. "Aerospace engineering"@en . . "Satellite Engineering"@en . . "English"@en . . "Major group project"@en . . "no data" . "The project aims to give experience of design practice and engineering systems design through undertaking a large multidisciplinary project. It aims to develop the necessary skills in design project management and planning, and to enable students to apply these skills in diverse situations." . . "Presential"@en . "TRUE" . . "Strategy and business planning"@en . . "no data" . "This module aims to critically evaluate the strategic positioning of an organisation for strategy decisions, analyse and assess an organizations resources and capabilities, in relation to an organisations strategic direction in order to develop an effective business development plan for an engineering company." . . "Presential"@en . "TRUE" . . "Current topics in aerospace and advanced cad"@en . . "no data" . "This module helps students to understand current topics that are relevant to the current and future design or operation of aerospace vehicles and enable students with more advanced features of CAD." . . "Presential"@en . "TRUE" . . "Advanced aerodynamics and propulsion systems"@en . . "no data" . "This module provides a more advanced understanding of aircraft aerodynamics and introduces advanced theories and tools for analysis of aircraft aerodynamics." . . "Presential"@en . "TRUE" . . "Design and analysis of aircraft"@en . . "no data" . "This module aims to familiarise students with a range of aircraft, their configurations, operating environments and design issues and provide an ability to identify the key design features of an aircraft, with reference to airframe structure, aerodynamics, propulsion, use of materials, and mission requirements. It will introduce students to fixed-wing aircraft design methodology." . . "Presential"@en . "FALSE" . . "Design and analysis of spacecraft systems"@en . . "no data" . "This module aims to familiarise students with a range of spacecraft missions, types, operating environments and major design issues and enable students to develop the design of a space system, taking into account relevant design drivers." . . "Presential"@en . "FALSE" . . "Fluid structure interaction and aeroelasticity"@en . . "no data" . "This module aims to familiarise students with theories and numerical analysis of linear and nonlinear elastic solids and unsteady aerodynamics. It will help students to numerical techniques for coupling the dynamics of fluid flow and structures." . . "Presential"@en . "FALSE" . . "Spacecraft dynamics and propulsion"@en . . "no data" . "This module aims to familiarise students with more advanced concepts about orbital mechanics, develop the basic principles of rigid body dynamics and control for spacecraft vehicles and develop an understanding of the principles of spacecraft propulsion and current technologies." . . "Presential"@en . "FALSE" . . "One year work placements"@en . . "no data" . "With over 95% of our courses offering a placement, we give you the opportunity to gain invaluable work experience alongside your degree. There are many benefits to doing a placement. A placement can allow you to: \nIncrease your chance at securing a role.\nDiscover what you really enjoy in the world of work.\nEarn money if you decide to do a paid placement.\nGain new perspectives on your career choices.\nDevelop key employability skills." . . "Presential"@en . "FALSE" . . "MEng in Aerospace Engineering"@en . . "https://www.brunel.ac.uk/study/undergraduate/aerospace-engineering-meng" . "no data" . "Presential"@en . "Ranked 2nd in London for Aerospace Engineering by The Guardian University Guide 2023.\n\nOur Aerospace Engineering MEng degree is an exciting, hands-on specialist course that has been developed to equip you with advanced knowledge and management skills to meet the real world needs of the global aerospace industry.\n\nYou will be introduced to fundamental engineering subjects such as structures, materials, fluids, and maths, and gain skills in technical drawing. You’ll then learn about the principles of aircraft design and progress to specialist subjects such as propulsion systems, and flight testing and analysis. Then you move on to higher-level topics including advanced aerodynamics, space mechanics, and the design and analysis of aircraft and spacecraft systems. You will also acquire specialist knowledge on current aerospace engineering topics concerning flight safety, environmental impact, and fuel efficiency.\n\nYou’ll have access to a range of technical facilities including our aerospace/aviation laboratory, full-motion engineering flight simulator, supersonic and subsonic wind tunnels, materials and structure testing laboratory, anechoic chamber for aero-acoustic experiments, and 3D printing in the digital fabrication workshop. Industry standard specialist software for aircraft design is available for you to use 24 hours a day in high-performance computing clusters.\n\nDuring your time at Brunel, you will benefit from guest lectures delivered by industry professionals who present a valuable insight into current, challenging topics in the field of aerospace. There are also planned visits to engineering and manufacturing companies where you’ll see first-hand the latest breakthroughs in development and technology for future aerospace systems. In addition, you have the advantage of Brunel’s close location to London’s Heathrow Airport for site visits as well as project opportunities, and placement and employment options.\n\nOur MEng aerospace engineering course is accredited by both the Royal Aeronautical Society (RAeS) and the Institution of Mechanical Engineers (IMechE). These professional bodies ensure that your engineering degree meets the academic requirement to qualify as a professional engineer. This accredited MEng degree in aerospace engineering can be studied full-time over four years, or five years with a placement year. The MEng degree fully meets the educational requirement to fast track you to Chartered Engineer (CEng) status.\n\nWe encourage the placement year option. This time in industry helps you to further prepare for the world of work and you’ll have a year’s worth of invaluable professional experience when you graduate. If you decide to go on an engineering placement year, you will have the opportunity to work in the aerospace engineering sector."@en . . . "1"@en . "FALSE" . . "Master"@en . "None" . "9250.00" . "British Pound"@en . "23615.00" . "None" . "An aerospace engineering degree from Brunel will equip you with innovative technical knowledge and transferable skills relevant to demanding careers in the aerospace, aeronautical and related industries.\n\nOur MEng students often have several job offers before they graduate and find themselves in the enviable position of cherry-picking their prospective careers. They take up employment in fields such as aircraft and components design and manufacture, maintenance and testing, flight simulation, aviation, avionics and patent engineering.\n\nBrunel’s high-calibre graduates are working for prestigious organisations, including: Rolls-Royce, Airbus, British Airways, BAE Systems, GE Aviation, Thales, Bombardier, Lockheed Martin and the Ministry of Defence. Opting for the year in industry during your aerospace engineering degree often leads to a job offer from your placement company."@en . "1"^^ . "FALSE" . "Upstream"@en . . . . . . . . . . . "College of Engineering, Design and Physical Sciences"@en . .