Taught jointly with Lancaster’s Department of Mathematics and Statistics, our MSci degree in Theoretical Physics with Mathematics (Study Abroad) combines core physics and specialised theoretical physics subjects with classes in pure mathematics. This equips you with an understanding of the mathematical foundations of physics, for example, you will learn how quantum mechanics is underpinned by the powerful mathematical concept of a Hilbert space.
In your first year you will cover the core of physics in modules such as Quantum Physics and Electromagnetism, and the core of mathematics including geometry and calculus, numbers and relations, and probability.
In years two and three, the core physics modules are complemented by courses from the Theoretical Physics scheme and mathematical topics such as group theory and differential equations.
Students on our MSci (Study Abroad) degree scheme spend their third year studying at one of our partner universities in Australia, New Zealand, the USA, Canada or Europe. You study the same subjects at Lancaster as students on our regular MSci degree scheme, and undertake courses at our partner institutions that are equivalent to those studied here at Lancaster.
Lancaster University will make reasonable endeavours to place students at an approved overseas partner university that offers appropriate modules which contribute credit to your Lancaster degree. Occasionally places overseas may not be available for all students who want to study abroad or the place at the partner university may be withdrawn if core modules are unavailable. If you are not offered a place to study overseas, you will be able to transfer to the equivalent standard degree scheme and would complete your studies at Lancaster.
Lancaster University cannot accept responsibility for any financial aspects of the year or term abroad.
In the final year of your course you take advanced options such as Quantum Information and Advanced Gravity and Relativity, and complete your extended research project on a topic such as Gravitational Waves, Quantum Computation, Physics of Graphene, Photonic Crystals, and Geometry and Electrodynamics.