EngineeringUK: Curriculum Limits Practical Science

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‘School report: Barriers to practical science’ has found several blockers preventing practical science lessons being delivered to school children – but the number one issue, teachers said - is the demands of the national curriculum itself.

Creds: FreePik
Creds: FreePik

The survey revealed demands of the curriculum was found to be the biggest barrier to delivering a practical science (44%) followed by time constraints (37%) and student behaviour (33%). Just over a quarter, (27%) said their school did not have enough money to purchase the equipment needed for practical lessons, or they did not have enough equipment (26%).


A total of 800 STEM UK teachers were surveyed for the EngineeringUK School report series. This third report quizzed 398 UK science teachers on the difficulties they faced in delivering hands-on practical science lessons.

Importance of Hands-on Science for Student Engagement 

Becca Gooch, Head of Research, EngineeringUK, said: “We know the frequency of hands-on practical science lessons has dropped. Our Science Education Tracker research in partnership with the Royal Society highlighted this, as well as how critically vital practical science is as a motivating factor for learning science for years 7 to 9.

"Hands-on practical’s help bring science to life for young people and boost interest in science as well as developing important skills. We need more young people, especially girls, choosing to continue with science and progress into engineering and technology careers. So, we need school students to have many more opportunities to get hands-on in their science lessons.”

In 2016, 44% of GCSE students were doing hands on practical work at least once a fortnight. This declined to 37% in 2019 and again to 26% in 2023. Restrictions during the Covid pandemic meant it wasn’t possible for students to do hands-on practical work. However, even prior to the pandemic there was a shift away from both hands-on practical's and watching teacher demonstrations and towards video-based learning.

Recommendations to Support Practical Science Lessons 

EngineeringUK has provided recommendations such as:

• The government uses the opportunity of the current curriculum and assessment review to address the volume of content in the curriculum. We are concerned that this content overload in the curriculum in England has led to the reduction in practical work in science lessons.

• Ensure that practical science is an essential part of the curriculum, and students experience a practical activity in at least half of their lessons

• Ensure that schools have the resources needed to provide students with the opportunity to participate regularly in hands-on practical lessons. This should include the equipment to carry out practical’s and the technician staffing levels to support their delivery.

The Role of Practical Science Lessons in Scientific Inquiry 

Professor Ulrike Tillmann FRS, Chair of the Royal Society’s Education Committee, said: “It is concerning that hands-on science activities are becoming increasingly marginalised, impacting student engagement and understanding of the relevance of science to their lives.

"Experimentation and practical work have always been at the heart of scientific inquiry. Not only do they provide a tangible way to connect what we learn in the classroom to the real world, but they also help with problem solving, teamwork and many other invaluable skills needed for pupils to thrive as future citizens.

“By designing projects focused on issues that matter to them, such as climate change and biodiversity loss, pupils will learn first-hand how scientific advances can address real-life challenges and how they and their teachers can personally contribute. We need to get practical science lessons back into the heart of the curriculum and ensure that resources are there to support teachers so that every student can have authentic experiences of working scientifically.”