. KAMESWARA RAO, B.E.Vice-President, Gayatri Engineering Works,Member, Gayatri Vidya Parishad.

Prof. A. PRASANNA KUMAR, Ph.D.Former Rector, Andhra University;Director, Centre for Policy Studies

SRI D.V. SUBBA RAO, M.L.Former President, Bar Council of India,Member, Gayatri Vidya Parishad.

Prof. P.V. SARMA, M.A., Ph.D.Former Professor of Economics andCo-ordinator, School of Economics,Andhra University, Director, Research &Development, Gayatri Vidya Parishad

Prof. V.S.R.K. PRASAD, B.Tech., M.Tech., Ph.D.Principal, ANITS, Visakhapatnam; FormerProfessor, Dept. of Chemical Engg.,AU College of Engg., Member,Gayatri Vidya Parishad.

Prof. A.B.K. RAO, Ph.D.Professor, Dept. of Mechanical Engg.,G.V.P. College of Engineering

Prof. P. VEERABHADRA RAOProfessor, Dept. of Civil Engg.,GVP College of Engineering

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