The MSc in Aerospace Dynamics aims to provide both fundamental and applied knowledge applicable to the understanding of air flows, vehicle dynamics and control and methods for computational modelling. The course will provide students with practical experience in the measurement, analysis, modelling and simulation of airflows and aerial vehicles. The MSc in Aerospace Dynamics stems from the programme in Aerodynamics which was one of the first masters courses offered by Cranfield and is an important part of our heritage. The integration of Aerodynamics with Flight Dynamics reflects the long-term link with the aircraft flight test activity established by Cranfield. Graduates of this course are eligible to join the Cranfield College of Aeronautics Alumni Association (CCAAA), an active community which hold a number of networking and social events throughout the year.
Suitable if you have an interest in aerodynamic design, flow control, flow measurement, flight dynamics and flight control. Choose your specialist option once you commence your studies.
The aerospace industry in the UK is the largest in the world, outside of the USA. Aerodynamics and flight dynamics will remain a key element in the development of future aircraft and in reducing civil transport environmental issues, making significant contributions to the next generation of aircraft configurations.
In the military arena, aerodynamic modelling and flight dynamics play an important role in the design and development of combat aircraft and unmanned air vehicles (UAVs). The continuing search for aerodynamic refinement and performance optimisation for the next generation of aircraft and surface vehicles creates the need for specialist knowledge of fluid flow behaviour.
Cranfield University has been at the forefront of postgraduate education in aerospace engineering since 1946. The MSc in Aerospace Dynamics stems from the programme in Aerodynamics which was one of the first masters' courses offered by Cranfield and is an important part of our heritage. The integration of aerodynamics with flight dynamics reflects the long-term link with the aircraft flight test activity established by Cranfield.
Graduates of this course are eligible to join the Cranfield College of Aeronautics Alumni Association (CCAAA), an active community which holds a number of networking and social events throughout the year.
The Industrial Advisory Panel, comprising senior industry professionals, provides input into the curriculum in order to improve the employment prospects of our graduates. Panel members include:
Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Aerospace Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).
Aerospace Engineering at Swansea University has a distinguished history of working with aerospace companies around the world. As a student on the MSc Aerospace Engineering, you will be provided with a systematic understanding of the advanced knowledge, critical awareness and new insights required by effective practising aerospace engineers.
The MSc Aerospace Engineering degree is based on the world-class expertise available in the Materials Engineering Centre and the Zienkiewicz Centre for Computational Engineering.
At Swansea, world-class aerospace research drives excellent teaching within a cutting-edge learning environment with state-of-the-art facilities. The MSc Aerospace Engineering course prepares you for the design, analysis, testing and flight of the full range of aeronautical vehicles, including propeller-driven and jet-powered planes, helicopters and gliders.
Students on the Aerospace Engineering course will gain hands-on experience through access to one of the world’s most advanced engineering flight simulators housed within the College of Engineering. The MSc Aerospace Engineering course at Swansea University is accredited by the Institution of Mechanical Engineers (IMechE), the Royal Aeronautical Society (RAeS), and the Institution of Engineering Designers (IED).
Modules on the Aerospace Engineering course typically include:
Finite Element Computational Analysis
Flight Dynamics and Control
Advanced Airframe Structure
Numerical Methods for Partial Differential Equations
Aerospace Materials Engineering
MSc Dissertation - Aerospace Engineering
“After passing all the modules on the MSc Aerospace Engineering course, I had the possibility to develop my final thesis in an industrial environment. I learnt about avionics and electronic equipment and developed team work and communication skills.
My favourite memory of the MSc Aerospace Engineering course is our team winning the International Aircraft Design and Handling competition. Our effort really paid off when we won the first prize!
Before starting my final thesis, I found a job as an Applications Engineer in one of the most important aerospace engineering companies, MTorres. Personally, I think obtaining a Master’s degree in a university with a great reputation such as Swansea University makes it much easier to find a job.
Swansea University provides a fantastic opportunity to study any field of engineering due to the professional and friendly staff.”
Roberto Morujo, MSc Aerospace Engineering
Aerospace Engineering at Swansea University has a distinguished history of working with aerospace companies around the world, including:
We have also contributed to many exciting projects, from the super-jet Airbus A380 to the 1,000mph land-speed record breaking BLOODHOUND SSC.
The MSc Aerospace Engineering course is suitable for those who would like to gain comprehensive knowledge, understanding and skills that will enable them to contribute to the creation and maintenance of aerospace and aeronautical equipment.
The MSc Aerospace Engineering course covers the necessary aspects for a successful career in the growing aerospace industry.
Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.
Aerospace Engineering at Swansea University has a wide range of in-house facilities ranging from computer labs housing state-of-the-art PCs through to specialist equipment used almost exclusively by aerospace students.
Practical flying experience on the MSc Aerospace Engineering course is gained from the state-of-the-art Merlin MP521X engineering flight simulator mounted on a six axis hydraulic motion system and flying experience at a local airport.
The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.
The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.
The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.
Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.
The School of Mechanical, Aerospace and Civil Engineering has a strong and unique tradition in the UK in Aerospace Design, Helicopters, Heat Transfer, Aerodynamics, Computational Fluid Dynamics and Flow Diagnostics. This course builds on those strengths and exploits our links with BAe Systems, Airbus, Rolls-Royce, DSTL, USAF, North West Aerospace Alliance, North West Development Agency and SBAC.
This MSc aims to produce high quality graduates with specialist training in aerospace engineering who will be suitable for employment in the engineering industries and consultancies linked to that industry. Aerospace engineering graduates are highly valued and are currently in great demand and the Manchester programme specifically seeks to serve this growing industry requirement. The programme is suitable for engineering and science graduates, as well as engineering professionals working in technical and commercial management. The programme is also well designed to be used for conversion toAerospace Engineering from some close enough specialities such as Mechanics, Mathematics and Physics.
The Aerospace Engineering MSc is a full time course which is studied over 12 months and there is one start date each year in September. You will develop advanced technical skills in Aerospace Engineering that will enable you to pursue a career in both general and specialised engineering industries or develop an in depth knowledge for a career in research in industry or academia.
For further information about the course content, please see the example programme structure .
Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service. Email: [email protected]
The Aerospace Engineering MSc has a strong focus on employability to support you to take control of your future and give yourself the best chance of securing your ideal job after graduation.
Each year Manchester careers fairs, workshops and presentations attract more than 600 exhibitors and 20,000 visitors to target Manchester graduates.
After graduating with an Aerospace Engineering MSc you will be in a strong position to seek employment with companies such as: Airbus, Rolls Royce, GE Aviation, Airbus, Bombardier Transportation, BAe Systems, MBDA, SAFRAN, GKN Aerospace, Spirit, Finmeccanica, EDF, BP, Schlumberger, etc.
The UK Aerospace Engineering is 2nd largest in the world and around 30% of companies in the Aerospace sector currently have vacancies.
Destination of Leavers Survey
Past graduates have found employment in:
Two highly established organisations, the Royal Aeronautical Society and Institution of Mechanical Engineers , have accredited the Aerospace Engineering MSc course under license from the UK regulator, the Engineering Council . This allows satisfactory completion of the Aerospace Engineering MSc to contribute towards the academic requirements for registration with these Institutions as a Chartered Engineer.
The Masters in Aerospace Engineering is a multi-disciplinary programme that covers all aspects of modern aircraft design. This involves developing essential knowledge and skills in advanced aerodynamics and aerospace systems. By choosing specific options in the second semester the degree programme can be tailored to provide specialisms in either Aeronautics or Systems.
Modes of delivery of the MSc in Aerospace Engineering include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work.
The summer period is dedicated to project work, with either academic or industrial placements providing the context for your project.
Select a team project from:
Select five courses from the following:
* signifies courses that constitute the specialism in Aeronautics
** signifies courses that constitute the specialism in Systems
The Masters in Aerospace Engineering & Management introduces you to contemporary business and management issues while increasing your depth of knowledge in your chosen aerospace engineering speciality.
There are two semesters of taught material and a summer session working on a project or dissertation. September entry students start with management courses and January entry students with engineering courses.
You will be based in the Adam Smith Business School, developing knowledge and skills in management principles and techniques. We offer an applied approach, with an emphasis on an informed critical evaluation of information, and the subsequent application of concepts and tools to the core areas of business and management.
You will study engineering courses, which aim to enhance your group working and project management capability at the same time as improving your depth of knowledge in chosen aerospace engineering subjects.
You will undertake an individual project or dissertation work in the summer period (May–August). This will give you an opportunity to apply and consolidate the course material and enhance your ability to do independent work, as well as present results in the most appropriate format. Project and dissertation options are closely linked to staff research interests. September entry students have a choice of management dissertation topics in addition to aerospace engineering projects, and January entry students have a choice of aerospace engineering projects.
Career opportunities include positions in aerospace, defence, renewable energy, nuclear energy and management. You can also continue studying, for a research Masters or a PhD.
This new and unique course covers a wide range of applications focused on aerospace computational aspects. As mirrored by developments in the motorsport industry, within the next five years there will be a demand for engineers and leaders who will be using 100% digital techniques for aeronautical design and testing.
With its blend of skills-based and subject-specific material this course aims to provide students with generic practical skills and cutting-edge knowledge adaptable to the wide variety of applications in the field of aerospace computational engineering.
The part-time option is suitable for qualified engineers to extend their knowledge and incorporate CFD into their skill set.
This course aims to enhance your skills through a detailed introduction to the state-of-the-art computational methods and their applications for digital age aerospace engineering applications. It provides a unique opportunity for cross-disciplinary education and knowledge transfer in the computational engineering of fluid and solid mechanics for aerospace industrial applications. Focusing on fully integrated digital design for aerospace applications you will be able to understand and implement numerical methods on various computing platforms for aerospace applications. You will be able to meet the demand of an evolving workplace that requires highly qualified engineers possessing core software engineering skills together with competency in mathematical analysis techniques.
Sharing modules with the MSc in Computational Fluid Dynamics and the MSc in Computational and Software Techniques in Engineering this course gives you the opportunity to interact with students from other disciplines.
Our strategic links with industry ensures that all of the materials taught on the course are relevant, timely and meet the needs of organisations competing within the computational analysis sector. This industry led education makes Cranfield graduates some of the most desirable for companies to recruit. Our industrial partners support this course by providing internship, act as visiting lectures and deliver industrial seminars.
The aerospace industry is at the forefront of modern engineering and manufacturing technology and there is an expanding need for highly skilled chartered Aerospace Engineers.
If you are looking to pursue a career in aerospace engineering this course will enable you to apply your skills and knowledge of engineering devices and associated components used in the production of civil and military aircraft, spacecraft and weapons systems.
This module has been accredited by the Institution of Mechanical Engineers. On graduation you be able to work towards Chartered Aerospace Engineer status which is an independent verification of your skills and demonstrates to your colleagues and employers your commitment and credentials as an engineering professional.
The course will be taught by a series of lectures, tutorials, computer workshops and laboratory activities.
Some modules will include a structured factory visit to illustrate the processes and techniques and to enable investigations to be conducted.
Engineers from the industry will contribute to the specialist areas of the syllabus as guest lecturers.
The coursework consists of one assignment, and two laboratory exercises.
Mechanical Lab – This lab is used to understand material behaviour under different loading conditions and contains a tensile test machine and static loading experiments – typical laboratory sessions would include tensile testing of materials and investigation into the bending and buckling behaviour of beams.
Aerodynamics Lab – Contains low speed and supersonic wind tunnels – typical laboratory experiments would include determining the aerodynamic properties of an aerofoil section and influence of wing sweep on the lift and drag characteristics of a tapered wing section.
Composite Material Lab – This lab contains wet lay-up and pre-preg facilities for fabrication of composite material test sections. The facility is particularly utilised for final year project work.
Control Dynamics Lab – Contains flight simulators (see details below) and programmable control experiments – typical laboratory sessions would include studying the effects of damping and short period oscillation analysis, forced vibration due to rotating imbalance, and understanding the design and performance of proportional and integral controllers.
Merlin MP520-T Engineering Simulator
Elite Flight Training System
This is a highly valued qualification and as a graduate you can expect to pursue careers in a range of organizations around the world such as in aerospace companies and their suppliers, governments and research institutions.
You may consider going on to further study in our Engineering 2050 Research Centre which brings together a wealth of expertise and international reputation in three focussed subject areas.
Research at the centre is well funded, with support from EPSRC, TSB, DoH, MoD, Royal Society, European Commission, as well as excellent links with and direct funding from industry. Our research excellence means that we have not only the highest calibre academics but also the first class facilities to support the leading edge research projects for both post-graduate studies and post-doctoral research.
Visit http://www.cse.salford.ac.uk/research/engineering-2050/ for further details.