Aerospace Engineering with a Year in Industry (BENG)
Program start date | Application deadline |
2024-09-01 | - |
Program Overview
The Aerospace Engineering (BEng) program at Queen's University Belfast equips graduates with the knowledge and skills to design, develop, and service cutting-edge aerospace products. Through hands-on learning, overseas experience, and a year-long industry placement, students gain a strong foundation in engineering technologies and develop versatility for diverse career opportunities. The program culminates in an individual research project, fostering in-depth engagement with the design and development process.
Program Outline
Aerospace Engineering (BEng) H404: Detailed Information
Degree Overview:
Objectives:
- Equip graduates with the knowledge and skills necessary to lead the design, development and service of cutting-edge aerospace products.
- Prepare students for diverse and challenging situations, fostering versatility and opening up a wide range of career opportunities.
- Educate responsible engineers who understand the environmental and societal impacts of their work and strive to minimize negative effects.
Program Description:
- Focuses on hands-on, project-based learning through state-of-the-art facilities and flexible project spaces.
- Offers extensive opportunities to gain valuable overseas experience, via summer break or a year-long program.
- Provides a strong foundation in the essential engineering technologies required by an aerospace engineer, building on this knowledge with advanced engineering science subjects, group design exercises and dedicated laboratory programs in subsequent years.
- Culminates in a year-long sandwich placement in industry, supervised by a dedicated placement officer.
- Concludes with an individual research project, allowing students to deeply engage in the design and development process, hone project management skills and gain experience in report writing and presentations.
Outline:
Content:
- Stage 1: Introduction to core aerospace engineering principles, practical and design-based learning through projects and lab week experiences.
- Stage 2: Deepen knowledge in dynamics, thermodynamics, fluid mechanics and strength of materials, further develop engineering skills through project work.
- Stage 3: Sandwich placement in industry, providing real-world experience and potential industry connections.
- Stage 4: Individual research project, fostering in-depth study and engagement with the design and development process.
Structure:
- Full-time program across 4 years, with optional sandwich placement in Stage 3.
- Each year consists of two semesters, with a typical course load of 10 modules per semester.
- Blended learning approach using formal lectures, tutorials, design workshops, individual research projects and practical laboratory sessions.
- Strong emphasis on group work and collaborative learning throughout the program.
Individual Modules:
- Comprehensive list of modules offered in each stage of the program, with detailed descriptions of learning outcomes, assessment methods and teaching approaches.
- This information is available on the program's dedicated webpage and is essential for understanding the program's full scope.
Assessment:
- Emphasis on a balanced assessment approach, combining coursework, class tests and end-of-semester exams.
- Some modules rely on project work, written assignments, presentations and interviews for evaluation.
- Specific details about assessment methods for each module are provided in the Student Handbook.
Teaching:
- Small group teaching and personal tutorials ensure personalized support and guidance for each student.
- Lectures introduce core concepts and serve as a starting point for further self-directed study, with opportunities for feedback and discussion.
- Practical laboratory sessions and design exercises enable students to apply theoretical knowledge and develop essential technical skills.
- Industry engagement is fostered through lectures and guest appearances by professionals, allowing students to gain insights into real-world applications.
Careers:
- Graduates are highly sought-after by leading private and public sector companies worldwide.
- Potential career paths include:
- Aerospace engineer
- Design engineer
- Project engineer
- Research and development engineer
- Systems engineer
- Program provides career support through workshops, industry visits and dedicated placement officer assistance.
Other:
- Entry requirements include specific A-level/IB/BTEC/Irish Leaving Certificate qualifications and English language proficiency.
- The program is open to international students, and the webpage provides detailed information on entry requirements and fees for various regions.
- Queen's University Belfast offers a variety of support services for students, including academic advising, wellbeing services and career guidance.
Please note:
- This information is based on the current program description available on the Queen's University Belfast website.
- It is important to consult the official program webpage for the most up-to-date information and specific details.
- Additional information can be found in the program brochure, student handbook and related resources available on the website.
Tuition Fees and Payment Information:
Northern Ireland (NI) 1 £4,750 Republic of Ireland (ROI) 2 £4,750 England, Scotland or Wales (GB) 1 £9,250 EU Other 3 £25,300 International £25,300 1 EU citizens in the EU Settlement Scheme, with settled status, will be charged the NI or GB tuition fee based on where they are ordinarily resident. Students who are ROI nationals resident in GB will be charged the GB fee. 2 EU students who are ROI nationals resident in ROI are eligible for NI tuition fees. 3 EU Other students (excludes Republic of Ireland nationals living in GB, NI or ROI) are charged tuition fees in line with international fees. All tuition fees quoted relate to a single year of study and will be subject to an annual inflationary increase, unless explicitly stated otherwise.