1-Syllabus in English-Building and Eng Management

8/14/2019 1-Syllabus in English-Building and Eng Management

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Building and Construction Engineering DepartmentBuilding and Engineering Management BranchFirst Year

SubjectHrs./week

UnitsTheo. Prac. Tut.

B.E.1101 Engineering Mechanics 3 - 1 6B.E.1102 Mathematics (I) 3 - 1 6B.E.1103 Building Materials Technology 2 1 - 5B.E.1104 Engineering Drawing 1 3 - 5B.E.1105 Engineering Geology 2 - - 4B.E.1106 Principles of Computers 1 2 1 4B.E.1107 Principles of Construction Management 1 - - 2B.E.1108 Human Rights 1 - 1 2B.E.1109 Workshops - 6 - 6

Total14 12 4

4030

B.E. 1101 Engineering MechanicsTheory: 3hrs./ WeekTutorial: 1hr./ Week

Statics:1- Introduction to scalar and vector quantities, forces, moments, couples.

16

2- Resultants of force systems. 163- Equilibrium:Free-body diagrams, equilibrium of bodies by planar and three dimensional system of forces with applications.

16

4- Friction:Coefficient of friction, angle of friction, applications.

10

5- First and second moments of inertia:Centroid, center of gravity and center of pressure, theorems or propositions of Pappus,second moments of inertia, products of inertia of areas, polar moment of inertia, transfer of

coordinates.

20

Dynamics:6- Kinematics-absolute motion:Rectilinear motion, angular motion and absolute motion of particles using linear and polar coordinates, absolute motion of a particle on a curve in one plane using normal andtangential components.

16

7- Kinetics, force, mass, acceleration, Newtons law of motion, equations of motion of a particle (translation and rotation), reversed effective forces and couples.

16

8- Introduction to work and energy. 10


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B.E. 1102 Mathematics I Theory: 3hrs./ WeekTutorial: 1hr./ Week

1- Revision:Trigonometry, graphs, coordinates, equations of straight line and circle, function domain,range, inverse of a function, absolute value, limits, definition and theories, lim (sin ) / ,infinity, differentiation and integration of algebraic function.

20

2- Determinants: definitions and properties, solution of a system of equations (Cramers

Rule).

4

3- Vectors: definitions and representations, vector components and the unit vector. 204- Transcendental function (trigonometric, inverse trigonometric, natural algorithmic,exponential and power functions): definitions, properties, differentiation and integrationgraphs.

12

5- Conic sections: (parabola, ellipse and hyperbola). 86- Hyperbolic functions: definitions, properties, derivatives and integrals. 87- Methods of integration: powers of trigonometric functions, integrals involving

222222 ,, a x xa xa + , integrals with ax 2 +bx+c , partial fraction, integration by parts, the substitution u= tan x/2, further substitution, improper integral.

24

8- Application of definite integrals (areas, volumes, length of the curve and surface areas). 129- Complex numbers: definitions, Argand diagram, multiplication and division, DeMoivres theorem, roots.

8

10- Polar coordinates: graphs and plane area. 4


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B.E. 1105 Engineering Geology Theory: 2hrs./ Week1- Introduction:Relationship between geology and civil engineering, earth structure (crust, mantle, core),geological cycle.

4

2- Minerals and rocks:-Minerals: formation, classification, crystal forms, identification.-Rocks: classification, nature, texture, igneous, sedimentary and metamorphic rocks,

natural rock cycle.

6

3- Soil:Weathering, soil formation, classification, transported and residual soils, mineralcomposition, soils of Iraq.

4

4- Structural geology:Types of earth movements, basic definitions, folds, faults, joints, and their types.

4

5- Topographic and geological maps:General concepts, importance, components, construction of each map, examples andapplications.

6

6- Physical and engineering properties of rocks:- Physical properties of rocks (density, porosity, void ratio, dry and saturated unit weight),multimineral rocks. Mathematical examples and applications.- Mechanical properties: Rock deformation, elastic moduli, mechanical properties of rocks(compressive, tensile, and shear strength), earth stresses. Mathematical examples andapplications.

4

7- Surface water and river geologic work:Water movement, discharge and other hydraulic parameters with their mathematicaldetermination, river geologic work (erosion, transportation and deposition), types of river deposits. Mathematical examples and applications.

4

8- Ground water:Sources, permeability and porosity, effects of rock types, vertical distribution of ground

water, types of aquifers, (confined and unconfined), Darcy's law, case study for unconfinedaquifers, ground water movement effect of geological structures on ground water, springsand their types, hydrogeology of Iraq. Mathematical examples and applications.

6

9- Site investigations:Fundamental concepts, stages of site investigations. Geophysical methods (electric,seismic, Ground Penetrating Radar (GPR), electromagnetic, gravity, magnetic) with their applications and uses in civil engineering. Mathematical examples and applications.

6

10- Geological problems related to civil engineering:Soil creep, landslides, rock avalanches, erosion, deposition, their causes and effects, effectof ground water, applications and engineering solutions.

6

11- Effects of geological structures on structural projects:

joints, folds, and faults, applications.

6

12- Other phenomena:Volcanoes and earthquakes, their effects and predictions.

4


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B.E. 1106 Principles of ComputersTheory: 1 hr./ WeekPractical: 2 hrs./ WeekTutorial: 1 hr./ Week

1- Computer definition: (Computer generation, computer components, numerical systems,algorithms and charts).

5

2- File, definition, types and names, operating system (MS-DOS): explain, internal andexternal commands.

4

3- Introduction to WINDOWS, Desktop, using the mouse, My Computer, closing any openwindow, temporary closing.

4

4- Zooming any window, creating new folder, select folder, find folder or file, copyingfrom any folder to another, delete files or folders.

3

5- Quick basic programming. 46- Introduction to AutoCAD:Definition of the AutoCAD graphics window and the way of determining point throughwindow, explain the commands.

2

7- Limits, Status, Zoom, Pan, Snap, Grid, Osnap, Ortho. 48- Line, Rectangle, Circle, Arc. 39- Examination. 1

B.E. 1107 Principles of Construction Management Theory: 1hr./ Week1- General introduction to construction management. 22- Basic elements of management. 23- Planning of engineering projects. 34- Organizing engineering works. 25- Directing for project management. 26- Monitoring and control of construction works. 27- Computer applications for construction management. 2

8- Parties participating in construction and engineering projects. 29- Quantity surveying and documents for the implementation of construction works. 310- Methods of implementing works, the contract, direct implementation, departmentalimplementation.

3

11- Technical specification and contractual conditions. 312- Financing and payments for construction projects. 213- Works studies, technical & economical studies. 2


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B.E. 1108 Human Rights Theory: 1hr./ WeekTutorial: 1hr./ Week

1-Human rights in ancient civilizations, concentrating on Mesopotamian civilization. 62- Human rights in monotheistic religions, concentrating on Islam. 33- Human rights in the Middle Ages; including different sects & schools of politicalthought.

3

4- Human rights in modern history. 3

5- International recognition of human rights after the first world war, including the leagueof Nations & the United Nations.

3

6- Local acknowledgement of human rights: 1950 European human rights agreement; etc. 37- NGO's (Amnesty international, Human Rights Watch; Red cross &Red Crescent, etc.) 38- Human rights in Iraqi Constitutions: intentions &applications 39- Relationships between human rights & personal liberty. 310- International human rights declaration & international agreements. 311- Human rights in local & national constitutions. 312- Types of human rights provisions & their interrelationships. 313- Personal & Societal human rights. 3

14- Economic, social, cultural, civil, and political human rights. 315- Modern human rights including: development, clean environment, cooperation. Humanrights in Islam, etc.

3

16- Human rights are indivisible. 317- Guarantees and respect of human rights. 318- Respect of human rights nationally including: Constitution & applications in law, pressfreedom, role of NGO's, etc.

3

19- Respect for human rights internationally including: role of the United Nations and itsorganizations and local organizations (Arab League, European Union, African Union,organization of American states, ASEAN, etc.) NGO's roles, etc.

3

B.E. 1109 Workshops Practical: 6 hrs./ WeekThe workshop training program is designed to satisfy the following objectives: Teaching safety rules and regulations on-site in an industrial environment. Proper use of working tools, instruments, and machines. Introducing basic workshop practices, production, labor, and time-requirements of workshop

operations.The students are introduced to training programs in nine workshops: electrical, welding, forging,fitting, turning and milling, carpentry, plumbing, auto-mechanics, and casting.The student is to spend 18 hours of training in every workshop.


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Building and Construction Engineering DepartmentBuilding and Engineering Management BranchSecond Year

SubjectHrs./week


B.E.1201 Strength of Materials 3 - 1 6B.E.1202 Mathematics (II) 3 - 1 6B.E.1203 Concrete Technology 2 2 - 6B.E.1204 Engineering Surveying 2 2 - 6B.E.1205 Fluid Mechanics 2 1 1 5B.E.1206 Building Construction 2 - 1 4B.E.1207 Computer Programming 1 2 - 4B.E.1208 Engineering Statistics 1 - 1 2B.E.1209 General Freedoms 1 - 1 2

Total17 7 6

4130

B.E. 1201 Strength of MaterialsTheory: 3 hrs./ WeekTutorial: 1 hr./ Week

1- Analysis of deformable bodies:a) Forces & equilibrium requirements.

b) Deformation & compatibility conditions.c) Load-deformation relationships.d) Introduction to statically determinate and statically indeterminate systems.

12

2- Axial force , shear and bending moments:a) Loading and deformation.

b) Loading systems and their resultants.c) Shear forces and bending moments by section method.d) Axial force, shear and bending moment diagrams; a direct approach.e) Differential equations of equilibrium and applications.

12

3- Stress and axial loads:a) Definition of stress. b) Axial stresses and temperature effects.c) Bending stresses in beams.d) Bending stresses in compound sections.e) Bending in nonsymmetrical beams.f) Shear stresses.g) Shear center.

21

4- Torsion:a) Torsion for solid-circular sections.

b) General application of torsion-torque diagram.c) Strain energy in torsion.d) Torsion for solid non-circular sections.e) Torsion for thin tube sections.

9

5- Shells: Thin walled vessels. 36- Transformation of stress and strain:a) Plane stress.

b) Stress axis transformation- Mohr circle.c) Strain axis transformation.

21

7- Deflection of beams:a) The governing differential equation for deflection of elastic beam (limited conditions).

b) Direct integration method.c) Moment area method.

12


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B.E. 1202 Mathematics II Theory: 3 hrs./ WeekTutorial: 1 hr./ Week

1- Partial differentiation:a) Functions of two or more variables.

b) Directional derivative.c) Chain rule for partial derivatives.d) Total differential.

e) Maxima, minima, and saddle points.f) Higher order derivatives.

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2- Differential equations:a) First order; separable, homogeneous, linear & exact.

b) Second order equations reducible to first order.c) Linear second order homogeneous equations with constant coefficients.d) Linear second order nonhomogeneous equations with constant coefficients: variation of

parameters, and undetermined coefficients method.e) Higher order linear equations with constant coefficients.

15

3- Vector analysis:a) Equations: lines, line segments and planes in space.

b) Vector products.c) Velocity & acceleration.d) Curvature, torsion, & the TNB frame.

12

4- Complex numbers & functions:a) Complex numbers.

b) Complex functions.c) Derivatives.d) The Cauchy-Riemann equations.e) Complex series.f) Elementary functions.

12

5- Multiple integrals:a) Double integrals.

b) Area by double integrals.c) Area, moments and centers of mass.d) Double integrals in polar form.e) Triple integrals.f) Greens theorem & Stokes theorem.

12

6- Matrices:a) Matrix addition & multiplication.

b) Inverses of square matrices.c) Eigen vectors & Eigen values.

9

7- Infinite series:a) Definitions. b) Geometric series.c) Series tests.d) Series with nonnegative terms.e) Power series.

9

8- Polar, cylindrical, & spherical coordinates. 3


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B.E. 1203 Concrete Technology Theory: 2 hrs./ WeekPractical: 2 hrs./ Week

1- Cement:Manufacturing, Chemical composition, hydration of cement, properties of cement, effectcement compound on its properties, types of cement.

8

2- Aggregate:General classification, sampling, properties and tests of aggregate, bulking of sand,

deleterious substances in aggregate, soundness of aggregate, sieve analysis, grading curvesand requirements, practical grading, maximum size of aggregate.

6

3- Fresh concrete:Consistency, workability and factors affecting workability, methods of workability test,segregation and bleeding, mixing, compaction, concreting in hot weather, ready mixedconcrete, pumped concrete.

4

4- Strength of concrete:Types of strength, factors affecting strength, curing of concrete, bond strength betweenconcrete and steel reinforcement.

6

5- Concrete mix design:Basic considerations, British method of mix design, American method of mix design, designof special concrete.

12

6- Durability of concrete:Permeability of concrete, resistance of concrete to sulfate and acid attacks, effects of froston fresh and hardened concrete, corrosion of reinforcement.

6

7- Elasticity, shrinkage, and creep:Modulus of elasticity and factors affecting it, shrinkage and factors affecting it, creep andfactors affecting it.

4

8- Admixtures:Types of admixtures, uses of admixtures.

4

9- Introduction to new types of concrete:

Light weight concrete, high performance and high strength concrete, fiber reinforcedconcrete, self compacted concrete, any other new types.

10

Laboratory tests1- Cement:- Consistency, initial and final setting times tests.- Soundness test, compressive strength test.

44

2- Aggregate:- Sampling and density test.- Specific gravity and absorption tests.- Shape and surface texture test.- Sieve analysis of fine and coarse aggregates.

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3- Fresh concrete:- Slump test and casting cubes of different sizes.- Compaction factor test and casting cylinders of different sizes..- V-B time test and casting prisms of different sizes.- Samples tests (cubes, cylinders, prisms).- Test for effect of aggregate conditions on workability of fresh concrete.

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4- Design of concrete mixes:- Making trial mixes designed by British method.- Making trial mixes designed by American method.

44

5- Admixtures:Tests for the effect of superplasticizers and other new admixtures on properties of fresh andhardened concrete.

8


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B.E. 1204 Engineering Surveying Theory: 2hrs./ WeekPractical: 2hrs./ Week

1- General concepts of surveying:- General definition of surveying, basic principles of surveying, types of surveying.- Basic principles and steps of surveying and setting out of constructions.

4

2- Measurements and errors:- Types of measurements, units of measurements, scale.

- Errors; types of errors, sources of errors, mistakes, precision and accuracy.

2

3- Adjustment of measurements:- Most probable value and the standard error for direct measurements.- Most probable value and the standard error for indirect measurements; law of error

propagation, weight of measurements.- Basic principles of the least squares method, adjustment of one indirect measurement bythe least square method.

6

4- Linear measurements:Taping methods; systematic error in taping, measuring obstructed distances, other uses of tape.

2

5- Leveling:- Direct leveling; level, basic parts and principles.- Direct differential leveling; systematic errors, field procedure, types of differentialleveling.- Adjustment of differential leveling by the least squares method.- Direct profile leveling; field procedure, adjustment of profile leveling, computation of cutand fill.

8

6- Midterm exam. 27- Angles and directions:- Angles; types of angles, types of horizontal angles.- Directions; direction of a line, meridian, azimuth, bearing.

2

8- Angles measuring instruments:- Basic parts and principles, optical-reading theodolites, digital theodolite, total station.- Measuring horizontal angles; repetition method, direct method.- Measuring vertical angles, double centering, First term exam.

6

9- Traversing:- Introduction; methods of control survey, accuracy standards and specifications, basicconcept of traversing, types of traverses.- Field procedure of traversing; measuring the length of traverse sides; using tape, usingEDM or total station, measuring the horizontal angle of the traverse; traversing by angle tothe right, traversing by deflection angles.- Computation of horizontal coordinates of the traverse stations.

- Adjustment of horizontal coordinates of the traverse stations.

6

10- Midterm exam. 211- Areas:Methods of measuring area, area by coordinators method, area by trapezoidal rule, area bySimpson's rule, area by planimeter.

2


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B.E. 1204 Engineering Surveying (Continued) Theory: 2hrs./ WeekPractical: 2hrs./ Week

12- Topographic surveying:Basic concept of topographic surveying- Contour lines; contour interval, representation of earth topography by contour map.- Characteristics of contour lines.- Basic methods for contouring; direct method, indirect methods, grid method, irregular

method.- Locating topographic details by radiation methods (radial traversing, trigonometricleveling); radiation by total station, radiation by stadia method, radiation by tangentialmethod.- Radiation using theodolite and substance bar.- Topographic surveying by GPS.

8

13- Volume of earthwork:- Fields of application in civil engineering; routs survey, land leveling, borrow-pit,construction of pipelines.- Volumes using cross-sections; types of cross-sections, area of cross-sections, volume byend-area method, volume by prizimoidal method.- Volumes using the grid method (borrow-pit).- Land leveling; land leveling for construction project, agricultural Land leveling.

6

14- Horizontal curves:- Introduction, types of horizontal curves, types of circular curves, simple circular curves;degree of the curve, basic elements of simple circular curve.- Circular curve formulas.- Circular curve stationing.- Field procedure of circular curve layout by deflection angles using total station or (theodolite and tape).

4

15- Vertical curves:- Basic concept and uses of vertical curves.- Equal-tangent vertical parabolic curve; equation of the curve, location and elevation of high or low point on the curve, staking a vertical parabolic curve.- Computation for an unequal-tangent vertical curve.- Second term exam.

4

Experiments1- Basic principles of surveying and setting out of constructions; determination the locationof a point.

2

2- Basic principles of surveying and setting out of constructions; establishing the locationof a point.

2

3- Measuring obstructed distance using tape. 2

4- Level; basic parts and principles, setting up, reading level rods. 25- Differential leveling using level; starting and closing at the same benchmark. 26- Differential leveling using level; starting from a benchmark and closing at another one. 27- Profile leveling using level. 28- Theodolite/ total station. 29- Basic parts and principles, setting up, measurements of H.C.R. and V.C.R. 210- Measuring horizontal angles; repetition method. 211- Measuring horizontal angles; direct method. 212- Mid term exam 213- Measuring horizontal angles; closing the horizon. 214- Measuring vertical angles. 215- Trigonometric leveling. 216- First term exam. 2


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B.E. 1205 Fluid MechanicsTheory: 2 hrs./ WeekPractical: 1 hr./ WeekTutorial: 1 hr./ Week

1- Introduction:History, properties of fluids, units, mass density, weight density, relative density, specificvolume, compressibility, elasticity, viscosity, surface tension, capillarity, and vapor

pressure.

8

2- Fluid statics:Pressure-density-height relationship, absolute & gauge pressures, manometers, forces onsubmerged surfaces, applications.

8

3- Kinematics of fluid motion:Steady & unsteady flow, streamlines, uniform & nonuniform flow, velocity & acceleration.

8

4- Basic laws:Continuity equation, energy equation, Euler equation, Bernoulli equation, energy line,hydraulic grade line, pumps & turbines, conservation of momentum law, impulse,momentum equations, pipe bends, applications.

12

5- Flow of real fluid:Laminar & turbulent flow, fluid flow past solid boundaries, velocity distribution & itssignificance, shear stress in laminar & turbulent flow, resistance force & energy dissipation,flow establishment of boundary layers, laminar & turbulent boundary layers, applications.

8

6- Flow in pipes:Flow in pipes, steady uniform flow in pipes, experimental results about friction coefficient,laminar flow in pipe, turbulent flow in pipe, turbulent flow in smooth & rough pipes, flowin commercial pipes, head losses in noncircular pipes, minor losses, divided flow, multiple

pipes, applications.

8

7- Open channel flow:Definitions of flow in open channels, steady uniform flow, optimum section, specificenergy, critical depth, specific energy in nonrectangular channels, design of sections,

stability theory.

8

Experiments1- Calibration of gauge pressure. 32- Pressure on submerged surface. 33- Discharge through orifice. 34- Discharge over weirs. 35- Flow though Venturi meters. 36- Head losses in pipes. 37- Jet impact. 38- Reynolds number in pipes. 39- Pitot tube test. 310- Hydraulic jump 3


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B.E. 1207 Computer Programming Theory: 1 hr./ WeekPractical: 2 hrs./ Week

Microsoft Office1- Microsoft Word. 32- Microsoft Excel. 33- Microsoft Power Point. 2

Visual Basic language

4- Introduction to Visual Basic language. 15- Forms: Control tools, name selection of the control tools. 16- Explorer project, properties, events. 17- Project, save project, applications. 18- Files and projects, exercises. 19- Menus, their building and writing the code. 110- Dialogue box, message box, file dialogue box, line dialogue box, color dialogue box,

printer dialogue box.1

11- Main object for visual box statements, data, static data, numerical character, variables,direct certainty statement.

1

12- General formula of notification, notification of statics mathematical and logical procedure. 1

13- Additional procedure on character chain, notice statement by using the quick window, printing and simple statement for words.

1

14- Control statement for decisions:(IF-------THEN) statement, (IF---------THEN) statement multilines.

1

15- (IF-----THEN-----ELSE) statement, (IF-----THEN-----ELSE) multiple and similar statement.

1

16- (CASE) statement, (SWITCH) function, (IFF) function, (CHOOSE) function. 117- Looping statement (FOR-----NEXT). 118- Looping statement (DO-----WHILE-----LOOP).

Looping statement (DO-----LOOP-----WHILE).1

19- (NESTED LOOP) statement. 120- Matrix definition, notification matrix statement. 421- Files, special statements of the sequence files. 122- Construction new database, deals with database, add and delete list data. 1


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B.E. 1208 Engineering Statistics Theory: 1hr./ WeekTutorial: 1hr./ Week

1- Definitions and fundamentals:Definition of statistics, importance of statistics, types of statistics, basic definition,

population, sample, random sample, ..etc.

2

2- Frequency distributions:Raw data, class interval and class limits, histogram and polygon, relative and cumulative

frequencies, applications.

4

3- Measure of central location:Mean, median, mode, midrange, comparison for the measurement of central tendency.

3

4- Measure of variation and dispersion:Measure of variation, range, mean deviation, the variance and standard deviation,coefficient of variation, measure of skewness and peakedness, application.

3

5- Probability theory:Relative frequency Venn diagram, intersection, union, conditional probability, independentevents, mutually exclusive events, mathematical expectation, permutations andcombinations, applications.

3

6- Distributions:Discrete distribution; binomial distribution and Poisson distribution, continuousdistribution; normal distribution, chi-square distribution, applications.

4

7- Sampling theory:Sampling methods, sampling distributions, and sampling distribution of means, differencesand sums, applications.

3

8- Estimation theory:Estimation and estimator, efficiency, sufficiency and consistency, confidence level inestimation, confidence level for means, proportions, sums and differences, choice of sample size, applications.

3

9- Statistical decision theory:

Test of hypothesis and significance, statistical hypothesis, statistical errors for the regionsof rejection and acceptance, tests.

2

10- Regression and correlation:Choice of curves, least square methods, correlation, applications.

3


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B.E. 1209 General Freedoms Theory: 1hr./ WeekTutorial: 1hr./ Week

1- Origins of civil rights and freedom, including: legislation for civil rights, understandingcivil rights, philosophy of civil rights, economical conception of civil rights, etc.

3

2- Legal basis for the rule of law, including: influence of the constitution on the legalityand guarantee of civil rights, civil rights laws & their application, organization by authority& their behaviour during state of emergency, etc.

3

3- General Freedoms guarantees, including legal action, study of French legal system, basic principles of civil rights, etc.

3

4- Equality, including historical development of equality, gendre equality, equality of creed& race, etc.

2

5- Basic Freedoms, individual civil rights, freedom of culture & thought, economicfreedom in society, etc.

1

6- Basic civil rights, including security of society & individual, refusal to accept retroactivelaws, individual rights before & after the French revolution and in an empire, Algerianstruggle for freedom, etc.

4

7- Freedom of movement of people. 18- Freedom of thought, including freedom of opinion &belief, separation between state &religious establishment, freedom of the press, freedom of organization, freedom of publicdemonstration, historical development, etc.

6

9- Freedom of labour, etc. 110- Freedom of owning property, capitalistic & socialist understanding of ownership. 211- Freedom of trade and industry including constitutional requirements, commercialfreedom, etc.

2

12- Other Freedoms including, forming political parties, third world application of civilrights, advances in scientific& technical aspects of civil rights.

2


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Building and Construction Engineering DepartmentBuilding and Engineering Management BranchThird Year

SubjectHrs./week


B.E.1301 Soil Mechanics 3 1 1 7B.E.1302 Engineering Analysis and Numerical Methods 3 - 1 6B.E.1303 Remote Sensing and GIS 2 2 - 6B.E.1304 Planning and Management Systems 2 1 1 5B.E.1305 Highway Engineering 2 1 - 5B.E.1306 Management and Construction Equipment 2 - 1 4B.E.1307 Quality Control of Construction Operations 2 - - 4B.E.1308 Theory of Structures 2 - 1 4B.E.1309 Sanitary Engineering 2 - 1 4

Total20 5 6

4531

B.E. 1301 Soil MechanicsTheory: 3hrs./ WeekTutorial: 1hr. / WeekPractical: 1hr. / Week

1- Geotechnical Properties:Formation of natural sedimentation, Grain size distribution, Clay minerals, SoilClassification, Weight-volume relationship, Soil compaction.

15

2- Hydraulic Properties:Permeability field and lab.

3

3- Steady state Flow:One and two-dimensional flow, flow net, piping or boiling.

15

4- Principles of effective stress:

Total stress, effective stress, pore water pressure.

12

5- Distribution of external stresses. 66- Consolidation theory and settlement:Terzagi theory and assumptions, consolidation test, consolidation analysis.

18

7- Shear strength of soils:Mohr-Coulomb theory, laboratory tests, direct shear test, triaxial test, coefficient of porewater pressure.

15

8- Lateral earth pressure. 6Laboratory Tests

1- Water content.2- Atterberg limits.3- Specific gravity.4- Sieve analysis.5- Hydrometer analysis.6- Compaction test.7- Field density test.

8- Permeability test.9- Unconfined shear test.10- Direct shear test.11- Axial shear test.12- Triaxial shear test.13- Consolidation test.14- California Bearing Ratio test.


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B.E. 1302 Engineering Analysis and Numerical Methods Theory: 3hrs./ WeekTutorial: 1hr./ Week

Engineering Analysis1- Ordinary differential equations- applications:

1-1 Applications of first order differential equations.1-1-1 Salt concentration in tanks.1-1-2 Discharge through orifices.

1-2 Applications of second and higher order differential equations.1-2-1 Mechanical vibration.1-2-2 Elastic stability.1-2-3 Newtons 2 nd law of motion.

9

2- Simultaneous linear differential equations.2-1 Cramers rule.2-2 Applications.

2-2-1 Salt concentration in tanks.2-2-2 Mechanical vibration- stiffness formulation.2-2-3 Frequency of structures by the energy conservation law.

9

3- Second & higher order linear differential equations with no constant coefficients.3-1 Euler method or (Z=ln x) method.3-2 Power series (Frobenous method).

6

4- Fourier series:4-1 Periodic functions & Fourier coefficients.4-2 Even & odd functions.4-3 Half range expansion.

6

5- Partial differential equations:5-1 Separation of variables method.5-2 Applications:

5-2-1 Heat equations.5-2-2 DAlembert solution of the wave equation.5-2-3 Laplace equation.

9

6- Matrices:6-1 Review.

6-2 Solution of linear ordinary differential equations.6-2-1 Row transformation method (matrix inversion).6-2-2 Gauss elimination.6-2-3 Gauss-Jordan method.6-2-4 Gauss-Siedel method.6-2-5 Choleskys method or L-U method.6-2-6 Eigen values & Eigen vectors.

9

Numerical Methods7- Introduction to numerical methods:

7-1 Difference table.7-2 Differences & divided differences.

6

8- Linear interpolation:

8-1 Newton-Gregory interpolation polynomial.8-2 Newton-Divided difference formula.8-3 Lagrange interpolating polynomial.

6

9- Numerical integration:9-1 Trapezoidal and Simpsons rules.9-2 Gaussian quadrature.

6

10- Solution of non-linear equations:10-1 Newton-Raphson method.10-2 Indeterminate coefficients.10-3 Indeterminate weights.

6

11- Numerical solution of ordinary differential equations (initial value problems):11-1 Taylor series.11-2 Euler method.11-3 Modified Euler method.11-4 Runge-Kutta method-4 th order.

9

12- Finite differences- boundary value problems. 9


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B.E. 1303 Remote Sensing and GIS Theory: 2hr./ WeekPractical: 2hr./ Week

1- Concept of Remote Sensing. 22- Sources of Energy, Fundamental Properties of Electromagnetic Radiation, Photo.Properties, Aerial Survey Sources.

2

3- Aerial survey Eng., applications, type of photographs, different between vertical aerial photographs & maps, Indications on aerial photographs.

2

4- Vertical aerial photograph, Eng. Relations for vertical aerial photograph photographiccoordinate system, scale of vertical aerial photographs.

2

5- Ground coordinates from a vertical photograph, relief displacement on a vertical photograph, flying height of a vertical photograph.

2

6- Parallax equations (Relations between parallax & point height), flight design. 27- An Ideal Remote Sensing System, Elementary Air Survey, Characteristics of film andlens, Characteristics of sensor platforms.

2

8- Black& White film, Color film, Infrared film, Film Exposure, Exposure Curves,Resolutions types, Ground Resolutions.

2

9- Optical system analysis Radiance Properties for Aerial Photographs & ImageCharacteristics.

2

10- Thermal graphic (Thermal Imaging(, Heat Transfer, Blackbody Radiation, TotalRadiant Existence, Radiation From Real Materials.

2

11- Interaction Mechanisms within the Atmosphere, Interaction Of Thermal RadiationWith Terrain Elements.

2

12- Thermal Energy Detectors, Thermal Radiometers, Thermal Scanners, GeometricCharacteristics Of Thermal Scanner Imagery.

2

13- The Multi band Camera (or the Multi-spectral Frame Camera System), MSS Operationand Design Considerations.

2

14- Micro Wave Sensing. 215- Imaging Radar systems, Operation of Side Looking Airborne Radar, Image

Characteristics, Imaging Radar Properties.

2

16- Passive Microwave Elements, Passive Microwave Sensors. 217- Remote Sensing From the Space. 218- A History of Remote sensing from the space, Satellite characteristics around the earth. 219- Interpretation satellite Image. 220- Platform and systems for Acquisition images, Meteorological satellites. 221- Digital Image Processing. 222- Initial Processing for Digital Data, Image processing system, Image structural. 223- Image Enhancement, Image Rectification & Restoration. 224- Instruments and equipments for Image Processing, extraction Data. 225- Using Remote Sensing Techniques in Road Eng. By evaluation for highwayAlignment.

2

26- Using Remote Sensing Techniques in environment Eng. And environment analysis andestimation Pollution Problems.

2

27- Using Remote Sensing Techniques in Resources Management and Hydrologicapplication.

2

28- Remote sensing applications. 129- Climate analysis, cartographic, Cities analysis, Urban Planning. 130- Agriculture analysis, Forests. 131- Introduction in Geographic Information Systems (GIS) and applications. 132- Introduction in Global Position System (GPS) and applications. 1

33- Ground Penetration Radar (GPR) and its applications. 1


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B.E. 1303 Remote Sensing and GIS Theory: 2hr./ WeekPractical: 2hr./ Week

Computer Applications1- Definition & Components of GIS, Arc GIS, Overview of Arc GIS (Arc Map, Arc

Catalog, Arc Toolbox).2

2- Maps & Categories, Fundamentals of Arc Map, Image viewer, Layers, dataframes, displaying data.

2

3- Map Projection & Categories . 24- Table of Content, Subset Image. 25- Size & Shape of Earth, Scale of Map. 26- Managing Layers in Arc Map. 27- Coordinates System. 28- Query (Identify & find), Analyze (Proximity, Overlay, Network), Hyperlink. 49- Polynomial Rectification. 2

10- Arc Catalog applications. 211- Maps Creation (Shape File). 212- Maps Creation, Geo Data Base (GDB). 213- Data base Creation & Managing with Table. 214- Graphs Creation, Reports. 215- Layout, Grids 216- Digital Image, preprocessing. 217- ERDAS imagine, Viewer, displaying Image. 218- Subset Image, Export & Import. 219- Enhancement (Spatial, Radiometric, Spectral). 220- Spatial Enhancement (Resolution Merge). 221- Image Enhancement & Filters. 2

22- Unsupervised Classification. 224- Supervised Classification. 225- Accuracy Assessment. 226- Layer Stack. 227- Global positioning System (GPS). 428- Ground Penetration Radar (GPR). 4


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23

B.E. 1304 Planning and Management SystemsTheory: 2hrs./ WeekTutorial: 1hr./ WeekPractical: 1hr./ Week

1- The system approach to engineering problems:The nature of engineering problems, defining and solving problems, application examples.

4

5- Linear modeling and analysis of systems: Network systems in engineering, graphical modeling of engineering systems, linear graph

analysis

8

3-Decision making:Elements of decision problems, the decision model, Fundamentals of, probability, decision

based on expected value.

8

4-Simulation:Simulation concepts, simulation models, applications in simulation problems.

4

5- Linear programming:The optimization process, goals, objectives, and criteria, Simplex method, Big M Methodoptimization

4

6- Dynamic Programming 87-Organizational structures:Principles of organizing, design and developing organizational structure.

8

8-Planning and systems:Planning technique, system feasibility.

8

9- Project management:Project management, decision sequences.

8

B.E. 1305 Highway EngineeringTheory: 2 hrs./ WeekPractical:1 hr./ Week

1- Transportation planning, traffic engineering. 62- Route location of highways. 6

3- Surveys and costs. 44- Geometric design of highways, cross sections, horizontal alignment, vertical alignment. 105- Asphalt materials, pavement construction materials, types, tests, design of asphaltconcrete mixes.

6

6- Pavement design: flexible pavement, rigid pavement. 167- Surface drainage and under surface drainage. 48- Pavement maintenance. 8

Laboratory Tests1- Mortar tests:Penetration, ductility, softening point, loss on heating, flash point.2- Aggregate tests.3- California Bearing Ratio (C.B.R.) test.4- Marshall test.


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B.E. 1306 Management of Construction Equipment Theory: 2hrs./ WeekTutorial: 1hr./ Week

1- Job planning and management. 22- Factors affecting the selection of construction equipment. 23- The cost of owning and operating construction equipment. 44- Maintenance and repair cost. 45- Downtime and obsolescence costs. 4

6- Economical life and replacement. 47- Engineering fundamentals. 28- Tractors, scrapers, excavating equipment. 49- Types of piles and pile-driving equipment. 410- Forms for concrete structures. 411- Designing of forms. 412- Concrete and transit-mixer and belt-conveyor systems. 413- Soil stabilization and compaction. 414- Pumping equipment, classification of pumps. 215- Applying the theory of queues to determine the most economical number of hauling

units.

4

16- Accident prevention in the construction industry. 217- Foundation Grouting 218- Transportation belts 4

B.E. 1307 Quality Control of Construction Operations Theory: 2Hhrs./ Week1- Contractual condition and quality control. 42- Technical specification of works. 63- Materials specification. 64- Works specification. 65- Quality control during design stage. 66- Quality control during construction stage. 67- Quality control methods for materials. 48- Quality control methods for works. 49- Testing reports and quality control. 410- Test, acceptance and delivery certificates. 411- Defects of quality and correction methods. 412- Management and monitoring of quality control. 6

B.E. 1308 Theory of Structures Theory: 2 hrs./ WeekTutorial: 1 hr./ Week

1- Stability of structures. 42- Analysis of determinate structures. 163- Influence line for statically determinate structures 84- Elastic deformation of determinate structures by virtual work method 85- Analysis of indeterminate structures by slopedeflection method. 126- Analysis of indeterminate structures by moment-distribution method. 12


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B.E. 1309 Sanitary Engineering Theory: 2hrs./ WeekTutorial: 1 hr./ Week

1- The basic principles of water treatment design:Intakes, pump stations, type of sedimentation tanks, filters, and disinfectants.

10

2- Construction, operation and controls on the water treatment plants. 63- The basic principles of wastewater treatment plant design:Intakes, sedimentation, secondary treatment, pump stations, and sludge drying.

10

4- Construction, operation and controls of the wastewater treatment plants. 65- Management and control of water, wastewater treatment plants, and networks. 106- Problems and maintenance of water and wastewater treatment plants. 87- Maintenance of distribution systems and sewers, stoppage clearing, making repairs. 68- Maintenance of pumps and its control boards. 4


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Building and Construction Engineering DepartmentBuilding and Engineering Management BranchFourth Year

SubjectHrs./week


B.E.1401 Management of Construction Projects 3 - 1 6B.E.1402 Concrete and Steel Design 3 - 3 6B.E.1403 Quantity Surveying and Management of Contracts 2 - 1 4B.E.1404 Structural Defects and Remedies 2 - - 4B.E.1405 Engineering Economy 2 - - 4B.E.1406 Computer Applications 1 2 - 4B.E.1407 Foundation Engineering 2 - 1 4B.E.1408 Building Services 2 - 1 4B.E.1409 Graduation Project - 4 - 4

Total17 6 7

4030

B.E. 1401 Management of Construction Project Theory: 3 hrs/ WeekTutorial: 1 hr./ Week1-Principles and objectives of construction management. 32-Elements of management and its importance. 33- Planning techniques. 104-Organizing and organizational structures. 75-Management and directing. 36-Work studies and productivity. 37-Cash flow analysis and forecasting. 68-Studies of time and cost relation or tradeoff. 39-Monitoring and updating time schedule. 610-Overlapped precedence networks. 3

11-Monitoring techniques and cost control of works. 312-Resource leveling. 613-Site organizing and management. 1014-personnel and labor management. 615-Inventory control and management. 616-Principles of cost accounting. 617-Financing Construction Projects. 6


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B.E. 1402 Concrete and Steel Design Theory: 3 hrs./ WeekTutorial: 3 hrs./ Week

Concrete Design1- Ultimate strength analysis and design method 62- Cracked moment of inertia (Singly reinforced sections, doubly reinforced sections, andT-sections).

2

3- Deflection in beams, width of cracks 4

4- Design of one way slab 45- Bond anchorage and development length. 46- Design for shear. 47- Continuous beams and one way slab. 68- Design for shear and torsion. 69- Design for two-way slabs by:a. coefficient method.

b. Yield line method

12

10- Short columns. 411- Design of wall and column foundations. 6

12- Introduction to ferro cement and its design methods. 2Steel Design1- Design of tension steel members. 62- Design of compression steel members. 53- Design of simple connections and steel joints. 94- Design of steel beams and its types. 65- Design of steel column base. 26- Structural fire safety 2

B.E. 1403 Quantity Surveying and Management of Contracts

Theory: 2 hrs./ WeekTutorial: 1 hr./ Week

1- The objective of quantity surveying and related partners. 32- The united standardization index and applications in quantity surveying. 53- Bills of quantities and estimation of work quantities. 34- Detailed estimation of works. 115- The procedure of cost planning. 36- Approximate estimation of works. 37- The elements of price and the procedure of its preparation. 58- Bills of quantities and the prices. 39- the applications in pricing the works. 6

10- The preparation of the technical specifications. 611- The tendering documents and the procedure of announcement for contracts. 312- The types of construction contracts. 613- The procedures of contract letting and the criteria for contractor selection. 614- The general conditions of contracts. 615- The payments for works. 616- The engineering insurance. 317- The contract of the engineering consultation. 318- The strategy of tenders submission. 319- Decision taking during tender submission. 320- The registration of contractors. 3


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B.E. 1404 Structural Defects & Remedies Theory: 2 hrs./ Week1- Factors controlling designing of concrete structures and their effects on defect. 62- Construction materials used in repair of defect. 43- Foundations defects and methods of repair. 64- Causes of cracks in concrete structures and their repair.. 65- Defects of reinforced concrete columns and methods of repair. 66- Defects of reinforced concrete beams and methods of repair. 67- Defects of reinforced concrete slabs and methods of repair. 68- Defects of building roofing and methods of repair 49- Defects of finishing materials (Tiles, stones and fittings ) and methods of repair 16

B.E. 1405 Engineering Economy Theory: 2 hrs./ Week1- Principles and objectives of engineering economy. 42-Supply and Demand. 43-Elasticity and factors affecting the market. 44-Mathematics of interest and economic comparisons. 4

5-Net Present Cost. 46-Annual Costs and its application. 47-Annual return. 48-Loans and financing. 49-Break-even analysis. 410-Depreciation and tares. 411-Inflation and investment costs. 412-Productivity and profitability. 413-Costs and prices indicators. 614-Technical and economical feasibility studies. 6

B.E. 1406 Computer Applications Theory: 1 hr./ WeekPractical: 2hrs./ Week

1- AutoCADExplain the commands; Limits, Status, Zoom, Redraw, Line, Rectangle, Point, Circle, Arc. etc. and Modify Command Erase, Color, Scale, Trim etc.Drawing structure sections

4

2-Systems and software used in construction management. 23-Application in planning and time scheduling. 44-Updating time schedules. 45-Work progress monitoring and control reports. 46-Cost control of works. 47-Resource leveling. 48-Expert systems and its application in construction management. 4


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B.E. 1407 Foundation Engineering Theory: 2 hrs./ WeekTutorial: 1 hr./ Week

1- Soil investigation:Determination of spacing, No. of bore holes, depth of bore holes, type and methods of drilling, sampling and samples, in situ tests, geophysical exploration, report writing

6

2- Bearing capacity of Shallow foundation:Types of shear failure, Determination of ultimate bearing capacity of soil, eccentrically

loaded foundations, bearing capacity of footing on layered soils, bearing capacity of footing on slopes, determination of bearing capacity from field tests.

14

3- Settlements of shallow foundations:Immediate or elastic settlements, consolidation settlements, secondary settlements,

prediction of settlement for cohesionless soils, elastic settlements of eccentrically loadedfoundations, allowable settlements.

6

4- Foundations on difficult soils:Collapsing soils, expansive soils.

2

5- Structural design and determination of dimensions of footings:Separated footings, combined foundations, rectangular foundations, trapezoidalfoundations, strap foundations and raft foundations.

8

6- Pile foundations:Pile classification, pile capacity in cohesive soils, pile capacity in cohesionless soils, pilecapacity for c- soils, pile capacity of tension piles, determination of pile capacity from insitu tests, negative skin friction of piles.-Pile groups:Group action, efficiency of group piles, ultimate bearing capacity of group piles, pilegroups subjected to moments, settlement of pile groups.

- pile dynamic formulae- pile load tests

16

7- Earth pressures and retaining walls:

Types of lateral earth pressures, Rankine theory of earth pressures, Coulombs theory of earth pressures.- Stability of retaining walls- Sheet pile walls:

Cantilever sheet pile walls and anchored sheet pile walls

8


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Documents

1-Syllabus in English-Building and Eng Management