MPhys
Physics MPhys
A higher-level accredited qualification which includes real-world projects in research and industry, this course is ideal for those planning to move into research or a career in physics and related fields.
How to apply Apply via UCASCourse details
Start date
Degree Type
MPhys
UCAS Code
F301
Course length
4 years full-time
Typical offer
A*A*A
Tuition Fees
- Home (Full-time): 9,535 per year
- Overseas (Full-time): 33,250 per year
Overview
This integrated Master’s degree is the first step towards Chartered Physicist status. It will suit those looking for an accredited course that leads to higher level education or a research role in physics, as well as providing a starting point for roles in science, finance, engineering and IT. Undergraduate physics degrees at Durham offer a high level of flexibility. We offer four Institute of Physics accredited courses – MPhys qualifications in Physics, Physics and Astronomy, and Theoretical Physics and the three-year BSc in Physics – which follow the same core curriculum in Year 1. Subject to the optional modules chosen, it is possible to switch to one of the other courses until the end of the second year. You can also apply for a one-year work placement or study abroad opportunity with one of our partner organisations, increasing the course from four years to five.
Course details
Start date
Degree Type
MPhys
UCAS Code
F301
Course length
4 years full-time
Typical offer
A*A*A
Tuition Fees
- Home (Full-time): 9,535 per year
- Overseas (Full-time): 33,250 per year
What you'll study
The first year lays the foundation in physics theory, mathematical skills and laboratory skills that you will need to tackle more complex content later in the course. From Year 2 you'll have the opportunity to explore areas such as astrophysics, quantum theory or the relationship between physics and society in more detail. As you progress to Year 3 learning is more closely aligned to real-world issues through project work and optional modules that are tailored to your interests and aspirations. Your knowledge is further extended in Year 4 with a project based on a live research topic, and higher-level modules which take your study of physics to a greater depth.
Core modules
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Discovery Skills in Physics
provides a practical introduction to laboratory skills development with particular emphasis on measurement uncertainty, data analysis and written and oral communication skills. It also includes an introduction to programming.
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Foundations of Physics
introduces classical aspects of wave phenomena and electromagnetism, as well as basic concepts in Newtonian mechanics, quantum mechanics, special relativity and optical physics.
Optional modules
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In recent years, optional modules have included: Single MathematicsLinear AlgebraCalculus. Please note: it is compulsory to study two Maths modules (as background mathematical knowledge for the Foundations module).
Core modules
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Foundations of Physics A
develops your knowledge of quantum mechanics and electromagnetism. You will learn to apply the principles of physics to predictable and unpredictable problems and produce a well-structured solution, with clear reasoning and appropriate presentation.
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Foundations of Physics B
extends your knowledge of thermodynamics, condensed matter physics and optics.
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Laboratory Skills and Electronics
builds lab-based skills, such as experiment planning, data analysis, scientific communication and specific practical skills. It aims to teach electronics as a theoretical and a practical subject, to teach the techniques of computational physics and numerical methods and to provide experience of a research-led investigation in physics in preparation for post-university life.
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Mathematical Methods in Physics
provides the necessary mathematical knowledge to successfully tackle the Foundations of Physics modules. It covers vectors, vector integral and vector differential calculus, multivariable calculus and orthogonal curvilinear coordinates, Fourier analysis, orthogonal functions, the use of matrices, and the mathematical tools for solving ordinary and partial differential equations in a variety of physical problems.
Optional modules
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In recent years, optional modules have included: Stars and GalaxiesTheoretical PhysicsPhysics in Society.
Core modules
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Computing Project
is designed to develop your computational and problem-solving skills. You work on advanced computational physics problems using a variety of modern computing techniques and present your findings in a project report, poster and oral presentation.
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Foundations of Physics A
further develops your knowledge to include quantum mechanics and nuclear and particle physics. You will learn to apply the principles of physics to complex problems and produce a well-structured solution, with clear reasoning and appropriate presentation.
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Foundations of Physics B
increases your knowledge to include statistical physics and condensed matter physics.
Optional modules
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In recent years, optional modules have included: Team ProjectAdvanced LaboratoryMathematics WorkshopPhysics into SchoolsPlanets and CosmologyTheoretical PhysicsCondensed Matter PhysicsModern Atomic and Optical Physics
Core modules
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MPhys
Project The research-based project can be carried out individually or as part of a small group. It provides experience of work in a research environment on a topic at the forefront of developments in a branch of either physics, applied physics, theoretical physics or astronomy, and develops transferable skills for the oral and written presentation of research. The project can be carried out in one of the Department’s research groups or in collaboration with an external organisation.
Optional modules
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In recent years, optional modules have included: Atoms, Lasers and QubitsAdvanced Condensed Matter PhysicsAdvanced Theoretical PhysicsParticle TheoryAdvanced AstrophysicsTheoretical AstrophysicsPlanets and CosmologyTheoretical PhysicsCondensed Matter PhysicsModern Atomic and Optical Physics.
Learning
Lectures are the starting point of the learning process. You will actively engage with the topics introduced in lectures through a combination of laboratory classes, problem exercises, tutorials and workshops. Laboratory classes give you the chance to plan experiments and to interpret data. You will also be set regular problem exercises which develop your theoretical understanding and problem-solving abilities, these exercises form the basis for discussions in small-group tutorials.Assessment
Assessment is mainly by end-of-year examinations and by project reports and presentations. The range of assessment methods is designed to assess your knowledge and understanding of the course content, test your capacity to solve problems, enhance your written and oral communication skills, and assess your ability to relate your learning to real-world scenarios.Entry requirements
Fees & Funding
Choose which fees you want to see:
Home / Island students
9,535 per year
International / EU Students
33,250 per year
Home / Island students
Part Time - per year
International / EU Students
Part Time - per year
The tuition fees shown are for one complete academic year of study, are set according to the academic year of entry, and remain the same throughout the duration of the programme for that cohort (unless otherwise stated).
Find out moreDepartment Information
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When you study physics at Durham you will work with experts across a range of specialisms to explore subjects such as the Big Bang, black holes, the Higgs boson, high-temperature superconductors, lasers, cold-atom Bose-Einstein condensates, biophysics and more. Our undergraduate physics degrees offer outstanding teaching, learning and employability outcomes for students. We offer four Institute of Physics accredited BSc and MPhys qualifications which share a common first year. Course content ranges from fundamental topics, such as elementary particle physics and cosmology, to applied areas which include material physics and biophysics. All courses allow you to select a number of modules tailored to your interests and career aspirations, and the course structures have been designed to provide flexibility in your final choice of degree. This means, depending on modules chosen, you need not make a firm decision about your course until the end of the second year. You also have the option to apply for a year-long work placement or study abroad opportunity with one of our partner organisations.
Read moreFacilities
Our Department lies in the heart of the University on the main campus among the science and engineering departments and the University library. The main Department building houses all the lectures and teaching laboratories as well as some of our world-class facilities such as our Cosma 8 supercomputer, which has the processing power and memory of about 28,000 home PCs. This enables scientists to simulate the evolution of the Universe from the Big Bang to the present day with unprecedented accuracy. We also have state-of-the-art scanning electron microscopes (SEM), transmission electron microscopes (TEM) and focused ion-beam microscopes (FIB) that are accessible to staff and students from physics, chemistry, earth sciences, engineering and biology areas. Students who undertake a project in observational astronomy will have access to the telescopes sited on the roof of the Physics building as well as our remotely operated telescope (0.5m) on La Palma. The Department also includes the Ogden Centre for Fundamental Physics, which is home to the Institute for Particle Physics Phenomenology and the Institute for Computational Cosmology.
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Career Opportunities
Of those students who graduated in 2021-22:
91%
HESA Graduate Outcomes Survey. The survey asks leavers from higher education what they are doing 15 months after graduation. Further information about the Graduate Outcomes survey can be found here www.graduateoutcomes.ac.uk