Dr. B.R. Ambedkar Institute of Technology, Pahargaon
DEMO TOPICS FOR APPOINTMENT OF GUEST LECTURER (Degree/Diploma) EVEN TERM 2015-16
Sl.No
Department
Demo topics (Diploma Programme)
Demo Topics(Degree Programme)
1
Electronics & Communication
Engineering
Theory
1) Draw and explain the architecture of 8085
2) Draw and explain the block diagram, pin diagram of
8086
3) Draw the architecture of 8051 and explain each block
4) Explain the instruction set of 8051 and explain each
block..
Theory
1) Architecture, Block diagram and Pin
diagram for 8085 Microprocessor.
2) Concept of serial communication-8251
USART.
3) Introduction to Embedded systems,
processor in embedded system and
other hardware units in Embedded
System.
4) Real time Operating system details and
explain
5) Construction & working of JFET and
MOSFET.
Practical
1) 8 – bit Arithmetic operation(Addition,
Subtraction, Multiplication, Division
using 8085 trainer kit.
2) Write a program for stepper motor and
DC motor interface suing 8051
microcontroller.
3) Simple Assembly Program for system
calls & interrupts loops and branches to
be implemented on ARM based
processor.
4) Program to interface 8 bit-LED and
switch interface using Arm based
processor.
5) Design and construct full wave and half
wave rectifier and also find the ripple
factor.
Practical
1) Write an ALP to find sum of series of numbers
2) Write an ALP to add/subtract/multiply/Divide two
BCD number.
3) Write a program to generate square wave of 1 khz on
Pin P1.0
4) Write a program that will generate a square wave
with a period of 20 ms on pin P3.0 using timer 1
interrupt.
2
CIVIL
THEORY
1) System of sewerage
2) Water treatment process
3) Geometric Design of Rods
4) Systems of Force.
THEORY
1) Macaulay’s Method
2) Concept of Proportioning Concrete
Mixes
3) Activated sludge process
4) Rigid Pavements.
PRACTICAL
1) Environmental engg: water quality parameter
2) Surveying: All surveying
3) CAD: Drafting of Plans/Elevations
PRACTICAL
Dr. B.R.Ambedkar Institute of Technology, Pahargaon
DEMO TOPICS FOR APPOINTMENT OF GUEST LECTURER/ part time instructor EVEN TERM 2015-16
S.No.
Discipline
Topics
THEORY
1
MECHANICAL
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
Theory of simple bending
Thermal stress in composite bar
Stress in cylindrical shell
Iron carbon equilibrium diagram
Super finishing process
Design of riveted joins
Working of wire cut EDB machine
Working of differential
Centrifugal casting
Investment moulding
Compounding of steam turbine.
PRACTICAL
1.
2.
3.
4.
5.
6.
7.
8.
9.
Verify of Lami’s theorem
Calculate co-efficient of friction
Verify Bernoulli’s theorem
Calculate thickness of the given specimen by using vernier caliper
Calculate diameter of the given specimen by using micrometer
Calculate angle of the given specimen by using bevel protractor
Verify polygon law of forces
Compute the Brinnel hardness no of the given specimen.
Calculate stress strain and percentage elongation of the given specimen.
PRACTICAL
2
ELECTRICAL
1. Verification of KVL & KCL
2. Verification of Thevenin’s theorem
3
3.
4.
5.
6.
7.
8.
Power measurement by 2-wattmeter method.
Torque speed characteristics of 3 phase Induction motor
Torque speed characteristics of DC shunt motor.
Efficiency of single phase transformer
Trouble shooting and internal wiring of tube light
Staircare wiring.
-
To design and construct a Astable Multivibrator circuit using 555 IC and Monostable
Multivibrator circuit .
Design and implementation of the code conversion for (a) Binary to gray code (b) Gray to
binary code.
Construct an frequency shift keying (FSK) /Ask modulator and demodulator circuit.
Obtain the FSK modulator and Demodulator waveform.
Generate PAM and observe the waveforms PAM.
Practical
ELECTRONICS
-
4
HUMANITIES
1. ECONOMICS:






Nature of functioning of money.
Present worth method & future worth method.
Inflation an deflation concepts.
Organizing and staffing.
Entrepreneurship and small business.
Management of public organization.
2. CHEMISTRY PRACTICAL
1.
2.
3.
4.
5.
Corrosion
Hardness of water
Classification of fluids
Characteristics of lubricants
Role of polymers in engineering
PRACTICAL
5
HM
1. Plan a 7 course continental menu with proper accompaniments and accompanying wines.
2. Plan a 5 course menu from any one of the following regions.
1) Udupi cuisine
2) Kashmiri cuisine
3) Rajasthani Cuisine
4) Bangali Cuisine
3. Prepare a check out room covering the following aspects.
a) Bed Making (b) Bathroom cleaning (c) Room cleaning (d) stain removal
4. Prepare a occupancy and a revenue report for the month of November 2014 with the following
assumptions.
a) No. of rooms -100
b) Average occupancy per day -75 rooms
c) Single room -25, Double Room -75
d) ARR –Rs. 3700/e) No. of restaurant -03, Banquet -02
PRACTICAL
1.
2.
3.
4.
5.
6.
7.
8.
9.
Verify of Lami’s theorem
Calculate co-efficient of friction
Verify Bernoulli’s theorem
Calculate thickness of the given specimen by using vernier caliper
Calculate diameter of the given specimen by using micrometer
Calculate angle of the given specimen by using bevel protractor
Verify polygon law of forces
Compute the Brinnel hardness no of the given specimen.
Calculate stress strain and percentage elongation of the given specimen.
PRACTICAL
1.
2.
3.
4.
5.
6.
7.
8.
9.
Verify of Lami’s theorem
Calculate co-efficient of friction
Verify Bernoulli’s theorem
Calculate thickness of the given specimen by using vernier caliper
Calculate diameter of the given specimen by using micrometer
Calculate angle of the given specimen by using bevel protractor
Verify polygon law of forces
Compute the Brinnel hardness no of the given specimen.
Calculate stress strain and percentage elongation of the given specimen.
PRACTICAL
1.
2.
3.
4.
5.
6.
7.
8.
Verify of Lami’s theorem
Calculate co-efficient of friction
Verify Bernoulli’s theorem
Calculate thickness of the given specimen by using vernier caliper
Calculate diameter of the given specimen by using micrometer
Calculate angle of the given specimen by using bevel protractor
Verify polygon law of forces
Compute the Brinnel hardness no of the given specimen.
9. Calculate stress strain and percentage elongation of the given specimen.
PRACTICAL
1.
2.
3.
4.
5.
6.
7.
8.
9.
Verify of Lami’s theorem
Calculate co-efficient of friction
Verify Bernoulli’s theorem
Calculate thickness of the given specimen by using vernier caliper
Calculate diameter of the given specimen by using micrometer
Calculate angle of the given specimen by using bevel protractor
Verify polygon law of forces
Compute the Brinnel hardness no of the given specimen.
Calculate stress strain and percentage elongation of the given specimen.