BSc Physics with Theoretical Physics
About this course
The course draws on the school’s research strengths in areas such as astrophysics, cosmology, quantum and classical gravity, condensed matter, nanoscience, and quantum technology, with a growing emphasis on AI in scientific discovery. The course draws on the school’s research strengths in areas such as astrophysics, cosmology, quantum and classical gravity, condensed matter, nanoscience, and quantum technology, with a growing emphasis on AI in scientific discovery. This course provides a good foundation in core physics and the mathematical methods essential for modelling physical systems. In the first two years, you will develop skills in experimental, mathematical, computational, and data analysis techniques, while building your professional and collaborative abilities. In year two, you will begin specialising with a theoretical module on analytical methods in classical dynamics and symmetry in physical systems. The final year focuses on advanced theoretical methods, specialist physics options, and research skills. You will carry out an individual project in mathematical or computational physics and complete a group project to apply your skills in a team setting. We have a proud history of learning and innovation. Research undertaken within the School of Physics and Astronomy, by Professor Sir Peter Mansfield, was recognised with a 2003 Nobel Prize for the invention of Magnetic Resonance Imaging body scanners. This technology has already helped more than half a billion people worldwide. More recently, our use of quantum technologies to understand how the brain works is cha
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