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The University of Bath offers a diverse range of programs across multiple disciplines, ...
Claverton Down
INTAKE: September
The BEng (Hons) Electronic Engineering with Space Science and Technology with Professional Placement program at the University of Bath combines the principles of electronic engineering with specialized knowledge in space science and technology. This undergraduate degree offers students a unique opportunity to study the design, development, and operation of electronic systems for space exploration and satellite technology. The program integrates theoretical knowledge with practical skills, providing students with hands-on experience and preparing them for careers in the aerospace industry, research institutions, government agencies, and beyond.
Curriculum: The curriculum of the BEng (Hons) Electronic Engineering with Space Science and Technology program covers a wide range of topics, including electronic circuit design, signal processing, communication systems, and satellite technology. Students study core modules in electronic engineering, supplemented by specialized modules in space science and technology. Topics covered may include spacecraft design, remote sensing, space instrumentation, and space mission planning. The program emphasizes practical laboratory work, project-based learning, and computer simulations, allowing students to gain practical experience and develop essential skills for the aerospace industry.
Research Focus: Research is a significant aspect of the BEng (Hons) Electronic Engineering with Space Science and Technology program, with opportunities for students to engage in cutting-edge research projects. Faculty members are actively involved in research areas such as space exploration, satellite communications, remote sensing, and spacecraft instrumentation. Students have the opportunity to participate in research seminars, workshops, and collaborative projects, gaining insights into current trends and developments in the field. Through research-focused modules and independent study projects, students develop critical thinking skills, problem-solving abilities, and a deeper understanding of space science and technology.
Industry Engagement: The University of Bath maintains strong connections with the aerospace industry, providing students with opportunities for industry engagement and professional development. The professional placement component of the program allows students to gain practical experience working in aerospace companies, research laboratories, or government agencies. During their placement, students apply their electronic engineering skills to real-world projects, such as satellite design, space mission planning, or spacecraft testing. Industry mentors provide guidance and support, helping students develop industry-relevant competencies and build networks within the aerospace sector.
Global Perspective: The BEng (Hons) Electronic Engineering with Space Science and Technology program at the University of Bath emphasizes the importance of a global perspective in the field of aerospace engineering. Space exploration is inherently international, with collaboration among countries and organizations worldwide. Students have the opportunity to explore global perspectives on space science and technology through international collaborations, study abroad programs, and research partnerships. By engaging with diverse perspectives and cultural contexts, students develop intercultural competencies, broaden their understanding of global space initiatives, and contribute to international collaborations in space exploration and technology.
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) Electronic Engineering with Space Science and Technology with Professional Placement program at the University of Bath have a range of exciting career opportunities available to them in the aerospace industry, research institutions, government agencies, and beyond.
Satellite Engineer: Graduates can work as satellite engineers, designing, developing, and testing satellite systems for communication, navigation, remote sensing, or scientific missions. They apply their expertise in electronic engineering and space science to ensure the functionality, reliability, and performance of satellites in orbit. Satellite engineers collaborate with multidisciplinary teams to address technical challenges and contribute to space exploration and technology advancements.
Spacecraft Systems Engineer: Graduates can pursue careers as spacecraft systems engineers, specializing in the design, integration, and operation of spacecraft systems and subsystems. They work on various aspects of spacecraft missions, including propulsion, power systems, thermal control, and guidance, navigation, and control (GNC). Spacecraft systems engineers play a crucial role in planning and executing space missions, ensuring mission success and safety.
Aerospace Systems Analyst: Graduates can work as aerospace systems analysts, analyzing and optimizing aerospace systems and technologies for efficiency, reliability, and performance. They use mathematical modeling, simulation tools, and data analysis techniques to assess system requirements, identify potential improvements, and solve complex engineering problems. Aerospace systems analysts work in areas such as mission planning, trajectory optimization, and system integration.
Remote Sensing Specialist: Graduates can specialize in remote sensing, using satellite and airborne sensors to collect, process, and analyze data for environmental monitoring, disaster management, agriculture, or urban planning. They apply their knowledge of electronic engineering and space science to develop sensor systems, image processing algorithms, and geospatial analysis techniques. Remote sensing specialists work in government agencies, research institutions, or private companies involved in Earth observation applications.
Spacecraft Instrumentation Engineer: Graduates can work as spacecraft instrumentation engineers, designing and testing scientific instruments and sensors for space missions. They develop instruments for measuring various phenomena such as electromagnetic radiation, atmospheric properties, or planetary surface characteristics. Spacecraft instrumentation engineers collaborate with scientists to design instruments that meet mission objectives and contribute to scientific discoveries.
Mission Operations Specialist: Graduates can specialize in mission operations, overseeing the planning, execution, and control of space missions from mission control centers. They monitor spacecraft health and status, conduct spacecraft maneuvers, and coordinate mission activities to ensure mission success. Mission operations specialists work closely with engineers, scientists, and mission planners to achieve mission objectives and maximize mission efficiency.
Space Policy Analyst: Graduates can work as space policy analysts, analyzing legal, regulatory, and policy issues related to space exploration, satellite operations, and space commerce. They assess the impact of national and international policies on space activities, provide strategic advice to policymakers, and advocate for policies that promote sustainable and responsible use of outer space. Space policy analysts work in government agencies, think tanks, or non-governmental organizations (NGOs) involved in space policy development and advocacy.
Research Scientist: Graduates can pursue careers as research scientists, conducting applied research in areas such as space propulsion, space weather, space communications, or planetary science. They design experiments, analyze data, and publish findings in scientific journals, contributing to advancements in space science and technology. Research scientists work in academia, government research laboratories, or private research organizations.
Entrepreneur: Graduates with an entrepreneurial mindset can start their own aerospace companies or ventures, leveraging their expertise in electronic engineering and space science to develop innovative products, services, or solutions. They may focus on areas such as satellite technology, space exploration, or aerospace systems integration, contributing to technological innovation and economic growth in the aerospace industry.