Course summary
Interested in the design, construction and operation of aircraft, spacecraft, drones, launching systems, green air transport, green energy, sport vehicles or sustainable earthbound vehicles? Our programme in Aerospace Engineering could be for you. Aerospace engineering is a rapidly changing and challenging discipline in which areas such as aerodynamics, flight mechanics and performance, wind energy, propulsion, aerospace structure and materials and space engineering and robotics are being studied and researched. Addressing the future sustainability of air transport, earthbound transport systems and indeed performance of sport vehicles such as Formula 1 cars depends on the innovations in which aerodynamics, flight performance, propulsion, and materials play an essential role. In Year 1 you’ll build a strong foundation in fundamental engineering concepts such as fluid mechanics, design, materials and mathematical modelling, whilst being introduced to Aerospace engineering through our ‘Explore Aerospace Engineering’ module. Modules in design and experimental practice, will help you to develop the practical workshop and laboratory-based skills necessary for all engineers, and put core programme material into perspective and to practical use. During Years 2 and 3, you’ll develop your understanding of this rapidly changing and challenging discipline studying areas including flight mechanics and performance, and aircraft and spacecraft design. We’ll also explore innovation in aerodynamics, flight performance, propulsion and materials and how these fields can be used to address the future sustainability of both air and space transport, as well as earthbound vehicles and energy technologies such as cars and wind turbines. Students who choose to take the MEng degree will learn advanced modules and carry out an industry or research-linked project that focuses on solving real engineering research and design problems. Recent projects have included designing and constructing a rocket capable of breaking the UK altitude record and designing a solar-powered racing car. We place strong emphasis not only on the technical content of our modules, such as mechanics, thermodynamics and design, but also on the cross discipline skills vital for an engineer to function in the work place. We have mapped the modules in our programmes to a range of attributes that we would like our students to attain, within the areas of creativity, resilience, communication and professional practice in order to produce well-rounded, interested and highly employable graduates. This mapping ensures these skills are embedded in the technical modules on the programmes. This not only ensures that the students develop technical knowledge and understanding as they progress through their degree, but it also gives us the confidence that students will graduate with skills they can apply to a range of future careers or higher-level study. We've recently undertaken a review of our programmes to ensure that they will prepare you for life beyond 2030 and ensure they reflect the global challenges facing both our society and your future as engineers. We have developed the modules we offer in consultation with our students, staff and industry to enhance your student experience and graduate employability.
Modules
Year 1 Engineering Design Computational and Mathematical Modelling 1 Computational and Mathematical Modelling 2 Materials Engineering Experimental Design and Practice 1 Experimental Design and Practice 2 Exploring Aerospace Engineering Fluid Mechanics and Thermodynamics Skills for Engineers Please note that all modules are subject to change.
Assessment method
Assessment typically includes a combination of coursework, written reports, projects, presentations, group work and exams at the end of each semester.
How to apply
This is the deadline for applications to be completed and sent for this course. If the university or college still has places available you can apply after this date, but your application is not guaranteed to be considered.
Application codes
- Course code:
- H40Y
- Institution code:
- Q50
- Campus name:
- Main Site
- Campus code:
- -
Points of entry
The following entry points are available for this course:
- Year 1
Entry requirements
Qualification requirements
UCAS Tariff - Not accepted
A level - AAA
Pearson BTEC Level 3 National Extended Diploma (first teaching from September 2016) - Not accepted
Access to HE Diploma - D: 33 credits M: 12 credits
International Baccalaureate Diploma Programme - 36 points
Extended Project
GCSE/National 4/National 5
English language requirements
All applicants to QMUL must show they meet a minimum academic English language standard for admission and to be successful on the course. Please refer to the website below for details on our English Language requirements by course and acceptable alternative qualifications. You will also find important information regarding UKVI's English requirements if you are applying as an international student who will require Tier 4 immigration permission to enter the UK.
Queen Mary University of London: English Language Requirements
http://www.qmul.ac.uk/international/englishlanguagerequirements/index.html#
Student Outcomes
The number of student respondents and response rates can be important in interpreting the data – it is important to note your experience may be different from theirs. This data will be based on the subject area rather than the specific course. Read more about this data on the Discover Uni website.
Fees and funding
Tuition fees
England | £9250* | Year 1 |
Northern Ireland | £9250* | Year 1 |
Scotland | £9250* | Year 1 |
Wales | £9250* | Year 1 |
*This is a provisional fee and subject to change.
Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .
Additional fee information
Provider information
Queen Mary University of London
Admissions and Recruitment Office
Mile End Road
Tower Hamlets
London
E1 4NS