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The Biomaterials and Tissue Engineering MSc aims to deliver state-of-the art knowledge in Biomaterials, Bioengineering, Tissue Engineering, Medical Engineering and related management topics, and comprises study in analysis and design of power machinery systems and the use of computers in advanced engineering analysis. What and how will I learn? Students develop an advanced knowledge of topics in Biomaterials and Tissue Engineering alongside an awareness of the context in which healthcare engineering operates, in terms of safety, environmental, social and economic aspects. They gain a wide range of intellectual, practical and transferable skills necessary for a career in this field. Degree Structure Students undertake courses to the value of 180 credits. The programme consists of eight core courses (120 credits) and a research dissertation (60 credits). Core Modules Biomaterials Tissue Engineering Biofluids and Medical Devices Biomechanics and Biostructures Applications of Biomedical Engineering Bioengineering Medical Imaging Evaluation and Planning of Business Opportunities Dissertationreport All MSc students undertake an independent research project which culminates in a substantial dissertation and oral presentation. Options All courses are compulsory. Further details available on subject website: http:www.mecheng.ucl.ac.uklearninggraduatemscbiomaterials-tissue-engineering The programme is delivered through lectures, tutorials, individual and group projects, and practical laboratory work. Assessment is through written, oral and viva-voce examinations, the dissertation and coursework (including the evaluation of laboratory reports, technical and project reports, problem solving exercises, assessment of computational and modelling skills, and oral presentations). Why should I study this degree at UCL? The UCL Department of Mechanical Engineering has seen, in recent years, unprecedented activity in refurbishing and re-equipping our laboratories. Six new biomaterials and bioengineering laboratories have been set up funded by the Royal Society and Wolfson Foundation. This MSc programme draws upon the extensive basic and clinical research experience available at the Institute and at Moorfields Eye Hospital. Students gain expertise in basic cell biology, genetics, neuroscience and physiology, specialise in the biology of the eye as an integrated biological system and conduct a six month research project within a world-class research environment. Your future career The programme is designed to provide the necessary skills to work at a professional level in industries involved in the production, distribution and consumption of electric power. The range of industries includes mass transport and alternative methods of power generation. It is also suitable for students who wish to become Chartered Professional Engineers and for those who wish to pursue management careers in manufacturing and in power engineering. First destinations of recent graduates include: Biomed Central: Assistant Editor UCL: PhD Mechanical Engineering in Biomaterials Great Ormond Street Hospital: Administrator Entry Requirements A minimum of a second-class Honours degree from a UK university in a suitable engineering subject or appropriate medical qualification or an overseas qualification of an equivalent standard. How to apply It is recommended that you submit your application using the UCL online application form as this significantly speeds up the process. Students are advised to apply as early as possible due to competition for places. Those applying for scholarship funding (particularly overseas applicants) should take note of application deadlines. Who can apply? The programme is designed to be inter-disciplinary and attractive to physical science, engineering and life sciences graduates, including those with qualifications in medicine. The degree is suitable for students wishing to become Chartered Professional Engineers and to pursue careers in hi
The Biomaterials and Tissue Engineering MSc aims to deliver state-of-the art knowledge in Biomaterials, Bioengineering, Tissue Engineering, Medical Engineering and related management topics, and comprises study in analysis and design of power machinery systems and the use of computers in advanced engineering analysis. What and how will I learn? Students develop an advanced knowledge of topics in Biomaterials and Tissue Engineering alongside an awareness of the context in which healthcare e...