Apply To Aerospace Engineering Courses
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Table of Contents
1. What is Aerospace Engineering?
Aerospace focuses on the design, development, testing and production of aircraft within the earth’s atmosphere and up to spacecrafts flying above the atmosphere including satellites and rockets. As such, it is divided into 2 main fields:
- Aeronautical Engineering – Designing aircraft that operate within Earth’s atmosphere, such as commercial airplanes, military jets, and helicopters.
- Astronautical Engineering – Designing spacecraft and systems that operate beyond Earth’s atmosphere, including satellites, space probes, and rockets.
Why it matters to the world?
Modern society depends heavily on aerospace engineering because of multiple important factors.
- Aerospace technology makes global connectivity possible from global trade operations to tourism and cultural exchange functions which add substantial economic value to international markets.
- Aerospace applications stimulate technological innovation in daily human activities, including GPS tracking, meteorological predictions and substance science research.
- Aerospace engineering allows space exploration to discover the mysteries of the universe through the capabilities of satellites, rockets and spacecraft for interplanetary missions and advanced communication systems.
This is a helpful video about the field and its opportunities:
2. Where To Study Aerospace Engineering In Malaysia?
Here are our recommendations of top universities to study Aerospace Engineering courses in Malaysia.
| University | Course |
| 1. University of Southampton Malaysia | MEng Aeronautics & Astronautics (2+2), with University of Southampton, UK |
| 2. Universiti Sains Malaysia | SARJANA MUDA KEJURUTERAAN AEROANGKASA DENGAN KEPUJIAN [AEROSPACE ENGINEERING] |
3. Aerospace Engineering Pathways & Entry Requirements
There is only one pathway towards an Aerospace Engineering Course.
Pathway: SPM/O-Levels ➔ Pre-University/Foundation ➔ Aerospace Engineering Degree
The initial path is to enter a Pre-University course (A-Level, SACE, STPM) or a Foundation course offered by the university of your choice.
As an SPM / O-Level leaver, the entry requirement is 5 credits including Mathematics and a Science subject (Physics/Chemistry/Biology) to enter Pre-U or Foundation, preferably Physics for Aerospace Engineering.
A Pre-University course or Foundation in Engineering / Science typically takes 1 to 2 years to complete and will qualify you to enter into a Degree in Engineering.
An Engineering Degree will usually take 3 to 4 years to complete based on whether your degree is a BEng or MEng qualification. Here are the general requirements to enter with qualifications from popular pre-university courses or a foundation course:
| Qualifications | General Requirements |
| A-Level | 2D |
| AUSMAT/SACE | ATAR 65 |
| CIMP | 65% |
| STPM | 2C |
| UEC | 5B |
| Foundation | CGPA 2.0 |
Note: Actual minimum requirements will differ between different universities. Generally, these qualifications also require you to have Mathematics and a relevant Science subject taken and achieve the minimum results.
In total, this pathway takes 4 to 5 years to complete.
Difference Between MEng and BEng
BEng (Bachelor of Engineering)
- A 3-year undergraduate degree that qualifies students to work as aerospace engineers.
- Requires additional work experience and exams for professional engineering certification.
- Can be upgraded to an MEng through further studies.
MEng (Master of Engineering)
- A 4-year course that integrates both undergraduate and master’s level studies.
- Provides advanced technical knowledge and research opportunities.
- Often preferred for leadership or research roles in the aerospace industry.
To be a certified engineer in Malaysia, you are required by the Board of Engineers Malaysia (BEM) to graduate with a MEng qualification or an equivalent.
How Can Uni Enrol Help?
Uni Enrol’s experienced counsellors help you compare the pros and cons of studying an Aerospace Engineering Course at different universities and different locations.
4. Accreditations For Aerospace Engineering In Malaysia
To gain your status as a professional or certified engineer in Malaysia, you must:
- Graduate with a MEng or Master from a recognised university;
- 3 years of practical working experience; and
- Pass the Professional Assessment Examination by BEM.
BEM is the authoritative body in Malaysia that regulates engineering practices including controlling engineering services, conforming to professional ethics and international best practices in ensuring public safety in Malaysia.
Additionally, be on the lookout for Engineering courses that are recognised under the Washington Accord.
The Washington Accord allows graduates to pursue a professional engineering career in any of the member countries (e.g. Australia, Canada, China, Taipei, Hong Kong, India, Ireland, Japan, South Korea, New Zealand, Singapore, United Kingdom, and the United States) without the need for re-qualification.
5. What You Learn In An Aerospace Engineering Course
These are the subjects that you will be exposed to when taking an undergraduate Aerospace Engineering Course. Note, they may vary slightly from one university to another.
- Advanced Dynamics and Vibration
- Advances in Aerospace Technology
- Aerodynamics
- Aeroengines and Rocket Science
- Aerospace Control Systems
- Aerothermodynamics
- Aircraft Performance and Stability
- Aircraft Structural Design
- Aircraft Structures
- Avionics and Aircraft Systems
- Drones and Autonomous Flight
- Dynamic Analysis and Aeroelasticity
- Electronic Power Systems
- Engineering Management and Law
- Flight Dynamics and Control
- Integral Transforms and Matrices
- Intro to Aeronautics and Astronautics
- Materials and Structures
- Mechanical Stress and Dynamics
- Mechanics of Flight
- Novel Propulsion
- Propulsion
- Sensors and Embedded Electronics
- Sustainability in Engineering Design
- Systems Design and Computing
- Thermo Fluids
6. Why Should I Study Aerospace Engineering?
This space (no pun intended) will only continue to expand as there are so many more technological boundaries to be broken and mysteries left unsolved:
- On The Technological Frontier – You gain access to emerging aerospace innovations including robotics, artificial intelligence and materials advancements in the aviation industry.
- Careers Beyond Aviation – Aerospace engineers have opportunities in defense sectors, automotive manufacturing, energy distribution and more as they apply aerodynamics methods and perform structural analysis and systems engineering tasks in those industries.
- Well Paid Opportunities – The demanding nature of aerospace engineering work leads to exceptionally high earnings since professionals must display sophistication and advanced competencies.
- Growing Importance – The world requires skilled aerospace engineers right now because space exploration, commercial aviation and defense technologies have become ever more critical for security and safety reasons.
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7. RIASEC Compatibility To An Aerospace Engineering Course
The John Holland Theory of Career Choice states that in choosing a career, people will choose one similar to their personality to ensure job satisfaction, job performance, and career success. The test generates 6 different personality types:
- Realistic (R)
- Investigative (I)
- Artistic (A)
- Social (S)
- Enterprising (E)
- Conventional (C)
With the RIASEC Test, 6 personalities can generate up to 720 combination possibilities to provide career compatibility. You can try the test yourself here.
The 3 that suit an Aerospace engineer the most are:
INVESTIGATIVE
- Aerospace engineers need strong problem-solving skills to research, analyze, test and apply advanced scientific and mathematical principles to develop complex systems, such as aircraft, spacecraft, and propulsion technologies.
REALISTIC
- Aerospace engineering involves hands-on work with materials, structures, and aerodynamics. Therefore, you have to be comfortable with physical tools, simulations, and real-world prototypes.
CONVENTIONAL
- Precision and strict adherence to technical standards, safety regulations, and engineering principles are crucial in Aerospace Engineering.
8. Career Opportunities For Aerospace Engineering
Graduates in Aerospace Engineering can explore careers in various industries, including:
| Areas of Opportunity | Types of Roles |
| Aircraft & Aviation Industry | Aerodynamics Engineer, Aircraft Design Engineer, Flight Test Engineer, Avionics Engineer, Aircraft Maintenance Engineer, Unmanned Aerial Vehicle (UAV) Engineer |
| Space Industry & Exploration | Spacecraft Engineer, Propulsion Engineer, Mission Control Specialist, Astrodynamics Engineer, Satellite Systems Engineer |
| Defense & Military Aviation | Defense Systems Engineer, Weapons & Missile Engineer, Surveillance & Reconnaissance Engineer |
| Automotive & High-Speed Transportation | Automotive Aerodynamics Engineer, Hyperloop Engineer, High-Speed Train Engineer |
| Robotics, AI & Emerging Technologies | Robotics Engineer For Space Exploration, AI & Automation Engineer, Aviation Software Engineer |
| Research & Academia | Aerospace Research Scientist, University Professor, Materials & Composites Researcher |
| Entrepreneurship & Consulting | Aerospace Startup Founder, Aerospace Consultant, Aviation Safety Expert |
| Emerging Fields in Aerospace & Aeronautical Engineering | Urban Air Mobility (UAM), Space Tourism, Sustainable Aviation, Interplanetary Exploration |
Recommended Course Guides
Looking for other related courses? Here are various engineering-related course guides you should check out:
If you’re still unsure about what to study, we have many other Course Guides that will provide further insight into the subject matter. Share with your friends!
We also took the liberty to compile all our University Guides and Course Fees Guides so you don’t have to go anywhere else!
About the Author:
Ken Hoong is the co-founder of Uni Enrol and a contributing writer. Drawing on his close work with Uni Enrol’s counsellors, he brings keen insight into Malaysia’s evolving private higher education landscape and the shifting preferences of students in learning and career choices.
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