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If you’re aiming for a place on a competitive Engineering course, strong grades alone are not always enough. Admissions tutors want to see that your interest in the subject goes beyond the curriculum. That’s where super-curricular activities come in. Whether you’re discussing ideas from a book or lecture that inspired you, testing your skills in a competition, or carrying out an independent project, these experiences demonstrate that you are passionate about studying Engineering. They show you can apply concepts in the real world, develop practical skills, and tackle problems with creativity and resilience, exactly the qualities top universities are looking for. Here is our list of super curricular activities for Engineering you might want to consider:

1. Get hands-on with projects where you can design, build and test

There are dozens more great ideas in . Here are a few to give you the idea:

• Make your own line-following robot with components from old household electronics: 
• Build a lightweight bridge using spaghetti: 
• Create a micro wind tunnel to test aerofoils at different angles: 
• Design an efficient solar water heater: 
• Fold the most effective paper aeroplane: 

2. Develop relevant computational literacy

Learning a general-purpose coding language allows potential Engineering students to enhance their problem-solving skills and develop innovative programming projects that don’t need any physical materials. Python is the most popular; there are various online courses to learn it . Once you have learned it, try  from Oxford University’s Christ Church college.

For creating and analysing 3D designs, learning to use a computer-aided design (CAD) package. Autodesk Fusion (also known as Fusion 360) is a popular CAD that is free for personal use. There are great online tutorials to help you learn it such as .

3. Enter team competitions

• : Now known as STEM Racing but better recognised under its former name, this team challenge comes highly recommended by Engineering students. Use computer-aided design and manufacturing (CAD/CAM) to master the aerodynamics.
• : Team challenge to build the best electric kit car and then race it. Involves both mechanics and electronics.
• : Problem-solving and systems engineering in various competitive robotics scenarios.

4. Gain a taste of industry experience

• Engineering Development Trust’s : Develop careers-oriented STEM skills with industry experiences and well recognised accreditation.
• : Prestigious sponsored mentoring opportunities with national recognition.

5. Practise for admissions tests

• University of Oxford Maths Admissions Test: Past papers, solutions and examiner feedback for the last 17 years (!) are available .
• The Engineering and Science Admissions Test (ESAT) is used by Cambridge, Imperial, Warwick, Durham and UCL. Practice tests and past papers are available .
• is a free platform for practising Physics problems, funded by Cambridge University.
• hosts interactive problem-solving games in maths, data, computing and science.
• hosts problem-solving generators, A-Level question archives and online games to hone your skills.
• See an example Engineering interview for Cambridge .

6. Subscribe to Engineering YouTube channels

- : Looks at the underlying principles of modern technologies with beautifully informative animations.

- : Practical demonstrations showing how everyday items work.

- : Computer-animated primers on mechanical and civil engineering concepts.

- : Future-oriented primers on recent innovation.

- : Quirky experiments in physics and engineering to answer ‘what would happen if?’

7. Find Engineering inspiration online

These websites come  for prospective Engineering students:

• for live data on UK energy usage.
• to explore climate change solutions.
• for a range of NASA resources for students.
• for readings, videos and other resources in Engineering and other subjects
• to see the latest developments from the Royal Academy of Engineering

8. Read the news like an Engineer

Pick a theme that interests you and follow its developments. For example: offshore wind, HS2, EV batteries. Analyse aspects such as problem solving, quantitative constraints, risks and trade-offs.

9. Read foundational books for broad understanding of the field

Cambridge University have a long list of recommended readings . These include:

• by Natasha McCarthy (2009): Focuses on the societal impact of engineers’ problem-solving and innovation.
• by Guru Madhavan (2015): Outlines the engineering mindset and its real world applications.
• by J.E. Gordon (1978): Classic presentation of case studies in the resilience of everything from bridges to clothing.
• by Donald A. Norman (2002): Analysis of user-friendly design and its adaptation to human psychology.
• by Henry Petroski (1985): Shows how engineering’s advances are cyclical and that mistakes are essential to the innovation process.
• by Steven Vogel (2000): Finds surprising similarities in the mechanics of nature and human engineering.
• by Anna Ploszajski (2021): Looks at the small-scale science of materials through the work of makers and craftspeople.
• by Mark Miodownik (2014): Reveals the wonder of everyday materials like steel, glass and graphene through personal stories and engaging narratives.
• by Ainissa Ramirez (2020): Examines eight inventions from clocks to silicon chips to show how materials science has shaped human culture and self-understanding.