MSc Engineering (Aerospace) (Near STEM)

About the course

The aim of the programme is to equip non-engineering graduates with a STEM background to meet the stringent demands of today’s highly competitive industrial environment. On completion of these courses students acquire a broad understanding of Engineering with a focus on aerospace engineering.

The School has over 50 years' experience of teaching aerospace, and has established an excellent international reputation in this field. We offer extensive lab facilities for aerospace engineering students, including a flight simulator, the latest software packages and wind tunnels. This MSc combines analysis and design with management skills to produce highly-employable postgraduates.

The development of skills and advancement of knowledge focus on:

  • dynamic structural and aeroelastic analysis of aerospace vehicles, flight dynamics, stability and control and the implications for the design and construction of aerospace vehicles;
  • the construction of CFD models and to assess implications of results, the limitations of present techniques and the potential future direction of developments in the CFD and aerodynamics field;
  • appreciation of the need for process, product development and quality and reliability issues relevant to the introduction of products in a cost effective and timely manner;

Critical review of the present knowledge base, its applicability, usage and relevance to enhance product and enterprise performance.

Why choose this course?

This pioneering programme consists of a number of “specialist” Masters awards with an expectation that students will have studied a STEM related discipline to a Bachelor’s level or equivalent, as opposed to a “traditional” masters philosophy aimed at students from an engineering background. The programme offers options with separate entry routes for candidates transitioning from ‘Near STEM’ and ‘Far STEM’ disciplines:

  • The Near STEM route is for admission of relevant first degree candidates and whose programme would have made extensive use of applied mathematics to design and explain engineering and/or scientific concepts (e.g., physics or maths).

What will I study?

The School has a reputation for innovation in teaching and learning, where nearly all MSc modules are delivered through a combination of traditional face-to-face teaching and backup tutorial's using the University's StudyNet web based facility.

The online StudyNet is accessible 24/7 and allows students to access electronic teaching and learning resources, and conduct electronic discussion's with staff and other students. A heavy emphasis is placed on theory and practice, and the School has a policy of using industrial standard software wherever possible. The School also operate an open access laboratory, and computer policy, that will help students complete coursework and assignments, at a scheduled pace and on time.

Careers

The successful postgraduates of the programme will acquire the knowledge and understanding, intellectual, practical and transferable skills necessary for the analysis and synthesis of problems in engineering through a combination of experimental, simulation, research methods and case studies. They can expect to gain work in a range of disciplines within a variety of industries from specialist technical roles to positions of management responsibility.

Periodic review

This course is due to be renewed at a Periodic Review event which will be held in February 2020.

We anticipate that there will be further enhancements made to the course as a result of the Review.

Our website and printed literature will be updated following completion of the Periodic Review in order to provide applicants with further confirmed details on the following:

  • module titles
  • whether the modules are core or optional
  • the expected contact hours
  • how the course will be assessed
  • staff teaching on the course