![]() You will have the opportunity to take a selection of specialist courses in computing and high-performance computing from the School of Informatics. In this year, there are a number of final compulsory courses covering: You will work in small groups to design, implement, and test a program to simulate a quantum computer. You will also complete a quantum computing project. an introductory course to research methods.a computing course on numerical algorithms.a supporting mathematics course covering Fourier analysis, probability and statistics.You will have the freedom to choose one or two courses from other academic areas. If you start in Year 2, you will also take additional introductory courses in classical physics and mathematics. You will also study a course in computer simulation. You will also be introduced to practical physics, including: Supporting mathematics courses will cover: You will study modern physics and physics of fields and matter. You will study Mathematics for Physics 1 and 2, which include mathematical and problem-solving skills in the context of algebra and calculus - with an increasing emphasis on physical applications. This also includes an introduction to University laboratory work. Physics 1B introduces you to a wide range of physics topics and how these impact our understanding of the universe, including: The course is innovative in its use of technology and offers an interactive learning experience. This will develop your problem solving and study skills. Physics 1A presents the pillars of physics upon which subsequent material is based. You will study compulsory courses in physics, mathematics and computing. The degree includes substantial practical experience, including the opportunity to use the University's world-class computing systems. You will receive a thorough education in Physics and the associated Mathematics, together with the ability to write computer programs to simulate natural systems. This physics-based programme is for students interested in computing, modelling and simulation. In the future, based on current recruitment patterns, the methods of Computational Physics will also come to dominate other areas such as: ![]() These are the areas where computational physicists already dominate. Most theoretical problems are now sufficiently complex that they cannot be solved by mathematics alone.Īs experimentation becomes increasingly difficult and expensive, computer simulation has become established as the most practical way to understand complex phenomena such as: The close relationship between physics and high performance computing worldwide is embodied in the Computational Physics degree course.
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