The bachelor's
program in Civil Engineering provides a sound understanding of the fundamentals
required to construct buildings and structures, as well as to acquire, develop
and maintain viable sites.
The program covers how to design and plan the construction of buildings,
roads, dams, rail networks, and building pits. All such undertakings
significantly alter the environment. In this respect, civil engineering
categorically distinguishes itself from architecture. For the civil engineer is
primarily concerned with structural safety and functionality, on the basis of
which the planning and designing of structures first becomes possible.
The bachelor's program in Civil Engineering conveys the fundamental disciplines
required for modern construction work. Central to the program is the
conception, planning, production and operation of construction sites and
associated infrastructure. These skills are taught in thorough theoretical as
well as practical courses in advanced mathematics, applied mechanics, materials
science, construction processes, civil engineering informatics, statics, and
structural physics. In addition to the principles of engineering and natural
sciences, students have the chance to familiarize themselves with the
fundamentals of hydraulic engineering, material-specific issues and
transportation technologies. Special attention is paid throughout to the
interrelated areas of safety, economics and ecology.
|
Program |
Bachelor of Civil Engineering “Construction Management” |
|
Duration |
4 Academic Years |
|
Credit Hours |
138 Credits |
|
Program Syllabus |
|
|
Subject |
CREDITS |
|
ENGINEERING MATHEMATICS (1) |
3 |
|
ENGINEERING PHYSICS |
3 |
|
ENGINEERING CHEMISTRY |
3 |
|
SYSTEMS IN MECHANICAL ENGINEERING |
3 |
|
BASIC ELECTRICAL ENGINEERING |
3 |
|
ENGINEERING MATHEMATICS (2) |
3 |
|
ENGINEERING PHYSICS / ENGINEERING CHEMISTRY |
3 |
|
BASIC ELECTRONICS ENGINEERING |
3 |
|
PROGRAMMING AND PROBLEM SOLVING |
3 |
|
ENGINEERING GRAPHICS (ENGINEERING DRAWING) |
3 |
|
PROJECT-BASED LEARNING |
3 |
|
EXERCISE AND FIELD ACTIVITIES |
3 |
|
BUILDING TECHNOLOGY AND ARCHITECTURAL PLANNING |
3 |
|
MECHANICS OF STRUCTURE |
3 |
|
FLUID MECHANICS |
3 |
|
ENGINEERING MATHEMATICS (3) |
3 |
|
ENGINEERING GEOLOGY |
3 |
|
AWARENESS OF CIVIL ENGINEERING PRACTICES |
3 |
|
ROAD SAFETY MANAGEMENT |
3 |
|
GEOTECHNICAL ENGINEERING |
3 |
|
SURVEYING |
3 |
|
CONCRETE TECHNOLOGY |
3 |
|
STRUCTURAL ANALYSIS |
3 |
|
PROJECT MANAGEMENT |
3 |
|
PROJECT-BASED LEARNING |
3 |
|
SUBSEA ENGINEERING |
3 |
|
HYDROLOGY AND WATER RESOURCE ENGINEERING |
3 |
|
INFRASTRUCTURE AND CONSTRUCTION TECHNIQUES |
3 |
|
STRUCTURAL DESIGN (1) |
3 |
|
STRUCTURAL ANALYSIS (2) |
3 |
|
FLUID MECHANICS |
3 |
|
FERROCEMENT TECHNOLOGY |
3 |
|
WAVE MECHANICS |
3 |
|
ADVANCED SURVEYING |
3 |
|
PROJECT MANAGEMENT AND ENGINEERING ECONOMICS |
3 |
|
FOUNDATION ENGINEERING |
3 |
|
STRUCTURAL DESIGN (2) |
3 |
|
ENVIRONMENTAL ENGINEERING |
3 |
|
GREEN BUILDING TECHNOLOGY |
3 |
|
AIR POLLUTION AND CONTROL |
3 |
|
TRANSPORTATION ENGINEERING |
3 |
|
STRUCTURAL DESIGN (3) |
3 |
|
MATRIX METHODS OF STRUCTURAL ANALYSIS |
3 |
|
ARCHITECTURE AND TOWN PLANNING |
3 |
|
FINITE ELEMENT METHOD IN CIVIL ENGINEERING |
3 |
|
STATISTICAL ANALYSIS IN CIVIL ENGINEERING |
3 |
|
QUANTITY SURVEYING, CONTRACTS AND TENDERS |
3 |
|
CONSTRUCTION MANAGEMENT |
3 |
|
ADVANCED STRUCTURAL DESIGN |
3 |
|
GRADUATION PROJECT |
18 |
Registration Requirements and Necessary Documents:
1) Student's age should not be less than 17 years old and not exceed 65 years old.
2) Copy of the student's passport (if available).
3) Copy of the student's high school certificate.
4) Copy of the residence permit or national ID for the student (if available).
5) Recent personal photo of the student.
6) Student's mobile phone number.
7) Complete residential address.
8) Student's personal email address.