. "Astronautics"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Spaceflight."@en . . "7.50" . "NA" . . "Presential"@en . "FALSE" . . "BEng Aerospace Engineering"@en . . "https://courses.uwe.ac.uk/H403/aerospace-engineering" . "180"^^ . "Presential"@en . "The curriculum is designed for students seeking an engineering education closely aligned to engineering \npractice. Technical knowledge, engineering practice, business awareness and sustainability are \nintegrated through projects and revisited to produce confident graduates able to apply their skills to novel \nsituations and create engineering solutions that benefit society. \nProfessional development is placed at the heart of the curriculum. From day one, students are taken on a \njourney from student engineer to graduate engineer, preparing them for life as an engineering \nprofessional. Students will identify, develop and demonstrate competencies expected of a professional \nengineer in the workplace. Projects and activities, embedded throughout the curriculum, are designed to \ndevelop the engineering habits of mind such as: Problem-finding, Problem-solving, Improving, Adapting, \nand Systems and Critical Thinking. Foundation principles of engineering science, skills and practice are \nintegrated throughout all years of study. \nAerospace engineers are predominantly employed throughout the aerospace, aviation and the wider \ntechnical sector in the design, manufacture and improvement of aerospace vehicles, integrated systems, \nand associated operations. Consequently, aerospace engineering graduates need to be able to integrate \nengineering knowledge skills from across engineering and be able to be an effective member of a \nmultidisciplinary team. Aerospace engineering topics including systems design, engineering analysis, \nmaterials, structures, stress analysis and manufacturing, aerodynamics, thermofluids, flight and \npropulsion are developed throughout the core modules and taken an advanced level in the optional \nmodules. Approaches commonly found in the Aerospace industry such as flight simulation, systems \nengineering, safety management systems and have been included in the core programme of study. \nThe ability to work in multidisciplinary teams on projects that require a broader view of the role of \nengineering in industry and society is developed through the core programme using project weeks to \nbring students together in problem finding and solution spaces where students are able to interact with \neach other as a team, under the supervision of academics and external practitioners. \nThe integration of knowledge, skills and practice allows the tacking of real engineering challenges and \nencourage students to engage with the wider role that aerospace engineers and specifically engineering \nhabits of mind can play in tackling global challenges. This is an accessible and modern engineering \ncurriculum designed to attract students from diverse backgrounds able to see the future role of \nengineering in industry and society.\n\nProgramme Learning Outcomes\nPO1 Understand, identify and demonstrate the role and professional values of the \nengineer in industry, including upholding legal, ethical, health and safety \nrequirements.\nPO2 Apply mathematical and scientific principles, concepts and theories appropriate to \naerospace engineering, as a method for formulating, assessing and \ncommunicating solutions for complex problems\nPO3 Model aerospace vehicles, components and systems using analytical, numerical \nand experimental techniques, compatible with industrial practice\nPO4 Evaluate the manufacturing, financial, marketing implications of design proposals \ndeveloped\nPO5 Apply an integrated or systems approach, and established and novel engineering \nanalysis concepts to solve complex aerospace engineering problems\nPO6 Communicate and operate effectively either as members of inter-disciplinary or \nmulti-disciplinary teams; managing time and resources to given constraints\nPO7 Pursue independent study, undertake enquiry into novel and unfamiliar concepts \nand implement change in an engineering environment.\nPO8 Make considered judgements and decisions on complex engineering issues in \nwhich not all facts and consequences are accurately known"@en . . . . "3"@en . "FALSE" . . "Bachelor"@en . "None" . "27750.00" . "British Pound"@en . "47550.00" . "Recommended" . "Our BEng(Hons) Aerospace Engineering will equip you with industry knowledge and an in-depth understanding of the aerospace design and build process. You'll study materials and manufacturing, stress and dynamics, energy and thermodynamics to gain a solid grounding in aerospace engineering principles.\n\nGraduate ready to take up your place within the exciting, fast-paced aerospace industry. You'll develop core skills that you'll take with you through your career, such as innovation, teamwork and creativity.\n\nOur course will prepare you for employment in leading aerospace companies such as Airbus UK, BAE Systems, Rolls-Royce, Leonardo, MBDA, Boeing and GE Systems. Past graduates have gone into careers in the design and manufacture of civil and military aircraft, helicopters and jet engines.\n\nGet an inside track on the industry through regular factory tours and professional briefings from leading aerospace organisations, and work on placements to build up valuable experience and professional skills.\n\nIn your second year, you'll also have the opportunity to specialise through the Systems, Design and Manufacturing pathways, allowing you to follow your career aspirations."@en . "1"^^ . "FALSE" . "Upstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . .