MEng Electrical and Electronic Engineering

From Day One, you’ll be doing real engineering—not just learning about it. The University of Hull empowers you with top-tier, hands-on experiences in state-of-the-art labs—from building prototypes in robotics and embedded systems spaces to bringing designs to life in the FabLab. Supported by friendly, forward-facing faculty and technicians, you’ll grow practical skills that stand out to employers and lead you toward Chartered Engineer status.

Here’s how that plays out through your degree:

• Prototype design and testing in modern labs: You'll bring ideas to life in the embedded systems lab, robotics lab, and digital manufacturing lab—spaces designed for hands-on work with electronics, sensors, and automation.

• FabLab with advanced digital tools: Work with 3D printers, laser scanners, cutters, and CNC machines in the FabLab to create and refine real-world prototypes.

• Unique team projects via Hull Electric Racing Team (HERT): Collaborate to build and test an electric racing car—complete with exclusive access to an F1 racing simulator—and even compete at Silverstone.

• Placement year for real-world exposure: In your third year, you’ll be encouraged to take up an industrial placement or study abroad—ideal for gaining hands-on experience and boosting professional networks.

• Accreditation and career-focused outcomes: The course is accredited by the IET, giving you a direct pathway to Incorporated—and partly Chartered—Engineer status. Plus, Hull boasts an impressive 100% employability rate among graduates 15 months after finishing.

• Engage with cutting-edge fields: You'll explore smart power, process control, communications, and remote sensing—applying these in real time during lab sessions, enhancing both your technical and analytical skills.

• Accolades that reflect real support: Students benefit from excellent academic and practical support—reflected in high NSS rankings for learning opportunities and academic support.

Graduates of the University of Hull's MEng Electrical and Electronic Engineering are highly employable, moving into senior roles such as electrical systems manager, power network consultant, automation and control specialist, electronics project leader and renewable energy systems designer. Many alumni progress to leadership positions in the energy sector or pursue PhD research in smart grids, industrial automation or advanced electronics.

Here's how Hull specifically supports your future:

Career Services & Experiential Learning:
The integrated master's programme includes an extended industrial placement or research project with leading engineering firms, providing advanced professional experience. You'll develop specialist expertise through high-level laboratory work, industry collaboration projects and research-led modules, with particular focus on smart energy systems, advanced control engineering and power electronics. The university's Engineering Careers Team offers tailored support for chartered engineer progression, including professional mentorship and exclusive industry networking opportunities.

Industry Partnerships & Research:
The Department of Engineering collaborates closely with global partners including Ørsted, Siemens Energy and Rolls-Royce. Students engage with cutting-edge research in offshore renewable energy integration, industrial IoT systems and next-generation power electronics. The university's £16m engineering facilities include smart grid simulation labs, high-power test systems and marine energy research platforms. Employers particularly value graduates' competencies in system-level electrical design, energy management solutions and advanced automation technologies.

Graduate Outcomes:
Students complete their studies with master's-level expertise in power systems engineering, advanced digital design, engineering leadership and research methodologies - preparing them for senior technical and management roles in the energy and technology sectors.

Further Academic Progression:
After your MEng degree, you can progress directly to engineering leadership roles or doctoral research in areas like marine energy systems, smart grid technologies or industrial automation, supported by the programme's strong research environment and industry partnerships.