This four-year Master of Engineering (MEng) Aeronautical Engineering course combines our BEng (Hons) Aeronautical Engineering degree with Masters-level material. It allows you to further distinguish yourself with an advanced set of professional and technical skills and removes the need to source further funding to study a Masters-level qualification. On completion, you will be better placed to compete in the graduate jobs market and enter more demanding and rewarding roles. The MEng Aeronautical Engineering programme is also ideal if you want to become a registered Chartered Engineer as it meets the Engineering Council’s educational requirements to gain Chartered Engineer (CEng) status – the highest standard within the industry.
Aeronautical engineers apply their knowledge and skills to every aspect of air vehicles; from design, development, manufacture, flight testing and certification, to preserving airworthiness and sustainable aircraft operations. You’ll study the engineering principles needed for a career in the aerospace industry, and you’ll gain practical experience on campus in our state-of-the-art Aerospace Centre. Weather permitting, you’ll also take to the skies with flight test lessons in your final year. Work placements and experience are strongly endorsed to complement your studies, along with visits to sites such as GE Aviation Wales, Airbus Filton, and British Airways Maintenance Cardiff (BAMC).
For the first three years, you will study alongside those on the BEng (Hons) Aeronautical Engineering course. The aim of the fourth year is to further develop your skills in leadership and team management. You will also gain a more detailed and in-depth understanding of technical subjects and have the opportunity to apply what you’ve already learned on a substantial group based project.
Year one provides essential scientific principles and practices associated with aeronautical engineering. This includes an introduction to using design tools and general manufacturing/workshop techniques. You will also learn how to use industry-standard CAD packages and programming language.
In your second year, you’ll explore key areas such as thermofluids, aeronautical design, basic aerodynamics, aircraft performance and aircraft systems engineering. Year two culminates with the development of a conceptual aircraft design in a team environment, which is tested on our engineering flight simulator.
Year three modules include aerodynamics, propulsion and aircraft structures. You’ll learn about advanced computational tools and modelling techniques, and produce a dissertation. You’ll also have the opportunity to participate in real aircraft flight testing as part of our Flight Dynamics module.
The aeronautical engineering programme is taught through a combination of lectures, tutorials, practical laboratory sessions and seminars. You will also need to devote time to self-study, such as conducting research and preparing for your assessments and lectures.
You will also have the opportunity to visit sites such as Airbus-Filton, GE Aviation, and British Airways Maintenance Cardiff (BAMC) and learn from guest lectures delivered by senior industrialists, on current technological advancements in the field.
Modules are assessed through a mixture of exams, coursework and problem-based exercises. Speaking in front of your colleagues also forms part of your assessment in group design and project modules, which will develop your presentation and communication skills. You will also have the opportunity in your third year to fly a real aircraft to consolidate your understanding of aircraft behaviour and control principles.
We encourage all students on the Aeronautical Engineering degree to complete a placement as part of their course. On a sandwich placement, you can spend up to a year working in the industry to apply your new knowledge and learn new skills – it’s a great boost to your CV and can lead directly to employment when you graduate.
The aerospace industry has become increasingly competitive and in recognising this, the University has recently invested another £3.3m into its existing aerospace facilities. A two-storey Aerospace Centre extension adds 1,000m2 of practical workshop and laboratory space for engineering students. This includes two aircraft hangars with civil and military aircraft, and a MP521 engineering flight simulator.
The Aerospace Centre is home to a Jetstream 31 Twin Turboprop aircraft, assembled with Honeywell TPE331 Engines and Rockwell-Collins Proline II Avionics, alongside a Jet Provost T-Mk 3 military training jet.
The Centre also includes a gas turbine maintenance workshop, simulated aircraft shell riveting area, hand tools workshops and welding bay, plus clean and dirty composite workshops for specimens and repairs. Dedicated laboratory space for electronic practical tasks, avionics systems, hydraulics and pneumatics also feature providing you with hands-on practical experience.
Our sub-sonic wind tunnels are used for basic aerodynamic instruction, testing and demonstrations on various aerofoil shapes and configurations. Whilst our single-seater, full motion, three axes Merlin MP521 engineering flight simulator can be programmed and simulate any existing aircraft type. It is used extensively in many different aspects of the course, with a particular focus on testing proposed aircraft designs and preparing you for the real flight test exercise.
Entry criteria detail typical offers but USW considers all applications on an individual basis which means that we could make offers based on qualifications, personal profile and experience. Combinations of qualifications are acceptable and other qualifications not listed may also be acceptable.
BBC to include Mathematics and one other Science subject
Grade C and BB at A Level to include Mathematics and one other Science subject
BTEC Extended Diploma Distinction Merit Merit in a relevant Maths, Science or Engineering subject which must include Maths modules.
30 points to include 17 points at Higher Level to include grade 5 in Mathematics and one other Science/numerate subject eg (Physics, Chemistry, Biology, Geography).
Maths, Science or Engineering Diploma with 60 credits overall to include 45 level 3 credits equating to 18 Distinctions, 24 Merits and 3 Passes
GCSEs: The University normally requires a minimum 5 GCSEs including Mathematics and English at Grade C or above, or their equivalent but consideration is given to individual circumstances
We also welcome international applications with equivalent qualifications. Please visit the country specific pages on our international website for exact details.
In general, international applicants will need to have achieved an overall IELTS grade of 6.0 with a minimum score of 5.5 in each component.
However, if you have previously studied through the medium of English IELTS might not be required, but please visit the country specific page on our international website for exact details. If your country is not featured please contact us.
Full-time fees are per year. Part-time fees are per 20 credits. Once enrolled, the fee will remain at the same rate throughout the duration of your study on this course.
Students have access to a wide range of resources including textbooks, publications, and computers in the University’s library and via online resources. In most cases they are more than sufficient to complete a course of study. Where there are additional costs, either obligatory or optional, these are detailed below. Of course students may choose to purchase their own additional personal resources/tools over and above those listed to support their studies at their own expense. All stationery and printing costs are at a student’s own expense.
Apply via UCAS if you are a UK/EU residing applicant, applying for year one of a full-time undergraduate degree, Foundation Year, Foundation Degree or HND and you have not applied through UCAS before. If you are applying to study part-time, to top up your Foundation Degree or HND, or to transfer to USW from another institution, please apply directly.
Apply directly to the University if you live outside the UK/EU.
This MEng Aeronautical Engineering course has been developed in collaboration with industry, ensuring quality and relevance to the modern working environment. The course meets the educational requirements to gain Chartered Engineer (CEng) status from either the Institution of Mechanical Engineers (IMechE), or the Royal Aeronautical Society (RAeS).
We have links with the regional aviation industry, which includes GE Aviation, BAMC, Nordam Europe, TES Aviation Group, and other members within the Aerospace Wales Forum. Some of the UK-based companies with which our students work include Rolls Royce, Sogeclair Aerospace, GE Aviation, MBDA, Zodiac, Easy Jet, Flybe, Airbus, BAMC, Gatwick Airport and TES Aviation.
As a USW MEng Aeronautical Engineering student, you will have access to advice from the Careers and Employability Service throughout your studies and after you graduate.
This includes: one-to-one appointments from faculty based Career Advisers, in person, over the phone or even on Skype and through email via the "Ask a Question" service. We also have extensive online resources for help with considering your career options and presenting yourself well to employers. Resources include psychometric tests, career assessments, a CV builder, interview simulator and application help. Our employer database has over 2,000 registered employers targeting USW students, you can receive weekly email alerts for jobs.
Our Careers service has dedicated teams: A central work experience team to help you find relevant placements; an employability development team which includes an employability programme called Grad Edge; and an Enterprise team focused on new business ideas and entrepreneurship.