Aeronautical Engineering Technology: Bachelor
This is an archived copy of the 2020-2021 catalog. To access the most recent version of the catalog, please visit https://hctcatalog.hct.ac.ae.
Program Mission
Prepare graduates to be successful as technicians and engineers embracing innovation and discovery and striving for life-long learning and professional development in the field of Aeronautical Engineering Technology.
Program Description
The Bachelor of Aeronautical Engineering Technology program provides an excellent, broad education with a focused area of specialization options to cater for the UAE’s globally-oriented aircraft industry. Aeronautical Engineering Technology graduates are trained to support the design, development, and maintenance of aviation systems to the highest level of industry standards. HCT Aeronautical Engineers are trained to use state-of-the-art software and hardware to enhance their analytical and practical skills in aero-engineering to equip them with essential tools and skills to strengthen their career opportunities and facilitate their entry into the industrial world.
The Bachelor of Aeronautical Engineering Technology curriculum produces high-quality engineers known for productivity, timeliness, dedication and competence in the workplace. Graduates have the ability to work logically, accurately and efficiently; to gather and use information effectively; and to continue enhancing their careers through lifelong learning. The program stresses the effective use of technology, information resources and engineering tools. It also instills leadership qualities based on moral and ethical principles, coupled with sound and rational judgment. In addition, it is designed to prepare interested students for graduate studies in Aeronautical Engineering Technology and other areas of professional practice. Students will have the option to graduate with a Diploma in Aeronautical Engineering Technology upon the successful completion of 81 credits inclusive of the 8 week Work Placement.
Program Goals
- Provide Aeronautical Engineering Technology professionals with the technical knowledge and skills required by the industry to develop, design, and maintain aviation systems to highest level of industry standards.
- Prepare graduates for a successful career as effective decision makers with strong communication and teamwork skills and an understanding of the global, ethical and social implications of the industry and aero-engineering profession.
- Provide graduates with strong commitment to lifelong learning, continuing education, and professional growth.
- Provide graduates with leadership qualities and commitment to contribute actively to achieving the Abu Dhabi Vision 2030.
Program Learning Outcomes
Upon graduation, a HCT graduate in Bachelor of Aeronautical Engineering Technology should demonstrate:
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an ability to apply knowledge, techniques, skills and modern tools of mathematics, science, engineering, and technology to solve broadly-defined engineering problems appropriate to the Aeronautical Engineering Technology.
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an ability to design systems, components, or processes meeting specified needs for broadly-defined engineering problems appropriate to theAeronautical Engineering Technology.
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an ability to apply written, oral, and graphical communication in broadly defined technical and non-technical environments; and an ability to identify and use appropriate technical literature;
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an ability to conduct standard tests, measurements, and experiments and to analyze and interpret the results to improve processes;
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an ability to function effectively as a member as well as a leader on technical teams.
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An ability to develop and evaluate a business plan to transform an engineering design (systems, products ,services and solutions) into a business opportunity utilizing entrepreneurial skills and knowledge
Completion Requirements
Bachelor of Aeronautical Engineering Technology
Students must successfully complete a minimum of 146 credits, including:
Code | Title | Credit Hours |
---|---|---|
Program Core Courses | 80 | |
Program Elective Courses | 12 | |
Mathematics and Science Courses | 21 | |
General Studies course | 33 | |
Total Credit Hours | 146 |
Code | Title | Credit Hours |
---|---|---|
Aeronautical Engineering Core Courses | ||
Required Credits: 80 | ||
AET 2103 | Fundamentals of Flight | 3 |
AET 2403 | Applied Thermofluids | 3 |
AET 2902 | Sophomore Design Project | 2 |
AET 3101 | Aeronautical Engineering Lab | 1 |
AET 3303 | Aircraft Structures | 3 |
AET 3413 | Applied Aerodynamics I | 3 |
AET 3423 | Applied Aerodynamics II | 3 |
AET 3503 | Fixed And Rotary Wing Assemblies | 3 |
AET 3513 | Aircraft Design | 3 |
AET 3603 | Flight Vehicle Dynamics and Stability | 3 |
AET 4433 | Aircraft Propulsion | 3 |
AET 4613 | Avionics Systems | 3 |
AET 4902 | Capstone Design Project I | 2 |
AET 4912 | Capstone Design Project II | 2 |
EGN 1133 | Design Thinking in Technology | 3 |
EGN 2712 | Applied Programing for Engineers | 2 |
EGN 2806 | Work Placement I | 6 |
EGN 3012 | Project Management | 2 |
EGN 3212 | Economics for Engineering | 2 |
EGN 3806 | Work Placement II | 6 |
ELE 2153 | Electrical Eng Fundamentals | 3 |
MCE 2203 | Applied Statics | 3 |
MCE 2213 | Mechanics of Materials | 3 |
MCE 2223 | Applied Dynamics | 3 |
MCE 2303 | Material Selection and Testing | 3 |
MCE 2311 | Solid Modelling | 1 |
MCE 4603 | Control Systems | 3 |
MTE 3603 | Electronics Systems and Circuits | 3 |
Mathematics and Science Required Courses | ||
Required Credits: 21 | ||
CHM 1103 | Engineering Chemistry | 3 |
MTH 1103 | Pre Calculus | 3 |
MTH 1203 | Calculus I | 3 |
MTH 2103 | Calculus II | 3 |
MTH 2503 | Introduction to Differential Equations | 3 |
MTH 3013 | Calculus III | 3 |
PHY 1203 | Physics II | 3 |
Aeronautical Engineering Elective Courses | ||
Required Credits: 12 | ||
AET 4123 | Aircraft Reliability and Maintenance Engineering | 3 |
AET 4143 | Human Factors in Aviation | 3 |
AET 4203 | Mechanics of Composite Structures and Materials | 3 |
AET 4213 | Rotary Wing Aircraft | 3 |
AET 4313 | Manufacturing Processes | 3 |
AET 4323 | Non Destructive Testing | 3 |
AET 4333 | Introduction to Aero Elasticity | 3 |
AET 4443 | Computational Fluid Dynamics | 3 |
AET 4453 | Space Propulsion | 3 |
AET 4503 | Finite Element Analysis | 3 |
AET 4623 | Automatic Control of Flight Vehicles | 3 |
AET 4863 | Special Topics in Aeronautical Engineering | 3 |
AET 4893 | Directed Study | 3 |
General Studies | ||
Required Credits : 33 | ||
English, Arabic or other Languages | ||
Required Credits: 12 | ||
LSC 1103, AES 1013, AES 1033 and LSC 2193 | ||
Humanities or Arts | ||
Required Credits: 3 | ||
AES 1003 | ||
Information Technology and Mathematics | ||
Required Credits: 6 | ||
ICT 2013 and MTH 1113 | ||
The Natural Sciences | ||
Required Credits: 3 | ||
PHY 1103 | ||
The Social or Behavioral Sciences | ||
Required Credits: 9 | ||
LSS 1003, LSS 1123 and BUS 2403 |
Description | Data |
---|---|
Total Required Credits | 146 |
Maximum Duration of Study | 6 years |
Minimum Duration of Study | 4 years |
Cost Recovery Program | No |
Program Code | BAEET |
Major Code | AET |
Recommended Sequence of Study
Bachelor of Aeronautical Engineering Technology
Year 1 | ||
---|---|---|
Semester 1 | Credit Hours | |
EGN 1133 | Design Thinking in Technology | 3 |
LSC 1103 | Professional Communication and Reporting | 3 |
LSS 1003 | Life and Future Skills | 3 |
MTH 1103 | Pre Calculus | 3 |
PHY 1103 | Physics I | 3 |
Credit Hours | 15 | |
Semester 2 | ||
AES 1003 | Emirati Studies | 3 |
AES 1013 | Arabic Communications I | 3 |
AES 1033 | Islamic Culture | 3 |
MTH 1113 | Statistics for Engineering | 3 |
MTH 1203 | Calculus I | 3 |
PHY 1203 | Physics II | 3 |
Credit Hours | 18 | |
Summer | ||
CHM 1103 | Engineering Chemistry | 3 |
ELE 2153 | Electrical Eng Fundamentals | 3 |
Credit Hours | 6 | |
Year 2 | ||
Semester 3 | ||
AET 2103 | Fundamentals of Flight | 3 |
ICT 2013 | Computational Thinking and Coding | 3 |
MTH 2103 | Calculus II | 3 |
MCE 2203 | Applied Statics | 3 |
MCE 2303 | Material Selection and Testing | 3 |
MTE 3603 | Electronics Systems and Circuits | 3 |
Credit Hours | 18 | |
Semester 4 | ||
AET 2403 | Applied Thermofluids | 3 |
AET 2902 | Sophomore Design Project | 2 |
MCE 2213 | Mechanics of Materials | 3 |
MCE 2311 | Solid Modelling | 1 |
AET 3503 | Fixed And Rotary Wing Assemblies | 3 |
AET 4613 | Avionics Systems | 3 |
Credit Hours | 15 | |
Summer | ||
EGN 2806 | Work Placement I | 6 |
Credit Hours | 6 | |
Year 3 | ||
Semester 5 | ||
AET 3303 | Aircraft Structures | 3 |
AET 3413 | Applied Aerodynamics I | 3 |
EGN 3012 | Project Management | 2 |
LSS 1123 | Basic Research Methods | 3 |
MCE 2223 | Applied Dynamics | 3 |
MTH 2503 | Introduction to Differential Equations | 3 |
Credit Hours | 17 | |
Semester 6 | ||
AET 3101 | Aeronautical Engineering Lab | 1 |
AET 3423 | Applied Aerodynamics II | 3 |
AET 3513 | Aircraft Design | 3 |
AET 3603 | Flight Vehicle Dynamics and Stability | 3 |
EGN 3212 | Economics for Engineering | 2 |
EGN 2712 | Applied Programing for Engineers | 2 |
LSC 2193 | Applied Skills Capstone | 3 |
Credit Hours | 17 | |
Summer | ||
EGN 3806 | Work Placement II | 6 |
Credit Hours | 6 | |
Year 4 | ||
Semester 7 | ||
AET 4433 | Aircraft Propulsion | 3 |
AET 4902 | Capstone Design Project I | 2 |
MCE 4603 | Control Systems | 3 |
MTH 3013 | Calculus III | 3 |
1 Major Elective Courses | 3 | |
Credit Hours | 14 | |
Semester 8 | ||
AET 4912 | Capstone Design Project II | 2 |
BUS 2403 | Innovation and Entrepreneurship | 3 |
3 Major Elective Courses | 9 | |
Credit Hours | 14 | |
Total Credit Hours | 146 |
Faculty
Al Ain Women's
Amanuel Melake, PhD CFD in Turboengine Aerodynamics, RWTH Aachen University of Technology, Germany
Hassan Jishi, PhD Aerospace Engineering, Khalifa University of Science, Technology and Research,UAE
Mohamad Muflehi, Masters Electronics, Sheffield Hallam University,UK
Philippe Poulin, PhD Mathematics, McGill University, Canada
Utsav KC, PhD Aerospace Engineering, University of Texas at Austin,USA