Structure
You can complete your Physics degree in three, four or five years. If you are a BSc student and choose to study abroad, your time abroad will be during Year 3 and Year 3 modules will instead be studied in Year 4. If you are an MSci student and choose to study abroad, this will take place in Year 4 and Year 4 modules will be studied in Year 5.
YEAR 0
Foundation
One Year-long double module allocated based on previous maths qualifications:
Mathematics A or
Mathematics B
Semester 1
Compulsory
- Physics - Mechanics and Materials
- Essential Foundation Mathematics
- Communication in Science and Technology
Semester 2
Compulsory
- Physics - Fields and Waves
- Physics - Electricity and Atomic Physics
- Discrete Mathematics
Please note that all modules are subject to change.
YEAR 1
Compulsory
- Classical Physics
- Electric and Magnetic Fields
- Mathematical Techniques 1
- Mathematical Techniques 2
- Modern Physics
- Professional Skills for Scientists (including introduction to programming)
- Scientific Measurement
Option
- Our Universe
- Introduction to Data Science
Please note that all modules are subject to change.
YEAR 2
Compulsory
- Condensed Matter A
- Electromagnetic Waves and Optics
- Mathematical Techniques 3
- Physical Dynamics
- Quantum Mechanics A
- Thermodynamics
Choose two from
- Introduction to Scientific Computing
- Nuclear Physics and Astrophysics
- Physics Laboratory
- Planetary Systems
- Stars
Please note that all modules are subject to change.
YEAR 3
Compulsory
- Extended Independent Project (BSc only)
- Mathematical Techniques 4 (MSci only)
- Physics Review Project (MSci only)
- Quantum Mechanics and Symmetry
- Quantum Mechanics B
- Spacetime and Gravity
- Statistical Physics
Choose two from
- Elementary Particle Physics
- Group Projects for Physicists
- Mathematical Techniques 4 (BSc only)
- Physical Cosmology
- Radiation Sensors
- Statistical Data Analysis
- The Physics of Galaxies
Please note that all modules are subject to change.
YEAR 4
MSci only
Compulsory
- Advanced Quantum Field Theory
- Physics Research Project (30 credits)
- Relativistic Waves and Quantum Fields
Choose two from
Modules offered at Queen Mary
- Advanced Cosmology
- Advanced Quantum Field Theory
- Astrophysical Plasmas
- Differential Geometry in Theoretical Physics
- Electromagnetic Radiation in Astrophysics
- Extrasolar Planets and Astrophysical Disks
- Functional Methods in Quantum Field Theory
- Practical Machine Learning
- Relativistic Waves and Quantum Fields
- Relativity and Gravitation
- Solar System
- Stellar Structure and Evolution
- Supersymmetric Methods in Theoretical Physics
- The Galaxy
Modules currently offered at other University of London institutions are subject to change at short notice.
Modules offered at King's College London
- Advanced Photonics
- Molecular Biophysics
- Dark Matter and Dark Energy
- Dynamical Analysis of Complex Systems
- Elements of Statistical Learning
- Environmental Remote Sensing
- Equilibrium Analysis of Complex Systems
- Lie Groups and Algebras
- Mathematical Biology
- Mathematical Methods for Theoretical Physics
- Modelling Quantum Many Body-Systems
- Standard Model Physics and Beyond
- String Theory and Branes
- Supersymmetry
- Theoretical Treatment of Nano-Systems
- Theory of Complex Networks
Modules offered at Royal Holloway
- Computer Simulation in Condensed Matter
- Nuclear Magnetic Resonance
- Particle Accelerator Physics
- Physics at the Nanoscale
- Quantum Electronics of Nanostructures
- Statistical Data Analysis
- Statistical Mechanics
- Superfluids, Condensates and Superconductors
Modules offered at University College London
- Advanced Physical Cosmology
- Advanced Quantum Theory
- Advanced Topics in Statistical Mechanics
- Atom and Photon Physics
- Galaxy Dynamics, Formation and Evolution
- Molecular Biophysics
- Molecular Physics
- Order and Excitations in Condensed Matter
- Particle Physics
- Planetary Atmospheres
- Quantum Computation and Communication
- Solar Physics
- Space Plasma and Magnetospheric Physics
Please note that all modules are subject to change.