Bachelor of Engineering (Honours) (Civil)
Course overview
Qualification | Bachelor's Degree |
Study mode | Full-time, Part-time |
Duration | 4 years |
Intakes | February, July |
Tuition (Local students) | Data not available |
Tuition (Foreign students) | $ 89,188 |
Admissions
Intakes
Fees
Tuition
- Data not available
- Local students
- $ 89,188
- Foreign students
Estimated cost as reported by the Institution.
Application
- Data not available
- Local students
- Data not available
- Foreign students
Student Visa
- Data not available
- Foreign students
Every effort has been made to ensure that information contained in this website is correct. Changes to any aspects of the programmes may be made from time to time due to unforeseeable circumstances beyond our control and the Institution and EasyUni reserve the right to make amendments to any information contained in this website without prior notice. The Institution and EasyUni accept no liability for any loss or damage arising from any use or misuse of or reliance on any information contained in this website.
Entry Requirements
- A/AS levels;
- International Baccalaureate;
- Cambridge Pre-U;
- Other equivalent qualifications accepted by the university.
Curriculum
Year 1
- Engineering Mechanics
- Introduction to Engineering Computations
- Introduction to Engineering Practice
- Mathematics 1
- Mathematics 2
- Integrated Physics
- Surveying 1
- Surveying 2
Year 2
- Engineering computations and probability
- Theory of Structures 1
- Civil Engineering Materials
- Geomechanics 1
- Fluid Mechanics
- Transportation Engineering and Design
- Calculus of Science and Engineering
- Ethics, Technology and Engineering
Year 3
- Reinforced Concrete Design
- Steel Design
- Theory of Structures 2
- Geomechanics 2
- Hydrology
- Water Engineering
- Stress & Finite Element Methods
Year 4
- Engineering Project Management
- Theory of Structures 3
- Geotechnical and Geoenviromental Engineeringn
- Structural Engineering Project
- Water Engineering Project
- Geotechnical Engineering Project
- Project S2