Total Cr. Hrs: 160

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EBS 201 Engineering Mathematics (3) 3 2 2 1 EBS 102
2 CEM 131 Principles of Geology and Geotechnical Engineering 2 2 1 0 Nil
3 CEM 111 Structural Analysis (1) 3 2 2 0 EBS 111
4 CEM 161 Civil Engineering Drawing using CAD 3 1 2 2 EBS 141
5 CEM 171 Surveying for Engineers 3 2 1 2 EBS 101
6 UGE 01 English (1) 2 2 0 0 Nil
Total 16
No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EBS 208 Applied Probability and Statistics 3 2 2 0 EBS 102
2 CEM 252 Construction Project Management 3 2 2 0 Nil
3 CEM 112 Structural Analysis (2) 3 2 2 0 CEM 111
4 CEM 151 Human Resources Management 2 2 1 0 Nil
5 CEM 121 Properties of Engineering Materials 3 2 2 1 Nil
6 UGE 02 English (2) 2 2 0 0 UGE 01
Total 16
No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 CEM 241 Reinforced Concrete Design (1) 3 2 2 0 CEM 121, CEM 112
2 CEM 232 Soil Mechanics 3 2 2 1 CEM 121, CEM 131
3 CEM 284 Fluid Mechanics 3 2 2 1 EBS 121
4 EAA 301 Building Technology 2 1 3 0 Nil
5 U — University Elective Course 2 2 0 0 Nil
6 CEM 213 Structural Analysis (3) 3 2 2 0 CEM 112
Total 16
No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 CEM 285 Water Structures 3 2 2 0 CEM 284
2 CEM 342 Reinforced Concrete Design (2) 3 2 2 0 CEM 241
3 CEM 281 Water, Wastewater and Stormwater Infrastructure Management 3 2 2 1 Nil
4 CEM 253 Construction Planning and Scheduling 3 2 2 1 CEM 252
5 CEM 254 Economic Strategies in Construction 2 2 1 0 Nil
6 HUE — HUE Elective 2 2 0 0 Nil
7 CEM 200 Field training (1) 0 0 0 0 Academic Advisor Approval
Total 16
No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 CEM 355 Construction Methods and Equipment 2 2 1 0 CEM 255
2 HUE 113 Technical Reports Writing 2 1 0 2 UGE 01
3 CEM 356 Project Cost Analysis 3 2 2 0 CEM 252
4 CEM 362 Steel Structures Design (1) 3 2 2 0 CEM 112
5 CEM 386 Coastal Protections and Harbor Engineering 3 2 2 0 CEM 232, CEM 284
6 CEM — Elective Course 3
Total 16
No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 CEM 363 Steel Structures Design (2) 3 2 2 0 CEM 362
2 CEM 333 Foundation Engineering (1) 3 2 2 0 CEM 232, CEM 342
3 CEM 372 Highway Engineering 3 2 2 1 CEM 232, CEM 171
4 CEM 357 Construction Productivity 3 2 2 0 CEM 252
5 CEM — Elective Course 3
6 UCS 02 Communication Skills (2) 1 1 0 0 UCS 01
7 CEM 300 Field training (2) 0 0 0 0 CEM 200
Total 16
No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 CEM 400-1 Graduation Project (1) 4 3 2 1 Department Approval
2 CEM 422 Quantity Surveying and Estimating 3 2 2 0 CEM 252
3 CEM 458 Construction Risk Management 3 2 2 0 EBS 208, CEM 253
4 CEM — Elective Course 3
5 CEM — Elective Course 3
Total 16
No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 CEM 400-2 Graduation Project (2) 4 3 2 1 CEM 400-1
2 CEM 401 Introduction to Mechanical, Electrical and Plumping Systems in Construction 3 2 2 0 Nil
3 CEM 459 Construction Contracting 2 2 1 0 CEM 356
4 CEM — Elective Course 3
5 U — University Elective Course 2 2 0 0 Nil
6 HUE — HUE Elective 2 2 0 0 Nil
Total 16

Communication Skills (1)

On successful completion of this course, the student should be able to express their feelings, ideas ad exchanging information and knowledge with others, build human relations with the group. Give and receive criticism, deal with different personality types, cooperation and better teamwork performance, better decision-making and problem solving.

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Engineering Mechanics (1)

The force system, vector analysis, equilibrium of force systems for particles versus rigid bodies. Moments and couples, analysis of structures such as plane trusses and frames, distributed force systems, centroid and composite bodies, moments of inertia. Friction.

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Engineering Physics (1)

Units, and Dimensions; Properties and classification of matter; Stress, strain, elastic modulus and Hooke's law; Vibrations and wave Motion, sound waves and introductory acoustics; Conservation of Energy and basics of Thermodynamics; Heat Transfer by conduction, convection and radiation; Fluid Statics: pressure variation in fluid at rest and buoyancy; Fluids in motion: viscosity, shear and normal stresses, frictionless flow. Emphasis on relevant applications in engineering.

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Engineering Drawing and Descriptive Geometry

Introduction, types of lines and lettering, drawing equipment and use of instruments, geometric constructions, the theory of projection, multi view representation, and deduction of the third view. Descriptive Geometry: Introduction, Mongean Projection: Representation of points, lines, planes. Representation of line intersection of two planes, Representation of point of intersection of a line and a plane, auxiliary planes, Intersection of curved surfaces.

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Engineering Mathematics (2)

Fundamental concepts and techniques of differential and integral calculus of functions in several variables. Partial differentiation, the chain rule, extrema of multivariable functions. Vectors in two and three dimensions, dot and cross products of vectors, the gradient and directional derivative. Double integration in rectangular and polar coordinates with emphasis on engineering applications of multiple integrals.

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Engineering Mathematics (3)

Fourier series of periodic functions. Ordinary differential equations of first order ordinary differential separable, homogeneous, linear and Bernoulli types. Exact first order ODE. Solution of homogenous and nonhomogeneous second order ordinary differential equations using indeterminate coefficients and variation of parameters. The Laplace transform and its application to solution of ordinary differential equations. Functions of several variables, partial differentiation and applications. Calculus of functions of several variables. Introduction to Vectors and vectors analysis.

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English (1)

The course covers the following main components; listening and speaking, reading, writing, grammatical accuracy and study skills. Upon the completion of the course student should be able to demonstrate capability to achieve the following; select and use relevant information to introduce self and others, use clear, logical and fairly accurate grammatical language in everyday situations arising at college during lectures, interpret information presented in charts, graphs and tables, demonstrate ability to understand form and functions of headings and sub-headings, demonstrate ability to write a brief summary of main points, organize notes into headings and sub-headings, demonstrate control of the 5 basic tenses: simple present, past, future, present and past progressive and form of basic pronouns and read and interpret graphs, tables and charts

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English (2)

The course elaborates on the following main components; listening and speaking, reading, writing, grammatical accuracy and study skills. Upon the completion of the course student should be able to demonstrate the capability to achieve the following: identify and explain main points of lecture to others, identify specific detail and complete information on a chart /graph/diagram, report subject and main ideas heard in a talk /lecture, guess meaning of words from context using linguistic and content knowledge, write sections of a research report following a given model: introduction, process, findings, conclusions and recommendations, recognize and use different forms of nouns and make use of information in reference books e.g. encyclopedias, atlases, etc.

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Communication Skills (2)

This course will develop student's communication and presentation skills and train them to present themselves and their ideas orally and written in an effective manner that leads them to excellence and leadership in their work and life.

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Principles of Geology and Geotechnical Engineering

Introduction to geology and the earth origins, principles of physical and structural geology. Minerals, the major rock groups, plate tectonics and the major geological processes. Influence of geological origin and history of engineering characteristics of soil deposits and rocks. Application of geology in exploration design and construction of engineering works. Geological and Geo-hydrology maps in Egypt. Introduction to Soil Mechanics, Soil composition and structure of soils. Soil Basic Formation, characteristics and index engineering properties. Experimental determination of soil characteristics, particle sizes distribution, and engineering classification. Compaction, and dry density. Laboratory and field compaction.

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Structural Analysis (1)

Types of structures, Loads, Supports, Stability and determinacy of structures, Reaction calculation of statically determinate structures, Calculation of internal force and drawing N.F, S.F and B.M diagrams for statically determinate beams, frames and arches, Calculation of internal force in statically determinate trusses.

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