Ministry of Higher Education and Scientific Research. Curriculum for Civil Engineering Department College of Engineering University of Wasit
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1 Curriculum for Civil Engineering Department
2 1. Introduction 1.1 Mission To prepare engineering students for successful careers. 1.2 Vision To be a recognized civil engineering department that attracts, rewards, and retains outstanding faculty, students, and staff. 1.3 Program Educational Objectives The graduates of B.Sc. in Civil Engineering (CE) program will: i. Engage in Civil Engineering profession in public and private sectors including, but not limited to, relavent governmental sectors, consulting firms, contracting and constructional companies, marketing and real estate investments. ii. Engage in ongoing professional development activities by pursuing graduate studies and / or other learning opportunities to respond to arising challenges. iii. Advance in responsibility and leadership in their careers. 1.4 Program Outcomes (ABET) a. An ability to apply knowledge of mathematics, science, and engineering. b.an ability to design and conduct experiments, as well as to analyze and interpret data. c.an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability. d.an ability to function on multidisciplinary teams. e. An ability to identify, formulate, and solve engineering problems. f. An understanding of professional and ethical responsibility. g. An ability to communicate effectively. h.the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context. i. A recognition of the need for, and an ability to engage in life-long learning. j.a knowledge of contemporary issues. 2
3 k. An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice. 1.5 Civil Engineering Program: Mapping PO S to PEO S Program Outcomes (PO S) Code Program Educational objectives (PEO S) i ii iii a Ѵ b Ѵ c Ѵ d Ѵ Ѵ e Ѵ f Ѵ Ѵ Ѵ g Ѵ h Ѵ Ѵ i Ѵ Ѵ j Ѵ Ѵ Ѵ k Ѵ Ѵ 3
4 2. Course Description Courses are coded as follows: 1. Course code and number 2. Course title 3. Parenthesized numerals, e.g., ( ), indicate, in order, the credit hour, theclassroom hours (1 hour = 1 credit hour), tutorial hours (credit hour = 0), andthe laboratory hours (2-3 hour = 1 credit hour). Prerequisites, if any, are indicated at the course description. These have beenestablished to assure an adequate and uniform background for students in advancedclasses. Occasionally, students may feel they already have the appropriatebackground for an advanced course because of previous training, transfer credits, orcredit by examination. Course Numbering System Course code = CE The number consists of 4 digits as following: First year Second year Third year Fourth year level 100- University Requirements 200- College Requirements 300- Department Requirements Numbers from 01, 02, 03,.etc. describes the consequence of the course in eachrequirement. 4
5 3. Graduation Requirements/ weekly hours and units Requirements University Requirements College Requirements Department Requirements Total Hrs./ week Theo. Tut. Lab. Units University Requirements: 11Units CourseCode Course Title Hrs./ week Theo. Tut. Lab. Units CE 1101 Fundamentals of Computer Science CE 1102 Freedom and Human rights CE1103 Arabic Language CE 1104 English Language (I) CE 1105 English Language (II) CE 1106 General Fitness CE2107 English Language (III) CE 2108 English Language (IV) CE3109 English for Academic Purposes (I) CE 3110 English for Academic Purposes (II) CE4111 English for Academic Purposes (III) CE 4112 English for Academic Purposes (IV) Total
6 5. College Requirements: 13Units CourseCode Course Title Hrs./ week Theo. Tut. Lab. Units CE1201 Mathematics (I) CE1202 Mathematics (II) CE1203 Engineering Drawing (I) CE1204 Engineering Drawing (II) CE 1205 Computer Programming (I) CE 2206 Computer Programming (II) CE 2207 Computer Programming (III) Total Department Requirements: 126Units Course Code Course Title Hrs./ week Theo. Tut. Lab. Units CE 1301 Engineering Mechanics (I) CE 1303 Statistics and Probability (I) CE 1305 Engineering Materials Properties CE 1307 Workshop Practice CE 1308 Civil Engineering Fundamentals CE 1302 Engineering Mechanics (II) CE 1304 Statistics and Probability(II) CE 1306 Construction Materials CE 1309 Engineering Geology Total for 1 st year CE 2310 Mathematics (III) CE 2311 Mathematics (IV) CE 2312 Strength of Materials (I) CE 2314 Engineering Surveying (I) CE 2316 Fluid Mechanics (I) CE 2318 BuildingsConstruction (I) CE 2320 Concrete Technology (I) CE 2313 Strength of Materials (II) CE 2315 Engineering Surveying (II) CE 2317 Fluid Mechanics (II) CE 2319 BuildingsConstruction (II) CE 2321 Concrete Technology (II) Total for 2nd year
7 Course Code Course Title Hrs./ week Theo. Tut. Lab. Units CE 3322 Engineering Analysis CE 3324 Theory of Structures (I) CE 3326 Soil Mechanics (I) CE 3328 Reinforced Concrete (I) CE 3330 Projects Management CE 3332 Traffic Engineering CE 3334 Irrigation & Drainage Engineering CE3336 Computer Applications in Civil Engineering (I) CE 3323 Numerical Analysis CE 3325 Theory of Structures (II) CE 3327 Soil Mechanics (II) CE 3329 Reinforced Concrete (II) CE 3335 Water Engineering CE 3331 Engineering Economy CE 3333 Geometric Roads Design CE 3337 Computer Applications in Civil Engineering (II) Total for 3 rd year CE 4338 Foundations Engineering (I) CE 4340 Asphalt Technology CE 4342 Reinforced Concrete (III) CE 4344 Steel Structures (I) CE 4346 Hydrology CE 4348 Estimation & Specifications CE 4350 Hydraulic Structures (I) CE 4353 Engineering Project CE 4339 Foundations Engineering (II) CE 4341 Pavement Design CE 4343 Reinforced Concrete (IV) CE 4345 Steel Structures (II) CE 4347 Wastewater Engineering CE 4349 Construction Methods CE 4351 Hydraulic Structures (II) CE 4352 Elective Topics in Structural Engineering CE 4353 Engineering Project Total for 4 th year Total
8 Summer Training The Civil Engineering curriculum requires students to complete two months of summer training at private construction projects or governmental firms. This training is a compulsory component of graduation requirements. It is supervised by the Summer Training Committee of the department. 8
9 First Year// Semester I Code Subject Hrs./week Theo. Tut. Lab. Units CE 1201 Mathematics (I) CE 1301 Engineering Mechanics (I) CE 1101 Fundamentals of Computer & Programming CE 1203 Engineering Drawing (I) CE 1303 Statistics and Probability (I) CE 1305 Engineering Materials Properties CE 1307 Workshop Practice CE 1308 Civil Engineering Fundamentals CE 1103 Arabic Language CE 1104 English Language (I) Total Semester II Code Subject Hrs./week Theo. Tut. Lab. Units CE 1202 Mathematics (II) CE 1302 Engineering Mechanics (II) CE 1205 Computer Programming (I) CE 1204 Engineering Drawing and(ii) CE 1304 Statistics and Probability (II) CE 1306 Construction Materials CE 1309 Engineering Geology CE 1105 English Language (II) CE 1102 Freedom & Human Rights CE1106 General Fitness Total
10 Second Year// Semester I Code Subject Hrs./week Theo. Tut. Lab. Units CE 2310 Mathematics (III) CE 2312 Strength of Materials (I) CE 2206 Computer Programming (II) CE 2314 Engineering Surveying (I) CE 2316 Fluid Mechanics (I) CE 2318 Buildings Construction (I) CE 2320 Concrete Technology (I) CE 2107 English Language (III) Total Semester II Code Subject Hrs./week Theo. Tut. Lab. Units CE 2311 Mathematics (IV) CE 2313 Strength of Materials (II) CE 2207 Computer Programming (III) CE 2315 Engineering Surveying (II) CE 2317 Fluid Mechanics (II) CE 2319 Buildings Construction (II) CE 2321 Concrete Technology (II) CE 2108 English Language (IV) Total
11 Third Year Semester I Code Subject Hrs./week Theo. Tut. Lab. Units CE 3322 Engineering Analysis CE 3324 Theory of Structures (I) CE 3326 Soil Mechanics (I) CE 3328 Reinforced Concrete (I) CE 3330 Projects Management CE 3332 Traffic Engineering CE 3334 Irrigation & Drainage Engineering CE 3336 Computer Applications in Civil Engineering (I) CE 3109 English for Academic Purposes (I) Total Semester II Code Subject Hrs. /week Theo. Tut. Lab. Units CE 3323 Numerical Analysis CE 3325 Theory of Structures (II) CE 3327 Soil Mechanics (II) CE 3329 Reinforced Concrete (II) CE 3335 Water Engineering CE 3331 Engineering Economy CE 3333 Geometric Roads Design CE 3337 Computer Applications in Civil Engineering (II) CE 3110 English for Academic Purposes (II) Total
12 Forth Year Semester I Code Subject Hrs./week Theo. Tut. Lab. Units CE 4338 Foundations Engineering (I) CE 4340 Asphalt Technology CE 4342 Reinforced Concrete (III) CE 4344 Steel Structures (I) CE 4346 Hydrology CE 4348 Estimation & Specifications CE 4350 Hydraulic Structures (I) CE 4111 English for Academic Purposes (III) Total Semester II Code Subject Hrs./week Theo. Tut. Lab. Units CE 4339 Foundations Engineering (II) CE 4341 Pavement Design CE 4343 Reinforced Concrete (IV) CE 4345 Steel Structures (II) CE 4347 Wastewater Engineering CE 4349 Construction Methods CE 4351 Hydraulic Structures (II) CE 4352 Elective Topics in Structural Engineering CE 4112 English for Academic Purposes (IV) Total Project[1- year] Hrs./week Code Subject Units Theo. Tut. Lab. CE 4353 Engineering Project Total 4 3 All Units=150 12
13 FIRSTYEAR First year/ First semester Code Subject Hrs./week Theo. Tut. Lab. Units CE 1201 Mathematics (I) CE 1301 Engineering Mechanics (I) CE 1101 Fundamentals of Computer & Programming CE 1203 Engineering Drawing (I) CE 1303 Statistics and Probability (I) CE 1305 Engineering Materials Properties CE 1307 Workshop Practice CE 1308 Civil Engineering Fundamentals CE 1103 Arabic Language CE 1104 English Language (I) Total
14 CE 1201 Mathematics (I) 3hrs./ Week 1hr. / Week Elementary functions, algebraic functions, polynomials functions, rational functions, trigonometric functions 2 Function domain, Function range 3 Function graphing 4 Limits, definition of limits of a functions, left hand and right hand limit of function Limit of function as x tends to infinity, limit of constant function, limit if sum or 5 difference, limit of product, limit of quotient 6 Continuity of function 7 Continuity of elementary, polynomial, rational, trigonometric functions 8 Using formal detention of limit to determine function derivative 9 Derivative, differentiation of common, product, quotient functions 10 Differentiation of trigonometric (sin, cos, tan, sec, csc, cot) and transcendental function (log, ln,e x ), Hyperbolic functions 11 Implicit differentiation 12 Application of derivative, equation of tangent and normal to the curve 13 Application of derivative: rate of change, velocity and acceleration 14 Application of derivative: turning, maximum, minimum, inflection points, drawing function using differentiation 15 Practical problems involving maximum and minimum CE 1301 Engineering Mechanics (I) 3hrs./ Week 1hr. / Week Introduction, course orientation, units, definitions and basic principles. 2 Forces, forces resolution and combination in plane and in space 3 Rigid Body Force Systems, moment of a force about a point, moment of a force about an axis. 4 Rigid Body Force Systems, couples, reduction of force and couple systems. 5 Resultant of concurrent coplanar force system 6 Resultant of parallel coplanar force system. 7 Resultant of non-concurrent non parallel coplanar force system. 8 Equilibrium of a Particles, free body and force diagrams; equilibrium of a particle. 9 Equations of equilibrium, Equilibrium of a rigid body plane 10 Solving equation of equilibrium plane 11 Equations of equilibrium, Equilibrium of a rigid body space 12 Solving problem of equilibrium space 13 Trusses: method of joints 14 Trusses: method of sections 15 Solving Truss problems 14
15 CE 1101 Fundamentals of Computer & Programing hrs. / Week 1 1 Computer definition: (Computer generation, computer components, numerical systems, algorithms and charts) 2 File, definition, types and names, operating system (MS-DOS): Explain internal and external commands 3 Introduction to WINDOWS, Desktop, using the mouse, My Computer, closing any open window, temporary closing 4 Microsoft office (Word, Excel and Power point) 5 Microsoft office (Word, Excel and Power point) 6 Microsoft office (Word, Excel and Power point) 7 Microsoft office (Word, Excel and Power point) 8 Microsoft office (Word, Excel and Power point) 9 Microsoft office (Word, Excel and Power point) 10 Computer oriented procedures 11 Computer oriented procedures 12 Flow charts 13 Computer oriented procedures 14 Flow charts 15 Introduction to programming language CE 1203 Engineering Drawing (I) 1hr. / Week 1hr. / Week 2hrs. / Week 2 1 Introduction and instruments 2 Lettering 3 Types of lines 4 Types of lines: (continued) 5 Applied geometry: 6 Applied geometry: (continued) 7 Applied geometry: (continued) 8 Applied geometry: (continued) 9 Applied geometry: (continued) 10 Projection: 11 Projection: (Continued) 12 Projection: (Continued) 13 Projection: (Continued) 14 Projection: (Continued) 15 Projection: (Continued) 15
16 CE 1303 Statistics and Probability (I) 2hrs./ Week 1hr./ Week Introduction and definitions 2 Introduction and definitions 3 Data collection and summarizing 4 Data collection and summarizing 5 Graphical presentations 6 Graphical presentations 7 Samples 8 Central Tendency Measures 9 Central Tendency Measures 10 Location and desperation measurement, applications and examples 11 Location and desperation measurement, applications and examples 12 Location and desperation measurement, applications and examples 13 Skew ness & Kurtosis 14 Theory of probabilities, application and examples 15 Theory of probabilities, application and examples CE 1305 Engineering Materials properties 1hr./ Week --- 2hrs. / Week 2 1 Mechanical properties of materials 2 Bricks, Bricks specification and testing 3 Clay Bricks 4 Manufacturing of Clay Bricks 5 Engineering properties of Bricks 6 Other types of Bricks ( concrete brick, sand-lime bricks, class bricks, refectory bricks) 7 Tiles 8 Mosaic Tiles 9 Other types of tiles 10 Mortar and binders 11 Gypsum mortar 12 Specification of gypsum and testing 13 Lime mortar 14 Cement 15 Type of cement 16
17 CE 1307 Workshop Practice hrs. / Week 1 The 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 timerequirements of workshop operations. The students are introduced to training programs in many workshops including electrical, welding, turning and milling, carpentry, plumbing, automechanics. CE 1308 Civil Engineering Fundamentals 1hr./ Week Introduction to Civil Engineering 2 Engineering Ethics 3 Engineering Ethics 4 Structural Engineering Fundamentals 5 Structural Engineering Fundamentals 6 Foundation Engineering Fundamentals 7 Foundation Engineering Fundamentals 8 Sanitary and Environmental Engineering Fundamentals 9 Sanitary and Environmental Engineering Fundamentals 10 Roads and Transports Engineering Fundamentals 11 Roads and Transports Engineering Fundamentals 12 Water Resources Engineering fundamentals 13 Water Resources Engineering fundamentals 14 Safety, Risk and Engineering Practice 15 Safety, Risk and Engineering Practice 17
18 No. of 15 CE 1103 Arabic Language 1hr. / Week --- 1hr. / Week 1 This course aims to grow the students familiarity with and competence in Arabic literature in its various genres to increase their ability to appreciate literature and to develop their awareness of its concepts through the study of poetry, novel and the short story CE 1104 English Language (I) 1hr./ Week 1hr./ Week Subject pronouns and object possessive. 2 Negative form. 3 Possessive adjectives 4 Present simple 5 Present simple, negative and question 6 This and That 7 Preposition 8 Past simple regular 9 Past simple irregular 10 Negative and question 11 Request and Offers 12 Present continuous 13 Present continuous 14 Future 15 Revision 18
19 First year/ Second Semester Code Subject Hrs./week Theo. Tut. Lab. Units CE 1202 Mathematics (II) CE 1302 Engineering Mechanics (II) CE 1205 Computer Programming (I) CE 1204 Engineering Drawing and(ii) CE 1304 Statistics and Probability (II) CE 1306 Construction Materials CE 1309 Engineering Geology CE 1105 English Language (II) CE 1102 Freedom & Human Rights CE 1106 General Fitness Total
20 CE 1202 Mathematics (II) 3hrs./ Week 1hr. / Week Integration 2 The process of integration, the general solution of integral of the form ax n 3 Standard integral and definite integrals and 4 Integration powers of sines and cosines, integration of products of sines and cosines. 5 Integration of hyperbolic and inverse hyperbolic Techniques of integration, integration using partial fractions, integration using partial fraction with linear factor 6 Integration using partial fractions with repeated linear factors 7 Techniques of integration, integration using partial fraction with quadratic factors 8 Integration by part 9 Integration using substitution 10 Definite integral, physical application of integration, velocity and acceleration 11 Area under and between curves 12 Volume of solids revolution Determinates, theory of matrices and determinates, matrix notation, determinate of 2 by 2 matrix Inverse or reciprocal of 2 by 2 matrix. The determinant of 3 by 3 matrix. The inverse of 3 by 3 matrix Solutions of simultaneous equations by matrices, solution of simultaneous equation by determinants, and Cramers rule. CE 1302 Engineering Mechanics (II) 3hrs./ Week 1hr. / Week Centroids of area. 2 Determination of centroid by integration. 3 Centroids of a composite line or area. 4 First Moments of area. 5 Moments of Inertia 6 Moments of inertia by integration 7 Polar moment of inertia; Radius of gyration 8 Parallel axis theorem 9 Moment of inertia of Composite areas 10 Friction, Law of friction; Angles of friction 11 Types of cases in friction problems 12 Solving problems in friction. 13 Dynamics, definitions and basic principles. 14 Rectilinear motion, curvilinear motions 15 Relative motion; absolute dependent motion 20
21 CE 1205Computer Programming (I) hrs./ Week 1 1 Introduction, Types of constants and variables 2 Arithmetic expressions 3 Input statements (Basic Language) 4 Output statements 5 GOTO statements 6 IF statements 7 IF statements 8 Do statement 9 One dimensional matrix 10 Two dimensional matrix 11 Two dimensional matrix 12 Subroutine 13 Input and output to files 14 Applications on civil engineering cases studies 15 Applications on civil engineering cases studies CE 1204Engineering Drawing (II) 1hr. / Week 1hr. / Week 2hrs. / Week 2 1 Review of Engineering Drawing I 2 Isometric Drawing 3 Isometric Drawing: (continued) 4 Isometric Drawing: (continued) 5 Isometric Drawing: (continued) 6 Isometric Drawing: (continued) 7 Dimensioning 8 Dimensioning: (continued) 9 Dimensioning: (continued) 10 Drawing of Sections 11 Drawing of Sections: (continued) 12 Drawing of Sections: (continued) 13 Drawing of Sections: (continued) 14 Drawing of Sections: (continued) 15 Review 21
22 CE 1304 Statistics and Probability(II) 2hrs./ Week 1hr./ Week Estimation theory and hypothesis testing 2 Estimation theory and hypothesis testing 3 Estimation theory and hypothesis testing 4 Z-test 5 Z-test, 6 Hypothesis tests 7 Hypothesis tests 8 T-test 9 T-test 10 F-test (ratio of normal variances) 11 F-test (ratio of normal variances) 12 chi-squared test (normal variance) 13 chi-squared test (normal variance) 14 Regression and data fitting 15 Regression and data fitting CE 1306 Construction Materials 1hr./ Week --- 2hrs. / Week 2 1 Stress and strain 2 Measurement devices of stress and Binder specifications 3 Moisture seals 4 Asphalt seals 5 Non-moisture seals 6 Steel and testing 7 Types of steel 8 Wood (types, properties and tests of wood) and testing 9 Types of wood 10 Properties of wood 11 Measurements of wood strength 12 Painting material 13 Properties of painting materials 14 Types of painting material 15 General revision 22
23 CE 1309 Engineering Geology 2hrs./ Week 1hr. / Week Introduction: Relationship between geology and civil engineering, earth structure (crust, mantle, core), geological cycle 2 Minerals and rocks 3 Minerals and rocks 4 Soil: Weathering, soil formation, classification, transported and residual soils, mineral composition, soils of Iraq 5 Soil: Weathering, soil formation, classification, transported and residual soils, mineral composition, soils of Iraq 6 Structural geology: Types of earth movements, basic definitions. 7 Structural geology: folds, faults, joints, and their types. 8 Topographic and geological maps 9 Topographic and geological maps 10 Topographic and geological maps 11 Physical and engineering properties of rocks 12 Physical and engineering properties of rocks 13 Surface and ground water 14 Surface and ground water 15 Surface and ground water CE 1105 English Language (II) 1hr./ Week 1hr./ Week I would like. 2 Adverb. 3 Some and Any. 4 Conversation. 5 Reading and Speaking. 6 Paragraphs about engineering problems. 7 Paragraphs about engineering problems. 8 Modal verb. 9 may and might. 10 Autobiography. 11 Opposite adjective. 12 Sports and Leisure. 13 Seasons. 14 Transports. 15 Revision. 23
24 CE 1102 Freedom & Human Rights 1hr./ Week 1hr./ Week Origins of civil rights and freedom, including: legislation for civil rights. 2 Understanding civil rights, philosophy of civil rights, economical conception of civil rights 3 Legal basis for the rule of law 4 General Freedoms guarantee 5 General Freedoms guarantee 6 Basic Freedoms and basic civil rights 7 Basic Freedoms and basic civil rights 8 Freedom of movement of people 9 Freedom of thought, opinion &belief 10 Freedom of labor. 11 Freedom of owning property, capitalistic & socialist understanding of ownership 12 Freedom of owning property, capitalistic & socialist understanding of ownership 13 Freedom of trade and industry including constitutional requirements, commercial freedom, etc. 14 Other Freedoms including, forming political parties, third world application of civil rights 15 Other Freedoms including, advances in scientific& technical aspects of civil rights 24
25 SECONDYEAR Second Year/ First Semester Code Subject Hrs./week Theo. Tut. Lab. Units CE 2310 Mathematics (III) CE 2312 Strength of Materials (I) CE 2206 Computer Programming (II) CE 2314 Engineering Surveying (I) CE 2316 Fluid Mechanics (I) CE 2318 Buildings Construction (I) CE 2320 Concrete Technology (I) CE 2107 English Language (III) Total
26 CE 2310 Mathematics (III) 3hrs./ Week 1hr. / Week Matrix algebra 2 Transpose, Determinate, and Inversion of Matrix 3 Solution of system of linear equations 4 Vectors algebra 5 Dot and Cross Product 6 Lines and Planes in Space 7 Polar Coordinates 8 Equations Relating Polar and Cartesian Coordinates 9 Graphing in Polar Coordinates 10 Applications on Polar Coordinates 11 Infinite Sequences 12 Series Tests 13 Power Series 14 Taylor Series and Maclaurin Series 15 Taylor Series and Maclaurin Series CE 2312Strength of Materials (I) 3hrs./ Week 1hr. / Week Types of Loads and stress 2 Simple stress 3 Hook's low 4 Simple strain 5 Simple strain 6 Thermal stress 7 Thermal stress 8 Torsion 9 Torsion 10 Shear and bending moment diagrams 11 Shear and bending moment diagrams 12 Flexural stress in beams 13 Flexural stress in beams 14 Composite beams 15 Composite beams 26
27 CE 2206Computer Programming (II) hrs. / Week 1 1 Fortran programming preliminaries, Fortran contents and variables 2 Fortran programming preliminaries, Fortran contents and variables 3 Fortran programming preliminaries, Fortran contents and variables 4 Arithmetic expression 5 Arithmetic expression 6 Input-output statements, control statements and statement subscripted variables 7 Input-output statements, control statements and statement subscripted variables 8 Input-output statements, control statements and statement subscripted variables 9 Elementary format specifications logical expression, and decision table 10 Elementary format specifications logical expression, and decision table 11 Functions and subroutines 12 Functions and subroutines 13 Processing files in variables, character manipulation in Fortran 14 Processing files in variables, character manipulation in Fortran 15 Processing files in variables, character manipulation in Fortran CE 2314 Engineering Surveying (I) 2hrs./ Week 1hr. / Week 2hrs. / Week 3 1 General concepts and principles of surveying. Linear measurements: Taping methods, measuring obstructed distances, 2 measuring and setting out horizontal angles. 3 Leveling; Introduction of Datum planes, Elevations of points, Level. 4 Differential leveling; methods of computing elevations of points. 5 Errors of leveling; Systematic and Observational error, Earth Curvature. 6 Closed leveling, Adjustment of differential leveling. 7 Profile leveling; adjustment of profile leveling, computation of cut and fill. 8 Angles and Directions; Types of Angles and Directions, Converting angles and Directions. 9 Angles Additions and computing Directions of line. 10 Traversing; elements of traverse, types of traverse, Angular misclosure. 11 Traverse Computations; Departures and Latitudes, Traverse misclosure. 12 Adjustment of traverse; Compass Rule. 13 Rectangular Coordinates; Forward and Inverse Computations. 14 Application of Traversing. 15 Setting out points by coordinates. 27
28 CE 2316 Fluid Mechanics (I) 2hrs./ Week 1hr. / Week 2hrs./ Week 3 1 Introduction: Distinction between solids, liquids & gases 2 Dimensions & Units 3 Fluid Properties, Density, specific weight 4 Viscosity 5 Compressibility; surface Tension 6 Fluid Statics: Pressure 7 Atmospheric properties; hydrostatic equation 8 Pressure measurement devices 9 Forces on immersed surfaces 10 Buoyancy and Archimedes principle 11 Accelerated fluid masses 12 Fluid Dynamics:Definitions of flow types 13 Continuity equation 14 Euler s and Bernoulli s equations 15 Applications on Bernoulli s equation CE 2318 Buildings Construction (I) 2hrs./ Week --- 2hrs. / Week 3 1 Introduction. Definitions 2 Earth Works (Cut and fill) 3 Foundations Works 4 Foundations Works 5 Piles Works 6 Concrete Works 7 Concrete Works 8 Brick and Block Works 9 Brick and Block Works 10 Brick and Block Works 11 Masonry Works 12 Forms and Scaffoldings 13 Forms and Scaffoldings 14 Beams and Columns 15 Beams and Columns 28
29 CE 2320 Concrete Technology (I) 2hrs./ Week --- 2hrs. / Week 3 1 Introduction to Concrete materials 2 Manufacture of Cement and its Components 3 Hydration of Cement 4 Volume of Hydration 5 Volume of Hydration 6 Tests of Cement 7 Tests of Cement 8 Types of Cement 9 Types of Cement 10 Modern cementite materials 11 Aggregate, properties of Aggregate 12 Aggregate Classification 13 Aggregate Classification 14 Sieve analysis 15 Sieve analysis CE 2107English Language (III) 1hr./ Week 1hr./ Week Tenses;present, past and future. 2 Present tense; simple and continuous. 3 has, have and have got 4 Past; simple and continuous. 5 much and many 6 Some and any 7 Something, anyone, few and little. 8 Future intention; going to. 9 Comparative and Superlative. 10 Present perfect and past simple. 11 For and since. 12 Tenses revision. 13 Speaking, modern building 14 adverbs 15 Revision 29
30 Second year/ Second Semester Code Subject Hrs./week Theo. Tut. Lab. Units CE 2311 Mathematics (IV) CE 2313 Strength of Materials (II) CE 2207 Computer Programming (III) CE 2315 Engineering Surveying (II) CE 2317 Fluid Mechanics (II) CE 2319 Buildings Construction (II) CE 2321 Concrete Technology (II) CE 2108 English Language (IV) Total
31 CE 2311 Mathematics (IV) 3hrs./ Week 1hr. / Week Functions of Several Variables 2 Partial Derivatives 3 The Chain Rule 4 Applications of Partial Derivatives 5 Multiple Integrals 6 Double and Iterated Integrals over Rectangles 7 Double Integrals over General Regions 8 Double Integral in polar forms 9 Applications of Double Integrals 10 Triple Integrals 11 Triple Integrals in Cylindrical and Spherical Coordinates 12 Applications on Triple Integrals 13 Introduction to differential equations 14 First order ordinary differential equations CE 2313 Strength of Materials (II) 3hrs./ Week 1hr. / Week Shear stress 2 Shear stress 3 Spacing of nails 4 Shear center 5 Axial-flexural combined stress 6 Axial-flexural combined stress 7 Shear-torsion combined stress 8 Shear-torsion combined stress 9 Analysis of plane stress and strain 10 Equations for the transformation of plane stress 11 Graphical solution - Mohr s circle 12 Deflection by double integration method 13 Deflection by double integration method 14 Deflection by moment-area method 15 Deflection by moment-area method 31
32 CE 2207Computer Programming (III) hrs. / Week 2 1 Introduction and Programming basics 2 Conditionals, Nested conditionals; logical operators 3 Iteration: for 4 Iteration: while 5 Developing algorithms; nested loop 6 User-defined functions 7 Executing a user-defined function 8 Discrete vs. continuous; plotting 9 2-d Arrays matrix 10 Characters and strings 11 Cell arrays, working with numeric/text data (file I/O) 12 Structures and structure arrays 13 Array of objects, constructor that handles variable number of args 14 Sorting and Searching CE 2315Engineering Surveying (II) 2hrs./ Week 1hr./ Week 2hrs. / Week 3 1 Areas Computation; Area of uniform and non-uniform figures. 2 Area by rectangular coordinates, Area by departures and latitudes 3 Area of cross sections. 4 Volumes computations 5 Volumes of earth works 6 Horizontal Curves; Types of horizontal curves, Computing the elements of horizontal curve 7 Setting out horizontal curves. 8 Setting out horizontal curves. Vertical curves; Types of vertical curves, Computing the elements of vertical 9 curve. 10 Setting out vertical curves. 11 Trigonometric leveling. 12 Global Navigation Satellite System GNSS. 13 Global Navigation Satellite System GNSS. 14 Topographic Surveying. 15 Tachometry Surveying. 32
33 CE 2317Fluid Mechanics (II) 2hrs./ Week 1hr. / Week 2hrs. / Week 3 1 Momentum Principle:Momentum equation 2 Application of momentum equations 3 Real Fluid Flow: Laminar and turbulent flow 4 Laminar flow through circular pipes 5 Turbulent Flow and the Moody Diagram 6 Specifying Pipe Sizes 7 Head losses in laminar flow 8 Pipe Flow Applications: Flow resistance in smooth and rough pipes 9 Minor losses; analysis of pipelines 10 Three reservoirs problem 11 Three reservoirs problem 12 Pipe networks 13 Pipe networks 14 Open Channel Flow 15 Open Channel Flow CE 2319 Buildings Construction (II) 2hrs./ Week --- 2hrs. / Week 3 1 Introduction, Definitions 2 Floors and Roofs 3 Floors and Roofs 4 Arches, Lintels and Sills 5 Arches, Lintels and Sills 6 Damp Proofing 7 Damp Proofing 8 Finishing of Walls and Ceilings 9 Finishing of Walls and Ceilings 10 Doors and Windows 11 Doors and Windows 12 Means of Moving Between Levels 13 Means of Moving Between Levels 14 Joints in Buildings 15 Joints in Buildings 33
34 CE 2321 Concrete Technology (II) 2hrs./ Week --- 2hrs./ Week 3 1 Introduction for fresh concrete 2 Workability and its tests 3 Factors affected workability 4 Segregation 5 Compaction of concrete 6 Concrete Strength 7 Concrete Elasticity 8 Factors affected the strength of concrete 9 Shrinkage and creep and durability of concrete 10 Shrinkage and creep and durability of concrete 11 Shrinkage and creep and durability of concrete 12 Concrete mix design 13 Concrete mix design 14 Concrete mix design 15 Concrete mix design CE 2108English Language (IV) 1hr./ Week 1hr./ Week Modal verbs; have got. 2 Modal verbs; should and may. 3 Time and conditional clauses. 4 Purposes. 5 Possessive. 6 If second conditional. 7 Present perfect continuous. 8 Present versus continuous. 9 Past perfect. 10 Discovery and invention. 11 Funny way to earn living. 12 Reported statements. 13 Telling stories. 14 Families that live abroad. 15 Revision. 34
35 THIRDYEAR Third Year/First Semester Code Subject Hrs./week Theo. Tut. Lab. Units CE 3322 Engineering Analysis CE 3324 Theory of Structures (I) CE 3326 Soil Mechanics (I) CE 3328 Reinforced Concrete (I) CE 3330 Projects Management CE 3332 Traffic Engineering CE 3334 Irrigation & Drainage Engineering CE 3336 Computer Applications in Civil Engineering (I) CE 3109 English for Academic Purposes (I) Total
36 CE 3322 Engineering Analysis 3hrs./ Week 1hr. / Week Classification of DE 2 Solution of 1st order ODE 3 Applications on 1st order ODE 4 Solution of Homogenous 2nd order ODE 5 Solution of Non Homogenous 2nd order ODE 6 Solution of Linear higher order ODE 7 Euler Cauchy equations 8 Applications on 2nd order ODE 9 Solution simultaneous linear DE 10 Applications on Simultaneous linear DE 11 Fourier Series 12 Applications on Fourier Series 13 Partial differential equations 14 Separation of variables 15 Applications on Partial differential equations CE 3324 Theory of Structures (I) 3hrs./ Week 1hr. / Week Introduction and types of structures and loads 2 Determinacy and stability 3 Determinacy and stability 4 Analysis of statically determinant frames 5 Types and Analysis of statically determinant trusses 6 Analysis of statically determinant Arches and composite structures 7 Influence line for statically determinant beams and frames 8 Influence line for statically determinant trusses and composite structures 9 Influence line for statically determinant floor girders 10 Maximum influence at a point due to a series of concentrated loads 11 Maximum influence at a point due to a series of concentrated loads 12 Deflections by virtual work method: Beams 13 Deflections by virtual work method: Frames and arches 14 Deflections by virtual work method: Trusses and composite structures 15 Deflections of Beams by conjugated-beam method 36
37 CE 3326 Soil Mechanics (I) 2hrs./ Week 1hr. / Week 2hrs./ Week 3 1 Introduction to Soil Mechanics 2 Soil properties 3 Soil properties 4 Phase diagram 5 Weight volume relationships 6 Soil classification 7 Unified soil classification system 8 Soil compaction 9 Soil compaction and density 10 Stress with in the soil mass 11 Soil permeability 12 Permeability of stratified soil layers 13 Fluid flow with in the soil 14 One dimensional flow application 15 Two dimensional flow CE 3328 Reinforced Concrete (I) 3hrs./ Week 1hr. / Week Introduction 2 Analysis using working stress method 3 Design using working stress method 4 Analysis and design of doubly and T-beams using working stress method 5 Analysis of singly reinforced beams using ultimate strength method 6 Design of single beams using ultimate strength method 7 Analysis and design of doubly reinforced beams using ultimate strength method 8 Analysis and design of T- beams and irregular using ultimate strength method 9 Shear strength and design of shear reinforcement of concrete beams 10 Shear strength and design of shear reinforcement of concrete beams 11 Torsion strength and design of web reinforcement of concrete beams 12 Torsion strength and design of web reinforcement of concrete beams 13 Torsion strength and design of web reinforcement of concrete beams 14 Severability of beams-deflection 15 Severability of beams-crack width 37
38 CE 3330 Projects Management 2hrs./ Week Definition of construction management 2 Project manager 3 Engineering responsibility 4 Project participant 5 Project elements 6 Project contracting methods 7 Contracting types 8 Contract documents 9 Planning 10 Scheduling 11 Scheduling methods 12 Bar chart method 13 Critical network method 14 Pert methods 15 Claims CE 3332 Traffic Engineering 1hr./ Week 1hr. / Week Traffic administration 2 Volume studies 3 Volume studies 4 Speed 5 Speed 6 Traffic Flow Theory 7 Traffic Flow Theory 8 Traffic Flow Theory 9 Delay Studies 10 Capacity and Level of Service (LOS) 11 Capacity and Level of Service (LOS) 12 Capacity and Level of Service (LOS) 13 Design of traffic signals 14 Design of traffic signals 15 Traffic management to reduce congestion and increase safety 38
39 CE 3334Irrigation & Drainage Engineering 2hrs./ Week 1hr. / Week Irrigation(definition, purposes, sources) 2 Soil-water relationship 3 Flow of water into and through soil 4 Water requirement, Irrigation efficiencies 5 Consumptive use, Water duty 6 Unlined irrigation canal 7 Unlined irrigation canal 8 lined irrigation canal 9 lined irrigation canal 10 Drainage 11 Drainage 12 Planning of irrigation and drainage networks 13 Planning of irrigation and drainage networks 14 Methods of field irrigation 15 Methods of field irrigation CE 3336 Computer Applications in Civil Engineering (I) hrs. / Week 2 1 Introduction to AutoCAD( history, viewport and bars, essential commands, Quick access toolbar) 2 Coordinates input methods with applications 3 Modify menu and its applications 4 Draw menu and its applications 5 Draw menu and its applications 6 Hash and dimensions of the drawing 7 Make, insert, edit Block 8 Modify menu and its applications 9 Layers and its applications 10 Structural design presentation 11 Drawing of foundations 12 Drawing of reinforced concrete beams and columns 13 Drawing of reinforced concrete slabs 14 Drawing of stairs and lifts 15 Some structural details 39
40 Third Year/ Second Semester Code Subject Hrs. /week Theo. Tut. Lab. Units CE 3323 Numerical Analysis CE 3325 Theory of Structures (II) CE 3327 Soil Mechanics (II) CE 3329 Reinforced Concrete (II) CE 3335 Water Engineering CE 3331 Engineering Economy CE 3333 Geometric Roads Design CE 3337 Computer Applications in Civil Engineering (II) CE 3110 English for Academic Purposes (II) Total
41 CE 3323 Numerical Analysis 2hrs./ Week --- 2hrs. / Week 3 1 Solution of f(x) = 0 2 Advanced Matrices 3 Numerical solution of Ax = B 4 Eigen value problems 5 Numerical Solution of nonlinear system of equations 6 Interpolation (reading between numbers) 7 Numerical Differentiation 8 Numerical integration 9 Numerical solution of ODE 10 Finite Difference 11 Solution of ODE using finite difference 12 Numerical solution of PDE 13 Elliptic PDE 14 Parabolic PED 15 Hyperbolic PDE CE 3325 Theory of Structures (II) 3hrs./ Week 1hr. / Week Analysis of statically indeterminate Structures by the force method: Beams 2 Analysis of statically indeterminate Structures by the force method: frames and arches 3 Analysis of statically indeterminate Structures by the force method: frames and 4 arches Analysis of statically indeterminate Structures by the force method: Trusses and composite structures 5 Analysis of statically indeterminate structures by slope-deflection method 6 Analysis of statically indeterminate structures by slope-deflection method 7 Analysis of statically indeterminate structures by slope-deflection method 8 Analysis of statically indeterminate structures by slope-deflection method 9 Analysis of statically indeterminate structures by moment distribution method 10 Analysis of statically indeterminate structures by moment distribution method 11 Analysis of statically indeterminate structures by moment distribution method 12 Approximate analysis of statically indeterminate structures 13 Approximate analysis of statically indeterminate structures 14 Elective Topics 15 Elective Topics 41
42 CE 3327 Soil Mechanics (II) 2hrs./ Week 1hr. / Week 2hrs. / Week 3 1 Stresses within the soil mass 2 Total Stresses-effective stress and pure water pressure 3 Stress due to loads 4 Stress due to loads 5 Consolidation 6 Consolidation settlement 7 Consolidation settlement 8 Shear strength 9 Direct shear 10 Triaxial shear test 11 Types of triaxial shear test 12 Triaxial shear test 13 Un conslidation drain triaxial (UD) 14 Consolidation drained triaxial (CD) 15 Un confined compression test. CE 3329 Reinforced Concrete (II) 3hrs./ Week 1hr. / Week Analysis of one-way slab 2 Design of one-way slab 3 Analysis and Design of Continuous Beams and One-Way Slabs 4 Analysis of two-way slab 5 Design of two-way slab 6 Analysis and design of short concrete columns under concentric loads 7 Analysis and design of short concrete columns under uniaxial eccentric loads 8 Analysis and design of short concrete columns under biaxial eccentric loads. 9 Analysis and design of long (slender)concrete columns 10 Analysis and design of long (slender)concrete columns 11 Bond, anchorage and development in tension 12 Bond, anchorage and development in compression 13 Lap splice in tension and compression 14 Standard hooks in tension 15 Termination of tension reinforcement 42
43 CE 3335 Water Engineering 2hrs./ Week 1hr. / Week 2hrs./ Week 3 1 IntroductionofSanitary Engineering 2 Basics ofsanitary and Environmental Engineering 3 Sources ofwater, the amount of waterandsewage 4 Surface water, quality of water,drinking water standards 5 Water consumption 6 Pumping design 7 Water treatment(coagulation) 8 Water treatment (flocculation) 9 Water treatment(sedimentation) 10 Water treatment(sedimentation) 11 Water treatment(filtration) 12 Water treatment(disinfection) 13 Water distribution 14 Water distribution 15 Introduction to Advanced Treatments CE 3331Engineering Economy 2hrs./ Week Concept of engineering economics 2 Element of costs 3 Break-even analysis 4 Interest formulas and their applications 5 Present worth method of comparison 6 Present worth method of comparison 7 Future worth method 8 Future worth method 9 Annual equivalent method 10 Annual equivalent method 11 Rate of return method 12 Depreciation 13 Depreciation 14 Evaluation of public alternatives 15 Evaluation of public alternatives 43
44 CE3333 Geometric Roads Design 1hr./ Week 1hr. / Week Elements of design 2 Stopping and passing sight distance 3 Stopping and passing sight distance 4 Stopping and passing sight distance 5 Design of horizontal curves 6 Design of horizontal curves 7 Design of horizontal curves 8 Design of vertical curves 9 Design of vertical curves 10 Design of vertical curves 11 Design of vertical curves 12 Interchanges 13 Interchanges 14 Design of parking 15 Design of parking CE3337Computer Applications in Civil Engineering (II) hrs./ Week 2 1 Introduction to STAADPRO Program 2 Editor method 3 Orders used in editor method 4 Orders used in editor method 5 Analysis of concrete structures using editor 6 Analysis of concrete structures using editor 7 Analysis of steel structures using editor 8 Analysis of steel structures using editor 9 Design of concrete structures using editor 10 Design of concrete structures using editor 11 Design of steel structures using editor 12 Design of steel structures using editor 13 Viewing results of concrete design 14 Viewing results of steel design 15 Viewing results of steel design 44
45 FOURTHYEAR Fourth Year/ First semester Code Subject Hrs./week Theo. Tut. Lab. Units CE 4338 Foundations Engineering (I) CE 4340 Asphalt Technology CE 4342 Reinforced Concrete (III) CE 4344 Steel Structures (I) CE 4346 Hydrology CE 4348 Estimation & Specifications CE 4350 Hydraulic Structures (I) CE 4111 English for Academic Purposes (III) Total
46 CE 4338 Foundations Engineering (I) 2hrs./ Week 1hr. / Week Introduction to Site Investigation 2 Geotechnical and Physical Site Investigation and In Situ tests 3 Lateral Earth pressure 4 Rankine Theory (Plastic Equilibrium) 5 Coulomb Theory (Plastic Equilibrium) 6 Active and Passive state 7 Retaining Walls and its Design 8 Sheet Piles and Anchors 9 Slope Stability Analysis 10 Method of Slope Stability Analysis 11 Finite and Infinite Slope 12 Bearing Capacity Theory 13 Bearing Capacity in Shallow Foundation 14 Soil Bearing Capacity in Situ (Load test) 15 Soil Bearing Capacity in Situ (Standard and Cone Penetration Test, SPT and CPT) CE 4340 Asphalt Technology 2hrs./ Week --- 2hrs./ Week 3 1 Cross-Section Elements and Mass Haul Diagram 2 Cross-Section Elements and Mass Haul Diagram 3 Cross-Section Elements and Mass Haul Diagram 4 Types and properties of asphalt in pavement construction 5 Types and properties of asphalt in pavement construction 6 Types and properties of asphalt in pavement construction 7 Aggregate used in Asphalt Concrete 8 Aggregate used in Asphalt Concrete 9 Aggregate used in Asphalt Concrete 10 Requirements for bituminous mixes 11 Volumetric Properties of Asphalt Mixtures 12 Volumetric Properties of Asphalt Mixtures 13 Design of aggregate gradation for asphalt mixes 14 Design of asphalt mixes 15 Design of asphalt mixes 46
47 CE 4342Reinforced Concrete (III) 2hrs./ Week 1hr. / Week Review for concrete design members and types of loads 2 Types of two way slab systems 3 Design of two way slab by Direct Design Method 4 Design of two way slab by Direct Design Method 5 Design of two way slab by Direct Design Method 6 Design of two way slab by Direct Design Method 7 Design of punching shear in flat slab 8 Design of punching shear in flat slab 9 Design of punching shear in flat slab 10 Design of punching shear in flat slab 11 Design of two way slab by Equivalent frame method 12 Design of two way slab by Equivalent frame method 13 Design of two way slab by Equivalent frame method 14 Design of two way slab by Equivalent frame method 15 Design of two way slab by Equivalent frame method CE 4344 Steel Structures (I) 2hrs./ Week 1hr. / Week Introduction of steel structures 2 Types of loadings 3 Design of tension members 4 Design of tension members 5 Design of compression members (columns) 6 Design of compression members (columns) 7 Design of compression members (columns) 8 Design of flexural members (beams) 9 Design of flexural members (beams) 10 Design of flexural members (beams) 11 Design of flexural members (beams) 12 Design of beam - column members 13 Design of beam - column members 14 Design of beam - column members 15 Design of beam - column members 47
48 CE 4348 Hydrology 2hrs./ Week 1hr. / Week Hydrology, hydrologic cycle, Meteorological data 2 Precipitation, Rainfall information 3 Estimating missing precipitation data, Double mass curve analysis 4 Average precipitation over an area 5 Evaporation and transpiration, Infiltration 6 Stream flow 7 Extension of rating curve 8 Hydrograph 9 Hydrograph 10 Reservoir routing 11 Stream flow routing 12 Groundwater 13 Well hydraulics 14 Well hydraulics 15 Flood Probability CE 4348 Estimation & Specifications 2hrs./ Week Introduction about estimating and earth works with planning and leveling. 2 Excavation of foundation 3 Layer of sub-base 4 Casting lean with width equal to the foundation 5 layer of block or rock 6 layer of block or rock 7 Wall building work - Build by brick and cement mortar and by block 8 Casting a concrete for girders and column s 9 Casting a concrete to the slabs. 10 Finishing works 11 Roof works estimating 12 Box Culvert estimating 13 Water Tank estimating 14 Cost Preparing 15 Cost Preparing 48
49 CE 4350 Hydraulic Structures (I) 2hrs./ Week 1hr./ Week Hydraulic structures (introduction) 2 Seepage under hydraulic structures 3 Seepage under hydraulic structures 4 Seepage under hydraulic structures 5 Design of diversion structures 6 Design of head Regulators 7 Design of head Regulators 8 Design of head Regulators 9 Design of cross Regulators 10 Design of weir and Gates 11 Design of weir and Gates 12 Design of Box Culverts 13 Design of Box Culverts 14 Design of Inverted Siphon 14 Design of Inverted Siphon 15 Design of Transition in open channels 49
50 Fourth year/ Second Semester Code Subject Hrs./week Theo. Tut. Lab. Units CE 4339 Foundations Engineering (II) CE 4341 Pavement Design CE 4343 Reinforced Concrete (IV) CE 4345 Steel Structures (II) CE 4347 Wastewater Engineering CE 4349 Construction Methods CE 4351 Hydraulic Structures (II) CE 4352 Elective Topics in Structural Engineering CE 4112 English for Academic Purposes (IV) Total
51 CE 4339 Foundations Engineering (II) 2hrs./ Week 1hr. / Week Settlement and Consolidation Theory 2 Settlement in Layered Soils 3 Stress Distribution due to Structural Load 4 Consolidation Settlement 5 Preliminarily Settlement 6 Structural Design of Foundations 7 Structural Design of Spread Footing 8 Non eccentricity of Rigid Footing (Design and Analysis) 9 Structural Design of Combined Footing 10 Mat or Raft Foundation design 11 Design of piles Cap 12 Axially and Laterally loaded Piles Foundation design 13 Board and Driven Pile s Design in Cohessionless and Cohesive Soils 14 Bearing Capacity of Single Pile in Sand and Clay 15 In Situ Pile Load test and settlement of Pile cap CE 4341 Pavement Design 2hrs./ Week 1hr./ Week Types of pavements and general principles 2 Types of pavements and general principles 3 Stresses in flexible pavement 4 Stresses in flexible pavement 5 Design of Flexible Pavement 6 Design of Flexible Pavement 7 Design of Flexible Pavement 8 Thickness design of rigid Pavement 9 Thickness design of rigid Pavement 10 Types of joints in rigid pavement 11 Stresses in rigid pavement 12 Stresses in rigid pavement 13 Reinforcement design of rigid pavement 14 Reinforcement design of rigid pavement 15 Reinforcement design of rigid pavement 51
52 CE 4343Reinforced Concrete (IV) 2hrs./ Week 1hr. / Week Introduction to yield line theory 2 Analysis of slab by yield line theory 3 Analysis of slab by yield line theory 4 Analysis of slab by yield line theory 5 Analysis of slab by yield line theory 6 Design of slab by yield line theory 7 Design of slab by yield line theory 8 Introduction toperstressed concrete members 9 Stresses in perstressed concrete beams 10 Stresses in perstressed concrete beams 11 Allowable stresses in perstressed concrete and steel 12 Design of prestressed beam (ASD method) 13 Design of prestressed beam (ASD method) 14 Design of prestressed beam (Ultimate method) 15 Shear in prestressed beams CE 4345 Steel Structures (II) 2hrs./ Week 1hr. / Week Design of bolted connections 2 Design of bolted connections 3 Design of bolted connections 4 Design of bolted connections 5 Design of welded connections 6 Design of welded connections 7 Design of welded connections 8 Design of welded connections 9 Design of plate girders 10 Design of plate girders 11 Design of plate girders 12 Miscellaneous design considerations 13 Miscellaneous design considerations 14 Miscellaneous design considerations 15 Miscellaneous design considerations 52
53 CE 4347 Wastewater Engineering 2hrs./ Week 1hr. / Week 2hrs./ Week 3 1 Sewerage system 2 Quality of waste water 3 Sewer hydraulic 4 Waste water treatment objective 5 Types and method of waste water treatment 6 Primary treatment 7 Biological treatment(activated sludge) 8 Biological treatment, Fixed growth 9 Clarification, Filtration 10 Disinfection 11 Trickling filter 14 Sludge treatment 15 Advanced treatment CE 4349 Construction Methods 2hrs./ Week Project Pricing and estimating 2 Project Pricing and estimating 3 Project Pricing and estimating 4 Introduction to The Methods of construction 5 Costs of operation equipment 6 Costs of operation equipment with examples 7 Engineering fundamentals for choosing construction tools 8 Engineering fundamentals for choosing construction tools 9 Methods of estimating The productivity of machines 10 Methods of estimating The productivity of machines 11 Methods of estimating The productivity of machines 12 Methods of estimating The productivity of machines and costs 13 Machines Depreciation 14 Machines Depreciation 15 Machines Depreciation 53
54 CE 4351 Hydraulic Structures (II) 2hrs./ Week 1hr./ Week Design of Stilling Basins 2 Design of Stilling Basins 3 Design of Barrages 4 Design of Barrages 5 Design Drop structure 6 Design Drop structure 7 Design Chutes structure 8 Design Chutes structure 9 Design Under ground storage introduction 10 Design Under ground storage flexible base 11 Design Under ground storage flexible base 12 Design Under ground storage flexible base 13 Application of software in hydraulic structures 14 Application of software in hydraulic structures 14 Application of software in hydraulic structures 15 Application of software in hydraulic structures CE 4352Elective Topics in Structural Engineering 1hr./ Week 1hr./ Week Review on stiffness matrix 2 Matrix and solutions 3 Matrix and solutions 4 Two dimensional stiffness matrix of truss in local and global coordinates 5 Two dimensional stiffness matrix of truss in local and global coordinates 6 Analysis of plan trusses using S.M.M 7 Analysis of plan trusses using S.M.M 8 Two dimensional stiffness matrix of Beams in local and global coordinates 9 Two dimensional stiffness matrix of Beams in local and global coordinates 10 Analysis of plan beams using S.M.M 11 Analysis of plan beams using S.M.M 12 Two dimensional stiffness matrix of frame element in local and global 13 coordinates Two dimensional stiffness matrix of frame element in local and global coordinates 14 Analysis of plan frames using S.M.M 15 Analysis of plan frames using S.M.M 54
55 No. of 30 CE 4353 Engineering Project (1-Year) 1hr. / Week --- 2hrs. / Week 4 Students are required to work on project in any of the areas related to Civil Engineering. The students will work 3 hrs. per week with his / her supervisor(s) during the all-academic year in the 4 th stage. 55