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The University of Bath offers a diverse range of programs across multiple disciplines, ...
BEng (Hons) Electronic Engineering with Space Science and Technology
Claverton Down
INTAKE: September
Program Overview
The BEng (Hons) Electronic Engineering with Space Science and Technology program at the University of Bath, UK, offers students a unique opportunity to study the intersection of electronic engineering and space science. This interdisciplinary program combines theoretical knowledge with practical skills, preparing students for careers in the rapidly growing field of space technology. Students gain a comprehensive understanding of electronic systems, satellite technology, space exploration, and spacecraft design, with a focus on developing innovative solutions for space missions and applications.
Curriculum: The curriculum is designed to cover key areas of electronic engineering, space science, and technology, providing students with a solid foundation in both theoretical concepts and practical applications. Core modules cover topics such as circuit theory, signal processing, digital electronics, electromagnetics, and control systems. Students also study specialized topics in space science and technology, such as satellite communications, space instrumentation, orbital mechanics, and spacecraft propulsion. Additionally, the program emphasizes hands-on laboratory work, design projects, and computer simulations, allowing students to apply their knowledge to real-world engineering challenges.
Research Focus: The University of Bath is known for its research excellence, and students in the Electronic Engineering with Space Science and Technology 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 satellite technology, remote sensing, space instrumentation, and space mission design. 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 space science and technology.
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 aerospace and technology sectors. 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 aerospace industry, providing insights into career opportunities and industry trends.
Global Perspective: With a focus on space science and technology, the program encourages students to adopt a global perspective in their study of engineering. Space exploration is inherently international, and students have the opportunity to study global space missions, collaborate with international partners, and engage with space agencies 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 space science and technology on a global scale.
Location
Claverton Down
Score
IELTS 6.5
Tuition Fee
£ 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:
- IELTS: A minimum overall score of 6.5 or 7.0 with no individual component below 6.0.
- TOEFL: A minimum overall score of 100, with at least 24 in Listening, Reading, Speaking, and Writing.
- PTE: A minimum overall score of 69 with no individual score below 62.
- DET: The Duolingo English Test (DET) is accepted with a minimum score of 130.
Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
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) Electronic Engineering with Space Science and Technology program at the University of Bath, UK, are well-prepared for diverse and exciting career opportunities in the aerospace industry, research institutions, government agencies, and beyond. With a solid foundation in electronic engineering and specialized knowledge in space science and technology, graduates are equipped to make significant contributions to space exploration, satellite technology, and the broader field of aerospace engineering.
Satellite Engineer: Many graduates pursue careers as satellite engineers, working for aerospace companies, satellite manufacturers, or space agencies. They design, develop, and test satellite systems, including communication satellites, Earth observation satellites, and navigation satellites. Graduates are involved in all stages of satellite development, from initial design and simulation to integration, testing, and launch operations. They ensure that satellites meet technical specifications, performance requirements, and regulatory standards, and they contribute to advancing satellite technology for various applications, such as telecommunications, remote sensing, and scientific research.
Spacecraft Systems Engineer: Graduates may work as spacecraft systems engineers, specializing in the design and operation of spacecraft for space missions. They are responsible for ensuring the functionality, reliability, and safety of spacecraft systems, including propulsion systems, power systems, thermal control systems, and guidance and navigation systems. Graduates collaborate with multidisciplinary teams to develop mission concepts, define system requirements, and oversee spacecraft integration and testing. They play a critical role in the success of space missions, from Earth orbit missions to interplanetary exploration missions.
Spacecraft Instrumentation Engineer: Some graduates choose careers as spacecraft instrumentation engineers, focusing on the design and implementation of scientific instruments and sensors for space missions. They develop cutting-edge instrumentation for measuring and analyzing various phenomena in space, such as electromagnetic radiation, atmospheric composition, and celestial objects. Graduates design experiments, calibrate instruments, and analyze data collected from space missions to advance scientific understanding of the universe and address fundamental questions in astrophysics, planetary science, and Earth observation.
Aerospace Systems Analyst: Graduates may work as aerospace systems analysts, providing technical expertise and analysis to support space missions, satellite operations, and aerospace projects. They conduct performance analysis, risk assessment, and mission planning for space missions, satellite constellations, and launch vehicle operations. Graduates use computational modeling, simulation, and optimization techniques to optimize spacecraft trajectories, antenna coverage, and mission operations, ensuring mission success and cost-effectiveness.
Research Scientist: Some graduates pursue careers as research scientists, working in research institutions, universities, or government laboratories. They conduct fundamental research in areas such as space physics, astrophysics, remote sensing, and spacecraft technology. Graduates design and conduct experiments, analyze data, and publish research findings in scientific journals. They contribute to advancing scientific knowledge and technological innovation in the field of space science and technology, and they may collaborate with international partners on space missions and research projects.
Entrepreneurship in Aerospace Industry: Graduates with entrepreneurial ambitions may start their own aerospace companies or technology startups, leveraging their expertise in electronic engineering and space science to develop innovative solutions and services for the aerospace industry. They may specialize in areas such as satellite communications, space-based imaging, space tourism, or small satellite deployment. Graduates bring creativity, innovation, and technical expertise to their entrepreneurial ventures, driving advancements in space technology and expanding opportunities for space exploration and utilization.
