Undergraduate courses search

In our core undergraduate degree, you'll discover the underlying principles of materials science, and how these are applied across materials engineering situations. You can keep your course general or tailor your degree with optional materials modules. On the MEng degree you can choose to interact directly with industry via an industrial placement and industrial focussed projects or undertake an extended research project embedded in one of our leading research groups.

Explore power systems, power electronics, digital electronics, circuits and devices, electrical machines and drives. Your study covers theoretical and practical aspects across the range of electronic and electrical engineering. Once you’ve successfully completed the foundation year, you can start your main degree.

Your study will cover theoretical and practical aspects across the range of electrical and electronic engineering. The core topics in this course include power systems, power electronics, digital electronics, circuits and devices, electrical machines and drives. In addition to the individual project in the third year you will work on a more research based group project in your fourth year.

In our core undergraduate degree, you'll discover the underlying principles of materials science, and how these are applied across materials engineering situations. You can keep your course general or tailor your degree in later years with optional materials modules.

Explore the deep philosophical questions raised by modern physics. You’ll cover most of the same topics as students on our standard physics courses, and choose from a wide range of philosophy topics.

Your study will cover theoretical and practical aspects across the range of electrical and electronic engineering. The core topics in this course include power systems, power electronics, digital electronics, circuits and devices, electrical machines and drives.

Covering the fundamental principles of engineering, with the flexibility to focus on specific areas of interest in later years, this degree provides a blend of theoretical learning with practical hands-on experience, equipping you to tackle and solve real engineering challenges.

Study the laws of the universe and the science behind major technological advances. Learn about international experiments to search for dark matter, ways to make solar energy systems more effective and how the quantum nature of light can help us build even more powerful computers.

Develop the skills for a career in research, whether you want to help map the universe as an astrophysicist or apply your scientific knowledge to solve problems in industry. Our physics and astrophysics degree has more astrophysics content than most others in the UK.

Learn both hardware and software programming to open up a career in a variety of industries such as robotics, autonomous vehicles, the Internet of Things and big data artificial intelligence.

Learn about the fundamental concepts in mechatronic and robotic areas, including mathematics, intelligent system design, computing, control, electronics and embedded systems. Then go on to practical work that brings the concepts together using 3D CAD tools, 3D printing, laser cutters and more in the iForge makerspace.

Develop the skills for a career in research, whether you want to help answer complex questions raised by relativity and quantum mechanics, or help solve problems in industry. You’ll run your own research project and be trained by a member of staff who is an expert in the area you want to explore.

Prepare for a career in research, whether you want to focus on questions that physics raises about the nature of existence, or refine your logical thinking abilities to help solve problems in industry. In your final year, you’ll join a team of physics researchers and run your own project.

Develop the skills for a career in physics research, whether you want to help decode the laws of the universe or contribute to new technological advances in industry. You’ll run your own research project and be trained by a member of staff who is an expert in the area you want to explore.

This course is about the design and operation of processes for making products such as fuels, medicines, plastics, food and materials for high technology industries. You'll also learn about the production and use of energy. Years one to three are the same as for the BEng (H810). Year four allows further specialisation and study with the emphasis on an individual research project which may be carried out in association with industry.

On this course, you can learn from scientists who helped detect the Higgs boson and gravitational waves, and who are leading searches for dark matter. You'll learn how particles are detected, study key theories such as relativity and examine the laws of the universe at the subatomic level.

Examine the fundamental mathematics that has brought physicists ever closer to a ‘theory of everything’. You’ll explore the classical physics principles that defined scientific thinking up to the 20th century, and look in depth at topics like relativity and quantum mechanics.

This course is ideal if you want to help answer the biggest questions in the universe as a physics researcher. You'll learn how particles are detected, study key theories such as relativity, and join a research team that works on major projects at CERN and leads searches for dark matter.

Designed for students who want to pursue a career in industrial or academic research, this course involves a major research project in your fourth year. The first three years of your course have the same structure as the BSc.

This course is about the design and operation of processes for making products such as fuels, medicines, plastics, food and materials for high technology industries. You'll also learn about the production and use of energy.