PHY304 Particle Physics (10 credits)
PHY332 Atomic and Laser Physics (10 credits)
PHY380 Solid State Physics (10 credits)
PHY384 Problem Solving in Physics (10 credits)
PHY313 Mathematical Physics (10 credits)
PHY328 Advanced Programming in Python (10 credits)
PHY339 Statistical Physics (10 credits)
The core modules total 70 credits, split 35:35 between semesters. (PHY384 is split 5:5 between semesters.)
Choose ONE project module from the options listed in this group (20 credits). The 20 credit Extended Projects are split 10:10 between semesters.
PHY31002 Research project in Physics (20 credits)
PHY346 Industrial Group Project in Physics (20 credits)
PHY391 Quantum Information Laboratory (20 credits)
PHY394 Physics Education and Outreach (20 credits)
To choose one of the projects you must have been assigned that particular project in the pre-selection process.
A student will take 30 credits from this group.
MAS310 Continuum Mechanics (10 credits)
MAS336 Differential Geometry (10 credits)
MAS377 Mathematical Biology (10 credits)
MAS31003 Topics in Mathematical Biology (10 credits)
PHY379 Dark Matter and the Universe (10 credits)
PHY383 Introduction to Soft Matter and Biological Physics (10 credits)
MAS316 Mathematical modelling of natural systems (10 credits)
MAS320 Fluid Mechanics I (10 credits)
PHY303 Nuclear Physics (10 credits)
PHY306 Introduction to Cosmology (10 credits)
PHY31001 Physical Computing (10 credits)
PHY31003 Astrobiology (10 credits)
PHY378 Physics in an Enterprise Culture (10 credits)
PHY382 Semiconductor Physics and Technology (10 credits)
PHY386 Origin of the Chemical Elements (10 credits)
A student must normally achieve a weighted mean of 59.5 or above at Level Three in order to continue as a student for the Degree of MPhys in Theoretical Physics with a Year in Industry (PHYU41). A student who fails to satisfy this requirement may be required to become instead a student for the Degree of BSc in Theoretical Physics with a Year in Industry (PHYU40).