Aeronautical Engineering Bachelor of Engineering (with Honours) - BEng (Hon)
Course Overview - Aeronautical Engineering Bachelor of Engineering (with Honours) - BEng (Hon)
Flight remains one of mankind's greatest achievements. With technology taking aviation further, prepare for a future career in this thrilling and lucrative sector with our BEng (Hons) Aeronautical Engineering degree.
Aeronautical engineering is the application of scientific and technological methods to research, design, develop, maintain, and performance test both civil and military aircraft. We’ve designed this BEng course to equip you with relevant technical and transferable skills in these areas, so you are ready for exciting career opportunities.
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Flight remains one of mankind's greatest achievements. With technology taking aviation further, prepare for a future career in this thrilling and lucrative sector with our BEng (Hons) Aeronautical Engineering degree.
Aeronautical engineering is the application of scientific and technological methods to research, design, develop, maintain, and performance test both civil and military aircraft. We’ve designed this BEng course to equip you with relevant technical and transferable skills in these areas, so you are ready for exciting career opportunities.
Develop in-demand engineering knowledge and skills
Delivered over three years – or four with a placement – you’ll study a suite of modules design to embed theoretical knowledge and creative application to help you become a world-class engineer. With a focus on real-world problems solving, you’ll explore how to improve fuel efficiency, ensure flight safety and apply using technology to take flight even further.
Initially covering core engineering topics in relation to mathematics, electrical systems, thermodynamics, fluid mechanics, structures and dynamics, you will start to explore aircraft design, including aircraft structures, flight systems, navigation, aerodynamics and performance. As you progress, you will focus on advanced flight systems, the aerodynamics of high-speed vehicles, and structural analysis using finite element methods.
Learning takes place at our Peel Park campus, minutes from central Manchester. As an engineering student, you will experience hands-on learning using aeronautical laboratories, flight simulators and flight training system. You will also have the opportunity to gather real-time flight data with practical teaching using aircraft from Cranfield University’s National Flying Laboratory Centre. During the flight, the aircraft will conduct specific manoeuvres to gather flight data for your later analysis.
Collaboration is core to our values, so we strive to embed this throughout your studies. You will experience group projects that will build your confidence and capabilities in team working, problem-solving and communication - all desirable skills for real-world aeronautical engineering careers.
Get closer to industry
The course team has long-standing connections with the aviation industry, both in the North West and beyond. You will benefit from stimulating range of external guest lecturers, project and placement opportunities, and engagement with professional networks, as you learn about the decision-making methods used by industry.
You will also have the option to include an industry placement year between years two and three, where you can gain additional professional and transferable skills, and boost your employability once you graduate.
Our new home for engineering
In Autumn 2022, we opened our new £65 million hub for science, engineering and the environment - and our new home for engineering. Sustainability-designed and 100% electric powered, the building offers unrivalled teaching, learning and research facilities and provides exciting new spaces for industry collaboration.
Features
• Develop a deeper understanding of the theory of statics and dynamics and flight control as related to the dynamic behaviour of an aircraft
• Learn about aircraft design, including detailed refinement of component design and major interactions that influence the overall design effectiveness
• Assess aircraft performance by modelling aerodynamic loads and propulsion system performance, leading to key results in both steady and accelerated flight
• This course is also available with an integrated masters pathway (Ucas code: H404)
Course Information
1 option available
Some courses vary and have tailored teaching options, select a course option below.
Course Details
Information
Study Mode
Full-time
Duration
3 Years
Start Date
2027-09-01
Campus
Peel Park Campus
Application Details
13 January
Application deadline
Provider Details
Codes/info
Course Code
A28-E81
Institution Code
S03
Points of Entry
Year 1
Entry Requirements
A level
Two full A-levels required as a minimum, to include Grade C in Maths and an E in a Numerate Science (Physics, Chemistry, Electronics, Design Technology, Computer Science, Statistics).
T Level
T Levels accepted at Grade M. Must have passed all components and be in one of the following subjects: Design and Development for Engineering and Manufacturing Maintenance Installation and Repair for Engineering Manufacturing Engineering, Manufacturing, Processing and Control
UCAS Tariff
104.0
112.0
Access to HE Diploma
Must meet the UCAS tariff points with a QAA approved Engineering or Science subject required. Other subjects considered on a case-by-case basis.
GCSE/National 4/National 5
In addition to Level 3 requirements, you must have evidence of Level 2 GCSE English and Maths at Grade C/4 or above.
Pearson BTEC Level 3 National Extended Diploma (first teaching from September 2016)
Grade DMM required from Engineering or Applied Science. Not accepted: Electrical Engineering, Aviation Operations.
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Fees and funding
| Region | Costs | Academic Year | Year |
|---|---|---|---|
| England, Scotland, Northern Ireland, Wales | £10,050 | 2026/27 | Year 1 |








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