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BSc Physics with Renewable Energy with Foundation Year
About this course
Physics with renewable energy is a degree that takes the rigorous scientific foundations of physics and focuses a significant part of the study on one of the most important applied challenges of the century: how we generate clean, sustainable energy. Physics underpins all energy technology, from the quantum mechanics that describes how solar cells convert light to electrical current to the fluid dynamics that determines how wind turbines are optimally designed. A degree that combines core physics with a specialist engagement with renewable energy prepares graduates for careers at the intersection of fundamental science and the urgent transition away from fossil fuels. At Keele University, this four-year full-time programme, which includes a foundation year, combines a solid grounding in core physics with an exploration of cutting-edge topics in renewable energy. You will study nuclear physics, electromagnetism, quantum mechanics, thermodynamics, and the other foundational areas of physics, alongside applications in solar, wind, hydroelectric, and bioenergy. The programme embeds professional, practical, and employability skills throughout, and you will have the opportunity to work with Keele's own on-campus renewable energy infrastructure and smart energy network, solving real-world problems alongside your academic study. The foundation year provides a supported entry for students who need to consolidate their scientific preparation. With a typical entry tariff of 88 UCAS points, the route is accessible. Graduates from physics with renewable energy programmes are well placed for careers in the energy sector, which is undergoing a significant expansion as the world transitions to cleaner power. Solar, wind, hydroelectric, and bioenergy companies, energy consultancies, grid operators, research institutions, and government bodies working on energy policy are all natural destinations. The combination of scientific rigour and applied energy focus also prepares graduates for postgraduate research in energy science, materials physics, or related fields.
Syllabus & Modules
Typical curriculumStudent Satisfaction
National Student Survey - 10 respondents (76% response rate)
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