syllabus summary of courses for b. sc. engineering …. ce -1006 details of construction and...

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SYLLABUS

Summary of Course Plan

Sl.

No.

Year/

Semester

Theory Sessional

Total Credit No. of

course Credit

No. of

course Credit

1. 1st/1st* 5 15 5 7.50 22.50

2. 1st/2nd 5 18 3 2.25 20.25

3. 2nd/1st 5 16 4 3.75 19.75

4. 2nd/2nd 5 18 4 4.50 22.50

5. 3rd/1st 5 18 3 3.75 21.75

6. 3rd/2nd 5 18 4 3.75 21.75

7. 4th/1st 5 18 5 3.00 21.00

8. 4th/2nd 5 12 3 6.00 18.00

* 1st year 1st semester courses are exempted because of candidate's 3 or 4-year

Diploma in Engineering background after 10 years of schooling.

[Notes on course number allocation

1st digit for Year

2nd digit for Civil Engineering (CE) courses:

0 : Basic Engineering

1 : Structural Engineering

2 : Water Resources Engineering

3 : Geotechnical Engineering

4 : Environmental Engineering

5 : Transportation Engineering

For Basic Science and Humanities courses 1: Civil Engineering

Department

3rd and 4th digits for course serial number in a year]

Summary of Courses for B. Sc. Engineering

1st Year 1st Semester (Exempted) Sl.

No.

Course

No. Course Title

Contact

hrs/week Credit

1. Hum-1101 Accounting and Sociology 4 4.00

2. EEE-1001 Basic Electrical Engineering 3 3.00

3. EEE-1002 Basic Electrical Engineering Sessional 3 1.50

4. CE-1001 Surveying 4 4.00

5. CE-1002 Surveying Sessional 3 1.50

6. CE-1003 Engineering Materials-I 2 2.00

7. CE-1004 Welding and Carpentry Shop 3 1.50

8. CE-1005 Details of Construction and Estimating 2 2.00

9. CE-1006 Details of construction and Estimating

Sessional 3 1.50

10. CE-1008 Civil Engineering Drawing Sessional 3 1.50

Total 30 22.50

Contact hours : 15 (T) + 15(S)= 29 No. of Theory courses: 5

Total credits : 21.5 No. of Sessional courses: 5

1st Year 2nd Semester Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1. Math-1101 Engineering Mathematics - I

(Differential and Integral Calculus) 4 4.00

2. Ph-1101 Physics-I (Thermal Physics, Properties

of matter, Electricity and Magnetism) 4 4.00

3. Ph-1102 Physics-I Sessional 3/2 0.75

4. Ch-1101 Chemistry-I

(Polymer and Organic Chemistry) 3 3.00

5. Ch-1102 Chemistry-I Sessional 3/2 0.75

6. Hum-1103 English and Economics 3 3.00

7. Hum-1104 English Language Sessional 3/2 0.75

8. CE-1009 Engineering Mechanics 4 4.00

Total 22.5 20.25

Contact hours : 18 (T) + 4.5 (S) = 22.5 No. of Theory courses: 5


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2nd Year 1st Semester Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1. Math-2101 Engineering Mathematics -II (Co-

ordinate Geometry and Vector Analysis) 4 4.00

2. Ph-2101 Physics – II (Optics and Modern

Physics) 3 3.00

3. Ph-2102 Physics – II Sessional 3/2 0.75

4. Ch-2101 Chemistry - II (Inorganic and Physical

Chemistry) 3 3.00

5. Ch-2102 Chemistry - II Sessional 3/2 0.75

6. CE-2001 Engineering Materials - II 3 3.00

7. CE-2002 Engineering Materials - II Sessional 3 1.50

8. CE-2101 Mechanics of Solids - I 3 3.00

9. CE-2102 Mechanics of Solids - I Sessional 3/2 0.75

Total 23.5 19.75

Contact hours : 16(T) + 7.5 (S) = 23.5 No. of Theory courses: 5


2nd Year 2nd Semester Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1. Math-2103

Engineering Mathematics -III

(Differential Equation and Laplace

Transform)

4 4.00

2. CE-2003 Numerical Methods and Computer

Programming 3 3.00

3. CE-2004 Numerical Methods and Computer

Programming Sessional 3 1.50

4. CE-2103 Mechanics of Solids - II 3 3.00

5. CE-2104 Mechanics of Solids - II Sessional 3/2 0.75

6. CE-2105 Design of Concrete Structures - I 4 4.00

7. CE-2106 Design of Concrete Structures - I

Sessional 3/2 0.75

8. CE-2201 Fluid Mechanics 4 4.00

9. CE-2202 Fluid Mechanics Sessional 3 1.50

Total 27 22.50

Contact hours : 18(T) +9 (S) = 27 No. of Theory courses: 5


3rd Year 1st Semester Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1. Math-3101 Engineering Mathematics - IV (Solid

Geometry, Fourier Analysis and Statistics) 4 4.00

2. CE-3003 Engineering Geology and Geomorphology 3 3.00

3. CE-3101 Structural Analysis and Design - I 4 4.00

4. CE-3102 Structural Analysis and Design - I

Sessional 3 1.50

5. CE-3103 Design of Concrete Structures - II 4 4.00

6. CE-3104 Design of Concrete Structures - II

Sessional 3 1.50

7. CE-3201 Open Channel Flow 3 3.00

8. CE-3202 Open Channel Flow Sessional 3/2 0.75

Total 25.5 21.75



3rd Year 2nd Semester Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1. CE-3105 Structural Analysis and Design - II 3 3.00

2. CE-3106 Structural Analysis and Design - II

Sessional 3 1.50

3. CE-3203 Hydrology 3 3.00

4. CE-3301 Geotechnical Engineering - I 4 4.00

5. CE-3302 Geotechnical Engineering - I Sessional 3/2 0.75

6. CE-3401 Environmental Engineering - I 4 4.00

7. CE-3402 Environmental Engineering - I Sessional 3/2 0.75

8. CE-3501 Transportation Engineering - I 4 4.00

9. CE-3502 Transportation Engineering - I Sessional 3/2 0.75

Total 25.5 21.75



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4th Year 1st Semester Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1 CE-4101 Structural Analysis and Design-III 4 4.00

2 CE-4201 Irrigation and Flood Control 4 4.00

3 CE-4202 Irrigation and Flood Control Sessional 3/2 0.75

4 CE-4301 Geotechnical Engineering-II 4 4.00

5 CE-4302 Geotechnical Engineering-II Sessional 3/2 0.75

6 CE-4401 Environmental Engineering-II 3 3.00

7 CE-4402 Environmental Engineering-II Sessional 3/2 0.75

8 CE-4501 Transportation Engineering-II 3 3.00

9 CE-4502 Transportation Engineering-II Sessional 3/2 0.75

10 CE-4000 Project and Thesis 3 1.50*

Total 27 21.00

Contact hours : 18 (T) +9 (S) = 27 No. of Theory courses: 5

Total credits : 21.0 No. of Sessional courses:5

* Credit transferred to 2nd semester.

4th Year 2nd Semester Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1 Hum-4101 Socio-Economic Aspects of

Development Project 3 3.00

2 Hum-4103 Project Planning and Management 3 3.00

3 CE-4102 Structural Analysis and Design-III

Sessional 3 1.50

4 CE-4104 Building Design Sessional 3 1.50

5 Optional-I 2 2.00

6 Optional-II 2 2.00

7 Optional-III 2 2.00

8 CE-4000 Project and Thesis 3 3.00**

Total 21 18.00

Contact hours : 12 (T) +9 (S) = 21 No. of Theory courses: 5

Total credits : 18 No. of Sessional courses: 4

** 1.5 credit transferred from 1st semester.

List of Optional Courses Sl

No.

Course

No. Course Title

Contact

hrs/week Credits

1 CE-4103 Prestressed Concrete 2 2.00

2 CE-4105 Introduction to Finite Element Method 2 2.00

3 CE-4107 Introduction to Theory of Elasticity 2 2.00

4 CE-4109 Design of Steel Structures 2 2.00

5 CE-4111 Structural Dynamics 2 2.00

6 CE-4113 High Rise Building 2 2.00

7 CE-4203 Hydraulic Structures 2 2.00

8 CE-4205 River Engineering 2 2.00

9 CE-4207 Flood Mitigation and Management 2 2.00

10 CE-4209 Ground Water Engineering 2 2.00

11 CE-4211 Coastal Engineering 2 2.00

12 CE-4303 Advanced Foundation Engineering 2 2.00

13 CE-4305 Critical State Soil Mechanics 2 2.00

14 CE-4307 Earth Dams and Stability of Slope 2 2.00

15 CE-4403 Solid Waste Management 2 2.00

16 CE-4405 Environment Pollution Management and

Control 2 2.00

17 CE-4407 Air Pollution 2 2.00

18 CE-4409 Environmental Aspects of Development

Projects 2 2.00

19 CE-4411 Industrial Water and Waste Treatment 2 2.00

20 CE-4413 Environmental Impact Assessment 2 2.00

21 CE-4503 Traffic Planning and Management 2 2.00

22 CE-4505 Highway Drainage and Airport 2 2.00

23 CE-4507 Transport Projects and Operations 2 2.00

24 Hum-4105 Professional Practices and Communication 2 2.00

25 Hum-4107 Technical Presentation and Speech 2 2.00

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Field-Wise Distribution of Courses

Field Credit Percent Credit Basic Sciences

Mathematics

Humanities

Basic Engineering

Structural Engineering

Water Resources Engineering

Geotechnical Engineering

Environmental Engineering

Transportation Engineering

Optional

Project Thesis

16.00

16.00

13.75

34.50

34.75

17.00

9.50

8.50

8.50

6.00

3.00

9.5

9.5

8.2

20.6

20.8

10.1

5.7

5.1

5.1

3.6

1.8

Total = 167.50 100.0

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Detailed Syllabus

1st Year 1st Semester Courses

Hum-1101: Accounting & Sociology

4 hours/week Credit: 4

Accounting

Introduction: Definition of accounting, its needs and importance,

various images of accounting, accounting and its environment; Users of

accounting information; Generally Accepted Accounting Principles

(GAAP) between book-keeping and accounting; Relationship of

accounting with engineering education.

Accounting Cycle: The recording process, Business transactions, Steps

in the recording process, the accounting equation, the account; Rules of

Debit and Credit; Double entry systems of accounting.

The journal, the ledger, cash book, the trail balance, financial statement

(considering adjusting entries).

Cost accounting, concept of cost, classification of cost, statement of

cost, operating and service costing.

Sociology

Scope; Some basic concepts; Social evolution and techniques of

production, culture and civilization; Social structure of Bangladesh;

Population and world resources; Oriental and Occidental societies;

Industrial revolution; Family urbanization and industrialization; Urban

Ecology; Co-operative and Socialist movements; Rural Sociology.

EEE-1001: Basic Electrical Engineering

3 hour/week Credit: 3

Electrical units and standards; Electrical network and circuit solution

series, parallel and mesh current methods; Instantaneous current,

voltage and power; Effective current and voltage; Average power;

Sinusoidal single phase RLC circuits: Phasor algebra, balanced three

phase circuits; Electrical wiring for residential and commercial loads;

Introduction to transformers and induction motors.

EEE-1002: Basic Electrical Engineering Sessional

3 hours/week Credit: 1.5

Experiments based on fundamental concepts of electrical series and

parallel circuits; Measurement of AC quantities; Measurement of

power; Electrical wiring: House wiring & industrial installation wiring.

CE-1001 Surveying


Reconnaissance survey; Linear measurements; Traverse survey; Plane

table survey; Leveling & contouring; Calculation of areas and volumes;

Problems on heights & distances; Curves and curve ranging, transition

curve, vertical curve; Techeometry: Introduction, principles and

problems on tacheometry; Astronomical surveying: Definition,

instruments, astronomical corrections, systems of time;

Photogrammetry: Introduction of terrestrial photography, aerial

photograpy, reading of photo mossaic, scale; Project surveying; Errors

in surveying; Remote sensing; Introduction and application of Global

Positioning System (GPS).

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CE-1002: Surveying Sessional

3 hour/week Credit: 1.5

Practice on handling of instruments; Chain survey; Plane table survey;

Traverse survey by theodolite; Leveling; Contouring; Route project;

House setting; Curve setting; Stadia surveying; Height and distance

problem.

CE-1003: Engineering Materials-I


Introduction and importance of Engineering materials; Bricks:

Constituents, manufacture, characteristics, test and specification,

classification and use of bricks; Types of bricks; Sand cement block

ceramic products, different types of tiles; Aggregate: Classification and

properties of aggregate; Testing of aggregate; Classification, properties,

test and function of sand; Cement and Lime: Properties, uses and

classification of lime; Difference between cement and lime;

Manufacture, types and composition of cement; Functions of various

ingredients of cement; Testing of cement; Mortar and Plaster: Types,

uses and preparation of mortar; Function of sand and surki in mortars;

Special mortars; Plastering; Pointing.

Paints and Varnishes: White and color washing; Distempering; Plastic

and cement paint; Water repellent paints; Epoxy coating; Concrete:

Function of aggregate and water in concrete; Segregation; Bleeding;

Properties of concrete; Strength and workability of concrete;

Introduction to ply wood, plastic wood and their properties; Geo-textile,

FRP, Synthetic fiber etc; Properties and uses of timber.

CE-1004: Welding and Carpentry Shop


Welding shop

Methods of metal joints: Riveting, grooving soldering, welding; Types

of welding joints and welding practice; Position of arc welding and

polarity: Flat, vertical, horizontal, overhead; Electric Arc welding and

its machineries; Welding of different types of materials; Low carbon

steel, cast iron, brass, copper, stainless steel, aluminium; Types of

electrode, fluxes and their composition; Arc welding defects; Test of

Arc welding: Visual, destructive and non-destructive tests.

Types of gas welding system and gas welding equipment; Gases and

types of flame; Welding of different types of materials; Gas welding

defects; Test of gas welding.

Carpentry shop

Wood working tools; Wood working machine: Band saw, scroll saw,

circular saw, jointer, thickness planer, disc sander, wood lathe; Types of

sawing; Common cuts in wood works; Types of joints; Defects of

timber: Natural defects and artificial defects; Seasoning; Preservation;

Substitute of timber; Commercial forms of timber; Characteristics of

good timber; Use of fastening; Shop practice: Practical job, planning

and estimating of a given job.

CE-1005: Details of Construction and Estimating

2 hour/week Credit: 2

Foundations, different types of foundations; Brick masonry; Framed

structure and bearing walls; Arches and lintels; Details of floors and

roofs; Pointing; Plastering and interior finishing; Scaffolding and

staging; Shoring and underpinning; Thermal insulation and acoustics;

Types and construction details of stairs; House plumbing; Detection,

alarm & fire-fighting system.

Detailed estimate and specification of all major items of work of a

building, bridge, truss and highway.

CE-1006: Details of Construction and Estimating Sessional


Quantity estimates of items of civil works e.g. building, bridge, truss

and highway; Specification of materials of construction projects;

Analysis of rates; Fundamentals of costing and estimating of electrical

and mechanical works.

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CE-1008: Civil Engineering Drawing Sessional


Introduction: Lettering, numbering and heading; Plane geometry:

Pentagon, hexagon, octagon, ellipse, parabola, hyperbola; Projection

(Solid Geometry): Cube, triangular prism, square prism, pentagonal

prism, hexagonal prism, cone, and cylinder; Development: Cube,

pyramid, cone, prism; Isometric drawing; Section and true shape: Cube,

pyramid, cone, prism; Interpretation of Solids.

Plane, elevation and sections of one storied and multi-storied buildings;

Reinforcement details of beams, slabs, stairs etc.; Plan and section of

septic tank; Detail drawing of roof truss; Plan, elevation and sections of

culverts, bridges and other hydraulic structures; Building services

drawings; Introduction to computer aided drafting.

1st Year 2nd Semester Courses

Math-1101: Engineering Mathematics - I (Differential and Integral

Calculus)


Differential Calculus

Limit; Continuity and differentiability; n-th derivatives of standard

function; Leibnit'z theorem; Rolle's theorem; Mean value theorem;

Expansion in finite and infinite forms; Indeterminate from; Partial

differentiation; Euler's theorem; Tangent and normal: Subtangent and

subnormal in Cartesian and polar co-ordinates; Maxima and minima;

Curvature.

Integral Calculus

Integration by parts; Standard integrals; Integration by the method of

successive, reduction; Definite integrals: Improper integrals; Beta and

Gamma functions; Multiple integrals: Area, volume of solids of

revolution.

Ph-1101: Physics-I (Thermal Physics, Properties of matter,

Electricity and Magnetism)


Thermal Physics

Calorimetry: Newton’s law of cooling, specific heat of solid and liquid;

Kinetic theory of gases: Kinetic calculation of pressure, temperature and

energy, ratio of specific heats, atomicity of gas molecules, mean free

path; Equation of state: Van der Waal’s equation of state, critical

constants, Van der Waals constant; Thermal conductivity: Rectilinear,

cylindrical and spherical flow of heat, heat flow through compound

walls, accretion of ice on ponds; Thermodynamics: Zeroth law and first

law of thermodynamics and their applications, thermodynamic

processes, isothermal and adiabatic gas equation and work done,

reversible and irreversible processes; Second law of thermodynamics:

The Carnot cycle; Entropy: Entropy of a perfect gas.

Properties of Matter

Gravitation: Kepler’s Laws of motion, gravitational potential and field

due to (a) spherical shell (b) solid sphere and (c) hollow sphere, escape

velocity, velocity of satellite; Elasticity: Elastic constants, relation

between elastic constants; Surface tension: Molecular theory of surface

tension, surface energy, excess pressure of curved surface, capillarity,

determination of surface tension of water by capillary tube method;

Fluid motion: Equation of continuity, Bernoullies equation; Viscosity:

Poiseuille’s equation, determination of coefficient of viscosity, stock’s

law.

Oscillations: The simple harmonic wave equation and its solution,

composition of simple harmonic motion- Lissajou’s figures, damped

harmonic motion and its solution, forced oscillation and resonance;

Wave motion: Types of wave motion, expression for plane progressive

wave, energy calculation of stationary and progressive wave,

interference of sound wave, beats, Doppler effect.

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Electricity and Magnetism

Electrostatics: Electric charge, electric force, electric field, Coulomb’s

law, Gauss’ law, electric potential and their applications due to

continuous charge distribution, electric dipole and quadruple,

capacitance and capacitors; Magnetism: The magnetic field and flux;

magnetic force on a current carrying conductor, Hall effect, Biot-Savart

law and Ampere’s law and their applications, induction, Faraday’s law,

Lenz's law, self induction and mutual induction, magnetic properties of

matter, different types of magnetism, three magnetic vectors,

permeability and susceptibility, hysteresis.

Ph-1102: Physics-I Sessional

3/2 hours/week Credit: 0.75

Determination of specific heat of a liquid by the method of cooling;

Determination of specific heat of a solid by the method of mixture;

Determination of thermal conductivity of copper by Searle’s apparatus;

Determination of thermal conductivity of a bad conductor by Lee’s

method; Determination of the electro-chemical equivalent of copper

using copper voltameter; Determination of the ratio of horizontal

component of the earth’s magnetic field (H) and the magnetic moment

(M) of a magnet employing magnetometers; Determination of the value

of acceleration due to gravity “g” by compound pendulum;

Determination of the value of unknown resistance and verify the laws

of series and parallel resistances by means of a P.O. box; Determination

of the specific resistance of a given wire by meter bridge; Determination

of Young’s modulus of a short wire by Searle’s method; Determination

of surface tension of water by capillary tube method; Determination of

the viscosity of water by its rate of flow through a capillary tube;

Comparison of the E.M.F. of two cells with potentiometer;

Determination of the mechanical equivalent of heat (J) by electrical

method.

Ch-1101: Chemistry-I (Polymer and Organic Chemistry)


Polymer Chemistry

Chemistry of polymerization, different types of polymers and their

properties, polymer degradation, elastomers and composite materials.

Cement: Composition, classification, raw materials, and additives,

chemistry of silicates and lime.

Organic Chemistry

Definition, classification, nomenclature of organic compounds,

functional groups, isomerism; Alcohols: Classification, preparation and

reactions; Aldehydes and ketones: Preparation and reactions;

Carboxylic acid: Formic and acetic acid, ester (ethyl acetate); Aromatic

compounds: Benzene, toluene, nitrobenzene, aniline, diazonium salts

and phenol.

Ch-1102: Chemistry-I Sessional


Qualitative organic analysis: Elemental analysis, solubility tests,

functional group identification, etc of known and unknown organic

compounds.

Hum-1103: English and Economics


English

Comprehension with precise writing; Completing sentences; Correction

of sentences; Combination of sentences; Framing WH questions;

Sentence making with the expression of attitudes/emotions;

Amplification or dialogue writing; Framing sentences with idioms and

phrases, using appropriate prepositions; Translation; Letter writing:

Formal; Paragraph writing; Free compositions: on selected topics

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(within 3000-4000 words); Phonetics and phonology, pronunciation

British and American English, tender notice, specification verb pattern,

letter writing (formal and informal), developing ideas for creative

writing.

Economics

Introduction: Definition; Scope of economics; Importance and uses of

economics; Engineering economics, importance of economics for

engineers.

Basic Economic Concepts: Wants, wealth, goods, value, price, utility,

production, income, consumption, savings, investment, exchange,

distribution, firm and industry, equilibrium, micro economics, macro

economics, open market economy, controlled economy.

Nature of Economic Problems and its Solution: Nature of economic

problems in human life; Different levels of activities in solving

economic problems (Production-Exchange-Distribution-Consumption);

Price mechanism.

Utility: Meaning of total utility and marginal utility, law of diminishing

marginal utility, limitation of the Law diminishing marginal utility;

Consumer's surplus, importance of the concept of consumer's surplus.

Demand Analysis: Meaning of demand, the law of demand, exception to

the law of demand, demand schedule, demand curve, types of demand,

contraction and extension of demand, increase and decrease of demand,

causes in demand.

Elasticity of Demand: Meaning of elasticity of demand, types of

elasticity of demand, measurement of elasticity of demand, determinants

of elasticity of demand.

Theory of Production and Cost: Theory of production: Its contents,

importance of the theory of production, law of variable proportions,

concepts of costs, accounting cost and economic costs, short run and

long run costs.

Market Structure: Market, perfect competition, imperfect competition.

National Income and Growth: Basic concepts of income and growth;

Gross Domestic Product (GDP), Growth National Product (GNP), Net

National Product (NNP); Methods of measuring national income;

Meaning of economic growth; Stabilizing the economy.

Money and Banking: Definition of money, function of money,

importance of money; Importance of bank, commercial bank, central

bank, islami bank, industrial bank, functions and importance of various

banks.

Bangladesh Economy: Basic economic problems of Bangladesh,

economic development, natural resources, agriculture, water, power,

irrigation and flood control large scale industry, banking system,

economic planning, budget.

Hum-1104: English Language Sessional


Lab Sessional to improve the reading, writing, listening and speaking

skill of English language.

CE-1009: Engineering Mechanics


Resultants and components of forces; Co-planar and non-coplanar

forces; Parallel and non-parallel forces; Maximum and minimum forces;

Flexible chords; Friction.

Centroids; Moment of inertia of areas; Moment of inertia of masses;

Plane motion; Force systems that produce rectilinear motion; Work,

power and energy; Impulse and momentum.

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2nd Year 1st Semester Courses

Math-2101: Engineering Mathematics -II (Co-ordinate Geometry

and Vector Analysis)


Co-ordinate Geometry

Transformation of co-ordinates; General equation of second degree; Pair

of straight lines; Circles, system of circles, radial axis; Parabola, ellipse,

hyperbola in cartesian and polar co-ordinates; Diameter, conjugate

diameter, tangent, normal.

Matrices

Definition of matrices; Inverse and rank of matrices; Elementary

transformation of matrices; Solution of linear equations; Linear

dependence and independence of vectors.

Vector Analysis

Scalars and Vectors: Equality of vectors, addition and subtraction of

vectors, multiplication of vectors by scalars; Position vector of a point;

Resolution of vectors; Scalar and vector product of two vectors and

their geometrical interpretation; Triple product and multiple product;

Application to geometry and mechanics; Differentiation and integration

of vectors together with elementary application; Definition of line,

surface and volume integrals; Gradient, divergence and curl of point

functions; Various formulae: Gauss's theorem, Stoke's theorem, Green's

theorem and their applications.

Ph-2101: Physics - II (Optics and Modern Physics)


Optics

Interference: Huygen’s principle, Young’s experiment, coherent sources

and it’s production methods, analytical treatment of interference,

interference due to thin films, Newton’s rings; Diffraction: Fresnel and

Fraunhoffer diffraction, Fraunhoffer diffraction by single and double

slit, plane diffraction grating, resolving and dispersive power of a

grating; Polarization: Polarization by reflection, refraction and double

refraction, Brewster’s law and Malus's law, elliptical and circular

polarization of light.

Structure of Solids

Classification of solids: Crystalline, amorphous, ceramics and polymer,

different types of bonds in crystal and cohesive energy; Crystal

structure: Different types of crystal structure, simple cubic, body

centered cubic and face centered cubic crystal structure, packing

fraction, Miller indices and crystal plane; Defects in solids; Band theory

of solids.

Modern Physics

Relativity: Postulates of special theory of relativity, Galilean and

Lorentz transformation equations, length contraction, time dilation, twin

paradox, variation of mass with velocity, Einstein mass energy relation;

Particle properties of wave: Quantum theory of light, photoelectric

effect, compton effect, pair production, x-rays diffraction, photons and

gravity, gravitational red shift; Wave properties of particle: Concept of

de-Broglie wave, phase velocity and group velocity, Heisenberg’s

uncertainty principle and its application, Schrodinger’s equation,

particle in a box; Atomic Structure: Atom models, electron orbits,

energy levels and spectral series of hydrogen atom, Bohr’s

correspondence principle; Nuclear structure and decay: Nuclear

compositions, mass defect, binding energy, radioactive decay, laws of

radioactive decay, half life and mean life, radioactive series, nuclear

fission and fusion, Q- value of nuclear reaction.

Ph-2102: Physics-II Sessional


Determination of the refractive index of a prism by spectrometer;

Determination of the radius of curvature of plano-convex lens by

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Newton’s ring method; Determination of the wavelength of sodium

light by a spectrometer using a plane diffraction grating; Determination

of resolving power of a plane diffraction grating; Determination of the

specific rotation of a sugar solution by a polarimeter; Verification of the

laws of transverse vibration of a string and determination of the

frequency of a tuning fork by Melde’s experiment. Determination of the

unknown frequency of a tuning fork by a sonometer varifying (n- l)

curve. Determination of the threshold frequency for the photoelectric

effect of a photocathode and the value of the Planck’s constant; To plot

thermo-electromotive force-temperature (calibration) curve for a given

thermocouple; Determination of the melting point of a solid using the

calibration curve; Determination of the temperature co-efficient of the

resistance of the material of a wire.

Ch-2101: Chemistry-II (Inorganic and Physical Chemistry)


Inorganic Chemistry

Quantum numbers, relationship among them, different rules/principles

dealing with electron distribution in atom; Chemical bond: Formation,

conditions and properties of ionic, covalent, coordinate and metallic

bond, van der Waals forces, hydrogen bond, polar bond, Fajan's rules,

Lewis structure and formal charge calculation; Theory of covalent

bonding: Valence bond theory, hybridization, valence shell electron pair

repulsion (VSEPR) model, and molecular shape.

Physical Chemistry

Thermochemistry: Enthalpies of reaction and formation, laws of

thermochemistry, Kirchoffs equations; Chemical equilibrium: Law of

mass action, Kp and Kc, Le Chatelier's principle, Chemical Kinetics:

Rate, order, molecularity of chemical reaction, rate expressions;

Solution: Its concentration units, Henry's law; Colligative properties:

Raoult's law, depression of freezing point, elevation of boiling point;

Osmosis: Semipermeable membrane, reverse osmosis, laws of osmotic

pressure; Distribution law: Its derivation, applications, effect of

association and dissociation on it; Colloids: Definition, classification,

preparation, purification, properties, protective action and application;

pH and buffer solution.

Ch-2102: Chemistry-II Sessional


Volumetric analysis: acid-base titration, oxidation- reduction titration,

iodometric titration and determination of Fe, Cu, Ca volumetrically.

CE-2001: Engineering Materials-II


Bricks: Properties, uses and tests of bricks; Efflorescence in bricks;

Aggregate: Course and fine aggregates, engineering properties of

aggregates sources and their uses; Cement: Properties, uses and types,

manufacturing methods, reaction taking place during burning of raw

materials in the rotary kiln, setting and hardening of cement; Concrete:

Normal strength and high strength concrete; Properties of fresh and

hardened concrete; Concrete mix design; Concrete for special uses;

Chemical attack and salinity problems in concrete; Properties and uses

of different types of admixtures.

Atomic Structure: Bonding and crystal structure; Mechanical properties:

Yielding, elasticity, plasticity; fracture; Properties and uses of glass

rubber and plastics; Properties of steel, corrosion and its prevention;

Ferro-cement and its uses.

CE-2002: Engineering Materials-II Sessional


Laboratory tests on specific gravity, unit weight, moisture content,

absorption of coarse and fine aggregates; Gradation of coarse and fine

aggregates; Abrasion resistance of coarse aggregates; Initial and final

setting time of cement; Tensile and compressive strength test on cement

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mortar; Normal consistency; Effect of water/cement ratio on

compressive strength and consistency of concrete; Design and

preparation of concrete mixture and determination of cylinder strength

both for tension and compression; Flexural strength test of concrete.

CE-2101: Mechanics of Solids-I


Mechanical properties of materials; Fundamental concepts of stress and

strain; Stresses and strains in members subjected to tension,

compression, shear and temperature changes; Transformation of

stresses; Strain energy.

Bending moment and shear force diagrams of beams and frames;

Flexural and shearing stresses in beam; Shear center.

CE-2102: Mechanics of Solids-I Sessional


Tension, Direct shear and Impact tests of mild steel specimen;

Compression test of timber specimen; Static bending test; Hardness test

of metal.

2nd year 2nd Semester courses

Math-2103: Engineering Mathematics-III (Differential Equation

and Laplace Transform)


Differential Equation

Definition, formation of differential equations; Solution of first order

differential equation by various methods, solutions of differential

equations of first order and higher degree; General solution of linear

equation of second and higher orders with constant co-efficients;

Solution of Euler's homogeneous linear equations; Solution of

differential equations in series by the method of Frobenius, Bessel's

functions, Legendre's polynomials and their properties.

Partial Differential Equation

Introduction: Equations of the linear and non-linear first order; Standard

forms, linear equations of higher order-equations of the second order

with variable co-efficient.

Laplace Transforms

Definition: Laplace transforms of some elementary functions, sufficient

conditions for existence of Laplace transforms; Inverse Laplace

transforms, Laplace transforms of derivatives; The unit step function,

periodic function, some special theorems on Laplace transforms, partial

fraction; Solutions of differential equations by Laplace transforms;

Evaluation of improper integral.

CE-2003: Numerical Methods and Computer Programming


Numerical Methods

Numerical solution methods of algebraic and transcendental equations:

Graphical method, Iteration method, Newton-Raphson method, Secant

method; Solution of systems of linear equations; Matrices;

Interpolation; Curve fitting by least squares procedures; Numerical

differentiation and integration; Finite differences; Divided differences;

Numerical solution methods of differential equations: Euler’s method,

Taylor’s Series method, Runge’s Kutta method.

Computer Programming

Basic components of computer system; Flow diagram; Introduction of

C++

programming; Basic ideas; Statements; Arrays, Pointers, References

and Dynamic allocation; Functions; Classes and Objects; Computer

application to Civil Engineering problems.

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CE-2004: Numerical Methods and Computer Programming

Sessional


Development of C++

Programs and solution of Civil Engineering related

problems.

CE-2103: Mechanics of Solids-II


Torsional stresses in shafts and tubes; Helical springs; Unsymmetrical

bending; Riveted and welded joints.

Buckling of columns; Deflection of beams by moment area method and

direct integration method; Thin walled pressure containers.

CE-2104: Mechanics of Solids-II Sessional


Helical spring test; Slender column test; Compound stress test; Riveted

and welded joint test.

CE-2105: Design of Concrete Structures-I


Materials and properties of reinforced concrete; Normal-strength and

high-strength concretes and their mechanical properties; Introduction to

different design methods: Working Stress Design (WSD), Ultimate

Strength Design (USD) and Limit State Design (LSD); Analysis and

design of singly reinforced, doubly reinforced and T-beams for flexure.

Analysis and design of beams for shear and diagonal tension; Bond,

anchorage and development length according to WSD and USD

methods; Deflection of reinforced concrete (RC) beam; Floor systems

of RC buildings; Analysis and design of edge-supported slabs using

WSD and USD methods.

CE-2106: Design of Concrete Structures-I Sessional


Detailing of different types of reinforced concrete (RC) slabs, beams,

and columns; Bending test of RC beam; Safety provisions for RC

members as specified by the Code.

CE-2201: Fluid Mechanics


Introduction: Development and scope of fluid mechanics; Physical

properties of fluids; Ideal and real fluids; Newtonian and non

Newtonian fluids.

Kinematics of Fluid Flow: Steady and unsteady, uniform and

nonuniform, laminar and turbulent flows; One, two and three

dimensional flows; Streamlines, streaklines and pathlines; Continuity

equation; Rotation and circulation; Elementary explanation of stream

function and velocity potential; Graphical and experimental methods of

drawing flownets.

Fluid Statics: Fluid pressure; Manometers; Pressure on plane and curved

surfaces; Centre of pressure; Buoyancy; Stability of immersed and

floating bodies; Fluid masses subjected to uniform acceleration; Free

and forced vortex.

Dynamics of Fluid Flow: Euler's equation of motion along a streamline

and its integration; Bernoulli's equation; Measurement of pressure and

velocity head; Bernoulli's equation applied to flow through

Venturimeter, orifices, mouthpieces, nozzles, sluice gates under free and

submerged conditions; Various types of notches and weirs under free

and submerged flow conditions; Aeration of nappe; Cavitation;

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Momentum equation and its application to stationary and moving vanes

and pipe bends; Problems related to combined application of energy and

momentum equations.

Dimensional Analysis and Hydraulic Similitude: Dimensional analysis:

Buckingham's theorem; Important dimensionless numbers and their

significance; Geometric, kinematic and dynamic similarity; Model

analysis.

Laminar and Turbulent Flow: Equation of motion for laminar flow

through pipes; Stockes' law; Flow between parallel plates; Flow through

porous media; Fluidization; Transition from laminar to turbulent flow;

Turbulent flow; Equation for turbulent flow; Eddy viscosity; Mixing

length concept and velocity distribution in turbulent flow.

Boundary Layer Analysis: Boundary layer thicknesses; Boundary layer

over a flat plate; Laminar boundary layer; Application of momentum

equation; Turbulent boundary layer; Laminar sub-layer; Smooth and

rough boundaries; Local and average friction coefficient; Separation.

Pipe Flow Problems: Nature of turbulent flow in pipes; Equation for

velocity distribution over smooth and rough surfaces; Resistance

coefficient and its variation; Flow in sudden expansion, contraction,

diffusers, bends, valves and siphons; Concept of equivalent length;

Branched pipes; Pipes in series and parallel; Simple networks.

CE-2202: Fluid Mechanics Sessional


Centre of Pressure; Proof of Bernoulli's theorem; Flow through

Venturimeter; Flow through orifice; Coefficient of velocity by

coordinate method; Flow through mouthpiece; Flow over V-notch; Flow

over sharp-crested weir; Fluid friction in pipe.

3rd Year 1st Semester Courses

Math-3101: Engineering Mathematics-IV (Solid Geometry, Fourier

Analysis and Statistics)


Three dimensional Co-ordinate Geometry

System of co-ordinates; Projection; Direction cosines; Equations of

planes and lines; Angle between lines and planes; Distance form a point

to a plane; Co-planar; Shortest distance between two given straight

lines; Standard equation of conicoids: Sphere, ellipsoid, hyperboloid on

one sheet, hyperboloid of two sheets; Tangent planes; Normal lines;

Condition of tangency.

Fourier Analysis

Real and complex from; Finite transform; Fourier Integral, Fourier

transforms and their uses in solving boundary value problems.

Statistics

Frequency distributions; Mean, median, mode and other measure of

central tendency; Standard deviation and other measures of dispersion;

Moments, skewness and kurtosis; Elementary probability theory;

Probability distributions, e.g. binomial, poison and negative binomial;

Continuous probability distributions, e.g. normal and exponential;

Characteristics of distributions; Elementary sampling theory;

Estimation, hypothesis testing and regression analysis.

CE-3003: Engineering Geology and Geomorphology


Geology

Mineralogy: Minerals and Rocks; Introduction to Engineering Geology;

Minerals; Identification of minerals; Common rock forming minerals;

Physical properties of minerals; Mineraloids; Rocks: Types of rocks,

cycle of rock change.

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Structural Geology: Faults, types of faults; Fold and fold types; Domes,

Basins; Erosional process; Quantitative analysis of erosional land forms;

Geology of Bangladesh.

Seismology: Earthquake, causes of earthquake, intensity and magnitude

of earthquake, seismicity in Bangladesh, seismic zoning map of

Bangladesh.

Geomorphology

Channel development; Channel widening; Valley shape; Stream

terraces; Alluvial flood plains; Deltas and alluvial fans; Channel

morphology; Channel patterns and the river basin; Geomorphology of

Bangladesh.

CE-3101: Structural Analysis and Design-I

4hours/week Credit: 4

Stability and determinacy of structures; Analysis of statically

determinate beams, frames, trusses and arches; Approximate analysis of

statically indeterminate structures: Portal frames, Mill bents and Multi-

storey building frames under vertical and lateral loads; Analysis of

building frames under wind and earthquake loads.

Influence lines for statically determinate Beams, Frames and Trusses;

Analysis of Beams and Trusses under moving loads.

CE-3102: Structural Analysis and Design-I Sessional


Analysis and design of steel truss and plate girder.

CE-3103: Design of Concrete Structures-II


Yield line method for the analysis of slabs; Design of Reinforced

Concrete (RC) columns: Long and short columns; Design of RC

footings: Individual footing, combined footing, and raft; Design of RC

retaining walls.

Analysis and design of column supported slabs using WSD and USD

methods; Analysis and design of RC members for torsion; Introduction

to low-rise and high-rise buildings; Analysis and design of deep beams;

Introduction to prestressed concrete; Analysis and preliminary design of

prestressed beam section.

CE-3104: Design of Concrete Structures-II Sessional

3 hours /week Credit: 1.5

Introduction to Bridges; Different types of bridges over rivers and wide

canals; Design of slab bridges and deck girder bridges.

CE-3201: Open Channel Flow


Basic Principles: Difference between open channel flow and pipe flow;

Geometrical parameters of a channel; Continuity equation; Energy

equation; Momentum equation; Resistance equations.

Critical Flow: Critical depth; Application of specific energy principle

for interpretation of open channel phenomena; Flow through vertical

and horizontal contractions.

Uniform flow: Uniform flow in open channels; Equations for uniform

flow in open channels; Variation of roughness coefficient;

Determination of normal depth; Velocity distribution; Most efficient

section.

Gradually Varied Flow: Equation of gradually varied flow and its

limitations; Flow classification and surface profiles; Integration of

varied flow equation by graphical, numerical and analytical methods.

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Rapidly Varied Flow: Momentum principle for open channels;

Hydraulic drop; Classical hydraulic jumps; Evaluation of the jump

element in rectangular and nonrectangular channels; Hydraulic jumps as

standing wave.

CE-3202: Open Channel Flow Sessional


Velocity distribution profile; Manning's roughness coefficient; Specific

force and specific energy; Broad-crested weir; Venturi flume; Parshall

flume; Cut-throat flume; Sluice gate; Hydraulic jump; Free overfall.

3rd Year 2nd Semester Courses

CE-3105: Structural Analysis and Design-II


Analysis of beams and frames by moment distribution and slope

deflection method.

Deflection of beams, frames and trusses by unit load method, elastic

load method and conjugate beam method; Analysis of cables and cable

supported structures.

CE-3106: Structural Analysis and Design-II Sessional


Analysis and design of balanced cantilever bridge including foundation.

CE-3203: Hydrology


Hydrologic Cycle: Scope and application of hydrologic cycle;

Catchment characteristics.

Precipitation: Measurement of precipitation; Gauge networks;

Preparation of rainfall data; Presentation of rainfall data; Averaging

depth of rainfall; Analysis of rainfall data.

Hydrologic Abstraction: Interception and depression storage;

Evaporation; Evapotranspiration; Infiltration; Infiltration indices.

Ground Water: Occurrence and distribution of ground water; Specific

yield of aquifers; Movement of ground water; Darcy's law; Safe yield of

a basin; Steady flow in well for confined and unconfined aquifers; Well

losses and specific capacity of a well.

Runoff: Runoff process; Factors affecting runoff; Rainfall-runoff

relationship; Stream gauging; Stage-discharge relation; Selection of site

for stream gauging.

Hydrographs of Runoff: Components of hydrograph; Hydrograph

separation; Unit hydrographs; Synthetic hydrographs.

Design Flood: Methods of determining design flood; Frequency

analysis.

Hydrologic Routing: Reservoir routing; Streamflow routing. Modeling;

Simulation of Flow.

CE-3301: Geotechnical Engineering-I


Introduction to Geotechnical Engineering; Formation, type and

identification of soils; Soil composition; Soil structure and fabric; Index

properties of soils; Engineering classification of soils; Soil compaction;

Principles of total and effective stresses; Permeability and seepage;

Stress-strain characteristics of soils; Consolidation of soil;

Compressibility and settlement behavior of soils; Lateral earth pressure;

Stress distribution.

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CE-3302: Geotechnical Engineering-I Sessional


Field identification tests; Grain size analysis by sieve and hydrometer;

Specific gravity test; Atterberg limits test; Permeability (constant head

and variable head) tests; Unconfined compression test; Proctor

compaction tests.

CE-3401: Environmental Engineering-I


Introduction to Environmental Engineering; Important environmental

issues.

Introduction to Water Supply Engineering; Water requirements;

Estimation of water use; Fire demand; Surface water collection and

transportation; Headworks; Groundwater exploration, aquifer properties

and groundwater flow; Pumping system; Water quality; Drinking water

quality standards; Alternative technologies for problem areas in

Bangladesh.

Introduction to Wastewater Engineering; Sanitation and health;

Estimation of wastewater; Wastewater collection system; Hydraulics of

sewer design, construction and maintenance of sanitary sewer and storm

drainage system; Sewer appurtenances; Plumbing system.

Health and hygiene; Disease description, transmission and control;

Hygiene education: scope and methodology.

Introduction to air pollution; Solid waste management; Introduction to

Environmental Impact Assessment (EIA).

CE-3402: Environmental Engineering-I Sessional


Water sampling techniques; Sample preservation; Physical, chemical

and biological tests of water; Break point chlorination; Alum

coagulation; Sampling and laboratory analysis of air.

CE-3501: Transportation Engineering-I


Development of transportation system with special reference to

Bangladesh; Highway planning; Highway types; Traffic survey; Vehicle

operating characteristics; Geometric design of highways; Grades and

curves; Traffic flow and control with special reference to Bangladesh.

Railway: Gradient and alignments, permanent ways, station and yards,

maintenance.

CE-3502: Transportation Engineering-I Sessional


Tests on sub-grade, sub-base and base materials; Tests on bituminous

materials.

4th Year 1st Semester Courses

CE-4101: Structural Analysis and Design-III


Analysis of statically indeterminate beams, frames, trusses by stiffness

method and flexibility method; Assembly of matrices for computer

based analysis.

Influence lines for statically indeterminate beams, frames and trusses;

Analysis of indeterminate arches; Analysis of space trusses.

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CE-4201: Irrigation and Flood Control


Irrigation

Definition of irrigation functions and advantages; sources and quality of

irrigation water; Present status of irrigation in Bangladesh; Soil

classification for agriculture; Principal crops and seasons of

Bangladesh; Irrigation canal system; Irrigation wells; Water-lifting

devices for irrigation; Soil moisture and crop-water relationships;

Consumptive use of water; Water requirement; Water application

methods; Losses of water and irrigation efficiency; Suitability of water

for irrigation; Field-irrigation structures; Problems of irrigation land.

Drainage

Water logging: Causes, preventive and curative measures; Saline and

alkaline lands; Drainage of irrigated lands; Types of channel linings and

design of lined channel.

River Behavior and Flood Control

River regions and characteristics; Classification of rivers; Meandering,

aggradation and degradation; Methods of river training; Flood and its

control.

CE-4202: Irrigation and Flood Control Sessional


Analysis of hydrologic data for irrigation and flood control; Infiltration

rate; Aquifer characteristics; Ground-water resources assessment; Soil

properties; Estimation of yield from irrigation wells; Well design; Pump

characteristics; Use of Tensiometer; Irrigation requirement and

scheduling; Losses in irrigation system; Design of irrigation and

drainage canal network; Design of stilling basins; Launching apron.

CE-4301: Geotechnical Engineering-II


Soil investigation techniques; Settlement computation; Types of

foundation; Bearing capacity of shallow and deep foundations;

Settlement and distortion of foundation; Design and construction of

footings, rafts and piles; Slope stability analyses.

CE-4302: Geotechnical Engineering-II Sessional


Consolidation tests; Direct shear tests; Triaxial tests; Interpretation of

soil test results and design of foundations.

CE-4401: Environmental Engineering-II


Introduction to Environmental pollution; Environmental protection and

management.

Planning and design consideration of water treatment plant; Water

treatment: Sedimentation, coagulation, filtration, disinfection, chemical

precipitation, adsorption, ion exchange, reverse osmosis, etc; Iron and

arsenic removal units; Salinity removal; Water safety plans.

Low cost treatment for rural communities; Water distribution system:

design and construction; Water meter; Leak detection; Unaccounted for

water; Socio-economic aspects of WSS: concept of community

participation and participatory planning.

Microbiology of sewage and wastewater; Wastewater characteristics;

Introduction to aerobic and anaerobic treatment of wastewater; Self

purification of stream: DO kinetics; BOD removal kinetics; Preliminary,

primary and secondary treatment methods and disposal; Treatment and

disposal of industrial effluent; Sludge treatment and disposal.

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Sanitation for low income communities: On-site sanitation for rural

communities; Low cost small bore sewage for townships; Design and

construction of septic tanks, soak wells and subsurface drain fields;

Rural sanitation in Bangladesh.

Sustainability of WSS services; Participatory development approach in

WSS sector.

CE-4402: Environmental Engineering-II Sessional


Wastewater sampling techniques; Sample preservation; Physical,

chemical and biological tests of wastewater; Sampling and laboratory

analysis of soil and solid waste.

CE-4501: Transportation Engineering-II


Mix design: Design of rigid and flexible pavements; Characteristics of

sub-grade, sub-base, base and asphalt surface courses; Soil stabilization;

Brick and block pavements; Construction of bituminous concrete and

cement concrete pavements; Highway maintenance; Highway drainage;

Airways and airports; Waterways and terminals.

CE-4502: Transportation Engineering-II Sessional

3 /2 hours/week Credit: 0.75

Tests on bituminous concrete; Complete design of a highway

intersection; Design of rigid and flexible pavements for highways and

airports.

CE-4000: Project and Thesis

3 hours/week (For 4th year 1st semester)

3 hours/week (For 4th year 2nd semester) Credit: 3.0

Experimental and theoretical investigation of various topics in structural

engineering, concrete technology, hydraulic and water resources

engineering, environmental engineering, transportation engineering and

geotechnical engineering; Individual or group study of one or more

topics from any of the above fields. The students will be required to

submit thesis/project report at the end of the work.

4th Year 2nd Semester Courses

Hum-4101: Socio-Economic Aspects of Development Project


Economic and Social Structure: development and economic growth;

Socio-economic indicators: population, prosperity and poverty;

Employment of workforce: population displacement; rehabilitation

strategy, productivity, landloss, landuse and land ownership patterns;

Fisheries and aquaculture; Deforestation and afforestation;

Communication, commerce, industries and other economic benefits;

Water supply, sanitation, health and nutrition; inequalities in

distribution of benefits and losses; Socioeconomic survey; Case studies.

Development of Social Impact Assessment (SIA) and Resettlement

Action Plan (RAP) in development project; Legal aspects and procedure

to develop SIA and RAP including field social survey report writing.

Hum-4103: Project Planning and Management


Principles of management, principles of construction management;

construction contracts and documents; inspection and quality control,

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costruction sefety, materials management, inventory control, store

management, demand fore casting.

Construction planning and scheduling: PERT, CPM, resource

scheduling, planning with bar charts.

Procurement regulations and law, procurement methods, limitations of

different procurement methods; Selection methods of bids, tender

documents and evaluation.

Project planning and evaluation: Feasibility reports, cash flow methods

of project evaluation; Net present value, EUAC; Internal rate of return,

Benefit cost ratio, pay back period; Construction equipments and plants;

Depreciation and replacement studies.

CE-4102: Structural Analysis and Design-III Sessional


Introduction to structural analysis and design softwares; Design of

overhead water tank.

CE-4104: Building Design Sessional


Analysis and design of reinforced concrete building; Application of

structural softwares in building design.

Optional Courses

CE-4103: Prestressed Concrete


Prestressed concrete (PC) members and materials; Prestressing systems:

Losses of prestress; Shape selection and Tendon profile; Beam

deflection and cable layout; Analysis and design of sections for flexure,

shear, bond and bearing: Partial prestressing.

CE-4105: Introduction to Finite Element Method

2 Hours/week Credit: 2

Introduction; One dimensional stress deformation and time dependent

flow problem; Two dimensional plane stress and plane strain analysis of

stress deformation problems.

CE-4107: Introduction to Theory of Elasticity


Introduction; Plane stress and plane strain conditions; Two-dimensional

problems in rectangular and polar coordinates; Torsion of circular and

non-circular shafts; Instability of structures; Stability functions.

CE-4109: Design of Steel Structures


Behavior of structural steel members and steel frames; Code

requirements; Design of tension and compression members by WSD

and LSD methods; Design of beams, and beam-columns joint.

CE-4111: Structural Dynamics


Formulation of equation of motion; Free vibration response; SDOF and

MDOF systems; Response to harmonic and impulse loading and

vibration analysis by Rayleigh's method, Response spectrum.

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CE-4113: High Rise Buildings


Introduction to High rise building structures; Structural forms of high

rise buildings; Analysis and design of shear wall structure; Analysis of

coupled shear wall; Sway calculation of high rise buildings.

CE-4203: Hydraulic Structures

2hours/week Credit: 2

Types of hydraulic structures; Principles of design of hydraulic

structures; Design of dams, barrages, weirs, spillways, energy

dissipators and spillway gates; Cross drainage works.

CE-4205: River Engineering


Behavior of alluvial rivers; River-channel pattern and fluvial processes;

Aggradation and degradation, local scours, river training and bank

protection works; Navigation and dredging; Sediment movement in

river channels, bed forms and flow regimes.

CE-4207: Flood Mitigation and Management


Flood and its causes; Methods of flood management- structural and non-

structural measures such as reservoirs, levees and flood walls; Channel

improvement; Interior drainage; Floodways; Land management; Flood

proofing; Flood zoning; Flood hazard mapping; Flood forecasting and

warning.

Economic aspects of flood management- flood risk and vulnerability

analysis; Direct and indirect losses of flood; Flood damage assessment;

Flood damage in urban and rural areas.

CE-4209: Ground Water Engineering


Groundwater in hydrologic cycle and its occurrence; Physical properties

and principles of groundwater movement; Groundwater and well

hydraulics; Groundwater resource evaluation; Groundwater levels and

environmental influences; Water mining and land subsidence;

Groundwater pollution and contaminant transport; Recharge of

groundwater; Saline water intrusion in aquifers; Groundwater

management.

CE-4211: Coastal Engineering


Coast and coastal features; Tides and currents; Tidal flow measurement;

Waves and storm surges; Docks and harbors; Forces of waves and tides

in the design of coastal and harbor structures; Coastal sedimentation

processes; Deltas and estuaries; Shore protection works; Dredging and

dredgers.

CE-4303: Advanced Foundation Engineering


Foundation for structures subjected to lateral loads; Retaining walls and

abutments, operation and methods of construction; Dewatering and

slurry-wall construction.

Flexible earth retaining structures; Sheet piles; Cofferdams; Caissons;

Machine foundations: Elementary vibrations, shear modulus and elastic

constants; Foundations design for vibration; Fundamentals of soil

liquefaction.

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CE-4305: Critical State Soil Mechanics


Introduction to critical state soil mechanics; SHANSEP and stress path

methods; Stress deformation and failure of soil masses; One, two and

three dimensional consolidation problems; Pore pressure coefficients;

Soil structure-interaction; Earthquake and liquefaction problems; Soil

improvement; Numerical solution of geotechnical engineering

problems.

CE-4307: Earth Dams and Stability of Slope


Introduction to soil-water interaction problems; Permeability, capillarity

and soil suction; Seepage analysis; Stability of natural, man made slopes

and excavations subjected to seepage, water current, wave action etc.;

Theories of filters and revetment design; Hydraulic fills.

CE-4403: Solid Waste Management


Introduction; Quantities and composition of solid wastes; Sources and

types of solid wastes; Physical, chemical and biological properties of

solid wastes; Solid wastes generation; On-site handling storage and

processing; Collection of wastes: Community and municipal collection

systems; Transfer stations and transport; Ultimate disposal methods:

Composting, recycling and resources recovery; Industrial solid waste

collection and disposal; Hazardous waste management; Soil pollution.

CE-4405: Environment Pollution Management and Control


Water pollution: Source and types of pollutants; Waste assimilation

capacity of streams; Dissolved oxygen modeling; Ecological balance of

streams; Industrial pollution: Heavy metal contamination; Detergent

pollution; Eutrophication; Ground water pollution; Marine pollution;

Pollution control measures; Water quality monitoring and management;

Environmental pollution rules; Polluters Pays Principle (PPP); Green

Tax; Environmental economics; Environmental management system;

ISO 14000; Thermal pollution.

CE-4407: Air Pollution


Introduction; Sources of air pollution; Effects of various pollutants on

human health; Air quality: definitions, characteristics and classifications

of pollutants; Elemental properties of the atmosphere; Air pollution

meteorology; Air pollution monitoring and control measures; Global

warming; Greenhouse effects; Ozone layer depletion; Acid rain; Noise

pollution: Noise pollution and its effects.

CE-4409: Environmental Aspects of Development Projects


Environment and sustainable development; Environmental policies and

legislation; Environmental implication of sectoral development;

Environmental quality standards; Environmental issues and priorities;

Initial Environmental Examinations (IEE); Environmental Impact

Assessment (EIA) of development schemes; Baseline studies and

assessment methodologies; Economics of environmental management;

Contemporary issues; Kyoto protocol and CDM; Case studies.

CE-4411: Industrial Water and Waste Treatment


Requirements of water for various industries; Quality and treatment of

industrial water; Characteristics and volume of industrial wastes;

Problems associated with industrial waste; Physical, chemical and

biological methods of treatment; Wastewater disposal and reuse.

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CE-4413: Environmental Impact Assessment


Project screening; Initial Environmental Examinations (IEE);

Definitions, objectives and levels of EIA; General applicability of EIA;

Methods of impact prediction and identification; EIA methodologies;

Mitigation of impacts; Environmental Impact Statement (EIS);

Monitoring of EIA; EIA guideline in Bangladesh; Environmental

Management Plan (EMP); Current environmental rules and legislation

in Bangladesh.

CE-4503: Traffic Planning and Management


The transportation planning process; Traffic management concepts;

Traffic accident investigations; City road and street networks; Grade

separation and interchanges; Pedestrian and bicycle facilities; The urban

bypass; Environmental aspects of highway traffic and transportation

projects; Elements of traffic flow.

CE-4505: Highway Drainage and Airport


Highway drainage and drainage structures; Evaluation and

strengthening of pavements; Importance, advantages and trends in air

transportation; Planning and design of airports; Aircraft characteristics

related to airport design; Types and elements of airport planning studies;

Airport configuration; Geometric design of landing area; Terminal area;

Heliports; Design of airport pavements; Lighting, marking and signing;

Airport drainage.

CE-4507: Transport Projects and Operations


Highway needs study; Highway planning, economics and financing;

Evaluation and analysis of transportation projects; Management,

monitoring, organization and implementation of transportation projects;

Selected case studies; Traffic engineering administration and

legislation; Urban public transportation and freight movement.

Hum-4105: Professional Practices and Communication


The project cycle, project proposal, contractual provisions, techniques

of specification writing, evaluation of bids, project evaluation.

Interpretation of literature, documents etc. communicating, preparation

of report, industrial and labour relations; professional ethics in Civil

Engineering.

Hum-4107: Technical Presentation and Speech


Preparation of term paper on any topics approved by the department and

submission and presentation of the same.

syllabus summary of courses for b. sc. engineering …. ce -1006 details of construction and...

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