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The University of Bath offers a diverse range of programs across multiple disciplines, ...
Claverton Down
INTAKE: September
The BEng (Hons) Electrical and Electronic Engineering program at the University of Bath, UK, provides students with a comprehensive education in the principles and applications of electrical and electronic engineering. This program equips students with the knowledge and skills to design, analyze, and optimize electrical and electronic systems, preparing them for careers in industries such as energy, telecommunications, electronics, automation, and beyond. With a focus on practical learning and innovation, students gain hands-on experience in laboratories, design projects, and industry collaborations, ensuring they are well-prepared for the challenges of the engineering profession.
Curriculum: The curriculum is carefully designed to cover a wide range of topics in electrical and electronic engineering, ensuring students acquire a deep understanding of both theoretical concepts and practical applications. Core modules cover subjects such as circuit theory, digital electronics, power systems, control systems, and signal processing. Students also have the opportunity to specialize in areas such as renewable energy, power electronics, communication systems, or robotics through elective modules. Additionally, the program emphasizes hands-on learning through laboratory work, design projects, and industry-relevant projects, allowing students to apply their knowledge to real-world engineering challenges.
Research Focus: The University of Bath is renowned for its research excellence, and students in the Electrical and Electronic Engineering program have the opportunity to engage in cutting-edge research projects. Under the guidance of faculty members who are experts in their fields, students can conduct research in areas such as renewable energy systems, smart grids, semiconductor devices, or wireless communications. Through these research endeavors, students gain valuable experience in experimental design, data analysis, and problem-solving, as well as exposure to the latest developments in electrical and electronic engineering.
Industry Engagement: The program places a strong emphasis on industry engagement, providing students with opportunities to gain practical experience and develop professional networks within the engineering sector. Students may participate in internships, industrial placements, or collaborative projects with industry partners, allowing them to apply their engineering skills in real-world settings. Additionally, guest lectures, seminars, and networking events connect students with professionals and practitioners in the engineering industry, providing insights into career opportunities and industry trends.
Global Perspective: With a focus on engineering and innovation, the program encourages students to adopt a global perspective in their study of electrical and electronic engineering. Engineering is inherently global, and students have the opportunity to study global engineering challenges, collaborate with international partners, and engage with engineering companies and organizations worldwide. Additionally, students may have the opportunity to participate in study abroad programs, international conferences, or research exchanges, gaining exposure to different cultural perspectives and approaches to engineering on a global scale.
Claverton Down
IELTS 6.5
£ 26200
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 80 to 85% or equivalent in their respective country's grading system.
English Language Proficiency:
Students must provide:
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
The University of Bath, UK, offers a range of scholarships and financial support options to international students. These scholarships are designed to help make education more accessible and affordable for students pursuing their studies at the university.
Chancellor's Scholarships: The Chancellor's Scholarships are among the most prestigious awards offered by the University of Bath. They are open to international undergraduate and postgraduate students who demonstrate outstanding academic achievements. These scholarships cover full or partial tuition fees and are highly competitive.
International Baccalaureate 50th Anniversary Scholarship: This scholarship is available to international students who have completed the International Baccalaureate (IB) Diploma program with exceptional results. It offers a financial award to support the student's undergraduate studies at Bath.
Chevening Scholarships: While not specific to the University of Bath, international students from eligible countries can apply for Chevening Scholarships, which cover the cost of studying in the UK, including tuition fees, living expenses, and more.
Commonwealth Scholarships: The university participates in the Commonwealth Scholarship program, which offers scholarships to students from Commonwealth countries to study in the UK.
Graduates of the BEng (Hons) Electrical and Electronic Engineering program at the University of Bath, UK, are well-equipped for a wide range of career opportunities in various industries where electrical and electronic systems play a critical role. With a strong foundation in engineering principles and practical skills, graduates are prepared to contribute to innovation, development, and problem-solving in fields such as energy, telecommunications, electronics, automation, and beyond.
Electrical Engineer: Many graduates pursue careers as electrical engineers, working in industries such as power generation, distribution, and renewable energy. They design, develop, and maintain electrical systems, equipment, and infrastructure, ensuring the safe and efficient delivery of electricity to homes, businesses, and communities. Graduates may specialize in areas such as power systems, control systems, or electrical installations, and they may work on projects ranging from large-scale power plants to microgrids and renewable energy systems.
Electronics Engineer: Some graduates choose careers as electronics engineers, focusing on the design, development, and testing of electronic devices, circuits, and systems. They work in industries such as telecommunications, consumer electronics, automotive, aerospace, and medical devices. Graduates design electronic components, PCBs, and embedded systems, and they may specialize in areas such as analog electronics, digital electronics, or RF/microwave engineering. They collaborate with multidisciplinary teams to create innovative electronic solutions that meet the needs of consumers and industries.
Control Systems Engineer: Graduates may work as control systems engineers, specializing in the design and implementation of control systems for various applications, such as robotics, automation, and industrial processes. They develop algorithms, software, and hardware to monitor, regulate, and optimize the behavior of dynamic systems. Graduates design feedback control systems, PID controllers, and PLC systems, and they may work on projects ranging from factory automation to autonomous vehicles and smart grid systems.
Telecommunications Engineer: Some graduates pursue careers as telecommunications engineers, working for telecommunications companies, network operators, or equipment manufacturers. They design, implement, and optimize telecommunications networks, including wired and wireless communication systems, broadband networks, and mobile networks. Graduates may specialize in areas such as network planning, RF engineering, or protocol development. They ensure the reliability, performance, and security of communication networks, enabling seamless connectivity for businesses and individuals.
Renewable Energy Engineer: Graduates may work in the renewable energy sector, designing and developing sustainable energy solutions such as solar power, wind power, or energy storage systems. They work for renewable energy companies, utilities, government agencies, or engineering firms. Graduates design renewable energy systems, assess site feasibility, and optimize system performance and efficiency. They contribute to addressing global energy challenges and advancing the transition to a low-carbon economy through innovation and technological advancements in renewable energy technologies.
Research and Development (R&D) Engineer: Some graduates pursue careers in research and development, working in research institutions, government laboratories, or technology companies. They conduct research, design experiments, and develop prototypes to advance knowledge and innovation in areas such as energy systems, semiconductor devices, or wireless communications. Graduates contribute to cutting-edge R&D projects, collaborate with interdisciplinary teams, and push the boundaries of technological innovation in the electrical and electronic engineering field.