**Resume at the bottom of this page
BANGLADESH INSTITUTE OF
TECHNOLOGY
Khulna,
Bangladesh
Faculty
of
Engineering
B.Sc Engineering Part – I Examination
SESSION- 1980-81
( Courses are common for Civil/ Electrical/ Mechanical
Engineering Branches)
The courses of study and distribution of marks are as
follows :-
Course
Name of the Course
Hrs/Week Theory
paper/
Marks
Number
Practical
CE 107
Surveying – I
1
1
100
CE 108
-do-
3 weeks in
Practical
100
The session
Ch 101
Chemistry
3 II
& III
300
Ch 102
-do-
3
Practical
100
EE 101
Basic Electrical
2
IV
200
Engineering
EE 102
-do-
3/2
Practical
100
Hum
English & Engineering
2
V
200
Economics
Math 101
Engineering Math- I
2
VI
200
Math 103
Engineering Math- II
2
VII
200
ME 100
Engineering Drawing &
3
Practical
100
Sketching
ME 101
Basic Mechanical Engineering 2
VII
200
ME 102
-do-
3/2
Practical
100
MES 102
Wood Working Practice
3/2
Practical
100
MES 104
Metal Shop Practice
3/2
Practical
100
MES 106
Machine & Fitting Shop
3/2
Practical
100
Practice
MES 108
Foundry Practice
3/2
Practical
100
Ph 101
Physics
3 IX
& X
300
Ph 102
-do-
3 Practical
100
PT 100
Physical Training
1 hr a day for
Practical
100
5 days a week
CE - 107
Paper-I
SURVEYING
–1
Marks -
100
Use of surveying instruments and their adjustments; Chain
survey; Traverse survey;
Compass, plane table and theodolite; Leveling; Contouring;
Probation of survey maps.
==============
CE – 108
Practical
SURVEYING –1
Marks –
100
3 weeks in the session
Survey works based on CE – 107
===============
Ch – 101
Paper – II & III
CHEMISTRY
Marks 150+150 =
300
3 hrs/ week
Paper- II Chemistry Marks – 150
Matter and energy; Organization of fundamental particles
in atoms; Modern ideas
regarding atomic structures; Isotope, isobar and Isotone;
Avogedro’s Number; Chemistry
of the inert gas and their importance in industry;
Description of quantum number;
Quantum state and exclusion principle; Periodic table;
Valance and chemical bond;
Generalization of chemical properties from periodic table;
Relation between physical
properties and structures; Surface tension; Viscosity ;
Optical activities and refractivity.
Colloidal solutions; General methods of preparation and
properties; application of these
properties in engineering problems; Chemical
kinetics;
Corrosion : outline of theory of corrosion and method of
prevention.
Chemistry of the following: Cement, Plastics, Synthetic
and natural rubber; synthetic and
natural paints.
=====================
Paper- III Chemistry Marks- 100
Kinetic theory of gases and deviation from gas laws;
Specific heat of gases;
Solution: Effect of temperature and pressure on
solubility; Super saturation;
Expressions for concentrations( normality, mole fraction
etc); solution of gases and
liquids; Henry’s law of partition coefficient; properties
of dilute solutions; effect of
association and dissociation of these
properties;
Thermodynamics: first, second and third law of
thermodynamics; entropy; Gibbs’s free
energy; Phase rule and its
application.
Thermo-chemistry: Laws of thermo-chemistry and problems
based on them; Kirchoff’s
solution; heat of solution and heat of
neutralization.
Chemical equilibrium: Law of mass action and its
application; effect of pressure on
chemical equilibrium; La-Chatelier’s theorem and some of
its important industrial
applications; Solvent extraction and ion exchange
process.
Electro-chemistry: Electrolytes: source of E.M.F; PH value
and its determination.
=========================
Practical
Ch
– 102
Marks – 100
Chemistry
Laboratory
3 hrs / week
Analysis:
A) Volumetric a) Acidimetry, Alkalimetry.
b)
Oxidation, Reduction
c)
Goniometry
d)
Estimation of Chloride by Volharo’s method
B)
Gravimetric: a) Determination of sulphate and iron
b)
Analysis of base
Studies
of following properties of solution:
a)
pH
b) Viscosity c)
Refractive index
d) Densities
EE – 101
Paper- IV BASIC ELECTRICAL ENGINEERING Marks – 200
2 hrs / week
Fundamental electrical concepts and units. Electric
networks; Practical measurement of
electrical quantities. Magnetic concepts and units.
Introduction to magnetic circuits.
Electromagnetic forces. Electromagnetic induction-
inductance, Electric field concepts-
capacitance.
====================
EE – 102
Practical
BASIC ELECTRICAL ENGINEERING
Marks- 100
LABORATORY
3 /2 hrs/ week
Practical experiments based on EE
101
=======================
Hum – 101
ENGLISH AND ENGINEERING
ECONOMICS
2 hrs / week
( English )
Paper – V
Marks – 200
Definition of scientific terms; Construction of sentences;
Construction of paragraphs;
Amplification and description; Précis writing; Commercial
correspondence; Phrases and
idioms.
Technical report writing essentials; Materials and
presentation.
Standard form of a thesis.
( Engineering Economics
)
Economic theory : Nature of an economic theory;
Applicability of economic theories in
the problem of developing countries.
Basic concepts: Supply and demand; Relationship among
average, margin and total and
derivation of these relationships; Stable, static and
dynamic equilibrium; Indifference
curve. Producer’s equilibrium; Isoquant; Production
possibility curve: Equilibrium of the firm
Production Problem: Fixed cost and variable cost; Short
run and long run;
Cost curves and supply curves.
Laws of returns; Internal and external
economics.
Economics of development and planning: Basic concepts;
Savings; investments; GDP,
GNP; growth rule.
Policy instruments of development: Fiscal policy; Monetary
policy; Trade policy;
Relative applicability of these policies in
Bangladesh.
Tools of planning: Capital output ratio; Input- output
analysis and linear programming.
Planning in Bangladesh: The perspective plan; Development
problems related to
agriculture, industry and population of
Bangladesh.
=========================
Math – 101
ENGINEERING MATHEMATICS – 1
Paper – VI
2 Hrs / Week
Marks
200
Differential Calculus : Derivatives and its geometrical interpretation;
differentiation of
algebraic and transcendental functions in parametric and
polar forms; successive
differentiation; application of differential coefficients
to find direction of bending;
maxima and minima; tangent and subtangent ; normal and
subnormal; curvature and
radius of curvature; evolutes and involutes; curve
tracing; velocity and acceleration.
Rolle’s theorem; mean value theorem; law of the mean;
indeterminate forms;
L’Hospital’s
rule.
Series: Test for convergence and divergence by test
series; Cauchy’s test ratio; series
expansion by Taylor’s formula; Maclaurin’s
series.
Functions of several independent variables : Partial
differentiation and total differential
with geometric interpretation; Change of variables;
Transformations among Cartesian,
cylindrical and spherical coordinate
systems.
Partial differentiation of higher order; Taylor’s theorem
for more than one variable;
Maxima and minima of functions of more than one
independent variables.
Coordinate Geometry: Circle; coaxial circles; tangent and normal at a point on
a circle;
equations of parabolas; ellipse and hyperbolas; latus
rectum; tangent, normal, subtangent
and subnormal at a point on a conic; director circle and
auxiliary circle of an ellipse;
general equation of a conic in polar form with origin at a
focus; eccentricity of a conic.
Coordinate Geometry of Three Dimension: Distance between points; direction
cosine
and direction ratio; angle between two straight lines;
equation of a plane; plane through
three given points; angle between two planes; equation of
a straight line with known
direction ratios; straight line through two
points.
Math – 103
Paper – VII ENGINEERING
MATHEMATICS – II Marks –
200
2 Hours / Week
Integral Calculus: Summation and
integration; Integration as a reverse process of
differentiation; Geometrical interpretation of integration
and constant of integration;
Integration as process of summation; Definite integral;
Length of a curve; Area bounded
by plane curves of rectangular and polar forms; Deduction
of Simpson’s rule and
trapezoidal rule; Surfaces and volumes ( having known
cross-section ) of revolution.
Hyperbolic functions; Integration by various devices;
Reduction formulas; Improper
integrals; Elliptical integrals; Series expansion of Beta and Gamma functions;
Relation
between Beta and gamma function; Gamma function and
factorial.
Multiple Integrals: Area, volume and centroid in
Cartesian, cylindrical and spherical co-
ordinates; second moment of area; Moment of inertia of
mass; Product of inertia;
Application of Jacobian for determining area and volume in
curvilinear co-ordinates.
Differential equation in one independent variable: setting
up of equations; order, degree,
homogeneity, and linearity of an equation; first order
first degree equations depicting
logarithmic growth, integrating factor, variable separable
solutions; lisageous forms;
linear forms; Exact equation of general nature; General
linear equation with constant
coefficients; complementary function and particular
integral; operator “D” ;
Homogeneous linear equation; equations of first order and
higher degree; Clairaut’s
form; differential equation with one variable absent;
homogeneous forms.
Vector Algebra: Unit vector; orthogonal base vectors;
magnitude and unit vector from
components; Graphical and co-ordinate method of addition and subtraction of
vectors;
multiplication by a scalar; scalar ordinate of two
vectors; work and energy; vector
product of two vectors; moment of a force; Linear velocity
from angular velocity; Area of
a parallelogram; Scalar triple product; volume of a parallelopoid ; vector
triple product;
Moment of a rotating particle; Moment of
momentum.
ME – 100
Practical
ENGINEERING DRAWING AND SKETCHING
Marks –
100
3 Hrs / week
Engineering Drawing: Orthographic projection; auxiliary projection; oblique
projection;
Isometric projection; orthographic projection from
pictorial views; Pictorial projection
from orthographic views; Sections of solids;
Interpenetration and intersection of solids;
Development of surfaces; Fasteners and screw threads;
Drawing of buildings.
Engineering Sketching: Orthographic views from models and pictorials;
Pictorial
sketching from models and pictorials; pictorial sketching
from orthographic views;
Fasteners and Screw threads.
ME –
101
Paper – VIII
BASIC MECHANICAL ENGINEERING Marks – 200
2 Hrs / week
Introduction to sources of heat energy and its utilization
in heat power plants;
Introduction to steam generation; Working principle of a
few representative boilers; study
of major boiler parts and accessories; Introduction to
principle of operation of steam
engines, steam turbines, gas turbines, diesel engines,
petrol engines, Air compressors;
Basic concepts of refrigeration and air conditioning;
Temperature and pressure
measurements.
Industries in Bangladesh; Present and future trends of
industrialization in Bangladesh;
Elemental process outline of important industries in
Bangladesh.
ME – 102
Practical
BASIC MECHANICAL ENGINEERING Marks –
100
3/2 hrs per week
Practical experiments based on ME -
101
MES – 102
Practical WOOD
WORKING PRACTICE
Marks –
100
3/2 Hrs per week
Acquaintance with hand and machine tools used in wood
working shop; Identification of
timbers; Sewing, planning and chiseling practices;
Mortising, Teuoning, Dovetail pin and
socket making; Half-lap cross joint; Searf joint; Rabbet
joint; Dedu joint.
MES – 104
Practical
METAL SHOP
PRACTICE
Marks –
100
3/2 Hrs per week
Acquaintance with tools and machines used in metal shop;
Sheet metal works; Study of
different welding machines; Soldering; Welding and brazing
practices.
MES – 106
Practical
MACHINE AND FITTING SHOP PRACTICE Marks –
100
3/2 Hrs per week
Acquaintance with tools used in fitting shops; Practice of
chiseling and filling; making
cube from M.S rod by file and chisel; closely fitting male
and female parts with file and
chisel.
Study of the principle of lathe machine, drilling machine,
shaper, planers and milling
machines; plane turning, taper turning, facing and
necking; Drilling and reaming.
MES – 105
Practical
FOUNDRY SHOP PRACTICE
Marks – 100
3/2 Hrs per week
Acquaintance with tools and appliances used in foundry
shop; Molding sand and its
preparation; Making moulds for ferrous and non-ferrous
pasting; use of core boxes;
Casting of metals.
Ph – 101
Paper – X, XI
PHYSICS
Marks = 130 + 150 = 300
3 Hrs per week
Paper – X
Physics
Marks – 150
Modern Physics:
Atomic structure; Thomson’s and Rutherford’s atom model and
their
drawbacks; Bohr’s atom model; Nature of electron orbits;
Orbital energy; Origin of
spectral lines; Different series of spectral lines of
hydrogen; Energy level diagram of
hydrogen atom; Orbital states; Helium spectrum; Spectrum
of complex atoms; Space
quantization; Magnetic moment of orbital electron;
Quantization of magnetic moment;
Spin quantization; Electron shell; Pauli’s exclusion
principle; Periodic table.
Introduction to radioactivity; Laws of radioactive
disintegration; Half life; Laws of
successive disintegration; Practical application of
radioactivity; Mass-energy relation and
its practical evidence; Time dilation; Introduction to
nuclear physics; Binding energy;
Fission and fusion processes; Chain reaction; Application
of nuclear energy.
Geometrical Optics:
Reflection and refraction of spherical surfaces; Lenses;
Astigmatic
lenses; Combination of thin lenses; Defects of images
formed by spherical mirrors and
lenses; Spherical aberrations; Astigmatism; distortion;
Curvature of longitudinal and
transverse chromatic aberrations; Achromatic combination
of lenses.
Thermodynamics:
First law of thermodynamics; Thermodynamic processes;
Internal
energy and work in various processes; Second law of
thermodynamics; Thermodynamic
cycle; Carnot cycle and reversibility; Thermodynamic scale
of temperature; Carnot’s
theorem; Efficiency of reversible and irreversible cycles;
Clausius’ and Kelvin’s
statements; Entropy and irreversibility; Thermodynamic
functions of states; Maxwell’s
thermodynamic relations and problems; Clausius and
Clapeyron’s equation; Joule-
Thomson effect.
Paper – XI
Physics
Marks – 150
Heat: Measurement
of low and high temperatures; Resistance thermometers;
Thermocouple and radiation pyrometers; Calorimetry;
Specific heats of solids and liquids
with radiation correction; Specific heats of gases and
their isothermal and adiabatic
transformations; Kinetic theory of gases; Deduction of
Boil’s law; Charl’s law;
Avogadro’s law and Graham’s law of diffusion; Equation of
state; Andrew’s experiment;
Van der Waal’s equation; Determination of critical
constants; Thermal conductivity of
solids and liquids; good and bad conductors of
heat.
Physical optics: Wave theory
of light; Huygen’s principle and construction;
Superposition of light waves; Interference; Young’s
experiment ( rectilinear bi-prism );
Interference from multiple reflection; Newton’s rings (
rectilinear propagation of light
based on wave theory ); Diffraction; Diffraction by single
slit, double slit and diffraction
gratings; Polarization by reflection; Polarization by
double reflection; Nicol prism and
polarimeters.
Sound: Simple
harmonic motion; Wave motion; Principle of superposition;
Progressive
and stationary waves; Energy calculations; Doppler’s
effects; Free and forced vibrations;
Resonance; Melde’s experiment; Kundt’s tube; Reflection
and refraction of sound.
Ph – 102
PHYSICS LABORATORY
Practical
3 Hrs per week
Marks – 100
Laboratory experiments based on Physics – X and Physics –
XI.
PT – 100
Practical
PHYSICAL
TRAINING
Marks – 100
1 Hr / day for
5 days / week
Physical exercise, mach and drill for male
students.
Indoor games like table tennis, badminton for female
students.
BANGLADESH INSTITUTE OF TECHNOLOGY,
KHULNA
FACULTY OF ENGINEERING
B.Sc ENGINEERING
PART-II
EXAMINATION
ELECTRICAL ENGINEERING
SESSION 1980-81
The courses of study and
distribution of marks are as follows:
Course
Course Name
Hrs/week
Theory/
Marks
Remarks
No.
Practical
EE 200 Electrical
Shop Practice
3/2
Practical
100
EE 205 Electrical
Circuit-I
3
I
300
EE 206
-do-
3/2 Practical
100
EE 207 Electrical
Machines-I
3 II
300
EE208
-do-
3/2
Practical
100
EE 215
Electronics & Electronic Cct.
3
III
300
EE 216
-do-
3/2
Practical
100
Ch 203
Engineering Chemistry
2
IV
200
Hum 203 Sociology &
Government
2
V
200
Math 205 Engineering Mathematics-III
3
VI
300
Math 207 Engineering Mathematics-IV
3
VII
300
ME 209 Mechanics of
Materials
3
VIII
300
ME 210
-do-
3/2
Practical
100
ME 213 Thermo-fluid
Mechanics
3
IX
300
ME 214
-do-
3/2
Practical
100
Total hours = 34
Total marks = 3100
DETAILED SYLLABI FOR B.Sc. ENGG. (ELECT.) PART-II
EXAMINATION
SESSION 1980-81
EE – 200
Practical
ELECTRICAL SHOP PRACTICE
100
Marks
3/2 hrs/week
Electrician’s tools, Splices, Soldering, Wiring process,
Electrical and electronic symbols, Color code practice, Familiarization with
electronic equipments, Electronic schematic diagram, Industrial electronic
diagrams, power-wiring diagrams, Estimating for electrical systems, Electricity
rules.
EE- 205
ELECTRICAL CIRCUIT- I
Paper – I
3 hrs/week
300 Marks
Equilibrium equations for
circuits with energy storage and their solutions, Transient and steady-state
response of RL, RC and RLC circuits to sinusoidal functions, steady-state
response of a two mesh circuit.
Effective and average values of an alternative wave,
Complex impedance and phasor algebra, Power relations in a.c circuits,
Steady-state analysis of balanced three-phase circuits, Power in three-phase
circuits and its measurement.
Frequency response characteristic in two-terminal and
two-terminal pair networks, Fourier series, Laplace transform and transient
analysis, Introduction to matrix analysis of electrical networks.
EE-206
ELECTRICAL CIRCUITS- I
Practical
3/2 hrs/week
100 Marks
Laboratory experiments and other assignments based on EE-
205
EE – 207
Paper – II
ELECTRICAL MACHINES – I
300 Marks
3 hrs/week
Electromagnetic induction,
Dynamo construction.
D.C. Generators:
Generator principles, Armature windings, Generator characteristics, Armature
reaction, Parallel operation of D.C generators.
D.C Motors: Motors
principles, Motor characteristics, Starting of D.C motors, Method of speed
control of D.C motors, Dynamo Efficiency.
A.C Machines:
Transformer - working principles,
Transformer construction, Equivalent circuits, Phasor diagram, Voltage
regulation and efficiency, Transformer losses, Determination of transformer
constants, Polarity determination and single phase transformer connections,
Auto-transformer.
Three-phase induction motor: General principles,
Construction, Rotating magnetic field, Equivalent circuits, Squirrel cage and
slip ring motors, Maximum starting torque, Torque-speed curve, Full load and
maximum torque, Starting methods, Speed variation methods, Tests for polyphase
motors, Determination of constants
of motor from test data. Calculation of performance from test
data.
EE – 208
ELECRICAL MACHINE – I
Practical
3/2 hrs/week
100 Marks
Laboratory experiments and other assignments based on EE –
207
EE – 215
ELECTRONICS & ELECTRONIC CIRCUITS –
I
Paper – III
3 hrs/ week
300 marks
Electronic
Devices:-
Electron emission,
Semiconductors, Vacuum tubes, Semiconductor diodes, Tunnel diodes, Vacuum
triodes, tetrodes, Beam-power tubes, Junction transistors, Static
characteristics and ratings of various devices, Power supplies- half wave and
full wave rectifiers, Bridge rectification, Voltage multiplying circuits,
filters.
Graphical analysis of electronic Circuits:-
National convention biasing
techniques for tubes and transistors operating point stabilization, generalized
devices with characteristic, A.C load lines, graphical calculation of output
quantities. Distortion and effect of input circuit on distortion.
Linear Equivalent Circuit of
Electronic Devices:-
Equivalent circuit for
three-terminal linear networks, rotation among network parameters, equivalent
circuit representation of electronic devices, common cathode vacuum tube
amplifier and equivalent circuits, cathode follower, common grid amplifier,
transistor equivalent circuits, h-parameter equivalent circuits for common
emitter, common collector and common base configuration, Analysis of transistor
amplifiers, stray capacitance and miller effect, high frequency input admittance
of common plate amplifier, transit time effects, high frequency equivalent
circuits for transistors, equivalent circuits for tunnel
diodes.
Equivalent Amplifier
Fundamentals:-
Cascading of amplifiers, effect
of input-output impedance on gains of cascade amplifier stages, coupling
networks, decibel notation, classification of amplifiers and efficiency of ideal
amplifier, distortion.
Class A Small Signal
Amplifiers:-
Frequency response and factors
of footing, frequency response of RC coupled vacuum tubes and transistor
amplifiers, input and output stages in a multistage amplifier, Design of
RC-coupled amplifiers, frequency compensation, transformer coupled and tuned
amplifiers neutralization, direct coupled amplifiers.
EE – 216
Practical
ELECTRONICS & ELECTRONIC CIRCUITS-I
100 marks
3/2 HOURS/ WEEK
Practical Experiments and other assignments based on EE
215
Ch 203
ENGINEERING CHEMISTRY
2 HRS/WEEK
Thomson and Rutherford atom model, Rutherford’s theory of
scattering of particles, Bohr’s atom model, Quantum theory and wav e
mechanics.
Electronic structure of the atom of various elements,
chemical reactions and chemical bonding ie. Electro-valence, covalence,
co-ordinate covalence, hydrogen bond, Metallic bond, chalet bond, singled
bonding.
Crystal
Chemistry:-
Crystal symmetry, Miller
indices, Bragg’s method and X-ray method for determination of structure,
Structure of metallic elements and of certain compounds with three dimensional
lattices, factors which influences the crystal structure of compounds which
contains covalent bonds, defects in the solid state,
semi-conductor.
Electro-chemistry:-
Faraday’s law of electrolysis,
Narost theory of electro potential, Hitorf’s transport number, Galvanic cells
and secondary cells, electro-chemical principles and
corrosion.
Nuclear and
Radio-Chemistry:-
Chemical aspects associated
with production and application of nuclear energy, principles of separation and
utilization of radioactive materials and radiation.
Hum 203
Paper- V
SOCIOLOGY & GOVERNMENT
200 Marks
2 hours/week
Sociology
Sociology, it’s development and
Bengali society, some fundamental concepts of society, community association,
group, property, Social evaluation and Techniques of production, Culture and
civilization- social history and culture of Bangladesh, Indo-Pak subcontinent,
it’s antiquity.
Pre-industrial and industrial
society:
Comparative study of oriental
and accidental societies, origin of towns in Europe and Indo-Bangladesh
subcontinent, Character of pre-British Indian towns, urbanization and
industrialization in Bangladesh, impact of industrialization and
urbanization.
Population and urban
economy:
Social problems: Population,
poverty, prostitution, beggary, crime and juvenile delinquency. Problems arising
out of liberation war in Bangladesh. Primitive society: Social structure of the
tribal people of Bangladesh.
GOVERNMENT
Scope and utility of government
and politics relation-relation of political science, the origin and development
of the state, definition of the modern state, Citizenship and modern form of
government, origin of government, the election system and more than one party culture of democracy
to form a government, Plato’s thinking about government and state, ‘Plato’s
Republic’- theory of state, Aristotle and ‘politica’. Machiavelli and his
thinking of state.
Contribution of Holtenistic thought- Roman contribution-
contribution of Christianity, contribution of Islam to political thought.
Feudalism (Indian Feudalism), political importance of Feudalism, Individualism,
Fascism, Marxism, UNO constitution of Bangladesh.
Math – 205
Paper- VI
ENGINEERING MATHEMATICS-III
Marks-
300
3 hours/
week
Calculus: Fourier series, Fourier coefficients, Even and
odd functions, Convergence of Fourier series, Extension of interval of Fourier
series, Fourier integral, Complex Fourier series, Integration and
differentiation of Fourier series, Series solution of differential equation and
independent variable, Bessel’s equation, Bessel’s functions of various kinds,
Modified Bessel’s function, Ber and bei functions, Legender’s equation, Legender
polynomials, Legender function of the second kind.
Fourier transform, it’s properties and and application to
wave equations, Laplace transform, it’s basic theorem, Application of Laplace
transform for solution of ordinary differential equations, Error function,
Simple partial differential equations with initial and boundary conditions of
being not more than second degree in not more than three independent variables,
Application of Laplace transform to partial differential
equations.
Matrices: Linearity, Representation of linear equations in
matrix forms, Determinate and it’s elements, Minor and co-factor of an element,
value of determinate by Laplace development, Value of determinate by triangular
method, Cramer’s rule, Products of determinates, Addition and multiplication of
matrices by scalar and another matrix, Square matrix, Symmetrical, diagonal,
identity, null and singular matrices, Transformation and adjoint, Inverse matrix
from adjoint, Equivalent matrices by elementary transformation, Inverse matrix
formed by elementary transformations, Diagonalisation, Orthogonal and orthogonal
curvilinear transformation, Latent root, Eige Vectors and characteristic
equations, Real symmetric matrix, Quadratic forms, Hermitian and skew-Hermitian
matrix, Conjugate and unitary matrices, Rank of a matrix, Linear dependence and
image, Significance of determinate, Simple linear mapping like reflection,
stretching, solution of systems of linear equations, The Jacobian matrix
coefficient and matrix in orthogonal transformations.
MATH 207
ENGINEERING MATHEMATICS- IX
Paper – VII
3 hrs/ week
Marks – 300.
Vector Analysis
Orthogonal base vector,
Transformation among Certesian, cylindrical and spherical bases, Differentiation
of vectors, Directional derivatives, The gradient, divergence and curl, The
operator “del”, Evaluation of (P.V)P, Laplacian and orthogonal
coordinate.
Stokes’ theorem and circulation, Gauss’ theorem and Gauss’
law, Green’s theorem, irrotational and solenoidal fields, Field potentials,
Potentials of conservance.
Complex Variables & Harmonic
Analysis
Functions of complex
variable, Cauchy’s theorem, Line integrals, Derivatives, Cauchy’s integral
formula, Taylor’s series, Singular point and residue, Geometrical representation
and conformal mapping, Laplace equation in orthogonal co-ordinate systems, Two
dimensional flow, Circular, cylindrical and spherical harmonics, Diffusivity
equation and it’s application in linear flow and varying boundary conditions and
in two dimensional flow applying Cartesian and polar forms, Application of
diffusivity equation to general flow problems.
Statistical Analysis:
Frequency; Probability; Sample space; Probability in
finite space; Random variable;
Sample average; Population mean; Mean absolute deviation;
Variance; Covariance;
Standard deviation; Random distribution; Discrete
distribution; Continuous distribution;
Chebysheb’s theorem; Joint
distribution.
Normal probability distribution; Probability equation and
its derivation; Normal curve
and its properties; The probability integral and its
evaluation by ascending power series
and descending power series.
Binomial distribution and its properties; Central limit;
Laplace- Demoive theorem; Law
of large numbers; Poisson’s law.
Theory of errors and Gaussian law of errors; Arithmetic
mean; Weighted mean; Most
probable value; Measure of precision; Mean square error;
Probable error and average
error; Rejection of observation; Confidence
limit.
ME 209
MECHANICS OF MATERIALS
Paper- VIII
3 hours/ week
300 marks
Stress and Strain:
Tension and Compression, Bond vectors, Deformation due to tensile or compressive
force, Internal force, Stress, Axial stresses, Shear stress, Strain, Elasticity
and elastic limit, Hook’s law, Modulus of elasticity, proportional limit,
Strain-stress diagram, Bearing stress, Hoop stress, Centrifugal stress, Thermal
stress, Shearing string, Modulus of rigidity, Impact load.
Combined stress and strain: Stress on inclined plain of an axially loads member,
Principal stress and principal plain, Bi-axial stress, Thin-walled pressure
vessel, Mohr’s circle, Pure shear, Rotation between modulus of rigidity and
modulus of rigidity, Combined stress and principal plane, Strain rosette, Thick
cylinder vessel, Rotating discs of
uniform thickness and of uniform
Strength.
Torsion: Rotation
between shearing stress and torque, solid and hollow shaft, Close coil helical
spring. Rotation between shearing stress and torque, solid and hollow shaft,
close coiled helical spring,
Statically Determinate Beams: Simple beams, Different types of loading and reactions
at supports, Shear force and bending moment diagrams, Relation between shear
force and bending moment, Superposition principle, Considerations for flexure
equation and distribution of bending stress, Shearing stress due to bending,
Beam of two materials, Reinforced concrete beams, Resistance to bending,
Balanced reinforcement and straight line theory, Bond, Slab and T-beam with
reinforcement. Deflection of beams, Elastic line and its equation obtained by
successive integration, Moment-area method, Principle of superposition, Strain
energy method of finding deflection, Castiglieno’s theorem and its application.
Statically Indeterminate Beams: Degree of indeterminacy,
Solution by method of superposition for beams having single span, Solution by
Castigliano’s theorem of least work and by slope-deflection method for
continuous beam.
Column Theory:
Compression blocks, struts, columns and braces, Limit of eccentricities for
struts, Euler’s column formula for control load and different end conditions,
Modes of failure and critical load, Slenderness ratio and classification of
columns, Secant formula for columns with eccentric loading, Empirical formulae,
Straight line equation, Parabolic equation.
Combined Loadings:
Stress analysis for loading in various combinations of torsion, bending, thrust
and shear load.
ME 210
Practical
MECHANICS OF MATERIALS
100
MARKS
3/2 HOURS / WEEK
Practical experiments and other assignments based on
courses of ME 209.
ME 213
THERMO-FLUID MECHANICS
Paper-IX
3 hours/week
300 marks
System, Phase, Pure substance, State, Process,
Equilibrium, PVT surface of state, Properties and laws of perfect gases, Real
gases, Compressibility and expansivity of perfect gas, Balk modulus of
elasticity, First law of thermodynamics, Internal energy, Specific heat,
Enthalpy, Reversible non-flow process, Thermodynamics of steam generation,
Properties of steam, Calorimetry, Use of Mollier chart, Rating and performance
of boilers, Second law of thermodynamics, Carnot cycle, Cycle analysis, Carnot
cycle with steam, Indicator diagram, Performance of steam engine, Ideal cycle
for I.C engine, Otto cycle, Diesel cycle, Fluid statics, Manometry, Pressure
gauge, Thrust on plane and curved surface immersed in fluids, Steady flow,
Uniform and non-uniform flow, Laminar and turbulent flow, Viscosity, Stream
line, Energy equation of stream line, Continuity, Orifice, nozzle and
venturimeters, Pilot tube measurements, notches, Incompressible real flow
through pipes, Friction factor, Moody chart and its use, Head loss, Boundary
layer concept, Skin friction, Lift and drag, Steady open channel flow, Hydraulic
jump, Reciprocating pump, Pelton wheel, Reaction turbines, Centrifugal pumps,
Compressors and blowers, Pumping head, Cavitation.
ME 214
THERMO-FLUID MECHANICS
PRACTICAL 3/2 HOURS/WEEK 100
MARKS
Laboratory experiments and other assignments based on
ME 213.
BANGLADESH INSTITUTE OF TECHNOLOGY,
KHULNA
FACULTY OF ENGINEERING
B.Sc. ENGINEERING (ELECTRICAL) PART – III
EXAMINATIONS
SESSION 1980-81
The courses of study and the distribution of marks are as
follows:-
|
SL. NO |
Course No. |
Name of the Course |
Hrs/Week |
Exam. Paper & Practical |
Marks |
|
1 |
EE 300 |
Electrical Shop Practice |
3/2 |
Practical |
100 |
|
2 |
EE 303 EE 304 |
Electrical Measurements & Measuring
Instruments -do- |
3 3/2 |
I Practical |
200 100 |
|
3 |
EE 305 EE 306 |
Electrical Circuits -do- |
3 3/2 |
II Practical |
300 100 |
|
4 |
EE 307 EE 308 |
Electrical Machine- II -do- |
3 3/2 |
III Practical |
300 100 |
|
5 |
EE 309 |
Transmission & distribution of Electrical
Power |
3 |
IV |
300 |
|
6 |
EE 311 |
Electromagnetic Fields |
2 |
V |
200 |
|
7 |
EE 315 EE 316 |
Electronic Circuits- II -do- |
3 3/2 |
VI Practical |
300 100 |
|
8 |
EE 320 |
Electrical Design |
3/2 |
Practical |
100 |
|
9 |
EE 322 |
Electronic Computing
Technique |
2 |
Practical |
100 |
|
10 |
Hum 301 |
Industrial Management & Industrial
Law |
2 |
VII |
200 |
|
11 |
Math 303 |
Engineering Mathematics-V |
3 |
VIII |
300 |
Total
Hours = 32
Marks = 2800
EE-300
(Electrical Shop Practice)
Practical
3 hours/week
200 Marks
Circuit tracing of electronic equipments. General fault
and troubleshooting procedures in electronic equipments. Troubleshooting of
oscilloscopes, Signal Generators, VTVM’s, Audio and Radio and TV receivers.
Testing of Audio equipments.
EE – 303
( Electronic measurement and
measuring instruments)
Paper – I
2 hours/week
200 Marks
Measuring of resistances, AC
bridges for measurement of capacitance, Self-inductance and mutual inductance,
Potentiometers, Magnetic measurements, Illumination measurements, high voltage
measurements and testing, Localization of cable faults.
Measurements: Ammeters and Voltmeters, multi meters,
extension of instrument range, wattmeters, Energy meters, speed, frequency and
phase difference meters. Electronic measuring instrument: VTVM, rVM, CRO,
Q-meter, Frequency meter, Classification of errors.
EE-
304
(Electronic measurement & measuring
instruments)
Practical
3 hours/week 100
marks
Laboratory and other assignments based on EE
303
EE 305 (Paper – II)
3 hrs/week
Electrical Circuit-II
300 Marks
Characteristic of a linear system: Equivalent networks
& network theorem: Analysis by Fourier method, The Laplace Transformation
and its application; Locus diagram Additional concepts and theorems (a) Impulse
function (b) Convolution Integral (c) Superposition Integral; Matrix analysis in
electrical network theory, Introduction to poles and zeros and their effect on
network characteristics. Reactance and Susceptance curves, Synthesis of
dissipationless networks, Two-port networks, Terminated two-port networks,
Systems with distributed parameters, Conventional filter design and operation.
EE- 306
Practical
(Electrical circuit-II)
3 hrs/ week 100
marks
Laboratory experiments and other assignments based on EE
306
EE- 307( Paper- III)
(Electrical Machines- II)
3 hrs/week
300 Marks
Special Machines: Three-wire D.C generators, Amplidyne, Regulex, Rotoral
and frequency multipliers.
Transformers: Three phase
operation of single phase transformers, Open, Delta connections, Transformer
harmonics, Induction voltage regulator, Parallel operation of transformers,
Earthing.
Poly phase Induction Motors: Equivalent circuits, Losses and efficiency, Circle
diagram, Harmonics in the Air-gap flax. Asynchronous
generator.
Synchronous Machine: Alternators: construction, theory of operation, Armature
windings, Alternator regulation, Armature Reaction and Reactance, Two-reaction
Analysis, Transient conditions of alternator, Losses and Efficiency,
Synchronizing and load sharing of Alternators.
Synchronous motors: Construction and theory of operation, Motor
characteristics, Mathematical analysis, Vector diagram, V-curves, Motor tests,
loses, Efficiency and starting, Single phase machine: Theory, principles of
operation of different types of single phase motors and their characteristics.
EE- 308
3 hrs/week
(Electrical
Machines-II) Practical
100 Marks
Laboratory and other assignments based on EE
307
EE 309(Paper-
IV)
(Transmission and Distribution of Electrical
Power)
3 hrs/week
300 Marks
Inductance of Transmission
Lines:
Flux linkages, Inductance due
to internal flux, Inductance of single phase two-wire line, Flux linkages of one
conductor in a group, inductance of composite-conductor, lines-G.M.D Examples, 3
phase lines with equilateral and with unsymmetrical spacing, Capacitance of
transmission lines.
Electrical field, Potential
difference between two points due to a charge-capacitance of a two wire line,
Group of charged conductors, Capacitance of 3 phase with equilateral and with
unsymmetrical spacing, Effect of earth, Parallel circuit lines, Resistance and
temperature, Current and voltage relations on a transmission line,
Representation of line-short, medium and long transmission line-Tee and Pye
representations, Exact solution, equivalent circuit of along
line.
General line equation in terms
of A,B,C,D constant, Relations between constants, Charts of line constants,
Constant of combined networks, Measurement of line constants,
Circle Diagrams: Receiving and
sending end power circle diagrams, Power transmitted and maximum power
transmission. Universal Power circle Diagram, Use of circle diagrams. Voltage
and power factor control in Transmission Systems. Tap changing Transformers, on
load tap changing, Induction regulators, Moving coil regulators, Boosting
Transformers.
Power factor control-Static
condenser in series or parallel, Synchronous condensers, Ferranti
effect.
Distribution: Distributors
calculation, ring mains and interconnections, insulators for overhead line. Type
of insulators: their construction and performances. Potential distribution in a
string of insulators, string efficiency, Methods by equalizing potential
distribution, Special types of insulators, Testing of
insulators.
Mechanical characteristic of
transmission lines: sag and stress analysis, wind and ice loading, Supports at
different elevations, conditions at erection, effects of temperature changes.
Insulated cables: Cables as overhead lines, Insulating materials, Electrostatic
stress’ grading, Three core cables-Dielectric loses and heating, modern
development-oil filled and gas filled cables, Measurement of capacitance, Cable
testing.
EE 311 (Paper –
V)
(Electromagnetic
Field)
2 hrs/week
200 Marks
Vector Analysis: Coulomb’s Law
and Electrical field Intensity, Electric Flux density, Gauss’s Law and
divergence, Energy and Potential, Conductors in Electrostatic Field,
Capacitance, Experimental Mapping methods, Poisson’s and Laplace’s Equations,
the steady magnetic field, Time-varying and Maxwell’s Equations, Applications of
Maxwell’s equations, Relation between circuit theory and field theory, Elements
of plane wave propagation and reflection: Skin effect and circuit impedance,
Introduction to antennas and radiation.
EE 315
(Paper-VI)
(Electronic
Circuit-II)
3 hrs/Week
300 Marks
Untuned Large signal
amplifiers: Class A singled ended amplifier and its design, Parallel operation,
Push pull amplifiers-composite device, class AB and class B push pull amplifies-
their design, thermal consideration, phase inverters.
Tuned Large Signal Amplifier:
General discussion and analysis of Class B and Class C amplifier, The resonant
circuits, Design of Class B and Class C amplifier, Input bias in class B and
class C amplifiers, Neutralization of push pull class B and class C amplifier,
Feedback amplifiers: Basic principles and noise analysis, frequency response and
impedance levels, stability and oscillation in feedback amplifier, test for
stability and Nyquist criterion for the stability, Absolute and conditional
stability, Design of feedback amplifier, Operational amplifier. Oscillator:
Criterion for oscillation, typical radio frequency oscillator, RC-oscillator-
linear and non-linear operation, Design of oscillator. Modulation and
Demodulation: modulation of a Sinusoid, Amplitude modulation, AM circuits,
Detection of a modulated signal, A super heterodyne receiver, Frequency and
phase modulation, FM and PM circuits, Detection of FM and PM
signals.
EE-310
(Electronic Circuits-II)
Practical
3 hrs/ Fortnight
100 Marks
Laboratory Experiments and
other assignments.
EE-
320
(Electrical Design)
Practical
3 hrs/Fortnight
100 Marks
Design and drawing of
electrical system layout including electrical power installation, Elements of
electrical estimating, General design principles of electrical apparatus
involving electric and magnetic circuit, specification and design of
electromagnets, solenoids, chokes, Transformers, starters, etc. Elements of
design of rotating machines.
EE-322
(Electronic Computing
Technique) Practical
2 hrs/week
100
marks
Programming and use of analog
computers, Programming techniques of digital computers algorithms, Flow chart,
machine language, Procedural language- FORTRAN, ALGOL etc.
Hum 301
(Paper-VII)
(Industrial Management &
Industrial law)
2 hrs/week
200 marks
( I
)
Administration, Management and
Organization, Authority and Responsibility, Principle of scientific management
and Organization. Organization Structure: Principles of Organization-line
organization, line staff organization and functional organization, Organization
chart, Span of control policies, Committees, Management and decision
making.
Plant Layout: Physical
facilities, transportation, Storage, Materials handling, Maintenance and
repairs.
Production control in
continuous and intermittent manufacturing, Supplement planning, Scheduling,
Routine machine loading, Assembly line control, Purchasing procedure, Inventory
control and waste elimination, Sales-organization and
promotion.
( II )
Law of Contract, Kinds of
contract, Elements of valid contract consideration, Legality of object, Parties
competent to contract, Parties affected by contract, Industrial law in
Bangladesh, Law in relation to wages, Hours, Health, Safety and other conditions
of work, The legislation affecting employment in factories, Transportation and
agriculture.
Trade union legislation,
Arbitration and conciliation, The industrial court, policy of the state in
relation to labor, the influence of I.L.O and other international bodies, the
law of social insurance, Legislation for the control of industries.
Math 303 ( Paper- VIII
)
Engineering Mathematics –
V
3 hrs/week
300
marks
Numerical
Analysis: Solutions of algebraic
equations: graphical method, iterative method, Newton’s method, Gauss reduction
formula for linear equations, method of dominating
diagonal.
Interpolation: forward
difference and backward difference, table, Newton’s formula for forward
difference and backward difference, Lagrange’s interpolation
formula.
Curve fitting: method of least
square.
Harmonic Analysis: general
formula, six ordinate scheme.
Numerical Differentiation: Use
of Newton’s interpolation formula, Douglas-Avakian method, Graphical
differentiation, Maxima and minima,
Numerical Integration:
Trapezoidal rule, Simpson’s rule, use of Lagrange’s interpretation formula,
graphical integration.
Solution of differential
equations: Adam’d method for first order equations, Picard’s method, Runge’s
method, Kutta’s method. Finite difference method.
Bangladesh
Institute of Technology, Khulna
B.Sc Engineering Part- IV Examination
Session- 1980-81
The courses of study and distribution
of marks are as follows:
Course No. Name of
Courses
Hrs/ week
Paper No. Full
Marks
Remarks
EE 400
Thesis & Project
6
200
EE 401
Servomechanism &
2
I
200
Control System
EE 407
Energy Conversion
3
II
300
EE409
Power System, Switch
3
III
300
Gear &
Protection
EE 410
-do-
3/2
Practical
100
EE 415
Electronic Circuits &
3
IV
300
Systems
EE 416
-do-
3/2
Practical
100
EE417
Communication Engg.
3
V
300
EE 418
-do-
3/2
Practical
100
EE 420
Electronic Design Practice
2
Practical
100
ELECTIVE
COURSES
EE 403
Power Stations
2
VI
200
EE 413
Switching Circuits
3
IX
300
Total Period= 31.5 hrs Total Marks= 2500
RESUME
Shaikh K. ULLAH NIRVANA Tel: Illegible
North York, Ontario E-mail: [email protected]
Canada
OBJECTIVE: Let me barely smile with you
EDUCATION & TRAINING
B.E [Bachelor of Engineering in Electrical & Electronics] 1987
BIT, Khulna, Bangladesh
Electronic Engineering Techniques 2001
Humber College, Toronto, Ontario
Medical Laboratory Techniques 2004
Centennial College, Scarborough, Ontario
Certification & membership By OSMT, 2004
Ontario Society of Medical Technologists
Certification & Membership, IEB, Institute of Engineers' Bangladesh 1990
EXPERIENCE
CTG Urea Fertilizer Ltd 1989 to 1996
Instrument Engineer
Worked as engineer in the area of process control instrumentation, maintenance, installation, repair, procurement and manpower planning.
Volunteering under UHN [University Health Network] at cystoscopy department in Toronto General Hospital, Canada
I have near death experience
I have deep transcendental & ecstatic meditation experience
I have also numerous disqualifications, so far I know.
Hobbies & Interest
Reading & writing for pleasure, playing chess, Computer & Critical thinking
References available on request
