Physics and Astrophysics Undergraduate Programmes for 2020 Entry 2020 Entry | Page 17

PHYSICS AND ASTROPHYSICS | 17 Combined Honours Astrophysics Third Year In your third year you will take core modules in Physics and Astrophysics, plus option modules that reflect staff research interests. Students continuing with both subjects as part of their Combined Honours degree take a core module in Electromagnetism, do a team-based project, and take two of several possible option modules. Students specialising in Astrophysics also take Electromagnetism and do a project, plus they research and write a dissertation and take a total of five option modules. Student demand determines which options, out of the full array listed here, are run in any given academic year. All of the option modules are open to any Physics or Astrophysics student. In particular, the Physics-oriented modules start from the base of core physics that all Astrophysics and Physics students have in common from their core studies at Levels 1 and 2. Each lecture module (whether core or option) involves 2 hours per week of lectures. In many cases, the module lecturer will additionally offer regular tutorial sessions. Project work takes approximately 6 hours per week, and the dissertation for students specialising in Astrophysics, another 6 hours per week. The Year 3 modules are: Continuing with Two Subjects Specialising in Astrophysics Core Core Option Electromagnetism   Physics Project   Dissertation Option  Atmospheric Physics   Binary Stars and Exoplanets   Cosmology   Data Analysis and Model Testing   Life in the Universe   Particle Physics and Accelerators   Physics of Compact Objects   Physics of Fluids   Plasma Physics   Polymer Physics   Quantum Mechanics II   LIZ JONES (BSC ASTROPHYSICS WITH MATHEMATICS, 2014) “With such a friendly atmosphere and approachable staff, studying Astrophysics at Keele gives you the necessary skills to take on such a challenging yet fascinating subject”. Astrophysics students have the unique opportunity in their final year project to analyse data acquired with a robotic observatory built and operated by Keele as part of the SuperWASP consortium. SuperWASP is the UK’s leading programme for extra-solar planet detection. We have discovered more than 100 planets since 2006 and gathered tens of Terabytes of research-quality data in the process. Some recent projects by our students have exploited these data for novel investigations into stellar rotation, variable stars and comets. keele.ac.uk/physics