Computational Physics | The University of Edinburgh

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Course summary

The close relationship between physics and high performance computing worldwide is embodied in the Computational Physics degree programme.

Most theoretical problems are now sufficiently complex that they cannot be solved by mathematics alone.

As experimentation becomes more difficult and expensive, computer simulation has become the most practical way to understand complex phenomena such as:

turbulence
nuclear reactors and weapons
climate change

These are the areas where computational physicists already dominate. In the future, based on current recruitment patterns, the methods of Computational Physics will also come to dominate other areas such as:

financial markets
genomics
disease control

This physics-based programme is for students interested in computing, modelling and simulation. You will study:

programming
algorithms
problem-solving methodologies

You will receive a thorough education in physics and the associated mathematics, together with the ability to write computer programs to simulate natural systems.

This degree programme includes substantial practical experience and the opportunity to use the University's world-class computing systems.

Compared to the BSc, our MPhys Computational Physics programme provides a broader and deeper exposure to the concepts, methods and phenomena of physics. You will also gain experience of research work through an extended project. This provides a foundation for further research studies in physics.

Programme benefits

You will be taught by academic staff with links to major research facilities across the world, including CERN, TRIUMF, Rutherford Appleton Laboratory and a number of principal astronomy facilities.
The degree includes substantial practical experience, including the opportunity to use the University's world-class computing systems.
Benefit from an interactive learning experience.
This programme is accredited by the Institute of Physics (IOP) and fully meets the educational requirements for Chartered Physicist.
Take your knowledge further by completing a major research project in Year 5.

How to apply

Application codes

Course code:: F355
Institution code:: E56

Open days

The University of Edinburgh - Postgraduate Discovery Day
18 Mar 2026, 09:00
Edinburgh

Historical entry grades data BETA

This section shows the range of grades students (with UK A-Levels or Pearson BTEC Level 3 National Extended Diplomas) who received offers were previously accepted with (learn more). It is designed to support your research but does not guarantee whether you will or won't get a place. Admissions teams consider various factors, including interviews, subject requirements, and entrance tests. Check all course entry requirements for eligibility.

Not available

Historical entry grades data is not currently available for The University of Edinburgh - we are working with them to try and make it available soon - learn more.

Student Outcomes

Operated by the Office for Students

60 Employment after 15 months (Most common jobs)

90 Go onto work and study

The number of student respondents and response rates can be important in interpreting the data – it is important to note your experience may be different from theirs. This data will be based on the subject area rather than the specific course. Read more about this data on the Discover Uni website.