To begin with, it is important to distinguish the difference between electric and electronic engineering. Electric engineering covers the large-scale production and distribution of electrical power, whereas electronic engineering is about much smaller electronic circuits, such as those found in computers and other modern technologies. This is why electronic engineering is often studied alongside computer science, although this degree does overlap with disciplines such as mechanical and civil engineering.
An electric and electronic engineering degree will teach students how the industry works, equipping them with the engineering skills and technological knowledge necessary to design, assess and improve electrical and electronic systems.
After learning the foundations, students can specialise in their chosen area of interest (examples include power generation and supply, communications and media, and robotic systems). The course will comprise laboratory work, tutorials, lectures, project work in groups and as individuals.
If you complete your bachelor’s level degree and want to become a chartered engineer, it is recommended that you engage in further study after a sufficient period spent working in the industry. There is the opportunity to do so in an undergraduate degree, so this is a great option to get practical, real-life experience in mastering particular systems and industries.
This degree does not limit graduates to a career as an electrical engineer - although that is a popular career path - there are plenty of opportunities outside the engineering sector too. IT, finance and management employers value the IT, mathematics and problem-solving abilities in electric and electronic engineering graduates, all of which offer excellent progression and an above-average salary.
An essential guide to what you will learn on an electrical engineering course, what you should study to get your place on a degree, and what jobs you can get once you graduate