Master of Engineering in Aeronautics and Astronautics (2+2)
University of Southampton Malaysia
Iskandar Puteri, Johor, Malaysia
Quick Facts
Duration
2+2 years
Mode
Full-time, On-campus
Intake
Sep
Tuition Fees
RM364,904
Course Highlights
- Accredited by the Royal Aeronautical Society, Institution of Mechanical Engineers and recognised by the Board of Engineers Malaysia (BEM)
- The only Russell Group university to combine Aeronautics and Astronautics degrees
- Enjoy state-of-the-art facilities such as the wind tunnel complex, used by Formula One teams and Olympic athletes
- This programme covers advanced aeronautics and space applications, preparing you to design future aircrafts, race cars, jet engines, satellites and rockets as well as learn to appreciate the economic, legal and environmental issues associated with aircraft operations and aircraft performance
Course Structure
- Design and Computing
- Mechanics, Structures and Materials
- ThermoFluids
- Electrical and Electronics Systems
- Introduction to Aeronautics and Astronautics
- Mathematics for Engineering and the Environment
- Systems Design and Computing
- Engineering Management and Law
- Mathematics for Engineering and the Environment Part II
- Aerodynamics
- Astronautics
- Systems Design and Computing
- Materials and Structures
- Engineering Management and Law
- Propulsion
- Mechanics of Flight
- Individual Project
- Aerothermodynamics
- Aerospace Control Systems
- Aircraft Structural Design
Optional Modules:
- Accounting and Finance for Engineers
- Advanced Computational Methods I
- Advanced Finite Element Analysis
- Advanced Partial Differential Equations
- Advanced Photovoltaics, Fuel Cells and Batteries
- Aeroacoustics
- Aeroelasticity
- Aerospace Control Design
- Aerothermodynamics
- Aircraft Propulsion
- Aircraft Structures
- Applications of CFD
- Automobile Systems
- Automotive Propulsion
- Biological Flow
- Biomaterials
- Composites Engineering Design and Mechanics
- Computational Methods in Biomedical Engineering Design
- Concurrent Spacecraft Design
- Control and Instrumentation
- Design Search and Optimisation (DSO) - Principles, Methods, Parameterizations and Case Studies
- Experimental Methods for Aerodynamics
- Failure of Materials and Components
- Finite Element Analysis in Solid Mechanics
- Flow Control
- Heat Transfer and Applications
- Human Factors in Engineering
- Hypersonic & High Temperature Gas Dynamics
- Manufacturing and Materials
- Materials for Transport Applications
- Operational Research
- Optimisation
- Orthopaedic Biomechanics
- Principles of Photovoltaics, Fuel Cells and Batteries
- Race Car Aerodynamics
- Renewable Energy from Environmental Flows: Wind, Wave and Tide
- Space Environment
- Spacecraft Instrumentation
- Spacecraft Orbital Mechanics
- Spacecraft Propulsion
- Spacecraft Structural Design
- Sustainable energy systems, resources and usage
- Turbulence
- Wing Aerodynamics
Group Design Project:
- Advanced Management
Optional modules:
- Accounting and Finance for Engineers
- Advanced Computational Methods I
- Advanced Finite Element Analysis
- Advanced Partial Differential Equations
- Advanced Photovoltaics, Fuel Cells and Batteries
- Aeroacoustics
- Aeroelasticity
- Aerospace Control Design
- Aerothermodynamics
- Aircraft Propulsion
- Aircraft Structures
- Applications of CFD
- Automobile Systems
- Automotive Propulsion
- Biological Flow
- Biomaterials
- Composites Engineering Design and Mechanics
- Computational Methods in Biomedical Engineering Design
- Concurrent Spacecraft Design
- Control and Instrumentation
- Design Search and Optimisation (DSO) - Principles, Methods, Parameterizations and Case Studies
- Experimental Methods for Aerodynamics
- Failure of Materials and Components
- Finite Element Analysis in Solid Mechanics
- Flow Control
- Heat Transfer and Applications
- Human Factors in Engineering
- Hypersonic & High Temperature Gas Dynamics
- Manufacturing and Materials
- Materials for Transport Applications
- Operational Research
- Optimisation
- Orthopaedic Biomechanics
- Principles of Photovoltaics, Fuel Cells and Batteries
- Race Car Aerodynamics
- Renewable Energy from Environmental Flows: Wind, Wave and Tide Space Environment Spacecraft Instrumentation Spacecraft Orbital Mechanics Spacecraft Propulsion Spacecraft Structural Design Sustainable energy systems, resources and usage Turbulence Wing Aerodynamics
Students get to choose from 7 specialisation:
- Aeronautics and Astronautics
- Aerodynamics
- Air Vehicle Systems Design
- Computational Engineering and Design
- Engineering Management
- Materials and Structures
- Spacecraft Engineering
Entry Requirements
- A-Level: ABB/A*A*C/A*AC/AAC including grade A in Mathematics and grade A/B in Physics
- IB Diploma: Pass with 36 points overall, 18 points required at Higher Level, including 6 points at Higher Level in Physics and 6 points at Higher Level in Mathematics (Analysis and Approaches) or 7 at Higher Level in Mathematics (Applications and Interpretation)
- STPM: A-BB, including Mathematics and Physics
- UEC: AAABBB, with A in Advanced Mathematics I & II, Physics and B in two other STEM subjects (Computing accepted)
-
IELTS: 6.5 overall, minimum 6.0 in all components or Grade C in SPM 1119 English (cohort before 2021), SPM CEFR Level B2 or above (cohort from 2021 onwards), Grade C in GCSE English, Grade A in IGCSE English as a Second Language, B3 in UEC English or equivalent
-
IB English: 5 at Standard/Higher Level in IB English Language Syllabus A or 6 at Standard Level/5 at Higher Level in IB English Language Syllabus B.
Estimated Fees
Application fees (non-refundable)
RM0
Tuition fees
RM364,904
Discounts & scholarships
-RM1,300
Total payable amount
RM363,604
You save RM1,300 when you apply with EduAdvisor!
Other savings
Up to RM7,000