MPhys Physics with Professional Placement
Physics is the most fundamental of all the sciences, concerned with unlocking the secrets of the Universe and understanding the world around us.
This five-year MPhys Physics (with a Professional Placement) programme is designed to give you a broad understanding of both theoretical and experimental physics, whist attaining real-world, professional experience.
Accredited by the Institute of Physics (IOP), this five-year programme goes into greater depth than the BSc course, allowing you to further develop your practical knowledge of the subject.
Studying alongside internationally respected physicists whose work is providing the basis for revolutionary innovations, you will be part of an exciting and friendly environment and have access to state-of-the-art apparatus, including lasers, X-ray sources and electronics.
This programme includes a professional placement year in industry, commerce, government or another relevant placement provider approved by the University which will give you the opportunity to gain relevant work experience in the field.
The course aims to prepare you for a career in industrial or academic research and development, education or other sectors which require a practical, numerate and analytical approach to problem solving.
The distinctive features of the course include:
The course contains all the core content required for the degree to be accredited by the Institute of Physics (IOP).
Physics is the most fundamental of all the sciences, concerned with unlocking the secrets of the Universe and understanding the world around us.
This five-year MPhys Physics (with a Professional Placement) programme is designed to give you a broad understanding of both theoretical and experimental physics, whist attaining real-world, professional experience.
Accredited by the Institute of Physics (IOP), this five-year programme goes into greater depth than the BSc course, allowing you to further develop your practical knowledge of the subject.
Studying alongside internationally respected physicists whose work is providing the basis for revolutionary innovations, you will be part of an exciting and friendly environment and have access to state-of-the-art apparatus, including lasers, X-ray sources and electronics.
This programme includes a professional placement year in industry, commerce, government or another relevant placement provider approved by the University which will give you the opportunity to gain relevant work experience in the field.
The course aims to prepare you for a career in industrial or academic research and development, education or other sectors which require a practical, numerate and analytical approach to problem solving.
The distinctive features of the course include:
The course contains all the core content required for the degree to be accredited by the Institute of Physics (IOP).
Requirements
Modules
- Mathematical Methods For Physicists 1
- Mechanics And Matter
- Planet Earth
- Experimental Physics
- Electricity, Magnetism And Waves
- Computational Skills For Problem Solving
- Mathematical Methods For Physicists 2
- Introduction To Astrophysics
- Introduction To Medical Physics
- The Physics Of Fields And Flows
- Introductory Quantum Mechanics
- Scientific Programming
- Intermediate Practical Physics
- Thermal And Statistical Physics
- Optics
- Introduction To Condensed Matter Physics
- Physics In Action: Real-World Problem Solving
- The Stars And Their Planets
- Pathways To Success In The Physics Workplace
- Biophysics
- Professional Placement
- Solid State Physics
- Atomic And Nuclear Physics
- Particle Physics And Special Relativity
- Physics Project
- Computational Physics
- Formation And Evolution Of Stars
- Environmental Physics
- Introduction To Magnetic Resonance Imaging
- Galaxies And Galaxy Evolution
- Theoretical Physics
- Science Communication
- Radiation Protection And Diagnostic Radiology Physics
- Semiconductor Devices And Applications
- Laser Physics And Non-Linear Optics
- High-Energy Astrophysics
- Commercialising Innovation
- Cosmology
- Non-Ionising Radiation In Medicine
- Radiotherapy
- Project
- Introduction To General Relativity
- Electromagnetic Radiation Detection
- Semiconductor Fabrication
- Quantum Theory Of Many-Particle Systems
- Data Science
- Gravitational-Wave Detectors
- Low Dimensional Semiconductor Devices
- Advanced General Relativity And Gravitational Waves
- Physics And Reality
- Observational Gravitational Wave Astronomy
- Quantum Statistical Mechanics
- Advanced Particle Physics
- Advanced Semiconductor Device Photonics
- Exoplanets And The Search For Life
- Numerical Relativity And Waveform Modelling
