University of Rajshahi 2. The Grading...

Page 1 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012

University of Rajshahi Faculty of Engineering

Department of Applied Physics and Electronic Engineering

Syllabus for B. Sc. Engg. (APEE) Session: 2011 – 2012 The courses designed for B.Sc.(Engg.) Degree in the Applied Physics & electronic

Engineering (APEE) consist of 4000 marks of 160 credits (=40 units x 4 credits, each unit

carries 100marks and 4 credits) distributed over eight semesters in four academic years.

Each academic year is divided into two semesters (odd and even) each of duration not less

than 11 weeks (66 working days). There shall be final examinations at the end of each

semester. The medium of answer in all examinations will be English. The theoretical

examination of courses less than or equal to 2 Credits shall be of 3 hours duration and

courses greater than 2 Credits shall be of 4 hours duration. An academic schedule for an

academic year shall be announced for general notification before the start of the academic

year, on the prior approval of the Academic Committee. No student shall ordinarily be

admitted after the class starts.

1. Attendance (Ref. Academic Ordinance Faculty of Engineering (AOFE) article no-12):

In order to be eligible to appear, as a regular candidate, at the semester final examinations,

a student shall be required to have attended at least 70% of the total number of periods of

lectures/tutorials/laboratory classes offered during the semester in every course. A student

whose attendance falls short of 70% but not below 60% in any course may be allowed to

appear at the final examinations as non-collegiate student and he/she shall not be eligible

for the award of any scholarship or stipend for the following academic year/semester..

A student, appearing the examination under the benefit of this provision shall have to pay

in addition to the fees, the requisite fee prescribed by the syndicate for the purpose. Student

having less than 60% attendance in any course will not be allowed to appear in the final

examinations of the semester. The basis of awarding marks for class participation and

attendance is shown in Table-1.

Table-1 Distribution of Marks in Attendance

Attendance Marks Remarks

90% and above 10

Regular

85% to less than 90% 9

80% to less than 85% 8

75% to less than 80% 7 70% to less than 75% 6

65% to less than 70% 5 Non-collegiate

60% to less than 65% 4 less than 60% 0

(Ref. AOFE article no-15.1.4), 1 unit = 100 marks

2. The Grading System:

The letter grade system shall be used to assess the performance of the students as

shown in Table-2 (Ref. AOFE article no-14):

Table-2 Letter Grade System

Numerical grade Letter

Grade(LG)

Grade

Point

(GP/unit)

Credit

Point

(CP/unit)

Class

based

on

CGPA

80% or above A+ 4.0 4 First

Class

with

Honours 75% to less than 80% A 3.75 4

70% to less than 75% A- 3.5 4 First

Class 65 to less than 70% B+ 3.25 4

60% to less than 65% B 3.0 4

55% to less than 60% B- 2.75 4 Second

Class 50 to less than 55% C+ 2.5 4

45% to less than 50% C 2.25 4

40 to less than 45% D 2.0 4

- less than 40% F 0.0 0.0

Incomplete I 0.0 0.0

A letter grade „I‟ (incomplete) shall be awarded for courses in the odd semester

which continue through to the even semester.

A Grade Point Average (GPA) shall be calculated for each semester as follows:

n

1i

i

n

1i

ii

C

GC

GPA (i)

where, n is the number of courses offered during the semester, Ci is the number of

credits allotted to the ith course and Gi is the grade point earned for that course.

Page 2 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 A Yearly Grade Point Average (YGPA) shall be calculated for each academic

year as follows:

s

1j

j

s

1j

jj

C

GC

YGPA (ii)

where s is the number of semesters, Cj is the number of credits allotted to the jth

semester and Gj is the GPA earned for that semester.

The Cumulative Grade Point Average (CGPA) gives the cumulative

performance of the students from the first year up to the end of the year to which

it refers, and will be calculated as follows:

m

1k

k

m

1k

kk

C

GC

CGPA (iii)

where, m is the total number of years being considered, Ck is the total number of

credits registered during the kth year and Gk is the YGPA earned in that

particular year.

A Cumulative Grade Point Average (CGPA) shall be calculated at the end of each

academic year and to be communicated to the students along with the YGPAs.

The individual grades of courses obtained by them for the semesters of the

academic year will, however, be communicated at the end of individual semester

by the Chairman of the Examination Committee.

Both YGPA and CGPA will be rounded up to the second place of decimal for

reporting. For instance, YGPA=2.212 shall be rounded up as YGPA=2.22.

Illustration: Suppose a student obtained following grade in Part-1 odd semester:

B.Sc(Eng.) Part-I

Odd Semester Credit

Letter

Grade GP

ENG1111 2 C 2.25

MATH1111 3 A+ 4

CHEM1111 3 F 0

APEE1111 4 B+ 3.25

APEE1121 4 A+ 4

APEE1172 1 A- 3.5

APEE1182 3 A 3.75

Therefore, GPA in the odd semester is =

3144332

3(3.75)1(3.5)4(4)4(3.25)3(0)3(4)2(2.25)

= 3.0125 ≈ 3.02

And lets assume that his/her GPA in Part-I Even Semester is = 3.13

Therefore, YGPA of Part-I examination is = 2020

)13.3(20)02.3(20

= 3.075 ≈ 3.08

Similarly assume that, the student‟s YGPA for the other 3 Parts are the

followings.

Semester/year Credit YGPA

Part-II 40 3.47

Part-III 40 2.96

Part-IV 40 3.33

Then his/her CGPA of four academic years is

=160

)33.3(40)96.2(40)47.3(40)08.3(40 = 3.21

3. Earned Credit: The courses in which a student has obtained minimum „D‟

in „Theoretical courses‟ and „C‟ in „Laboratory courses & Board Viva-voce‟ or

higher grade will be counted as credits earned by the student. Any course in

which a student has obtained „F‟ grade will not be counted towards his/her earned

credit. „F‟ grade will not be counted for GPA calculation but will stay

permanently on the Grade sheet and transcripts.

4. Marks and Credits distribution for B.Sc. Engg. (APEE):

The distribution of Marks and Credits in various Definities of Disciplines to in the

ordinance for B.Sc. Engg. Degree in the Department of Applied Physics and

Electronic Engineering are given in Table- 3. [Ref. AOFE article no-5]

Page 3 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Table-3 Marks and Credits distribution in various disciplines for B.Sc. Engg. (APEE)

Course Type Marks Marks (%) Credits a Humanities 200 5 8

b Mathematics & Basic

Sciences (with Laboratory) 625 15.625 25

Basic and Major

Engineering 3175 79.375 127

Distribution

(i) Basic Engineering with laboratory:

(a)Theoretical 100 2.50 4

(b)Laboratory 50 1.25 2

(ii )Major Engineering :

(a)Theoretical 1900 47.50 76

(b)Laboratory 925 23.12

5

37

(c) Board Viva-voce 200 5.00 8

Total 4000 100 160

aEach department must include course on English and bEach department must include

courses on Physics, Chemistry and Mathematics. 1 unit course carries 4 credits (100

marks), 0.75 unit course carries 3 credits (75 marks) and half unit course carries 2 credits

(50 marks). For other fractions of credit, proportionality shall be applied

5. Courses offered to the undergraduate students of Applied Physics and

Electronic Engineering Department for B.Sc. Engg degree (Session 2011-2012)

Table- 4 Part- I (Examination- 2012)

Part-I (Odd Semester )

Course Codes

Course Titles Units Marks Credits

Contact

hours/

week

Contact

periods/

week

ENG 1111 Technical and Communicative English

0.5 50 2 2 3

MATH1111 Algebra, Trigonometry &

Vector Analysis

0.75 75 3 3 5

CHEM1111 Physical and Inorganic

Chemistry

0.75 75 3 3 5

APEE1111 BASIC ELECTRICAL

ENGINEERING

1.0 100 4 4 6

APEE 1121 HEAT

ENGINGEERING

1.0 100 4 4 6

APEE 1172 ENGINEERING

DRAWING

0.25 25 1 2 3

APEE1182 Lab.(Experiments on the

courses APEE

1111,1121)

0.75 75 3 6 9

Total 5 500 20 24 37

Part-I (Even Semester )

Course

Codes Course Titles Units Marks Credits

Contact hours/

week

Contact periods/

week

ECON1211 Economics 0.5 50 2 2 3

MATH1211 Differential and Integral Calculus

0.75 75 3 3 5

STAT1211 Statistics for Engineers 0.5 50 2 2 3

PHY1211 Applied Mechanics and

Optics

1.0 100 4 4 6

PHY1212 Lab.(Experiments on the

courses PHY 1211)

0.25 25 1 2 3

APEE1211 Basic Electronics 1.0 100 4 4 6

APEE1282 Lab.(Experiments on the

course APEE1211)

0.50 50 2 4 6

APEE1290 Viva voce 0.5 50 2 - -

Total 5 500 20 21 32

Marks Distribution on Laboratory Courses (Part-I)

Course Codes Total Marks Class participation

and Attendance

10%

Viva-Voce 30%

Practical/Design Work/ Report

60%

APEE1172 25 2.5 7.5 15

APEE1182 75 7.5 22.5 45

PHY1212 25 2.5 7.5 15

APEE1282 50 5 15 30

Page 4 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Table 5 Part- II (Examination- 2013)

Part-II (Odd Semester )

Course


Contact hours/

week

Contact periods/

week

ACCO2111 Management and

Accountancy 0.5 50 2 2 3

MATH2111 Matrices and

Differential

Equations

0.75 75 3 3 4.5(~5)

PHY2111 Quantum

Mechanics, Atomic

and Nuclear Physics

0.75 75 3 3 4.5(~5)

APEE2111 Electronic Devices

and Circuits 1 100 4 4 6

APEE2121 Operating Systems

and Programming

with C & C++

1 100 4 4 6

APEE2182 Lab.(Experiments

on the courses

APEE2111, 2121)

1 100 4 8 12

Total 5 500 20 24 36

Part-II (Even Semester)

Course


Contact hours/

week

Contact periods/

week

LAW2211 Law and

Professional Ethics 0.5 50 2 2 3

MATH2211 Special Functions

and Numerical

Methods

0.75 75 3 3 5

APEE2211 Electrical Machine

Systems and Filter 1 100 4 4 6

APEE2221 Digital Electronics 1 100 4 4 6

APEE2272 Electrical Workshop 0.25 25 1 2 3

APEE2282 Lab. (Experiments

on the courses

APEE2211, 2221)

1 100 4 8 12

APEE2290 Viva voce 0.5 50 2 - -

Total 5 500 20 23 35

Marks Distribution on Laboratory Courses (Part-II)

Course Code Marks

Class Participation

and Attendance

10%

Viva-Voce

30% Practical/Design

Work/Report

60%

APEE2182 100 10 30 60

APPE2272 25 2.5 7.5 15

APEE2282 100 10 30 60

Table 6 Part- III (Examination- 2014)

Part-III (Odd Semester )

Course Codes

Course Titles Units Marks Credits

Contact

hours/ week

Contact

periods/ week

APEE3111 Electromagnetic

Theory and Antenna 1 100 4 4 6

APEE3121 Radio and TV

Engineering 1 100 4 4 6

APEE3131 Basic Solid State

Physics and

Material Science

1 100 4 4 6

APEE3141 Non-Conventional

Energy 0.5 50 2 2 3

APEE3172 Electronic

Workshop 0.25 25 1 2

3

APEE3182 Laboratory

(Experiments on the

courses

APEE 3111, 3121,

3131, 3141)

1.25 125 5 10 15

Total 5 500 20 26 39


Part- III (Even Semester)

Course


Contact

hours/ week

Contact

periods/ week

APEE3211 IC Fabrication and

Communication

Electronics

1 100 4 4 6

APEE3221 Pulse and Switching

Circuit 0.75 75 3 3 5

APEE3231

Instrumentation and

Acoustic

Engineering

0.5 50 2 2 3

APEE3241 Geophysics 1 100 4 4 6

APEE3282 Laboratory

(Experiments on the

courses

APEE 3211, 3221,

3231, 3241)

1.25 125 5 10 15

APEE 3290 Viva voce 0.5 50 2 - -

Total 5 500 20 23 35

Marks Distribution on Laboratory Courses (Part-III)

Course

Codes Marks

Class participation

and Attendance

10%

Viva-

Voce

30%

Practical/

Design Work/

Report 60%

APEE3172 25 2.5 7.5 15

APEE3182 125 12.5 37.5 75

APEE3282 125 12.5 37.5 75

Table 7 Part- IV (Examination- 2015)

Part- IV (Odd Semester)

Course


Contact

hours/ week

Contact

periods/ week

APEE4111 Microprocessor and

Microcontroller 1 100 4 4 6

APEE4121 Telecommunication

Engineering 0.5 50 2 2 3

APEE4131 Solid State Physics 1 100 4 4 6

APEE4141 Applied Geophysics 1 100 4 4 6

APEE4182 Laboratory

(Experiments on the

courses

APEE 4111, 4121,

4131, 4141)

1.25 125 5 10 15

APEE4192 Field Work 0.25 25 1 2-weeks

Total 5 500 20 24 36

Part-IV (Even Semester)

Course


Contact hours/

week

Contact periods/

week

APEE4211 Communication

Engineering 1 100 4 4 6

APEE4221 Computer

Organization, 0.5 50 2 2 3

APEE4231 Computer Networks

and Data

Communication

0.5 50 2 2 3

APEE4241 Biomedical and

Analytical

Instrumentation

0.75 75 3 3 5

APEE4282 Laboratory

(Experiments on the

courses

APEE 4211, 4221,

4231,4241)

1.25 125 5 10 15

APEE4292 Project and Seminar 0.5 50 2 4 6

APEE4290 Viva voce 0.5 50 2 - -

Total 5 500 20 25 38

Page 6 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Marks Distribution on Laboratory courses (Part-IV)

Course

Codes

Marks Class Participation and

Attendance 10%

Viva-Voce

30%

Practical/

Design Work/

Report 60%

APEE4182 125 12.5 37.5 75

APEE4192 25 2.5 7.5 15

APEE4282 125 12.5 37.5 75

APEE4292

(Project)

50 i. Internal Examiner (Supervisor) 35%

ii. External Examiner 35%

iii. Presentation and Oral Examination 30%

17.5

17.5

15

6. Rules for Promotion (Ref. AOFE article no-16):

There shall be final examinations conducted by the concerned Examination

Committee of the Departments at the end of each semester. The results shall be

finalized at the end of the even semester of the academic year. A student entering

in an odd semester shall automatically move on to the next semester, unless

he/she was debarred from appearing at the final examinations at the end of the

semester. Individual course grades and GPA shall be announced within a date

ordinarily not later than three weeks after the end of the semester final

examinations.

6.1 Minimum passing grade: The minimum passing grade in a

theoretical course will be D and the minimum passing grade in a

laboratory/project/field work/in-plant training/workshop/similar

Courses (henceforth referred to as laboratory course) and Viva

voce will be C.

6.2 Promotion to higher class : A student who has a grade point

average of 2.2 or higher and no F grade in the theoretical courses

and not less than C grade in the laboratory courses and viva-voce of

the two semesters shall be promoted to the next higher class.

6.3 There shall be no referred in laboratory courses and Viva voce. A

student failing to secure a minimum C grade in any of the

laboratory courses and Viva voce in any semester will not pass in

that year.

6.4 Supplementary Examination :

6.4.1 Referred (with ‘F’): A student who has a grade point

average of 1.7 or higher, with ‘F’ grade in the theoretical

courses, not more than 10 credit points in an academic year, shall be awarded referred up to 10 credits in the

courses where less than B Grade (including F grade)

were obtained and he/she may appear at a supplementary

examination in those courses only. In such case the student

has to give his/her choice of course/courses for

supplementary examination in writing.

6.4.2 Referred (with no ‘F’): A student having grade point

average of less than 2.2 and no ‘F’ grade in theoretical

courses may appear at a supplementary examination,

in not more than 10 credit points in an academic year,

only for courses in which less than B grade was

obtained. In such case the student has to give his/her

choice of course/courses for supplementary examination

in writing.

6.4.3 Promotion of referred student to higher Class: In

order to be promoted to the next higher class, a student

must obtain a grade point average of 2.2 with no less

than D grade in any of the courses in which he/she

appeared in supplementary examination.

6.4.4 Grades obtained by a student in the courses in which

he/she appeared at the supplementary examination

will be recorded for final assessment and the grade

obtained by him/her in those courses at the regular

final examination shall automatically be treated cancelled.

6.4.5 Clause 6. 4. 4 is not valid for a candidate , who can not

improve his/her course grade at the supplementary

examination, in that case the previous grade shall

remain valid.

6.4.6 Improvement of YGPA: A candidate obtaining an

YGPA of less than 2.75 at the end of the academic

year shall be allowed to sit for supplementary examination

up to a maximum of 8 credit points of

(courses in where less than ‘B’ grade was obtained) theoretical courses in the academic year. No improvement

shall be allowed for laboratory examinations and Board

Viva-voce. If a candidate fails to

improve YGPA with the block of new GP in total,

the previous YGPA shall remain valid.

Page 7 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 6.4.7 All referred examinations shall ordinarily be held during

the inter-session break. This break may also be utilized for

industrial attachment training or survey practical etc

6.5

Course Exemption: Students who fail to be promoted to the next

higher class shall be exempted from taking the theoretical and

laboratory courses where they obtained grades equal to or better

than B. These grades would be counted in calculating GPA in the

next year‟s Examination results.

6.6 Merit Position: The YGPA obtained by a student in the semester

final examinations will be considered for determining the merit

position for the award of scholarships, stipends etc.

7. Publication of Results (Ref. AOFE article no-18):

7.1 A student must successfully complete the courses of all the

semesters within a maximum of six academic years as outlined by

the Committee of Courses with all its pre-requisites in order to be

eligible for the award of B. Sc. Engineering degree. The student

must earn 160 credits (no ‘F’ grade) and CGPA 2.25 or higher.

7.2 Merit position: Merit position of a student for each academic year

of each degree-awarding department shall be determined on the

basis of his/her YGPA of that particular year. Merit position for the

award of the degree of B. Sc. Engineering will be based on CGPA

of all the academic years.

7.3 Honours: Candidates for Bachelor‟s degree in engineering will be

awarded the degree with Honours if their CGPA is 3.75 or higher.

7.5 Result Improvement: A candidate obtaining a CGPA of less than

2.75 at the end of Part-IV even semester examinations, within 4 or

5 academic years shall be allowed to improve his/her result, of up to

a maximum of 4 units (courses less than „B‟ grade) of the Part-IV,

maximum 2 units from any one semester of the year, theoretical

courses in the immediate next regular examination after publication

of his/her result. No improvement shall be allowed for laboratory

examinations and Board Viva-voce. If a candidate fails to improve

CGPA with the block of new GP in total, the previous results shall

remain valid.

7.6 Dean’s List: As a recognition of excellent performance, the names

of students obtaining a cumulative GPA of 3.75 or above in two

regular semesters in each academic year may be published in the

Dean‟s List in the faculty. Students who have received an ‘F’

grade in any course during any of the two regular semesters will

not be considered for Dean‟s List in that year.

7.7 Industrial and Professional Training Requirements: Depending

on each department‟s own requirements, a student may have to

complete a prescribed number of days of industrial/professional

training in addition to minimum credits and other requirements, to

the satisfaction of the concerned department.

7.8 Recording of Result: The overall results of a successful student

covering all semesters‟ examinations of four years shall be declared

on the basis of CGPA with the corresponding letter grade (LG). The

transcripts in English will show the course designation, course title,

credit, grade and grade point of individual courses. YGPA of each

year, CGPA and corresponding LG for the overall result.

8. Eligibility for Examination (Ref. AOFE article no-24):

8.1 A candidate may not be admitted to any semester final examination

unless he/she has

8.1.1 Submitted to the Registrar/Vice-Chancellor an

application in the prescribed form for appearing at the

examination,

8.1.2 Paid the prescribed examination fees, and all outstanding

University and Hall dues,

8.1.3 Fulfilled the conditions for attendance in class and

8.1.4 Been barred by any disciplinary rule.

8.2 On special circumstances the Vice-Chancellor may permit a student

to appear at the examination.

8.3 A student whose attendance falls short of 70% but not below 60%

in any course as mentioned above may be allowed to appear at the

final examinations as a non-collegiate student.

* Some useful Tables are given in the Appendix.


Part-I: Odd Semester (Exam 2012)

ENG1111 Technical and Communicative English 50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.5 Unit, 2 credits, 3 periods/ week, Lectures: 33, Exam. Time: 3 hours

Section-A

1. Grammar: Grammatical principles, modals, phrases & idioms, prefixes &

suffixes, sentence structures, wh & yes/ no questions, conditional sentences.

2. Vocabulary: Technical & scientific vocabulary, defining terms.

3. Spoken English: Introduction to phonetic symbols, dialogue, responding to

particular situations, extempore speech.

Section-B

1. Reading: Comprehension of technical & non-technical materials-skimming,

scanning, inferring & responding to context.

2. Technical Writing: Paragraph & composition writing on scientific & other

themes, report writing, research paper writing, library references.

3. Professional communication: Business commercial correspondence letter,

job application, memos, quotations, tender notice, amplification, description,

technical report writing, standard forms of term papers, thesis etc.

Books Recommended:

1. John M. Lennon : Technical Writing

2.A.J. Thomson and A.V.

Martinet

: A Practical English Grammar

3. A. Ashley : Oxford Handbook of Commercial

Correspondence

4. J. Swales : Writing Scientific English

5. Robert J. Dixson : Complete Course in English

6. Rajendra Pal & J. S. Korlahalli : Essentials of Business

Communications.

MATH1111 Algebra, Trigonometry and Vector Analysis 75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.75Unit, 3 credits, 5periods/week, Lectures: 55, Exam. Time: 4 hours

Section-A

1. Algebra of sets, De Morgan's rule, Relation & Function. Determinants:

Properties and Cramer's rule.

2. Theory of Equations: Theorem, and relation between roots and coefficients.

Solution of cubic equations.

3. De Moivre's theorem. Deduction from De Moivre's theorem.

Section-B

4. Functions of complex arguments. Gregory's series. Summation of series.

Hyperbolic functions.

5. Vector Addition, Multiplication & Differentiation.

6. a. Definitions of line, Surface and Volume Integral, Gradient of Scalar Function,

Divergence and Curl of Vector function.

b. Physical Significance of Gradient, Divergence and Curl. Integral forms of

Gradient, Divergence and Curl, Divergence theorem, Stoke‟s theorem,

Green‟s theorem, Gauss‟s theorem and their application in engineering

Books Recommended:

Text Books:

1. H. S. Hall and S.R. Knight : Higher Algebra

2. B. C. Das and B.N.Mukherjee : Higher Trigonometry

3. M. R. Spiezel : Vector Analysis

Reference Books:

1. Barnside and Panton :Theory of Equations

2. Barnside and Child : Higher Algebra

3. M. A. Sattar : Higher Trigonometry

4. M. A. Sattar : Vector Analysis

Page 9 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 CHEM1111 Physical and Inorganic Chemistry

75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.75Unit, 3 credits, 5periods/week, Lectures: 55, Exam. Time: 4 hours

Section-A

1 Electrochemistry to APEE 1111 (10 Lectures): Conductors, Electrolytes and

Electrolysis; Faradays Laws of Electrolysis and their significance. Ohm‟s law

and electrolytic conductances; Theories for electrolytic conductance ( Arrhenius

& Debye-Hükel). SHOULD MOVE TO APEE1111 Ionic mobility,

Kohlrausch‟s law, Tranference Number and its determination; Activities,

activity coefficient and Debye-Hükel limiting law. Electrochemical

cells(Electrolytic and Galvanic/Voltaic):Electrode reaction and potentials.

Reference electrodes; Reversible and concentration cells,Storage Batteries(or

accumulators). CHA

2 Chemical Equilibrium and Kinetics (10 lectures): Equilibrium and

Equilibrium constants, Kc, Kp, Kx. Rate of reaction and rate constants; Le

Chatelier principle and its application. Order and molecularity of a reaction;

integrated rate expressions & half- lives of zeroeth, first and second order

reactions. Determination of order & temperature dependence of a reaction;

energy of activation and Arrhenius equation. Transition-state theory of reaction

rates. Characteristics of catalysis, promoters and inhibitors.

3 Surface Chemistry and Colloids (10 lectures): Adsorption and sorption;

Characteristics of physical and chemical adsorptions. Fruendlich, Langmuir and

Gibb‟s Adsorption isotherms; The BET equation. Crystalloids, Colloids and

their classification, preparation, properties (kinetic, colligative, optical &

electrical) and importance,=. Original pf charge and stability of colloids (sols),

Gold number; colloidal electrolytes. Elementary idea about emulsions and gels.

Section-B

1. Atomic structure and Periodic Table (10 lectures): Modern concept of atomic

structure and Periodic Table; related principles and Laws. Constitution and

Periodic properties of elements (ionization potential, electronigativety, electron

affinity, atomic and ionic radii). Grouping of elements, their properties and uses.

Isotopes and radioactivity.

2. Electronic Theory of Valency and Chemical Bonding (8 lectures): Different

types of bonds (ionic, covalent, co-ordinate, hydrogen and metallic)

Classification of solids on the basis of bonding and their properties. Atomic

orbitals and their hybridization; valency bond and Molecular orbital theories.

3. Chemistry of Transition Elements, Lanthanides and Actinides (7 lectures):

Definitions, electronic configurations, preparations (nuclear transformations),

general properties and uses.

Recommended Books:

Text Books:

1. R. D. Madan : Modern Inorganic Chemistry

2. M.M. Haque and M.A. Nawab : Principles of Physical Chemistry

3. E.S Gilreath : Fundamental Concepts in Inorganic Chemistry.

Reference Books:

1. G.M. Barrow : Physical Chemistry

2. W.J.Moore : Physical Chemistry

3. K.J. Laidler and J.H. Meiser : Physical Chemistry

4. S.R. Palit : Elementary Physical Chemistry

5. S. Z. Haider : Modern Inorganic Chemistry

6. Companion : Chemical Bonding

7. Cotton, Wilkinson & Jones : Basic Inorganic Chemistry

8. D. K. Sebera : Electronic Structure and Chemical Bonding

APEE1111 Basic Electrical Engineering 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

1Unit, 4 credits, 6periods/week, Lectures: 66, Exam. Time: 4 hours

Section-A

1. Electrostatics and Steady Electric Current: Gauss's Law and its application,

Electric field in dielectric media, Energy in an electrostatic field, Concept of

electric current; Current density; Resistivity and Conductivity; Electrostatic

force, Electromotive force.

2. Networks Analysis: Kirchhoff's laws; Wheatstone bridge, Superposition

theorem; Millman‟s theorem; Reciprocity theorem, Thevenin's theorem,

Norton's theorem, Maximum power transfer theorem, Mesh and Node circuit

analysis, Reduction of complicated networks, T and -section network.

3. Transient Current: Circuit elements, Transients in RC, RL and RLC circuits,

Steady state sinusoidal analysis, Phasor diagrams, and polyphase circuit.

4. Chemical Effects of Current: Faraday's law's of electrolysis, Applications:

Storage cells, Charging system, Electroplating.

Page 10 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Section-B

5. Magnetic Field and Its Interaction: Magnetic induction, Magnetic force on a

charge, Lorentz force, and its application in CRT, Magnetic field of a current,

Torque on a current Loop, Moving coil galvanometer, Biot-Savart law and its

applications, Ampere's law, Measurement of electrical quantities; Ammeter,

Voltmeter, Wattmeter & other meters.

6. Electromagnetic Induction: Faraday's law of electromagnetic induction, Lenz's

law, Induced current and voltage, Self inductance and mutual inductance,

Inductor, Ideal transformer, Energy stored in a magnetic field. Solving

electromagnetic circuit.

7. Alternating Current: General AC theory; AC power, Average and RMS value

of AC voltage and current, Use of complex quantities in AC circuits, Resonant

circuits, Q-value and bandwidth.

8. Thermoelectricity: Thermal electromotive forces, Seebeck effect and Peltier

effect, Laws of addition of thermal electromotive forces, Thermoelectric

equations and power, Practical thermocouple, Illumination laws, Various kinds

of lamp.

Books Recommended.

Text Books:

1. R. Resnick and D. Halliday : Physics, Part-II

2. B. Grob : Basic Electronics.

3. B. L. Theraza : Electrical Technology

4. A .R. Rafiqullah , A. K Roy

& M.S Huq

: Concepts of Electricity and Magnetism

Reference Books:

1. Arthur Kip : Fundamentals of Electricity and

Magnetism.

2. J. D. Ryder : Networks, Lines and Fields

3. J. A. Edminister : Electric Circuits.

APEE1121 Heat Engineering 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section-A

1. First law of Thermodynamics: Thermodynamic systems; The first law of

thermodynamics, Heat capacity, Specific heat capacity, Consequences of first

Law, Energy equation, Internal energy of gases.

2. Second law of Thermodynamics: The second law of thermodynamics & its

consequences, Entropy, Combined first law and second law.

3. Kinetic Theory of Gases: Introduction, Basic assumption, Collisions with the

walls, Equation of state of an ideal gas, Collisions with a moving wall, The

Clausius equation of state, The van der Waals equation of state

4. Statistical Mechanics: Statistical distributions, Quantum statistics, Maxwell-

Boltzmann statistics, Fermi-Dirac statistics, Bose-Eienstein statistics.

Section-B

1. Thermal Radiation: Kirchoff's law, Black body radiation, Stefan's law, Wien's

displacement law, Rayleigh-Jean‟s law, Plank's radiation law, Experimental

verification and its comparison with others.

2. Refrigeration: Principles of refrigeration, Types of refrigeration system, Load

calculation, Uses and application in industry.

3. Air-conditioning: Principles of air-conditioning, Types of air-conditioning

system, Load calculation, Applications.

4. Vacuum Technique: Production of vacuum, Exhaust pump, Rotary pump,

Vapour pump, Ion pump, Measurement of vacuum and Vacuum gauges, Vacuum

leaks, their detection, and their reducing & measures.

Books Recommended

Text Books:

1. F. W. Sears & G.L. Salinger

: Thermodynamics, Kinetic Theory

and Statistical Thermodynamics.

2. A. Beiser : Concepts of Modern Physics

3 N.C. Harris & E.M.Hemmerling : Introductory Applied Physics

4. A. Guthrie : Vacuum Technology.

5. J. Yarwood : Introduction to High Vacuum.

6. S. Dushman : Vacuum Technique.

Page 11 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Reference Books:

1. F. W. Sears : Thrmodynamics.

2. D. Elwell & A.J. Pointon : Classical Thermodynamics

3. R.C. Jordan & G. B. Priester : Refrigeratair & Air Conditioning.

4. R. J. Dossat : Principle of Refrigeration.

5. W.H.Severns and J.R. Fellows : Airconditioning and Refrigeration.

APEE 1172 Engineering Drawing 25 Marks [60% Practical & Report, 30% Viva Voce, 10% Class Attendance]

0.25 Unit, 1 credit, 3periods/week

Introduction Orthographic projections: Scale drawing, Sectional view, Top and

Side view Isometric views. Missing line, Auxiliary view, Pictorial views.

Drawing standards and practices: Interpenetrating of surfaces, Development of

surfaces, Machine drawings, Technical sketching.

Introduction to computer aided design (CAD):.Project on Engineering Drawing

and CAD using Contemporary packages in engineering drawing.

Books Recommended:

1.Frede Rick E Giesecke, Alva Mitchell,

Henry C. Spencer, Ivan L. Hill, Robert O.

Loving and John Thomas Dygdon

: Engineering Graphics 3rd

Edition

2. Frank Zozzora : Engineering Drawing 2nd

Edition

Part-I: Even Semester ( Exam 2012)

ECON 1211 Economics 50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.5 Unit, 2 credits, 3periods/week, Lectures: 33, Exam. Time: 3 hours

Section-A

1. Basic Concepts of Economics: Definition and subject matter of Economics;

Microeconomics vs macroeconomics; Law of Economics; Central economic

problems of every society; Different economic systems; Economics and

Engineering.

2. Theory of Demand, Supply and Consumer Behavior: Law of Demand;

Demand schedule and demand curve; Supply law, supply schedule and

supply curve; Shift in demand and supply; Equilibrium in the market;

Elasticity of demand and supply; Marshallian utility analysis; Total and

marginal utility; Law of diminishing marginal utility; Law of equi-marginal

utility.

3. Theory of Production and Costs: Meaning of production; factors of

production; Production possibility frontier; Law of variable proportion;

Returns to scale; isoquants; Concepts of total, average and marginal costs,

fixed and variable costs; Isocost curve; Least cost combinations of factors.

4. Theory of the Firm: Perfect competition and monopoly; Total, average and

marginal revenue of a firm; Average and marginal revenue under perfect

competition and monopoly; Firm‟s Equilibrium; Equilibrium of firm under

perfect competition and monopoly.

Section-B

5. Linear Programming and Input-Output Analysis: Meaning of linear

programming; Its components; duality of a problem in linear programming;

graphical, feasible and optimal solutions; The simplex method; Meaning of

input-output analysis; Input-output analysis model; balance equation;

coefficient matrix; Determination of final demand vector.

6. Basic Concepts of Macroeconomics: Growth; Unemployment; Inflation;

Philips Curve, Business cycle; Circular flow of economics; Two, three and

four sector economics.

7. National Income accounting and determination: Concepts of GNP, GDP

and national income; Methods of national income accounting; problems of

national income accounting; Keynesian model of national income

determination; The multiplier; Effect of fiscal policy in the Keynesian model.

Page 12 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 8. Development Planning in Bangladesh: Need for planning in Bangladesh;

Various five year plans in Bangladesh; Development strategies in the five

year plans of Bangladesh.

Books Recommended.

1. Semuelson and Nordhous : Economics

2. Byrons and Stone : Economics

3. Dewett, K. K. : Modern Economic Theory

4. Ahuja, H. L : Advanced Economic Theory

5. Government of Bangladesh : Various Five Year Plans

MATH1211 Differential and Integral Calculus 75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.75Unit, 3 credits, 5 periods/week, Lectures: 55, Exam. Time: 4 hours

Section-A

1. Functions: Domain, Range, Inverse function and graphs of functions, Limits,

Continuity, Indeterminate form.

2. Ordinary Differentiation: Differentiability, Differentiation, Successive

differentiation and Leibnitz theorem.

3. a. Expansions of functions: Rolle's theorem, Mean value theorem, Taylor's and

Maclaurin's formulae.

b. Maximum and minimum of functions of one variable.

4. a. Partial Differentiation: Euler's theorem, Tangents and normal.

b. Asymptotes.

Section-B

5. Indefinite Integrals: Method of substitution, Integration by parts, Special

trigonometric functions and rational fractions.

6. Definite Integrals: Fundamental theorem, General properties, Evaluations of

definite integrals and reduction formulas.

7. Multiple Integrals: Determination of lengths, Areas and Volumes.

Books Recommended.

Text Books: 1. B.C. Das and B.N.Mukherjee : Differential Calculus

2. B.C.Das and B.N. Mukherjee : Integral Calculus

Reference Books:

1. F. Ayres : Calculus

2. Joseph Edwards : Differential Calculus

3. Benjamin Williamson : Integral Calculus

4. Muhammad and Bhattacherjee : Differential Calculus

5. Muhammad and Bhattacherjee : Integral Calculus

STAT 1211 Statistics for Engineers 50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.5 Unit, 2 credits, 3 periods/week, Lectures: 33, Exam. Time: 3 hours

Section-A

1. Analysis of statistical data: Location, Dispersion and their measures,

Skewness, Kurtosis and their measures, Moment and Cumulants and Practical

examples.

2. Probability: Concept of probability, Sample Space, Events union and

Intersection of Events. Probability of events, Loss of probability, Conditional

probabilities. Bay‟s Theorem, Chebysec‟s Inequality and Practical examples.

3. Random variables and probability Distribution: Basic concepts, Discrete

and continuous random variables, Density and distributional functions,

Mathematical expectation and variance, Joint marginal and conditional

density functions. Conditional Expectation and conditional variance.

Moments and Cumulant generating functions. Characteristic function. Study

of Binomial Poisson, Normal and Bivariate Normal distribution and Practical

examples.

Section-B

4. Linear Regression: Correlation, Rank correlation. Partial and Multiple

correlations Linear Regression for two Variables, Principle of Least Squares

Method, Lines of best fit, Residual Analysis and examples.

5. Test of Significance: Basic ideas of Null hypothesis, Alternative hypothesis,

Type-I error Type-II error level of significance Degree of freedom, Rejection

region and Acceptance region. Test of Single mean, Single variance, Two

sample means and Variances. Test for 2×2 contingency tables, Independence test

and practical examples. application in quality control, failure pattern,

depreciation calculation.

http://www.amazon.com/s/ref=ntt_athr_dp_sr_1?_encoding=UTF8&sort=relevancerank&search-alias=books&field-author=Benjamin%20Williamson

Page 13 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Books Recommended.

Text Books:

1. P.G.Hoel. : Introductory Statistics

2. S.G. Gupta : Fundamentals of Statistics

Reference Books:

1. A. J. B. Anderson. : Interpreting Data.

2. H. Cramer : The Elements of Probability Theory.

3. D. V. Lindley : Introduction to Probability and Statistics

4. S. Lipschutz. : Probability

5. Mosteller, Rourke

& Thomas

: Probability with Statistical Applications

6. F. L.Wolf. : Elements of Probability and Statistics

7. T. H. Wonnacot &

R.J.Wonnacot

: Introductory Statistics

8. Yule & M. G. Kendall. : An Introduction to the Theory of Statistics

PHY1211 Applied Mechanics and Optics 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

1.0 Unit, 4 credits, 6 periods/week, Lectures: 66, Exam. Time: 4 hours

Section-A

1. Motion of Particles: Linear motion of a body as function of time, Position and

velocity, Rotational motion, Relation between linear and angular kinematics, Fly

wheel; Collision problem; Simple harmonic motion and its application,

Compound pendulum, Damped harmonic motion, Forced oscillation and

Resonance. Conservation laws in general, Conservative forces, Non

conservative force, Laws of conservation of momentum, Motion of the center of

mass, Collision, System of variable mass.

2. Waves: Types of waves, Equation of Waves, Velocity and Energy, Complex

waves, Standing waves and resonance, Beats, Sound waves, the Doppler effect.

3. Gravitation: Newton's laws of gravitation, Gravitational fields and potentials,

Relation between them, Special cases of attraction and potential, Escape

velocity, Kepllar's Law.

4. Elasticity & Fluid Mechanics: Hooke's Law, Different types of elastic

constants and their relations, Cantilever. Surface tension and its measurements,

Equation of continuity, Bernoulli's theorem, Viscosity, Effects of temperature &

pressure on viscous fluid.

Section-B

5. Interference: Huygen‟s principle, Interference phenomenon, Young's

experiment, Michaelson interferometer, Interference involving multiple

reflections, Newton's rings, Holography.

6. Diffraction: Fraunhoffer and Fresnel diffraction, Diffraction by single slit;

Diffraction gratings and its resolving power. OPTICAL FIBER

7. Polarization: Polarization of light; Different types of polarized light, Production

of plane polarized light, Brewster's Law, Nicol prism, Optical activity; Specific

and molecular rotation; Different types of optical instruments, Polarimeter.

8. Electro-magneto Optics: Zeeman Effect, Faraday effect, Cotton-Mouton effect,

Kerr Magneto-optic effect, Kerr electro-optic effect.

Books Recommended.

Text Books:

1. F.W. Constant : Theoretical Physics

2. S. D. Mathur : Mechanics

3. R.A. Jenkins and H.E. White : Fundamental of Optics

4. Subrahmanyam & Brij Lal : A Text Book of Optics

Reference Books:

1. F.A. Newman and V.H.L. Searle : The General properties of Matter.

2. R. Resnik and D. Halliday : Physics Part-I and II

3. Champion and Davy : Properties of matter.

4. Morgan : Introduction to Geometrical &

Physical Optics.

5. B.Rossi : Optics.

6. R. N. Ghose : Physical Optics

7. Johnson : Optics and Optical Instruments.

8. Jacobs : Fundamentals of Optical

Engineers

9. B. K. Mathur : Principle of Optics.

10. . . ,

. . , . .

:

Page 14 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 APEE1211 Basic Electronics


1Unit, 4 credits, 6 periods/week, Lectures: 66, Exam. Time: 4 hours

Section-A

1. Introduction to Semiconductors: Energy bands in solids, Valence and

Conduction band, Classification of solids in terms of energy bands, Work

function, Electron emission. Intrinsic and Extrinsic semiconductors, N and P-

type semiconductors, PN junction, Variation of Potential barrier under forward

and reverse biasing.

2. Semiconductor Diodes: PN junction diodes and their V-I characteristics; Zener

diode; Tunnel diode, Varactor diode; Thermistor, Photodiode and LDR;

Transition & Diffusion capacity.

3. Diode Circuits: Ideal rectifier concept; Half wave and Full wave rectifiers;

Filters; Voltage regulators; Voltage doubler, Clippers, Clampers.

4. Bipolar Transistors: Working principle of PNP and NPN transistor, Transistor

as an amplifier, Common-base, Common-emitter and Common Collector

Configurations, Input and output characteristics of CB, CE, and CC transistor

connections, Load line analysis, Operating point. Performance of transistor

operation, Cutoff and Saturation points.

Section-B

5. Transistor Biasing & Stability: Faithful amplification, Biasing, Stabilization,

Stability factor; Methods of transistor biasing, Design of transistor biasing

circuits, Bias compensation.

6. Single Stage Transistor Amplifiers: Graphical demonstration of a Transistor,

amplifier Practical circuit of a transistor amplifier, Phase reversal, D.C and A.C

equivalent circuits, Load line analysis (D.C and A.C), Voltage gain, Current

gain, Power gain, Classification of amplifiers.

7. Multistage Transistor Amplifiers: Cascading CE stage, Frequency response,

Bandwidth, R-C coupled transistor amplifier, Transformer coupled amplifier,

Direct-coupled amplifier.

8. Small Signal Analysis: Low Frequency Amplifiers: Transistor equivalent

circuits; Hybrid parameters; Analysis of Common emitter, Common base and

Common collector amplifiers using h-Parameters, Common emitter amplifier

with emitter resistor.

Books Recommended.

Text Books:

1. A. P. Malvino : Electronic principles.

2 Robert Boylsted & Louis

: Electronics Devices and Circuits.

Reference Books:

1. B. Grob : Basic Electronics

2. D. A. Bell : Electronic devices and circuits

3. J.J. Millman & C. C. Halkias : Electronics Devices and Circuits

4. Donald A. Neamen : Semiconductor physics and Devies

5. :

Part-II: Odd Semester (Exam 2013)

ACCO2111 Management & Accountancy 50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

0.5 Unit, 2 credits, 3 periods/ week, Lectures: 33, Exam. Time: 3 hours

Section-A

1. Industry: Types of Industry, Commerce – Hindrance removed by

Commerce, Business Environment.

2. Sole Proprietorships: Features, Advantages, Disadvantages of Sole

Proprietorship, Sustainability of Sole proprietorships.

3. Partnership: Features, Advantages, Disadvantages, the Partnership Contract.

4. Joint Stock Company: Characteristics, Advantages, Disadvantages, Types,

Comparison between Public and Private Ltd Company and Formation of

company.

Page 15 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 5. Fundamentals of Management: What is management? Management

Function, Levels of Management, Management roles, Core Management

skills, Principles of Management.

6. Organizing the Business: Formal and Informal Organization, Centralisation

and Decentralization, Principles of Organizing, Functional Structure, Product

Structure, Terrestrial Structure, Matrix Structure, Multiple Structure.

Section-B

7. Accountings: History, Scope and Nature of Accounting, Information and

Uses

8. Transaction: Meaning and Features, Double entry System, Characteristics,

Account – Meaning, Classification, Rules for Determining Debit and Credit,

Accounting. Equation, Accounting cycle.

9. Journal: Meaning, Features, Necessity, Types, Practical Problems.

10. Ledger: Definition, Advantages, Classification, Rules, Practical Problems.

11. Cash book: Features, Advantages, Double and Triple Column Cash Book,

Discount.

12. Trial Balance: Meaning, Characteristics, Objects, Practical

problems,Preparation of Financial Statements.

Books Recommended.

Text Books:

1. M. C. Shukla : Business organization and management

2. Harold Koontz and Heinz

Weihrich

: Management

3. Weygandt, Kimmel and

Kieso

: Accounting Principles

4. Basu and Das : Practice in Accountancy

Reference Books:

1. Khan and Arif : Essential of Business Organization and

Management

2. May and Baker : Introduction to Business

3. W. H. Newman : Administrative Action

4. Ricky W. Griffin : Management

5. Hermanson and Associates : Accounting Principles

6. Acquilano, Chase and Davis : Fundamental of Operations Management

MATH2111 Matrices and Differential Equations 75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section-A

1. Algebra of Matrices: Adjoint, Inverse and rank of matrix-definition,

Properties and evaluation.

2. Elementary Transformations: Echelon: Canonical and normal forms,

Solution of system of linear equations, Consistency and solution of

homogeneous and nonhomogeneous systems by matrix method, and

reduction to equivalent system.

3. Characteristic Equation: Eigenvalues, Eigenvectors and Caley-Hamilton

theorem, Similar matrices and diagonalization.

Section-B

4. Solutions of first order and first degree and first-order and higher degree equations

with variable coefficients.

5. Solution of Higher-Order linear differential equations.

6. Differential Equations: Series solution of linear differential equation, Series

solution of second order equation with variable coefficients, Solutions of partial

differential equation, Lap lace‟s equation, Poisson's equation, Helmholtz's

equation, Diffusion equation, Green's function solution, Integral equation.


Text Books:

1. M. L. Khanna : Matrices

2 .S. L. Ross : Introduction of Ordinary Differential Equations

Reference Books:

1 F. Ayres : Theory and problems of Matrices.

2. Moduffe : Theory of Matrices

3. F. Ayres : Differential Equations

4. B. D. Sharma : Differential Equations

5. L. Pipes : Applied Mathematics For Engineers and Physicist

6. I. S. Sokolnikoff &

R. M. Redheffer

: Mathematics For Physics and Modern Physics

PHY2111 Quantum Mechanics, Atomic & Nuclear Physics 75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section-A

1. Quantum Mechanics: Limitations of classical mechanics, Postulates of

quantum mechanics, Linear operators, Eigen values, Eigen functions, Time

dependent and time independent Schrodinger's equations, Particle in a box,

Reflection and transmission by a barrier, Tunnel effect.

2. Particle Properties of Waves: Photoelectric effect, Quantum theory of light, X-

rays, X-rays diffraction, Compton effect, Photons and gravity.

3. Wave Properties of Particles: De Broglie waves, Wave equations, Phase and

Group velocities, Uncertainty principle and applying the uncertainty principle.

4. Linear Harmonic Oscillator: The eigen values and eigen functions,

Annihilation and creation operators, Schrodinger equation of hydrogen atom,

The quantum number and selection rules, Radioactive transition and Zeeman

effect.

Section-B

5. Relativity: Postulates of special relativity, Time dilation, Doppler effect, Length

contraction, Twin paradox, Relativity of mass, Mass and energy, Massless

particles; Lorentz transformation, Velocity addition.

6. Atomic Physics: Rutherford model of the atom, Alpha-particle scattering

formula, Nuclear dimensions, Electron orbits, Atomic spectra, The Bohr atom,

The energy levels and spectra; Nuclear motion, Atomic excitation, The Pauli's

exclusion principle and its application.

7. Radioactivity: Nuclear composition, some nuclear properties, Stable nuclei,

Binding energy, Radioactive decay laws, Half life and Mean life, Radiometric

dating, Radioactive series, Artificial radioactivity, Radiation hazards, Different

types of decay.

8. Nuclear Reaction: Nuclear fission and fusion, Principles of nuclear fission

process, Characteristics of fission neutrons, Fission reactor, Thermonuclear

reaction, Nuclear fusion reaction, and Fusion reactor.

Books Recommended.

Text Books:

1. A. Beiser : Concepts of Modern Physics

2. N. Subrahmanyam & B. al : Atomic and Nuclear Physics

Reference Books:

1. C. W. Sherwin : Introduction to Quantum Mechanics

2. P. T. Methews : Introduction to Quantum Mechanics

3. K. Ziock : Basic Quantum Mechanics

4. H. Semont : Introduction to Atomic and Nuclear Physics

5. D. Halliday : Introduction to Nuclear Physics

6. C. M. H. Smith : A Text Book of Nuclear Physics

7. I. Kaplan : Nuclear physics

8. H. Goldstein : Classical Mechanics

Page 17 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 APEE2111 Electronic Devices and Circuits



Section-A

1. High-Frequency Response: High frequency model for CE amplifier, CE short

circuit current gain, High frequency current gain with resistive load, High

frequency response of cascaded CE stages, Transformer coupled amplifier,

Transistor noises.

2. Feedback: Concept of feedback: Negative feedback, Positive feedback,

Voltage feedback, Current feedback, Effect of feedback on impedance, Gain,

Bandwidth, Distortion & Stabilization.

3. Operational Amplifier: Difference amplifier, CMRR, Ideal operational

amplifier, Inverting amplifier, Non-inverting amplifier, General purpose IC

operational amplifier, Integrator, Differentiator, Linear and non-linear

applications of operational amplifier, Comparator and Converter.

4. Oscillators: Positive feedback, Condition of oscillation, RC phase shift

oscillator, Wein bridge oscillator, Resonant circuit oscillators, Crystal oscillator

and Waveform generators.

Section-B

5. Multivibrators: Introduction to the multivibrator, The bistable multivibrator,

The monostable multivibrator, The astable multivibrator and other forms of

multivibrator, Uses of multivibrator.

6. Power Amplifiers: Classification of power amplifiers, Collector efficiency,

Transformer coupled class A amplifier; Class-B push-pull amplifier, Class-C

amplifier, Tuned amplifier, class D, E & S amplifier.

7. Field-Effect Transistors (FET): Construction and classification, Principle of

operation, Characteristic curves, Channel conductivity, Channel ohmic and

pinch-off region, Characteristic parameters of the FET, Effect of temperature on

FET, Common source amplifier, Common drain amplifier, Classification of

MOSFET & UJT., CMOS

8. Optoelectronic Devices: PN photodiode, Phototransistor, Solar cell,

Photoconductive cell, Photovoltaic, Sensors, LED, LCD, Alphanumeric display,

Photo couplers, Photodiode, LDR.

Books Recommended.

Text Books:

1. V. Kumar and S.L.Gupta : Handbook of Electronics

2. J. Millman and C.C.Halkias : Electronic Devices and Circuits

Reference Books:

1. Allen Mottershead : Electronic Devices and Circuits

2. G. K. Mithal : Industrial Electronics.

3. L. Klein : Electronic Test Equipment

4. Faruqui & Maskara : Basic Electronics

5. W.D. Cooper : Electronic Instrumentation and

Measurement Technique

6. M.Cirovic : Basic Electronics & Devices

7. Donald A. Neamen : Semiconductor Physics and Devices

APEE2121 Operating System and Programming with C & C++ 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section-A

1. Principles of Operating System: History of the operating system, Operating

system concepts, Operating system structure, Introduction to process, Process

scheduling, Memory management, File system, Input/output and an introduction

to distributed operating system.

2. Hardware: Organization and architecture of PC, Motherboards and

microprocessor, Memory Unit, Primary and Secondary memory, I/O devices,

peripheral devices, BIOS, AT/XT, ISA, PCI bus architecture.

3. C Programming Fundamentals: Constants, Variables, Keywords, Data

types, C instructions, Hierarchy of operations, Programming structure of C.

4. Decision Making and Looping: If statements, If -else statements, Else if

statements, Nesting; While loop, For loop, Nesting of loop, The odd loops,

Break & Continue statements, Do-while loop, Case control structure.

Page 18 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Section-B

5. Arrays & Functions: One dimensional array, Two dimensional array; Array

initialization, C function and its structure, Passing values between functions,

Scope rules of function, Nesting and recursion of function, Call by value and

Call by reference, Passing array elements to a function.

6. String Operation: Strings, Declaring and initializing string variables, String

I/O operations, Standard library string functions, Two dimensional array of

characters, Array of pointers to string and its limitations, Concept of C

preprocessors, Structure need for structure, Declaring structure type, Array of

structure, Array within structure, Structure within structure, Structure and

functions, Structure I/O in C: Type of I/O; Console I/O, Disk I/O, File

opening and closing, I/O redirection in DOS.

7. Pointers: Introductions to pointers, Pointer notations, Array and pointers,

Function and pointers, Linked list and dynamic memory allocation.

8. Concepts of OOP: Traditional structured programming, Object oriented

programming, C++ terminology; Encapsulation, Class hierarchy, Constructor &

destructor, Operator overloading, Function overloading, Inheritance, Virtual

function & polymorphism, C++ I/O function.

Books Recommended.

Text Books:

1. H. L Capron & K.

Williams

: Computer & Data Processing,

The Benjamin Cumings Pub.86

2. Barry Shore : Introduction to Computer Information Systems.

3. Kerningham & Ritiche : Programming in C/C++

4. H. Schield : C/C++

The complete reference

Reference Books:

1. Charles S Parker : Computer and their Applications

2. R. M. Stair : Principles of Data Processing

Part-II: Even Semester (Exam 2013)

LAW2211 Law and Professional Ethics


0.5 Unit, 2 credits, 3periods/week, Lectures: 33, Exam. Time: 3 hours

Section-A

Law: Principle of law of contract, agency, partnership, sale of goods negotiable

instruments, insurance-

Company law: The companies act with special reference to the amendments and

ordinances applicable to Bangladesh. Law regarding formation, Incorporation,

Management and winding up of companies.

Labor Law: The scope and sources of labor law. Law in relation to wages, hours,

health, safety and other condition to work. The legislation effecting employment

in factories. The trade union legislation arbitration, the policy of the state in

relation to labor. Elementary principle of labor law. Cyber law, Industrial law etc.

Section-B

History and Development of Engineering Ethics: Study of Ethics in

Engineering. Applied Ethics in engineering. Human qualities of an engineer.

Obligation of an engineer to the clients and to other engineers. Measures to be

taken in order to improve the quality of engineering profession.

Ethical Expectations: Employers and Employees inter-professional relationship,

maintaining a commitment of Ethical standards. Desired characteristics of a

professional code. Institutionalization of Ethical conduct cyber law moral

thoughts.

Books Recommended.

Text Books:

1. A. K. Sen: A Hand Book of Commercial Law.

2. A. B.Siddique: The Law of Contract.

3. A. A. Khan: Labour and Industrial Law.

4. Emile Durkheim:Professional Ethics and Civics Morals.

5. J. D. Mabboth: An Introduction to Ethics.

Page 19 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Reference:

1. A. G. Maitra: Laws of Contract.

2. Coopers: Outline of Industrial Law.

3. A. Zulfiquar: A Text Book on the Bangladesh Labour Act-2006.

4. P. Narayanan: Intellectual Property Law.

5. The Patent and Design Act, 1911.

6. A. R. Khan: Business Ethics.

7. M. Radar: Ethics and the Auman Community.

8. G. E. Moore: Principia Ethicia.

MATH2211 Special Functions and Numerical Methods 75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section-A

1. Special Functions: Gamma and Beta functions, Bessel's equation, Bessel

functions of first and second and third kind; recurrence relations; Legendre's

differential equations and Legendre polynomials.

2. Hermite's differential equation, Hermite & Lagrange polynomials;

Hypergeometric function and its properties; Fourier series and Integral; Fourier

and Laplace Transform.

3. Matrix Algebra: Elementary operations of matrices; Necessity of

normalization. Zero diagonal elements and positioning of size, matrix inversion,

rank of matrix, consistency of a linear system of equations.

4. Solutions of Simultaneous Equation: Gauss-Jordan elimination method-Direct

method; Gauss-Seidel iterative method.

Section- B

5. Polynomial Interpolation: Errors in interpolation, The Lagrange polynomials;

Lagrange's interpolation formula for unequally spaced data.

6. Numerical Integration: Trapezoidal rules; Simpson's rule; Romberg's formula;

Legendre polynomials.

7. Solution of Partial Differential Equations: Introduction, Examples of Partial

differential equation, the approximation of derivatives of finite differences,

Parabolic Differential, equation, Derivation of the Elliptic Differences, Laplace

equation, Iterative Method, Successive Over-relaxation and Alternating and

Direction methods.

8. Computer program for solution of numerical methods: Programs for

Trapezoidal rules, Simpson‟s rule, Romberg‟s formula, Solution of equation by

Gauss- Jordan elimination method, Matrix inversion method.

Books Recommended.

Text Books:

1. S. S. Sastry : Methods of numerical Analysis

2. E. Balagurusamy : Numerical Methods

3. Rajput and Prakash : Mathematical Physics

4. Kuo : Computer Application of Numerical Methods

Reference Books:

1. I. S. Sokolnikoff & R. M.

Redheffer

:Mathematics for Physics and Modern

Engineering

2. Jeffreys and Jeffreys : Methods of Mathematical Physics

APEE2211 Electrical Machine, Transmission and Distribution

Systems and Filter 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. DC generators: Working principles of generator, Different types of DC

generators, General voltage equation and Commutation process, Characteristics

& Applications of DC generators.

2. DC Motors: Operating differences between motors and generators,

Classification of DC Motors, DC motors characteristics, Speed regulation, Uses

of DC motors.

Page 20 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 3. Alternators: Alternator construction, Rotor speed and frequency, Armature

windings, Different winding factors, EMF generation, Alternator on load,

Voltage regulation, Parallel operation of alternators, Maximum power output.

4. Transformers: Transformer principles, Different types of transformer,

Equivalent circuit of transformer, Tests of transformer, Voltage regulation,

Efficiency of transformer.

Section – B

5. AC Motors: Single and poly phase motor, Synchronous motors, Operation

characteristics of motors, Applications of motors, Other type of AC motors.

6. Impedance Transformation and Coupled Circuits: Transformation of

impedance, Image impedance, Equivalent T network for magnetically coupled

circuits, Bandwidth of insufficiently coupled circuits, Effect of over coupling,

Selectivity curves.

7. AC Power Transmission and Distribution: General layout of the system,

Power system and system networks, Systems of distribution, Effect of voltage on

transmission efficiency, Constants of transmission line, Reactance of single and

three-phase lines, Corona.

8. Filters: Properties of symmetrical networks, Characteristics impedance, Filter

fundamentals, Different types of filters, Constant - K and m - derived filters,

Design conditions & uses, Active Filters.

Books Recommended.

Text Books:

1. B. L. Theraza : Electrical Technology.

2. E. Huges : Electrical Technology

3. J. D. Ryder : Networks, Lines and Fields.

Reference Books:

1. H. Cotton : Advanced Electrical Technology

2. J. A. Edminister : Electric circuit

APEE2221 Digital Electronics 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section-A

1. Boolean Algebra and Electronic Logic Circuits: Boolean algebra, Postulates

of Boolean algebra, Boolean theorem, Number Systems, Positive and negative

number, 1's complement addition and 1's complement subtraction, 2's

complement addition and subtraction, Positive and negative BCD numbers,

Logic gates, Electronic logic gates applications, Logic family (DTL, RTL, TTL,

ECL, MOS ).

2. Minimization of Boolean Functions: Forms of Boolean functions, Shannon's

theorem, Minimization of Boolean functions using Karnaugh map, Quine

Mclusky method, Iterative consensus method, Implementation of switching

functions (Using various gates: NOR, NAND, AND - OR- INVERT).

3. Combinational Logic Circuits: Half adder, Full adder, CLA, Encoder,

Decoder, Multiplexer, Demultiplexer.

4. Introduction to Sequential Logic Circuits: Difference between combinational

circuits and sequential circuits, Flip-flops, Shift registers, Programmable Logic

Array (PLA).

Section-B

5. Analysis and Synthesis of Sequential Circuits: Basic models of sequential

machines, Equivalence and minimization, Analysis and synthesis of synchronous

and asynchronous sequential circuits, Shift operation, Binary multiplication,

Binary multiplier, and Binary division, Various types of Register.

6. Design of Sequential Circuits: Sequential machine flow chart, Reading reduced -

Dimension maps, Output- function synthesis, Next-state-Function synthesis, State

assignment, Counter design problems, Different types of counter.

7. Memories: Semiconductor memories, Magnetic core memories.

8. Digital Instrumentation: Digital to Analog converters, Analog to Digital

converters, Digital voltmeter, Frequency meter, Phase meter, and Digital display.


Text Books:

1. R. J. Tocci & N. S. Widmer : Digital Systems: Principles & Applications

2. Morris Mano : Digital Logic and Computer Design

3.V. K. Jain : Switching Theory & Digital Electronics

Reference books:

1. S. C. Lee : Digital Circuit & Logic Design

2. R. P. Jain : Modern Digital Electronics

APEE2272 Electrical Workshop

25 Marks [60% Practical & Report, 30% Viva Voce, 10% Class Attendance]1

credit, 0.25 Units. 3 periods/ week.

Electrician‟s tools, splices, soldering, code practices. Electrical and electronic

symbols, Safety rules, electricity rules and electricity codes. Electrical wiring

system design drawing and estimation for residential and commercial house

wiring and Industrial installation wiring. Transformer Construction, Grounding,

earth resistance measurement using earth resistance tester. Battery charging.

Books Recommended.

Text Books:

1. Md. Rafiqul Islam Basic Electricity

2.

Part-III: Odd Semester (Exam 2014)

APEE3111 Electromagnetic Theory & Antenna



Section – A

1. Field Equations: Field equations based on laws of Coulomb, Ampere and

Faraday; Displacement current, Maxwell's equations, Units and dimensions of

field vectors, E-H symmetry, Lorenz‟s lemma, Scalar and vector potentials,

Retarded potentials.

2. Propagation of Electromagnetic Waves: Wave equations, Plane Wave concept,

Plane electromagnetic waves in Free space, Conducting, Dielectric and Ionized

media.

3. Poynting Vector: Joule heating in good conductors, intrinsic impedance and

propagation constant.

4. Reflection and Refraction of Electromagnetic Waves: Boundary conditions,

The laws of reflection and Snell's law of refraction, Reflection from dielectrics

and conductors, Fresnel's equations, The Brewster angle, Total reflection, Skin

effect, Phase and group velocities, Reflection and refraction in the ionosphere.

Section – B

5. Wave Guides: Rectangular and cylindrical wave guides, Cavity resonators,

Microstrip lines and their characteristics, Microwave hybrid circuits,

Scattering parameters, Wave guide Tees, Directional couplers, Circulators and

Isolators, Phase shifter and attenuator.

6. Transmission Lines: Transmission line equations and parameters; Transmission

line configuration and formulae, Transmission line at radio frequency; Impedance

matching; Line termination, Smith chart, S. W. R. Q and band width, Balanced

and unbalanced feeder from transmitter to antenna, Transmission at audio

frequency; Distortion less line.

7. Antenna Fundamentals: Antenna Parameters, Dipole antenna, Current and

voltage distribution, Electrical length, Radiation resistance & patterns, Antenna

tuning and coupling, Hertz and Marconi antenna.

Page 22 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 8. Types of Antennas: Thin Linear Antenna, Antenna arrays; Broadcast tower

antenna, Yagi antenna, Turnstile antenna, Helical, Rhombic, Horn antenna and

their uses, Loop antenna, Parabolic, Periodic, Parasitic and Lens antenna. Design

and Applications.

Books Recommended.

Text Books:

1. D. R. Corson and P. Lorain : Introduction to Electromagnetic Field &

waves

2. J. D. Kraus : Antennas

3. S.L.Gupta and V. Kapur : Handbook of Electronics

Reference Books:

1. J.D. Ryder : Networks, Lines and Fields.

2. A. B. Brownell and

R. E. Beam

: Theory and Application for Microwave.

3. J.D. Jackson : Classical Electrodynamics.

4. G. Markov : Antennas

5. Laport : Antennas

6. J Reich : Microwave Principle

7. Y. Liao : Microwave Devices and Circuits Devices

8. J.D. Kraus : Electromagnetics

9. ,

: Zwor

APEE3121 Radio and TV Engineering 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Propagation of Radio Wave: Surface & space wave propagation, Sky wave

through ionosphere, Theory of Eccles and Larmer, Pulse method for measuring

height and electron concentration of ionospheric region, Chapman theory of

layer formation, Ionospheric storm, Frequency spectrum.

2. Broadcasting Transmitter: Different types of transmitter by power & waves,

Elements of transmitter stabilized master oscillator, Frequency multipliers,

Mixer exciters, R.F. power amplifier, AM & FM transmitter, Transmitter

performance, Carrier frequency stability, Audio frequency response. Distortion.

Signal to distortion ratio.

3. Radio Receiver: Receiver classification, T. R. F. and heterodyne receiver,

Principle of AM receiver, Superheterodyne receiver, AM demodulators,

Reception and preselection, FM receiver, FM reception, AFC circuit, Limiters,

Ratio detectors, Foster-Seely detector, Comparison of AM and FM receiver,

Noise in receiver, Noise limiting circuits. AGC circuits, Receiver sensitivity,

Cross modulation, Spurious response converters, Detector and modulation

circuits. Radio receiver servicing, Servicing transistor receiver, Receiver trouble

shootings.

4. Standard Broadcast Stations: Components of a broadcast system, The

broadcast console, Audio levels, Frequency monitoring, Modulation

monitors, Emergency broadcast systems, Disk recording, Playback records,

Microwave relay system, Cable relay system, Satellite relay system,

Broadcasting studio properties & design.

Section – B

5. Fundamentals of TV: Transmission and reception of picture information,

Scanning, Standard scanning pattern, Synchronization, Blanking pulses,

Composite video signal, Vestigial sideband transmission, Line of sight

transmission, TV channels.

6. TV Camera: Storage type camera tubes: Non-storage type camera tubes;

Iconoscope; Image orthicon, Vidicon, Plumbicon, CCD and CMOS camera,

Colour TV camera.

7. TV Transmitter & Receiver: Fundamentals of TV receiver, Picture tubes,

Deflection circuit, High voltage power supply, Folded dipole with directors and

reflectors for TV receiver, TV Transmitter and TV studio design, HDTV.

8. Colour TV: Definition of Colour TV, Types of colour video signals, Matrix

circuits, Colourplexed composite video signal, Fundamentals of colour TV

receiver, Colour picture tube, LCD and other flat panel TV receivers.

Books Recommended.

Text Books:

1.A.G. Mithal : Radio & TV Engineering

2. Robert L. Shrader : Electronic Communication

3. R. R. Gulati : Monochrome & Color Television

Page 23 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 4. Marcelo S. Alencar : Digital Television Systems

Reference Books:

1. S.L.Gupta and V.Kumar : Hand book of Electronics

2. Ghirardi and Johnson : Radio TV Rreceiver Circuitry and

Operation

3. K.R.Sturlen : Radio Receiver Design: Vol. 1 & II

4. K.R.Sturlen : Radio Transmitter and Receiver Design

5. Keith Henry : Radio Engineering Handbook

6. J.S. Millman and H. Taub : Pulse Digital and Switching Waveforms

7. B. Grob : Basic TV

8. A. Schure : Basic TV

9. Fowler and Liport : Television Fundamentals

APEE3131 Basic Solid State Physics and Material Science 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]

1 Unit, 4 credits, 6 periods/week, Lectures: 66, Exam. Time: 4 hours

Section – A

1. Crystal structure: Concept of Solid, Unit cell, Bravis lattice, Miller Indices,

Classification of crystals, Some simple crystal structure.

2. Elementary Diffraction Theory: Bragg‟s law, Laue equations, Atomic

scattering and structure factor, Determination of unit cell, Powder diffraction,

Scanning Electron Microscope (SEM), Diffraction and transmission microscope,

Neutron diffraction.

3. Crystal Binding: Types of bonding, Crystal of inert gases, Vander Waals-

London interaction, Repulsive interaction, Cohesive energy, Ionic crystal,

Electrostatic energy, Evaluation of Madelung constant, Covalent crystal, Metal

crystal, Hydrogen bonded crystal, Surface binding energy.

4. Crystal Growth: Semiconducting materials - Group IV, III-V and II - VI

compounds, Preparation of high purity semiconductor materials, Zone melting

and other purification techniques, Growth from the melt.

Section – B

5. Electrical Conduction in Metals: Electrons in field free crystal, Electron gas

approximation, Boltzmann transport equation, Mean free path, Temperature

dependence of resistivity; Matthiessen's rule; Structural dependence of

resistivity.

6. Conduction in Semiconductor: Semiconductors, Band model of

semiconductor, Intrinsic semiconductor, Extrinsic semiconductors, Drift

mobility, Diffusion constant, Minority carrier life time, Hall effect, Metal-

semiconductor contacts.

7. Mechanical Properties: Variations of Elastic modulii, Elastic deformation,

Viscous deformation, Plastic deformation, Annealing and crystallization, Fracture,

Mechanical testing, Tensile test, Compression test, Hardness test, Impact test,

Fatigue test, Creep and stress rupture, Non-destructive testing.

8. Multiphase Materials: Phase-equilibrium, One component system, Two -

component system, Eutectic, Phase change without compositional change,

Martensitic transformations, Nucleation of phase changes, Homogeneous

nucleation, Heterogeneous nucleation, Ceramics, Cement and concrete.

Books Recommended.

Text Books:

1. C. Kittel : Introduction to Solid State

Physics

2. J. C. Anderson, K. D. Leaver,

J. M. Alexander and R. D. Rawlings

: Materials Science

3. J. Mckelvy : Solid State & Semiconductors

Physics

Reference Books:

1. L.J.Azaroff and J.J. Brophy : Electronic Process in Materials

2. A.J. Dekker : Solid State Physics

3. L.H.Van Vlack : Elements of Materials Science

and Engineers

4. M.A. Wahab : Solid state Physics

5. C. M. Kachava : Solid State Physics

6. C. A. Wert and & R. M. Thomson : Physics of Solids

7. :

: :

:

Page 24 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 APEE3141 Non-Conventional Energy


0.5 Unit, 2 credits, 3 periods/week., Lectures: 33, Exam. Time: 3 hours

Section– A

1. Introduction: World energy, requirements and reserve; Source of non

Conventional energy, Solar radiation ; Solar constant; Solar geometry;

Azimuth; Declination; Day length; measurement of Solar radiation; Solar

collectors: Flat plate collectors; collector efficiency factor; heat removal

factor and flow rate factor.

2. Radiation characteristics and energy storage: Absorption; transmittance;

reflectance; selective surfaces. Types of energy storage; sensible heat storage;

latent heat storage.

Section– B

3. Solar Cells: Characteristics of a solar cell; Optimization of cell design; MIS

Solar cells, Amorphous silicon-material properties, Solar Pannels.

4. Other non-conventional energy: Biomass; source of biomass; wind power;

wind power system; transmission, generation and control; wind mill; water

power; tidal power.

Books Recommended.

1. G. D. Rai : Solar energy utilization

2. G. D. Rai : Non conventional source of energy

3. D. Rapp : Solar energy

4. J. A. Duffiee : Solar engineering of thermal process

5. M. A. Green : Solar Cell

6. B. S. Magal : Solar power engineering

7. Richard C. Neville : Solar energy conversion: The solar cell

8. Edward E. Anderson : Fundamental of Solar energy conversion

9. Fisk and Andersion : Introduction to Solar technology

APEE3172 Electronic Workshop 25 Marks [60% Practical & Report, 30% Viva Voce, 10% Class Attendance]

1credit, 0. 25 Units. 3periods/week.

Introduction to formal procedures of preventive maintenance, Circuit tracing,

Trouble shooting Fault repairing, Soldering and de-soldering of electronic circuits,

Design of PCB layout, Etching.

Fault finding & servicing: Radio & TV, CD/VCD player, Mobile phone,

Computer, etc.

Books Recommended.

Text Books:

1. Keith Mobley, Lindley Higgins

& Darrin Wikoff

: Maintenance Engineering

Handbook

2. Tim Williams : The Circuit Designer‟s Companion

(2nd

Ed.)

Reference Books:

1. Marcus & Levy : Elements of Radio Servicing

2. Mark I. Montrose : A Handbook for Designers

Part- III: Even Semester (Exam 2014)

APEE3211 IC Fabrication & Communication Electronics



Section – A

1. Manufacturing Wafers: Semiconductor Silicon Preparation, Crystalline

materials, Crystal orientation, Crystal growth, Crystal and wafer quality, Wafer

preparation, Wafer slicing, Wafer making, Rough polishing, Chemical

mechanical polishing (CMP), Backside processing, Double-sided processing,

Double-sided polishing, Edge grinding and polishing, Wafer evaluation,

Oxidation, Epitaxial layer on silicon wafer.

Page 25 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 2. Oxidation and Basic Patterning: Silicon dioxide layer uses, Thermal

oxidation mechanism, Thermal oxidation methods, Rapid thermal processing

(RTP), High-pressure oxidation, Oxidation processes, Postoxidation evaluation,

Anodic oxidation, Thermal nitridation. Overview of the photomasking process,

Ten step process, Basic photoresisit chemistry, Comparison of positive and

negative resists, Photomasking process, Surface preparation, Photoresist

spinning, Soft bake.

3. Doping and Deposition: Definition of a junction, Formation of doped region,

Formation of doped region and junction by diffusion, Diffusion process steps,

Deposition, Drive-in-oxidation, Introduction to ion implantation, Concept of ion

implantation, Ion implantation system. Chemical vapor deposition, CVD

process steps, CVD system types, Atmospheric pressure CVD systems,

LPCVD, PECVD, VPE, MBE, MOCVD, Deposited films, Deposited

semiconductors, Epitaxial silicon, Polysilicon and Amorphous silicon

deposition, SOS and SOI, Insulators, Dielectrics and Conductors.

4. Metallization and Packaging: Conductors-single level metallization,

Conductors-multilevel metal schemes, Conductors, Metal film uses, Deposition

methods, Vacuum pumps. Chip characteristics, Package functions and design,

Overview of packaging operations, Packaging processes, Package process

folows, Package/bare die strategies, Package design.

Section – B

5. Introduction to electronic communication: Importance of communications

in these days of computer emphasis, Elements & types of communications

systems, General applications, The electromagnetic spectrum, Bandwidth.

6. Amplitude Modulation and Amplitude Modulation Circuits: Amplitude

modulation principles, Modulation index & percentage of modulation,

Sidebands, Bandwidth and the frequency domain, Power distribution along

spectrum, Single-Sideband (SSB), Frequency conversion AM

modulators/demodulator, Balanced modulators, SSB circuits, Mixers &

Converters.

7. Frequency Modulation (FM) and Frequency Modulation Circuits: FM

principles, Phase Modulation, Sidebands/Bandwidth, Modulation index (FM),

FM vs AM, comparison of characteristics, Frequency Modulators, Phase-

locked-loop, frequency synthesis with crystal oscillator, Phase modulators,

Frequency demodulator.

8. Microwave devices: Gunn Diode, IMPATT Diode, TRAPATT Diode,

Klystron, Magnetron, TWT.

Books Recommended.

Text Books:

1. Peter Van Zant : Microchip Fabrication: A practical guide to

semiconductor processing

2. Louis Frenzel : Communication Electronics, 3rd Ed

3. R. G. Carter : Electromagnetic Waves: Microwave Components

and Devices

Reference Books:

1. S. M. Sze : VLSI Technology

2. Krauss : Solid State Radio Engineering

3. S M Sze and Kwok K Ng : Physics of Semiconductor Devices

APEE3221 Pulse and Switching Circuits 75Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Linear Wave Shaping: The high-pass and low pass RC circuits (Sinusoidal,

Step-voltage, Pulse, Square-wave, Exponential and ramp inputs), The high-pass

RC circuit as a differentiator, The low-pass RC circuit as an integrator,

Attenuator, RL circuits, RLC circuits, Ringing circuits.

2. Pulse Transformer: Pulse transformer applications, Transformer models,

Complete equivalent circuit, Rise-time response of a transformer, The flat top of

the pulse, Complete pulse response.

3. Circuits for Generating Linear Voltage Sweeps: Simple RC integrator, Linear

sweep generators using current source, The miller integrator, Improved miller

integrator, The bootstrap sweep generator, A practical bootstrap circuit.

4. Blocking- Oscillator Circuits: A triggered transistor blocking oscillator (base

timing and emitter-timing), An astable transistor blocking oscillator (Diode-

controlled and RC-controlled), Application of blocking oscillator.

Page 26 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Section – B

5. Negative-Resistance Device & Switching circuits: Negative -resistance and

trigger devices, Tunnel diode, SCR, UJT, Diac and Triac General characteristics

of negative resistance devices, Types of negative-resistance devices, Two

terminal and three terminal negative-resistance devices (NRD), A tunnel-diode

Astable oscillator, A unijunction oscillator and SCR power control. A simple

TRIAC full wave ac controller.

6. Synchronization and Frequency Division: Pulse synchronization of relaxation

devices; Frequency division in sweep circuit, Synchronization of blocking

oscillator (stable) and astable multivibrator, Monostable relaxation circuit as

divider, Stability of relaxation dividers, Synchronization of a sweep circuit with

symmetrical signal; Sine wave frequency division with sweep circuit, Sine wave

synchronization with sine wave astable multivibrator, Sinusoidal divider using

regeneration and modulation, The locked oscillator as a divider, Synchronization

of a sinusoidal oscillator with pulses.

7. Induction and Dielectric Heating: Principles and theory of induction heating;

Applications of induction heating, Principle of dielectric heating, Electrodes in

dielectric heating, Uses, Welding.

8. Electronic Control of Motors and Generators: Automatic speed regulation,

Controls of DC and AC motors, Synchronous motor control.

Books Recommended.

Text Books:

1. Jacob Millman and Herbert Taub : Pulse, digital and switching

waveforms

Reference Books:

1. G.K.Mithal and A.K.Vanwasi : Pulse and digital electronics

2. J. M.Pettit and M. M.McWhorter : Electronic switching timing and

pulse circuits

3. :

:

APEE3231 Instrumentation and Acoustic Engineering 50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Instruments & its static characteristics: Instrument systems, Functional

elements, Classification of instrument, Standards & calibration, Performance

parameters, Impedance loading & matching, Specifications of instruments,

Selection of instruments.

2. Dynamic characteristics: Formulation of system equations, Dynamic response,

Compensation, Transducer elements, Analog & digital transducers.

3. Amplifying, transmitting & recording elements: Amplifying elements, Data

transmission elements; indicating, recording, and displaying elements.

Section – B

4. Measuring Instruments: Spring-mass type seismic device, Elastic force device,

Torsion dynamometer, High & low pressure measurement, Electrical resistance

thermometer, Rate meter, Multimeter, Signal Generator, Oscilloscope, Flux

meter, Electrometer, Gauss Meter

5. Grounding and Cabling Techniques: Noise, methods of noise coupling and

eliminating interference, shielding of conductor, capacitive coupling, effect of

shield on capacitive coupling, inductive coupling, magnetic coupling,

shielding to prevent magnetic radiation, shielding a receiver against magnetic

field, and grounding.

6. Acoustic Instruments and architectural acoustic design: Microphones, Loud

speaker, Architectural elements, Measurement of reverberation time and its

correction, Reverberation theory and Optimum reverberation in auditorium,

Absorption of sound.

Books recommended.

Text Books:

1. B.C.Nakra & K.K. Choudhury : Instrumentation Measurement and

Analysis

2. A. K. Sawhney : Electrical and Elec. Measurement

and Instruments

3. J. L. Hunter : Applied Acoustics

Page 27 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Reference Books:

1. W. D. Cooper : Electronic Instrumentation and

Measurement Technique

2. S. Wolf & R. M. Smith : Student Reference Manual. : Student Reference Manual

3. C. S. Rangan, G. R.Sarma,

& V. S. Vmani

: Instrumentation devices and systems.

4. P. Crozier : Electronic Instrumentation and

measurements

5. C. L. Arora : Acoustics : Waves, Vibrations and Sound

APEE3241 Geophysics



Section – A

1. Introduction to Geophysics: Basic concepts of Geophysics and Geology,

Technological challenge of Geophysics, Review of Geophysical prospecting

methods, Use of Geophysics in hydrocarbon and mineral exploration.

2. Gravity Method: Gravitational field and potential, Newtonian potential,

Logarithmic potential, Potential field equations- Laplace‟s and Poisson's

equation, Derivatives of the potential, Instruments-Worden gravity meter,

Lacoaste-Romberg gravity meter, Field procedures, Data collection and

reduction, Isostasy,

3. Magnetic Method: Origin and elements of geomagnetic field, Magnetic

potential, Poisson's relation, Secular and diurnal variations, Magnetic storms,

Magnetism of rocks and minerals, Residual magnetism, Instruments-Proton

precision magnetometer, Optically pumped magnetometer, Flux gate

magnetometer, Squid magnetometer, Field procedures , Magnetic data collection

and reduction.

4. Seismic Method: Elastic constants of rocks, Seismic wave equations, Different

types of seismic wave, Propagation of seismic waves, Hygiene‟s principles,

Snell's law, Generation and detection of seismic waves, Geophones

arrangements, Reflection and refraction principles in layered media, Field

procedure, Data collection and reduction.

Section – B

5. Resistivity Method: Electrical properties of rocks and minerals, Conduction in

water bearing formation, Elementary theory of resistivity method, Potential

distribution in homogeneous media, Apparent resistivity, Current and potential

distribution across a boundary, Instruments, Electrode arrangements, Field

procedures and data collection, Electrical mapping and drilling.

6. Self-Potential Method: Different types of electric potential, Origin of self-

potential, S.P. field equipment, Field procedures, Data collection and

interpretation.

7. Induced Polarization Method: Induced polarization Effects, Membrane and

electrode polarization, Time-domain and frequency-domain measurements,

Metal factor, Instruments, Field Procedure, Data collection and interpretation.

8. Electromagnetic Method: Principles of Electromagnetic survey,

Electromagnetic field equations, Generation of Fields-primary and secondary,

Amplitude and phase relations, Elliptic polarization, Instruments, Loop

configurations, Types of EM field systems, Intensity measurement, Dip-angle

measurement and Phase component measurement.

Books Recommended.

Text Books:

1. W.M.Telford, L.P.Goldert,

R.E.Sheriff & D.A. Keys

: Applied Geophysics

2. M.B. Dobrin : Introduction to Geophysical

Prospecting

Reference Books:

1. D.S. Parasnis : The Principle of Applied Geophysics

2. Society of Exploration

Geophysicists

: Seismic Refraction Prospecting

3.F.S. Grant & G.F. West

: Interpretation Theory in Applied

Geophysics.


Part-IV: Odd Semester (Exam 2015)

APEE4111 Microprocessor and Microcontroller



Section – A 1. Introduction: Digital computers, Microcomputer organization and its operation,

Instruction execution, Evolution of microprocessor, Microprocessor Architecture

and Operation.

2. Memory Interface and I/O decoding: Memory map, Address decoding,

Memory interfacing to microprocessor, I/O mapped I/O, Memory mapped I/O,

interfacing I/O devices.

3. Interfacing Peripherals: Interfacing data converters (D/A & A/D), The 8255A

Programmable peripheral interface, Illustration: interfacing keyboard and seven

segment displays, The 8259A programmable interrupt controller, Direct memory

access (DMA) and the 8257 DMA controller, Basic concepts in serial I/O.

4. Microcomputer Systems: 8085 MPU: Internal architecture, clock circuitry;

address, data and control connections, Reset or restart, Bus timing; Interrupt

structure, DMA connection.

Section – B

5. 8086 Microprocessor: Introduction, architecture, PINS and Signal, bus cycle,

address and data bus concepts, memory interfacing, interrupt system, 8086

DMA. Introduction to other 86x family microprocessors.

6. Assembly Language Programming: 8085: Instruction classification and

format; Addressing modes with examples; programming examples. 8086:

addressing modes, instruction format, programming with assembler, Stack and

subroutine.

7. Microcontroller: Different types of microcontroller, Processor architecture,

microcontroller memory types, microcontroller features, 8051 microcontroller

architecture, 8051 addressing modes, 8051 hardware features, 8051

programming.

8. PIC microcontroller: PIC microcontroller features, PIC 16C6X/7X

microcontroller, architecture, memory organization, I/O ports, Interrupts, timers,

A/D I/O.

Books Recommended:

Text Books:

1. R. Gaonkar : Microprocessor Architecture, Programming &

Applications

2. M. Rafiquzzaman : Microprocessor and Microprocessor- Based System

Design.

3. Myke Predka : Programming and customizing 8051 microcontroller

4. Ajay V. Deshmukh : Microcontrollers [Theory and Applications]

Reference Books:

1. S. K Bose : Digital Systems from Gates to Microprocessors.

2. A. P. Mathur : Introduction to Microprocessors.

3. Douglas V. Hall Microprocessors and Interfacing, Revised Second Edition

4. Raj Kamal : The concepts and features of microcontroller

APEE4121 Telecommunication Engineering



Section – A

1. Switching System: Principles of common control, touch tone dial telephone,

Crosspoint technology, No. 1 ESS, Japanese D-10, Metaconta.

2. Signal Switching: Stored program control, Centralized SPC, Distributed

SPC, Software architecture, Application software, Enhanced services, Two-

stage network, Three-stage network, n-stage network.

3. Concepts of TDM: Basic time division space switching, Basic time division

time switching, Time multiplexed space switching, Time-multiplexed time

switching, Combination switching, Three-stage combination switching, n-

stage combination switching.

Page 29 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Section – B

4. Traffic Engineering: Network traffic load and parameters, Grade of service

and blocking probability, Modeling switching systems, Incoming traffic and

service time characterization, Blocking models and loss estimation, Delay

systems.

5. Telephone Networks: Subscriber loop systems, Switching hierarchy and

routing, Transmission plan, Transmission systems, Numbering plan,

Charging plan, Signaling techniques, Inchannel signaling, Common channel

signaling.

6. Cellular Mobile Telephone: Mobile telephone systems, Trunking efficiency,

Basic cellular system, Performance criteria, Mobile radio environment,

Operation of cellular systems, Planning a cellular systems, Analog and digital

cellular systems.

Books Recommended.

Text books:

1. N.N. Biswas : Principles of Telephony

2. M.T. Hills : Telecommunication Switching Principles

3. T. Viswanathan : Telecommunication Switching Systems and Networks

4. W.C.Y. Lee : Mobile Cellular Telecommunication

Reference books:

1.J.Y. Bryce : Using ISDN

2.J.C. Bellamy : Digital Telephony.

APEE4131 Solid State Physics 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section– A

1. Band Theory of Solids : Nearly free electron model, Origin of energy gap,

Bloch Functions, Bloch Theorem, Kronig-Penney model, Wave equation of

electron in a periodic potentials, Number of orbitals in a band, Fermi energy,

Fermi surface, Brillouin zones.

2. Lattice Vibrations: Vibrations of Lattices, Organization of lattice vibrations,

Phonon momentum, Lattice heat capacity, Thermal expansion and thermal

conductivity.

3. Dielectric Properties: Lorenz field, Different types of polarizibility, Dielectric

constant, Relaxation and dielectric losses, Piezoelectricity, Ferroelectricity, Ionic

conductivity and electric breakdown.

4. Insulating Materials: Organic polymer, Structure of polymer, Aging of

thermoplastics, Glassy polymer, Composite materials incorporating polymers,

Electrical properties, Conductive polymer, ceramic materials, Electromagnetic

behaviour of Ceramics, Mechanical behaviour of ceramics, Processing of

ceramic materials.

Section–B

5. Ferromagnetism and Antiferromagnetism: Curie point and exchange integral,

Temperature dependence of the saturation magnetization; Spin waves;

Quantization of spin waves; Ferromagnetic order; Curie temperature and

susceptibility of ferromagnets; Antiferromagnetic order; Ferromagnetic domain;

Anisotropy Energy; Origin of domains.

6. Superconductivity: Basic properties of superconductors; The critical field;

Meissner effect; Thermodynamics of super-conductors; London equation; BCS

theory of superconductivity; Quantum theory of superconductivity; Josephson

effect; Super-conducting magnet.

7. Defects & Dislocations: Classification of defects, Dislocations, Slips and plastic

deformation, Shear strength of single crystal, Burgers vector, Stress field of

dislocations, Low angle grain boundaries, Dislocation densities, Dislocation

multiplication, Dislocation and crystal growth.

8. Optical Phenomena in Solids: Colour of a crystal; Excitons; Weakly and

tightly bound excitons; Photoconductivity; Traps; Luminescence; Phosphors.

Books Recommended.

Text Books:

1. C. Kittel : Introduction to Solid State Physics.

2. A. J. Dekker : Solid State Physics

Reference books:

1. B. S. Saxena, R.C. Gupta

and P. N. Saxena : Fundamentals of Solid State Physics

2. V. Azarroff & J. J. Brophy : Electronic process in Materials.

Page 30 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 3. L. H. Van Vlack : Elements of Materials Science and

Engineers

4. J. C. Anderson, K. D. Leaver, J. M. Alexander

and R. D. Rawlings : Materials Science

5. Ali Omar : Elementary Solid State Physics

6. C. A. Wert and & R. M. Thomson : Physics of Solids

7. :

APEE4141 Applied Geophysics 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Interpretation of Gravity Anomalies: Characteristics of gravity anomalies for

bodies of simple geometric shape like sphere, Cylinder, Rod, Prism, Sheet;

Regional and residual gravity, Upward and downward continuation, Excess

mass, Overburden effect, Interpretation of gravity anomaly map.

2. Interpretation of Magnetic Data: Magnetic anomalies for bodies of simple

geometric shape like isolated pole, dipole, sphere, cylinder, prism, thin sheet,

dike; Smoothing of field data, Effect of demagnetization, Depth estimation,

Interpretation of magnetic anomaly map.

4. Seismic Data Processing and Interpretation: Fourier Transform,

Convolution, Correlation, Phase consideration, Frequency Filtering, Weiner

filter, Multichannel processing, Spectral analysis, Migration, Seismic

refraction and reflection interpretation.

4. Resistivity Data Interpretation: Conduction in homogeneous media, Laplace‟s

equation, Potential and current distribution in homogeneous and layered media,

Effect of anisotropic ground, Interpretation of profiling and sounding data,

Auxiliary method and direct methods.

Section – B

5. Electromagnetic Data Interpretation: Generation of electromagnetic field by

different loops, Combined effect of primary and secondary fields, Response

function, Dip angle and phase component measurements, Interpretation of

anomalies over sheet like conducting bodies.

6. Radioactivity Method: Principle of radioactivity, Spontaneous disintegration,

decay process, radioactivity of rocks and minerals, Detection of radioactivity,

Instruments, Field operation and interpretation.

7. Geophysical Well Logging: Formation properties and their evaluation,

Fundamentals of well logging, Resistivity logging, Self potential logging;

Gamma ray logging; Density logging; Neutron logging; Sonic logging, Well log

interpretation.

8. Ground Penetrating Radar: Basic principles, Propagation of radio waves,

Dielectric properties of earth materials, Data acquisition and processing,

Interpretation and applications.

Books Recommended.

Text Books:

1. W.M.Telford, L.P.Gelbert,

R.E. Sherff and D.A. Keys : Applied Geophysics

2. M.B.Dobrin : Introduction to Geophysical prospecting (3rd Ed)

Reference Books:

1.F.S. Grant & G.F. West : Interpretation Theory in Applied Geophysics.

2. D.S. Parasonic : The Principles of Applied Geophysics.

3. M. H. Worthington : Seismic Data Processing.

4. J. F. Claerbout : Fundamentals of Geophysical data processing.

5. J. M. Reynolds : An Introduction to Applied and Environmental

Geophysics

6. E. A. Robinson, T. S. Durrani

and L. G. Peardon : Geophysical Signal Physics

Page 31 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 APEE4192 Field Work

25 Marks [60% Practical & Report, 30% Viva Voce, 10% Class Attendance]

0.25 Unit, 1 credits, 2 weeks

Students will take 2 weeks in-plant training in an “Applied Physics and Electronic

Engineering” related industry or establishment. Student will be evaluated on the

basis of a report submitted by them after the completion of the training, oral

examination and the report from the concerned industry or establishment. This

training is to be organized during the inter-session break.

Part-IV: Even Semester (Exam 2015)

APEE4211 Communication Engineering 100 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Satellite Communication: Introduction, Satellite construction, Orbits,

Station keeping, Satellite altitude, Transmission path, Path loss, Noise

considerations, Satellite system, Saturation flux density, Effective isotropic

radiated power, Multiple access methods, Modulation schemes used in the

satellite links, FDMA, TDMA, CDMA and packet switched system, Satellite

classes, Low orbit satellites for mobile communication, Earth station, Satellite

link analysis.

2. Maser and Laser Communication: Basic principles of masers, Ammonia

maser, Solid state maser, Solid state laser, Semiconductor and gas laser;

Microwave transducer for laser communication, Application of maser and laser

in telecommunication and satellite communication, Microwave relay system.

3. Fiber Optic Communication: Introduction, Principle of light transmission in

a fiber, propagation of light in an optical fibre: ray model and wave model.

Losses in fibers, Dispersion, Light sources for fibers, Photo detector

connector and splices. Fiber optic link design, Power and rise time budget,

SNR and BER calculations, Introduction to coherent optical communication

WDM systems, Devices for coherent optical communication like directional

coupler, Optical amplifiers, Introduction to high speed long distance fiber

optic links.

4. Representation of Signals and System: Discrete time signals, Sequences,

Linear time invariant systems, Stability and Causality, Linear constant

coefficient, Difference Equations, Frequency and time domain, Fourier series

and Fourier transform, Discrete Fourier transform, Fast Fourier transform, Z-

transform, Convolution, Correlation, Autocorrelation.

Section – B

5. Digital Communication System: Pulse modulation systems, Base band pulse

Transmission, Digital pass band transmission, Digital modulation technique,

PSK, FSK, DPSK & QAM, M-array modulation techniques, spectrum of digital

signals, Digital carriers system, Sources of error in digital communication

systems, Error control coding, Nyquist sampling theorem, Quantization of

analog system, Quantization of noise PAM, PWM, PPM, PCM, LOGPCM,

TDM.

6. Digital Filter Design: Design of FIR digital filter, Window method, Park-

McClellan‟s method, Design of IIR Digital filters, :Butterworth, Chebyshev and

elliptic approximation, Low pass, Band pass, band stop and high pass filters.

7. Microwave Link: Microwave link and its advantage, Frequency assignment

and modulation methods, Transmitting and receiving equipment, Base band

repeater, IF repeater, Microwave carrier supply, Auxiliary channels.

8. Radar: Basic principle, Radar equation and range, Factors influencing

maximum range, Effect of noise, Power, Frequencies used in Radar, Types of

Radar, CW & FM radar; Doppler effect; MTI & Pulse radar; Duplexer radar

receiver; Indicator and timers; Altimeter and IFF equipment; Tracking radar

systems and search systems, SONAR, LORAN, ILS, GCA, Radar beacon.

Books Recommended.

Text Books:

1. J. Martin : Communication Satellite System

2. D. Raddy & Coolen : Electrical Communication

Reference Books:

1. L.J.Carte : Communication satellite.

2. J.S.Thorp : Masers and Lasers.

3. S.E.Miller & A.G. Chynoweth : Optical Fiber Telecommunication.

4. M. S. Roden : Analog and Digital Communication

System

5. M. I. Skolnik : Introduction to Radar System

6. Barnoski : Fundamentals of Optical Fiber

Communication

7. Chrin : An Introduction to Optical Fiber

Page 32 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 8. S. Haykin : Communication System

9. Oppenheim and Schaffer : Digital Signal Processing

10. J.C. Hancock : An Introduction to the Communication

Principles & Communication theory.

11. Rabiner & Gold : Theory & Application of Digital

Signal Processing.

12.. M. T. Hills : Telecommunication Switching

Principles.

13.. J. M. Senior : Optical Fiber Communication

14..J.G.Proakis and D.G.Monolakis : Digital Signal Processing

15. A.V Oppenheim and Schafer : Discrete Time Signal Processing

16. :

APEE4221 Computer Organization 50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Basic Structure of Computer: Computer types, Functional units, Basic

operational concepts, Bus structures, Performance, Multiprocessors and

Multicomputers, Historical perspective, Generations of Computers.

2. Basic Processing Unit: Addition/subtraction of signed numbers using logic

circuits, Multiplication of numbers, Booth algorithm, Fast multiplication,

Integer division, Floating point numbers and operatioMultiple-bus

organization, Hardwired control, Microprogrammed control, Pipelining: Basic

concepts, Pipelining performance, Data hazards and instruction hazards.

Section – B

3. Memory system: Basic concepts, Semiconductor RAM memories and

organizations, memory properties: Speed, Size, Cost etc., Virtual memories,

Main Memory allocation, Cache memories and its operation, Cache

replacement algorithms etc. Performance considerations, Segments, Pages and

Files, Secondary storage: Magnetic disk, Optical disk, Magnetic tape systems.

4. Input/output organization: Accessing I/O devices, Interrupts, Pentium

interrupt structure, DMA, Buses and bus arbitration, Interface circuits, Parallel

and serial interface circuits, Standard I/O interface like, PCI, SCSI, USB etc.

Books Recommended.

1. Carl Hamacher, Z.

Varnesic and S Zaky

: Computer Organization

2. J. P. Hayes : Computer Architecture and Organization

3. W. Stalling : Computer Organization & Architecture

APEE4231 Computer Networks & Data Communication 50 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Introduction: Uses of computer networks to computer communication

networks and layered architecture view, LAN, WAN, Packet switching and

fast packet switching, Reference models, The OSI reference model, The

TCP/IP reference model, A comparison of the OSI and TCP reference

models.

2. The Data Link Layer: Data link layer design issues, Elementary data link

protocols, An unrestricted simplex protocol, A simplex stop and wait

protocol, Sliding windows protocols, HDLC-High-level data link Control,

Data link layer in the internet, The data link later in ATM.

Section – B

3. The Network, Transport and Application Layers: The IP protocol, IP

address, Sub nets, Internet control protocols, Mobile IP, Routing algorithms.

Introduction to TCP, connectionless and connection oriented protocol, Flow

control in Transport layer, Network security, DNS-domain name system,

Electronic mail, FAX, The world wide web.

4. Multiple Access Protocols: ALOHA, Carrier Sense Multiple Access

(CSMA) protocols, Collision-free protocols, Limited contention protocols,

Wavelength division multiple access protocols, Wireless LAN protocols,

CSMA/CA, CSMD/CD: Persistent and non persistent algorithms, Ethernet

network, Different network devices: Hubs, Bridges, Switches,

Router/Gateway, Spanning tree.


Text Books:

1. A. S. Tannenbaum : Computer Networks

Reference Books:

1. Behrouz A. Forouza : Data Communications And Networking

2. J. F. Kurose K W Ross : Computer Networking

3. W. Stallings : Data and Computer Communication

4. R Rom and M. Sidi : Multiple Access Protocols

APEE4241 Biomedical & Analytical Instrumentation 75 Marks [70% Exam, 20% Quizzes/Class Tests, 10% Attendance]


Section – A

1. Physics of Human Body: The cell, Body fluid, Musculo-skeletal system,

Respiratory system, Nervous system, The circulatory system, The body as a

control system, The heart, Bioelectricity, Work done by heart, blood pressure

and its measurements, Membrane potentials, Electrical activity of excitable

cells, Molecular basis of muscle contraction, Basic electrical signals from the

muscles.

2. Interaction of Wave and Radiation with Human Body: Body‟s detector

and matter wave, speech noise, physiological effects of intense matter waves,

Interaction of electromagnetic radiation on living mater, penetration of ray‟s

into tissue. Biological effects of ionizing radiation: Dosimetry, primary

effects, Biophysical effects of whole body irradiation, radiation measurement

and protection.

3. Biopotentials Electrodes and Amplifiers: Biopotential electrode, Sensors,

Transducers and bioelectric amplifiers, Electromagnetic interference of

medical electronic equipment, ENG, EMG, ECG, ERG, EEG, MEG.

4. Ultrasonography: Physics of ultrasonic wave, Ultrasonic transducers,

Absorption and attenuation of ultrasound, Scan modes, scan pattern and

scanning systems, Doppler imaging, Echocardiography, Ultrasonic flow

meter, Ultrasonic blood pressure measurement.

Section – B

5. X-ray: X-ray production, X-ray image formation and contrast, Contrast

types, Effects of photon energy, Area contrast, Fluoroscopic imaging system,

computed tomography.

6. Magnetic Resonance Imaging: Nuclear magnetic resonance, Image

characteristics, Gamma camera.

7. Analytical and Medical Laboratory Instruments: Blood components,

Colorimeter, spectrophotometer, Blood cell counter, pH/Blood gas analyzer,

chromatograph, Auto analyzer, Atomic absorption and atomic emission

spectroscopy.

8. Therapeutic and Prosthetic Devices: Cardiac pacemaker, Hemodilysis,

Defibrillator, Surgical diathermy.

Books recommended.

Text Books:

1. C. J. Casey : Biophysics concept and mechanism

2. Joseph J. Carr & John M

Brown

: Introduction to Biomedical equipment

technology

3. John G. Webster : Medical Instrumentation

4. J. G. Skofronick : Medical Physics

5. P. Sprawls Jr. : Physical principles of medical imaging

APEE-4292 Project & Seminar 50 Marks [50% Internal examiner, 20% External examiner, 30% Presentation &

Oral Exam.] 0.5 Unit, 2 credits

Project: Study of practical problems on the basis of the courses studied.

Seminar: Students will work in groups or individually to prepare review papers

on topics assigned by the teacher and will present before audience.

Page 34 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 APPENDIX Table-8: Limits of Units, Marks, Credits & Contact Hours Distribution

(per Semester) for B.Sc. Engg. Degree in the Faculty of Engineering

(Ref. EFO article no-15.2).

Part I (Odd /Even semester)

Nature of course Units Marks Credits Contact

hours/week

Humanities 0 – 1 0 - 100 0 - 4 0 - 4

Mathematics and Basic

Sciences

0.5-2.5 50-250 2-10 2-10

Basic and

Major

Engineering

Theoretical 05-2 50-200 2-8 2-8

Board

Viva-voce

0-1 0-100 0-4 0

Laboratory 0.5-1.5 50-150 2-6 4-12

Total 5.0 500 20 20-26

Part II (Odd /Even semester)


hours/week

Humanities 0 – 1 0 - 100 0 - 4 0 - 4

Mathematics and Basic

Sciences

0.5-2.5 50-250 2-10 2-10

Basic and

Major

Engineering

Theoretical 0.5-3 50-300 2-12 2-12

Board

Viva-voce

0-1 0-100 0-4 0

Laboratory 0.5-1.5 50-150 2-6 4-12

Total 5.0 500 20 20-26

Part III & IV (Odd /Even semester)


hours/week

Humanities 0 – 1 0 - 100 0 - 4 0 - 4

Major

Engineering

Theoretical 2-4 200-400 8-16 8-16

Board

Viva-voce

0-1 0-100 0-4 0

Laboratory 0.5-2 50-200 2-8 4-16

Total 5.0 500 20 20-26

Laboratory (Experiments/Field Work/In-Plant Training/Project/ Workshop Similar Courses.).

Board Viva-voce (marks 50 – 100) can be taken in one or more Even Semesters.

Ordinarily five theoretical courses may be offered in a semester.

Table-9: Marks and Credits distribution in the selected Humanities Courses

for B.Sc. Engg. (APEE)

Course Code Title

Units

Marks Credits

Contact

hours/

week

Contact

periods/

week

ENG1111 Technical

English 0.5 50 2 2 3

ECON1211 Economics 0.5 50 2 2 3

ACCO2111

Industrial

Management

and

Accountancy

0.5 50 2 2 3

LAW2211

Law and

Professional

Ethics

0.5 50 2 2 3

Total 2 200 8 8 12

Table-10: Marks and Credits distribution in the selected

Mathematics & Basic Science Courses for B.Sc. Engg.(APEE).

Course Code Title Units Marks Credits Contact hours/

week

Contact periods/

week

MATH1111 Algebra, Trigonometry and Vector Analysis

0.75 75 3 3 5

CHEM1111 Physical and Inorganic

Chemistry 0.75 75 3 3 5

PHY1211 Applied Mechanics and Optics

1 100 4 4 6

PHY1212 Experiment on

APEE1201 0.25 25 1 2 3

MATH1211 Differential and

Integral Calculus 0.75 75 3 3 5

STAT1211 Statistics for Engineers 0.50 50 2 2 3

MATH2111 Matrices and

Differential Equations 0.75 75 3 3 5

PHY2111 Quantum Mechanics, Atomic and Nuclear

Physics

0.75 75 3 3 5

MATH2211 Special Functions and Numerical Methods

0.75 75 3 3 5

Total 6.25 625 25 26 42

Page 35 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Table-11: Marks and credits distribution in the Basic Engineering Courses

for B.Sc Engg. (APEE)

Course Code

Title

Units

Marks

Credits Contact hours/

week

Contact periods/

week

APEE1172 Engineering graphics 0.25 25 1 2 3

APEE2121 Operating Systems

and Programming

with C & C++

1 100 4 4 6

APEE2272 Electrical Workshop 0.25 25 1 2 3

Total 1.5 150 6 8 12

Table- 12: Semester wise distributions of Units, Marks, Credits, Contact Hours

& Contact Periods for

B.Sc. Engg. (APEE) ( Ref. Table-1)

Part-I

Odd Semester

Name of Course Units Marks Credits Contact

hours/week

Contact

periods/ week

Humanities 0.5 50 2 2 3

Mathematics & Basic

Sciences(with Laboratory)

1.5 150 6 6 9

Basic and

Major

Engineering

Theory 2 200 8 8 12

Laboratory 1 100 4 8 12

Total 5.0 500 20 24 36

Even Semester


hours/week

Contact periods/

week


Mathematics & Basic Sciences(with Laboratory)

2.5 250 10 11 17

Basic and

Major Engineering

Theory 1 100 4 4 6

Laboratory 0.5 50 2 4 6

Board Viva-voce

0.5 50 2 - -

Total 5.0 500 20 21 32

Part-II

Odd Semester


hours/week

Contact periods/

week


Mathematics & Basic Sciences(with Laboratory)

1.5 150 6 6 9

Basic &

Major Engineering

Theory 2.0 200 8 8 12

Laboratory 1.0 100 4 8 12

Total 5.0 500 20 24 36

Even Semester


hours/week

Contact

periods/

week


Mathematics & Basic

Sciences(with Laboratory)

0.75 75 3 3 5

Basic and

Major

Engineering

Theory 2.0 200 8 8 12

Laboratory 1.25 125 5 10 15

Board

Viva-voce

0.5 50 2 - -

Total 5.0 500 20 23 35

Part-III

Odd Semester


hours/week

Contact

periods/ week

Major

Engineering

Theory 3.50 350 14 14 21

Laboratory 1.50 150 6 12 18

Total 5.0 500 20 26 39

Even Semester


hours/week

Contact

periods/ week

Major

Engineering

Theory 3.25 325 13 13 20

Laboratory 1.25 125 5 10 15

Board

Viva-voce

0.5 50 2 - -

Total 5.0 500 20 23 35

Page 36 of 36 Syllabus for B. Sc. Engg. (APEE), R.U, Session: 2011 – 2012 Part-IV

Odd Semester


hours/week

Contact periods/

week

Major

Engineering

Theory 3.50 350 14 14 21

Laboratory 1.25 125 5 10 15

Field Work 0.25 25 1 2 weeks

Total 5.0 500 20 24 36

Even Semester

Name of Course Units Marks Credits

Contact

hours/week

Contact

periods/

week

Major

Engineering

Theory 2.75 275 11 11 17

Laboratory 1.25 125 5 10 15

Project and

Seminar

0.5 50 2 04 6

Board

Viva-voce

0.5 50 2 - -

Total 5.0 500 20 25 38

* The limits for contact hours/week and contact periods/week shall be between

20-26 hours and 24-42 periods respectively. In the department of APEE the

duration of the class periods (both theory and Lab.) shall be 40 minutes.

Table-13: Semester wise number of courses and marks distribution in

B.Sc.Engg. (APEE):

Semester Number of Courses

Units Marks Credits

Contact

hours/

week

Contact

periods/

week Theory Laboratory Viva

Part-I

Odd Sem. 5 1+ Eng.

Graphics - 5 500 20 24 37

Even Sem. 5 1 1 5 500 20 21 32

Part-II

Odd Sem. 5 1 - 5 500 20 24 36

Even Sem. 4 1+ Electrical

Workshop 1 5 500 20 23 35

Part-III

Odd Sem. 4 1 - 5 500 20 26 39

Even Sem. 4

1+

Electronic. Workshop

1 5 500 20 23

35

Part-IV

Odd Sem. 4 1+ Field Works

- 5 500 20 24

36

Even Sem. 4 1 +

Project 1 5 500 20 25

38

Total in

4-years

Eight

Semesters 35 12 4 40 4000 160 190 288

Table 14: Unit wise marks distribution in a B.Sc.Engg. Course. Each course is

divided into two sections.

Units Total Marks

No. of

Periods

(1 Period= 40 minutes)

Total

No. of

Lectures

Duration

of

Exam. (hours)

Marks in

each group

Distribution of marks in each

section

Exam.

(70%)

Quizzes/ Class

test

(20%)

Attendance

(10%)

1.0 100 6 66 4 50 35 10 5

0.75 75 5 55 4

37.5 26.25 7.

5 3.75

0.5 50 3 33 3 25 17.5 5 2.5

Table-15: Marks distribution in various disciplines as per semester in

B.Sc.Engg.(APEE).

Semester

Marks

Humanities

Mathematics

& Basic

Sciences (with Lab)

Major Engineering

Theory Laboratory Board

Viva-voce Total

Part-I Odd 50 150 200 100 0 500

Even 50 225+25 100 50 50 500

Part-II Odd 50 150 200 100 0 500

Even 50 75 200 125 50 500

Part-III Odd 0 0 350 150 0 500

Even 0 0 325 125 50 500

Part-IV Odd 0 0 350 150 0 500

Even 0 0 275 175 50 500

Total 200 600+25 2000 975 200 4000

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