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Displaying 21-40 of 55 undergraduate courses
Returning to education? Lifelong learning runs degrees with a foundation year for people who don't have the usual qualifications.
If you don't have the usual scientific or mathematical background for an engineering degree, a foundation year is for you.
If you don't have the usual scientific or mathematical background for an engineering degree, a foundation year is for you.
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.
Biomedical engineering is a dynamic, multidisciplinary field that links engineering and medicine to improve human health and quality of life. It’s a field where you can make a real impact, using cutting-edge technology to develop innovations that help people live longer, healthier, and happier lives. The MEng provides an integrated master's qualification with advanced topics and a specialised research project in your fourth year, helping you stand out to top employers.
Biomedical engineering is a dynamic, multidisciplinary field that links engineering and medicine to improve human health and quality of life. It’s a field where you can make a real impact, using cutting-edge technology to develop innovations that help people live longer, healthier, and happier lives. The MEng provides an integrated master's qualification with advanced topics and a specialised research project in your fourth year, helping you stand out to top employers.
Study in Sheffield for the first three years of your course and cover the theoretical and practical aspects across the range of electrical and electronic engineering. In your fourth year you have the opportunity to put into practice what you've learnt by working for a year in an engineering company, before returning to Sheffield for your final year of study.
Your study will cover theoretical and practical aspects across the range of electrical and electronic engineering. Core topics 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.
Your study will cover theoretical and practical aspects across the range of electrical and electronic engineering. Core topics 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.
You’ll have the opportunity to spend a year gaining hands-on work experience in an engineering, medical, or healthcare company, providing invaluable real-world insights. This course also offers an integrated master’s qualification, with advanced topics and a specialised research project in your fourth year, helping you gain a competitive edge with leading employers.
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.
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.
Study in Sheffield for the first two years of your course and cover the theoretical and practical aspects across the range of electrical and electronic engineering. In your third year you have the opportunity to put into practice what you've learnt by working for a year in an engineering company, before returning to Sheffield for your final year of study.
In the first three years of your course, you’ll cover fundamental concepts in mechatronic and robotic areas, including mathematics, intelligent system design, computing, control, electronics and embedded systems. In your fourth year you’ll put into practice what you’ve learnt on your industrial placement, before returning to Sheffield for your final year of study.
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.
In the first two years of your course, you’ll cover fundamental concepts in mechatronic and robotic areas, including mathematics, intelligent system design, computing, control, electronics and embedded systems. In your third year you’ll put into practice what you’ve learnt on your industrial placement, before returning to Sheffield for your final year of study.
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.
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.
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.
Learn about the fields that are essential to computer systems, including mathematics, control systems, embedded systems and programming. Then go on to applied work that brings the concepts together in a practical way, and continue to study advanced modules in specialist areas such as system design and security and intelligent systems.
Learn about the fields that are essential to computer systems, including mathematics, control systems, embedded systems and programming. Then go on to applied work that brings the concepts together in a practical way, and continue to study advanced modules in specialist areas such as system design and security and intelligent systems.