HINDU COLLEGE OF ENGINEERING, SONEPAT LECTURE PLAN...

HINDU COLLEGE OF ENGINEERING, SONEPAT

LECTURE PLAN

SEMESTER/CLASS SESSION

SUBJECT: Digital Circuit & Systems SUBJECT CODE : ECE-204-B

SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS

NAME OF TEACHER : AMIT BANGA DEPARTMENT : ECE

OBJECTIVES OF CONCERNED SUBJECT:

1. To give the idea of basics of digital technology including the design aspects of the circuits.

2. To give the idea about the finite state models, synthesis of sequential circuits.

OUTCOME OF CONCERNED SUBJECT:

Now the students are able to minimize and synthesize the completely and incompletely sequential machines.

Lecture

No. Lecture Dates TOPICS TEXT/REFERENCE BOOKS

1 9/1/18 Unit-1: Number System And Codes Modern Digital Electronics

2 10/1/18 Binary Codes Modern Digital Electronics

3 12/1/18 Boolean Algebra, Modern Digital Electronics

4 16/1/18 Sets, relations and Lattice Modern Digital Electronics

5 17/1/18 Karnaugh map Modern Digital Electronics

6 19/1/18 Karnaugh map

Modern Digital Electronics

7 23/1/18 VEM Methods

Switching and finite automata

theory

8 24/1/18 Q-Map Switching and finite automata

theory

9 30/1/18 Problems regarding Q-Map & VEM method


theory

10 31/1/18 Unit- : Design with basic logic gates Switching and finite automata

theory

11 2/2/18 Design with integrated circuits


theory

12 6/2/18 Nand and Nor circuits Switching and finite automata

theory

ECE-4

JAN. - JUNE 2018

13 7/2/18 Design of high speed adders Switching and finite automata

theory

14 9/2/18 Functional Decomposition Switching and finite automata

theory

15 13/2/18 Symmetric networks and identification


theory

16 16/2/18 Identification of symmetric functions Switching and finite automata

theory

17 20/2/18 Introduction to threshold logic Switching and finite automata

theory

18 21/2/18 Synthesis of threshold logic Switching and finite automata

theory

19 27/2/18 Unit-3 : Sequential circuits & finite model Switching and finite automata

theory

20 28/2/18 Memory elements & excitation functions Switching and finite automata

theory

21 13/3/18 Synthesis of synchronous sequential ckts. Switching and finite automata

theory

22 14/3/18 Synthesis of synchronous sequential ckts. Switching and finite automata

theory

23 16/3/18 Problems related synh. Of seq. circuits Switching and finite automata

theory

24 20/3/18 Finite state machines and models Switching and finite automata

theory

25 21/3/18 Capabilities and limitations of FSM Switching and finite automata

theory

26 23/3/18 State equivalence and m/c minimization Switching and finite automata

theory

27 27/3/18 State equivalence and m/c minimization Switching and finite automata

theory

28 28/3/18 Simplification of incompletely specified m/cs Switching and finite automata

theory

29 30/3/18 Synthesis of fundamental mode circuits Switching and finite automata

theory

30 3/4/18 State assignments in asynchronous seq. ckts. Switching and finite automata

theory

31 4/4/18 State Assignments using partitions Switching and finite automata

theory

32 6/4/18 Lattice of closed partitions Switching and finite automata

theory

33 10/4/18 Reduction of output dependency Switching and finite automata

theory

34 11/4/18 Revision

35

36

37

38

39

TEXT/REFERENCE BOOKS:

A. Switching and finite automation theory by Z.KOHAVI

B. Modern Digital Electronics by R.P.JAIN

C. Digital Circuits and Design by Salivahanan and Arivazhagan

Home Assignments: 4 –5 assignments are given during the semester.

Evaluation Procedure

1. Surprise Quiz/ Tutorial Test 5 Marks

2. Assignment / Project / Performance in the Class 5 Marks

3. Minor Tests (Two tests having equal weightage)

Minor Test I : 06 – 09 March, 2018

Minor Test II : 17 -20 April, 2018

15 Marks

4. Major test (University Examination) 75 Marks

Attendance Record – Candidate should attend at least75% attendance of the total classes held of the

subject

Chamber consultation hour: Any vacant period.

Note:

1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1

& 2 from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be

required to attempt only 5 questions selecting at least one question from each unit. All questions will

carry equal marks.

2. The use of scientific calculator will be allowed in the examination. However, programmable

calculator and cellular phone will not be allowed.


LECTURE PLAN


SUBJECT: COMMUNICATION SYSTEMS

SUBJECT CODE : ECE210B


NAME OF TEACHER : RITU GOYAL DEPARTMENT : ECE


INFORMATION REGARDING ANALOG AND DIGITAL COMMUNICATION


DEVELOP LEARNING ABILITY ABOUT LATEST TECHNOLOGIES OF COMMUNICATION SYSTEMS

Lecture


1 8/1/17 Modulation, Demodulation, Radio Frequency Spectrum, Signals & their classification, Limitations & Advantages of a Communication System,

B/A

2 10/1/17

Comparison of Analog & Digital Communication

Systems, Historical Perspective, Modes & Medias of

Communication, Sources of Noise, External & Internal

Noise B/A

3-4 11/1/17&15/1/17 Noise Calculations, Noise Figure, Noise Figure Calculation, Noise Temperature, Noise in Communication Systems, Band Pass Noise Model, Cascaded States & its Noise Figure Calculation,

B/A

5-7 17/1/18-

18/1/17&29/1/18

Signal in presence of Noise, Pre- Emphasis & De-Emphasis, Noise Quieting Effect, Capture Effect, Noise in Modulation Systems.

A

8-9 31/1/18-1/2/18 (AM) Basic definition & derivation for Modulation & Modulation Index, Modulation & Demodulation of AM, Generation of AM waves.

A/B/C

10-11 5/2/18,7/2/18 Suppressed Carrier Modulation, Quadrature Amplitude Modulation, SSB-SC, DSB-SC

A/B/C

12-14 8/2/18,12/2/18 VSB Modulation & Demodulation, Comparison of various AM Systems, Basic definition & derivation for Modulation & Modulation Index, Generation of FM waves, Comparison between PM & FM

A/B/C

15-16 15/2/18,19/2/18

Frequency Spectrum of FM, B.W. & required spectra, Types of FM,

vector representation of FM, Universal Curve, Multiple

FM,

A/B/C

17 21/2/18 Demodulation of FM waves, Demodulation of PM waves, Comparison

A/B/C

4TH JAN. - JUNE 2018

between AM & FM.Classification of Radio Transmitters,

18-19 22/2/18,26/2/18

Basic Block Diagram of Radio Transmitter, Effect of Feedback on operation of Transmitter, Radio Telephone Transmitters, Privacy Device in Radio

Telephony, FM Transmitter using Reactance Modulator,

Armstrong

A

20-21 28/2/18,5/3/18 FM Transmitter, Radio Receivers, Classification, TRF Receiver, Super Heterodyne Receiver, Image Rejection & Double Spotting, Choice of IF, Tracking & Alignment of Receivers, AGC.

A

22-23 7-8/3/18 Probability, Properties, Conditional Probability, Random

Variables, CDF, PDF, Uniform Distribution A/C

24-25 12/3/18,14/3/18 Random or Stochastic Process, Ergodic Process, PSD, Properties of PSD, Correlation Function. A/C

26-27 15/3/18,19/3/18 Sampling theory, TDM, FDM, PAM A/B/C

28 21/3/18 PWM, PPM, Modulation & Demodulation techniques A/B/C

29-30 26/3/18,28/3/18 Elements of Pulse Code Modulation, Noise in PCM

Systems, Bandwidth of PCM Systems A/B/C

31 29/3/18 Measure of Information, Channel Capacity, Channel Capacity of PCM System,

A/C

32 30/3/18 Differential Pulse Code Modulation (DPCM). Delta

Modulation (DM) A/B/C


A. Electronic Communication Systems By Kennedy – TM

B. Communication Systems By Singh & Sapre – TMH

C. Communication Systems By Manoj Duhan – I. K. International








15 Marks



subject


Note:




carry equal marks.




LECTURE PLAN


SUBJECT: Analog Electronic Circuit (AEC) SUBJECT CODE : ECE206B SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS

NAME OF TEACHER : Mr. Priyanshu Tripathi DEPARTMENT : ECE OBJECTIVES OF CONCERNED SUBJECT:

To understand the different type of amplifiers and their applications. To understand the different type of Voltage regulators. To study special semiconductor devices.


The student will get the knowledge of different types of Electronic Circuits used in daily used appliances.

Lecture No. Lecture Dates TOPICS TEXT/REFERENCE BOOKS

1-5

15/01/18,

16/01/18,

17/01/18

19/01/18

29/01/18

MULTISTAGE AMPLIFIER: RC Coupled Transistor Amplifier, Lower & Upper Cut off Frequency, Frequency Response curve & Bandwidth, Transformer Coupled Amplifier, Direct Coupled Amplifier, Cascode Amplifier, Darlington Pair Amplifier, Distortion In Amplifiers.

Electronics Device & Circuit By Sanjeev Gupta.

6-10

30/01/18,

31/01/18,

02/02/18

05/02/18

06/02/18

FEEDBACK AMPLIFIERS: Feedback concept , Transfer Gain with Feedback, General Characteristics of Negative Feedback, Advantages & disadvantages, Input And Output Resistance, Voltage Series Feedback topology, Voltage Shunt, Current Series & Current Shunt topology ,Equivalent circuit for each topology, Effects of Negative Feedback.


11-15

07/02/18,

09/02/18,

12/02/18

13/02/18

16/02/18

OSILLATORS: Introduction, Barkhausen Criterion, Oscillator with RC Feedback circuit (RC Phase Shift, Wien Bridge), Tuned Collector, Tuned Base Oscillator, LC Feedback circuits (Hartley, Colpitts), Condition for Sustained Oscillations & Frequency of Oscillations, Crystal Oscillator.


ECE 4th JAN. - JUNE 2018

16-20

19/02/18,

20/02/18,

21/02/18

26/02/18

27/02/18

POWER AMPLIFIER: Definition, Application & Types of Power Amplifiers, Amplifier Classes of Efficiency (Class - A, B, AB, C), Push Pull Amplifiers, Distortion in Simple & Push Pull Amplifier, Complementary Push Pull Amplifier, Integrated Circuit Power Amplifier , Introduction to MOSFET & CLASS D Power Amplifier.


21-25

05/03/18,

12/03/18,

13/03/18

14/03/18

16/03/18

VOLTAGE REGULATORS: Voltage Regulation, Basic Series Regulators, Basic Shunt Regulators, Power Supply Parameters, Basic Switching Regulators, Step up Configuration, Step down Configuration, IC Voltage Regulator, SMPS.


26-30

19/03/18,

20/03/18,

21/03/18

26/03/18

27/03/18

SWITCHING CIRCUIT: Switching action & Characteristics of a Transistor, Switching Times in Transistor, Multivibrators, Astable Multivibrator, Monostable Multivibrator, Bistable Multivibrator, 555 Timer, Monostable & Astable Operation with 555 Timer.


31-35

28/03/18,

30/03/18,

02/04/18

03/04/18

04/04/18

A/D CONVERTERS: Basic Principle of DAC & ADC, Types of DAC Circuits: Resistor Divider, R/2R Ladder network, Types of ADC circuits: Parallel Comparator, Counter type, Successive approximation & Dual Slope, Specifications.


36-40

06/04/18,

09/04/18,

10/04/18

11/04/18

16/04/18

SPECIAL SEMICONDUTOR DEVICES: Optoelectronic Devices, Photoconductors, Photo Diode, Photo Transistor, Photo Voltaic Sensor, Photo Emission, LED, LCD, Laser Diode, Schottky Diode, SCR, TRIAC, DIAC, UJT, Single Electron Transistor. Infrared LEDs, IGBT, Opto Coupler.



A. Integrated Electronics By Millman Halkias - TMH. B. Electronics Device & Circuit By Sanjeev Gupta. C. Electronics Device &Circuit By David.A. Bell - Oxford University Press.








15 Marks



subject


Note:




carry equal marks.

2. The use of scientific calculator will be allowed in the examination. However, programmable calculator and cellular phone will not be allowed.


LECTURE PLAN


SUBJECT: COMPUTER ARCHITECTURE & ORGANIZATION SUBJECT CODE : CSE210B SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS

NAME OF TEACHER : SANDEEP GUPTA DEPARTMENT : CSE OBJECTIVES OF CONCERNED SUBJECT:

To understand the architecture of a modern computer with its various processing units. To understand the performance measurement of the computer system. To study the memory management system of computer.


The student will get the knowledge of different types of Computer Architectures and their internal organizations.

Lecture No. Lecture Dates TOPICS TEXT/REFERENCE BOOKS

1-3

08/01/18,

09/01/18,

10/01/18

Classification of computers ( Based on Computation methodology(Analog, digital, hybrid), based on generations, based on size & capability,based on Flynn’s criteria)

Computer Architecture and Organization, 3rd Edi, by John P. Hayes, 1998, TMH

4-7

11/01/18,

15/01/18,

16/01/18,

23/01/18

Multilevel viewpoint of a machine: digital logic, micro architecture, ISA, operating systems, high level language ;Register Transfer language; Computer Buses ( basic design using multiplexers), Bus width, Bus clocking( synchronous , asynchronous), bus arbitration, Bus examples( ISA bus, PCI bus, Universal serial bus)

Computer System Architecture by M. Mano, Prentice-Hall

8-10

24/01/18,

25/01/18,

29/01/18

Computer Arithmetic ,Addition , subtraction ( signed magnitude , signed 2’s complement , Multiplication ( Booth’s algorithm).


11-13

30/01/18,

01/02/18,

05/02/18

CPU Architecture types (accumulator, register, stack, memory/ register) Instruction cycle (Fetch-Decode-Execute);


14-16 06/02/18, Instruction set based classification of processors (RISC, CISC, and their comparison)


ECE IV JAN. - JUNE 2018

07/02/18,

08/02/18

17-20

12/02/18,

13/02/18,

15/02/18,

19/02/18

Addressing modes(register, immediate, direct, indirect, indexed); Operations in the instruction set; Arithmetic and Logical, Data Transfer, Control Flow; Instruction set formats (fixed, variable, hybrid)

Computer System Architecture by M. Mano, Prentice-Hall, Computer Architecture and Organization, 3rd Edi, by John P. Hayes, 1998, TMH

21-23

20/02/18,

21/02/18,

26/02/18

Input Output Interface , Asynchronous data transfer ( Strobe control, handshaking , serial transfer); Serial Vs parallel data transmission; Modes of data transfer( Programmed I/O, Interrupt driven, Direct Memory access ( DMA)

Computer System Architecture by M. Mano, Prentice-Hall, Computer Architecture and Organization, 3rd Edi, by John P. Hayes, 1998, TMH

24-25

27/02/18,

28/02/18

Control Unit design:- Control unit design methods ( hardwired & microprogrammed ) Control Memory, Address Sequencing, Micro instructions


26-29

12/03/18,

13/03/18,

14/03/18,

15/03/18

Memory device characteristics(access/ cycle time, cost per bit, volatility , storage density) ;Memory hierarchy ;Main memory Design (Semiconductor RAM & ROM organization, memory expansion, Static & dynamic memory types , their comparison


30-32

19/03/18,

20/03/18,

21/03/18

Associative memory Design ,Match logic ,Locality of reference principle( Temporal & Spatial),Cache mapping( Direct , associative , set associative );


33-35

26/03/18,

27/03/18,

28/03/18

Cache writing policies ( Copy-Back , Write-through); Virtual Memory( Address space , memory space , Address mapping using pages , Page replacement).1-3



A. Computer System Architecture by M. Mano, Prentice-Hall

B. Structured Computer Organisation by A.S. Tanenbaum, 6th edition, Prentice-Hall of India, Eastern Economic Edition

C. Computer Architecture and Organization, 3rd Edi, by John P. Hayes, 1998, TMH








15 Marks



subject


Note:




carry equal marks.



LECTURE PLAN


SUBJECT: Field & Wave (F&W) SUBJECT CODE : ECE212B


NAME OF TEACHER : Mr. Madhwendra Nath DEPARTMENT : ECE


To understand the Electric Field and Magnetic Field

To understand the wave propagation.


The student will get the knowledge of Electric Field, Magnetic Field and wave propagation.

Lecture


1-5

15/01/18,

16/01/18,

17/01/18

19/01/18

29/01/18

Coulomb’s Law of Electrostatic Force, Electric

Field Intensity, Electric Potential, Electric Charge

Density, Field of A Finite Line Of Charge, Field

Potential of an Infinite Line Of Charge, Electric

Potential Difference, Electric Dipole, Electric

Flux Density

Antenna & Wave Propagation: K.D

Prasad, Satya Prakashan.

6-10

30/01/18,

31/01/18,

02/02/18

05/02/18

06/02/18

Gauss Law, Application of Gauss Law, Laplace

Equation, Solution of Laplace Equation in

Rectangular And Cartesian Coordinates,

Uniqueness Theorem of Electrostatic Field

Solutions, Methods of Electrostatic Images,

Electrostatic Energy, Capacitance.



11-15

07/02/18,

09/02/18,

12/02/18

13/02/18

16/02/18

Introduction, Faraday Induction Law, Magnetic

Effect on Current Carrying Conductor, Magnetic

Flux, Magnetic Flux Density, Biot-Savart’s Law,

Ampere’s Law of Force,



.

ECE 4th JAN. - JUNE 2018

16-20

19/02/18,

20/02/18,

21/02/18

26/02/18

27/02/18

Magnetic Field of A Solenoid, Magnetic Field In

Vector Notations, Magnetic Field Intensity,

Magnetic Flux Density outside and inside an

Infinitely Long Cylinder Containing Uniform

Current Density, Magnetic Vector Potential,

Energy Stored In A Magnetic Field, Energy

Density In A Magnetic Field.



21-25

05/03/18,

12/03/18,

13/03/18

14/03/18

16/03/18

Introduction, Displacement Current Mawell’s

Equations: In Free Space, Differential Form And

Integra Form, Physical Interpretations Of

Maxwell’s Field Equations, Boundary Conditions



26-30

19/03/18,

20/03/18,

21/03/18

26/03/18

27/03/18

Electromagnetic Wave In Homogeneous Medium,

Wave Equation, Plane Wave And Uniform Plane

Wave, Electromagnetic Wave Equations, Wave

Propagation In Conducting Medium, Polarization



31-35

28/03/18,

30/03/18,

02/04/18

03/04/18

04/04/18

Introduction, Basic Principles Of Transmission

Lines, Equivalent Circuit Representation, General

Transmission Line Equation, Wave

Characteristics on Finite Transmission Lines,

Transients on Transmission lines,



36-40

06/04/18,

09/04/18,

10/04/18

11/04/18

16/04/18

Primary Constant, Voltage And Current

Calculations, Characteristic Impedance, Open And

Short Circuit Lines, Reflection Coefficient,

VSWR, Smith’s Chart And Its Applications.



Text Books:

1. Electro-magnetic Waves and Radiating System : Jordan & Balmain, PHI.

2. Antenna & Wave Propagation: K.D Prasad, Satya Prakashan.

3. Field and Wave Electromagnetics: David K.Cheng, Pearson,Second edition

Reference Books:

1. Engineering Electromagnetics: Umran S.Inan & Aziz S. Inan, Pearson

2. Engineering Electromagnetics : Hayt; TMH

3. Electro-Magnetics : Krauss J.DF; Mc Graw Hill.








15 Marks



subject


Note:




carry equal marks.




LECTURE PLAN


SUBJECT: ENVIRONMENTAL STUDIES SUBJECT CODE : GES201B SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS

NAME OF TEACHER : DR. MANJU RANI DEPARTMENT : APPLIED SCIENCE OBJECTIVES OF CONCERNED SUBJECT:

To Make Students Familiar with environment.


Subject Helps Students to have awareness about environment.

Lecture No.

Lecture Dates TOPICS TEXT/REFERENCE BOOKS

1 15.01.2018 UNIT – I The Multidisciplinary nature of environmental studies, Definition, scope and importance. Need for Public awareness.

A

2 17.01.2018 Natural Resources: Renewable and non-renewable resources: Natural resources and associated problems. a) Forest resources: Use and over-exploitation: deforestation, case studies, Timber exploitation, mining, dams and their effects and forests tribal people.

A

3 19.01.2018 b) Water resources: Use and over-utilization of surface and ground water, floods, drought, conflicts over water, dams-benefits and problems. c) Mineral resources: Use and exploitation, environmental effects of extracting and using mineral resources, case studies.

A

4 22.01.2018 d) Food resources: World food problems, changes, caused by agriculture and overgrazing, effects of modern agriculture, fertilizer-pesticide problems, water logging, salinity, case studies. e) Energy resources: Growing energy needs, renewable and non-renewable energy sources, use of alternate energy sources; case studies.

A

5 24.01.2018 f) Land resources: Land as a resource, land degradation, man induced landslides, soil erosion and desertification. • Role of an individual in conservation of natural resources. • Equitable use of resources for sustainable lifestyles.

A

6 31.01.2018 Ecosystems: • Concept of an ecosystem.

A

4TH

JAN. - JUNE 2018

• Structure and function of an ecosystem.

7 02.02.2018 • Producers, consumers and decomposers. • Energy flow in the ecosystem.

A

8 05.02.2018 • Ecological succession. • Food chains, food webs and ecological pyramids.

A

9 07.02.2018 Introduction, types, characteristic features, structure and function of the following eco-system: a) Forest ecosystem. b) Grassland ecosystem. c) Desert ecosystem.

A

10 09.02.2018 d) Aquatic ecosystems (ponds, streams, lakes, rivers, oceans, estuaries).

A

11 12.02.2018 Biodiversity and its conservations: • Introduction – Definition: Genetic, species and ecosystem diversity.

A

12 14.02.2018 • Biogeographically classification of India. • Value of biodiversity: consumptive use, productive use, social, ethical, aesthetic and option values.

A

13 16.02.2018 • Biodiversity at global, National and local levels. • India as a mega-diversity nation. • Hot-spots of biodiversity.

A

14 21.02.2018 • Threats to biodiversity: habitat loss, poaching of wildlife, man-wildlife conflicts. • Endangered and endemic species of India.

A

15 26.02.2018 Environmental Pollution: Definition, causes, effects and control, measures of: a) Air pollution b) Water pollution

A

16 02.03.2018 c) Soil pollution d) Marine pollution e) Noise pollution

A

17 05.03.2018 f) Thermal Pollution g) Nuclear hazards • Solid waste management: Causes effects and control measures of urban and industrial wastes.

A

18 12.03.2018 • Role of an individual in prevention of pollution. • Pollution case studies.

A

19 14.03.2018 • Disaster management: Floods, earthquake, cyclone and landslides.

A

20 16.03.2018 Social issues and the Environment: a) From unsustainable to sustainable development b) Urban problems related to energy

A

21 19.03.2018 c) Water conservation, rain water harvesting, watershed management d) Resettlement and rehabilitation of people; its problems and concerns, case studies

A

22 21.03.2018 e) Environmental ethics: Issues and possible solutions f) Climate change, global warming, acid rain, ozone layer depletion, nuclear accidents and holocaust, Case studies

A

23 26.03.2018 g) Wasteland reclamation h) Consumerism and waste products

A

24 28.03.2018 i) Environment Protection Act j) Air (Prevention and Control of Pollution) Act

A

25 30.03.2018 k) Water (Prevention and Control of Pollution) Act l) Wildlife Protection Act

A

26 02.04.2018 m) Forest Conservation Act n) Issues involved in enforcement of environmental legislation o) Public awareness

A

27 04.04.2018 Human population and the Environment. Population growth, variation among nations.

A

28 06.04.2018 Population explosion – Famility Welfare Programme.

A

29 09.04.2018 Environment and human health Human Rights. Value Education.

A

30 11.04.2018 HIV/ AIDS. Woman and Child Welfare.

A

31 13.04.2018 Role of Information Technology in Environment and human health.

A

32 23.04.2018 Case Studies. A


A. Environmental Studies, Kaushik & Kaushik Evaluation Procedure



3. Minor Tests (Two tests having equal weightage) Minor Test I : 06 – 09 March, 2018 Minor Test II : 17 -20 April, 2018

15 Marks


Attendance Record – Candidate should attend at least75% attendance of the total classes held of the subject Chamber consultation hour: Any vacant period. Note: 1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1 &

2 from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be required to attempt only 5 questions selecting at least one question from each unit. All questions will carry equal marks.


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