Physics and Astrophysics Undergraduate Programmes for 2020 Entry 2020 Entry | Page 10

10 | PHYSICS AND ASTROPHYSICS Combined Honours Physics Second Year In your second year you continue with the study of core Physics. Each week there are four 1-hour lectures, 1-hour lecture in Mathematics for Physics, plus one 3-hour laboratory class and one 3-hour problem class, all led by members of the academic staff. Laboratory classes in the first semester support lectures in Optics; in the second semester, students work in pairs on short investigations into electronic sensors and instruments, and carry out a mini project in instrumentation and measurement. Indicative Year 1 modules are: Semester 1 Semester Optics and Thermodynamics considers the wave nature of radiation and the laws governing the transfer of heat and entropy in macroscopic systems. You will study polarisation and birefringence, interference and diffraction (including Fourier methods and analysis), basic optical systems (including the Michelson-Morley interferometer), heat capacities, work, internal and free energies, changes of state and entropy. 2 hours lecture Quantum Mechanics gives an introduction to the fundamental methods of quantum physics, the Schrödinger equation and its applications including the structure of the hydrogen atom, emission and absorption spectra, electron spin, angular momentum, magnetic moments, and aspects of multi-electron atoms. 2 hours lecture per week Mathematics for Physics 1 hour lecture per week Laboratory 3 hours per week Problem Classes supporting the Physics modules. 3 hours per week 1 & 2 Semester 2 per week Statistical Mechanics and Solid State Physics develops key statistical topics in Physics 2 hours lecture such as bosons, fermions, phonon and photon gases and blackbody radiation, and per week explores how these relate to thermodynamics and the structure of solids. Nuclear and Particle Physics is divided into four main topics: nuclear models and the strong force; radioactive decay and the weak force; nuclear reactions; and a brief study of elementary particles, including quarks and gauge bosons, and the use of Feynman diagrams to describe and analyse their interactions. keele.ac.uk/physics 2 hours lecture per week