Developing Student STEM Skills

Developing Student STEM Skills
Posted in: Blogs


Pedagogical analysis around the world is filled with a variety of critiques on the balance between the learning of knowledge and the learning of skills, where polarised views are often pitched against each other. In real terms within our education systems, is it this black and white? Is it one or the other?

The answer is not simple and is a balance between the two which flexes in different contexts and situations. But rather than tackling this directly, let us consider the importance of the skills themselves, what we mean by skills, and then explore how a skills-versus-knowledge balance might work.

Each subject specialism teaches a core skillset that is relevant to that subject matter. In this case, the context of those skills is directly related to the requirements of that specialism. For example, in D&T we teach hand-tooling skills, sketching skills, digital design skills; in Science, we teach skills on practical methodology, dissection, and the safe use of chemicals. These skills have generally existed since those subjects were first established and have evolved alongside the advancement of technologies in the equipment we use.

Without dismissing or diluting those practical, subject-related skills, our industries are calling out for the development of a broader skillset – a skill set that applies to multiple contexts and translates across a variety of subject matters. These skills have been given many names – least of all, the demeaning term “soft skills”, but also known as 21st-century learning skills and workplace readiness skills. Regardless of the term used, they all reflect an ethos of adaptability, accountability, and originality that is required to solve complex, socio-technical problems that we are yet to face.

These skills are often grouped further into collectives, but again, they largely follow the same theme. There has been much written on the 4Cs (Creativity, Communication, Collaboration, and Critical Thinking – also sometimes extended to 6Cs or 7Cs) and the 3Rs (Risk-Taking, Resilience, and Reflectiveness), but they all tend to include the following key elements:

  • Critical Thinking – also sometimes extended to 6Cs or 7Cs) and the 3Rs (Risk-Taking, Resilience, and Reflectiveness), but they all tend to include the following key elements:
  • Creativity – the ability to use your imagination, nurture original ideas and make something (whether tangible or intangible).
  • Problem solving – the ability to fix things – whether physical, technical, sociological, political, environmental; or even conceptual or hypothetical – using tools such as “five whys” and root cause analysis to develop a deep sense of curiosity.
  • Emotional intelligence – the ability to recognise and control your own emotions as well as read those of others to build positive environments and scenarios, in which you can live and thrive amongst others. To varying degrees, we as humans require an element of control and empowerment within our natural chaotic environments.
  • Entrepreneurship – a set of skills that allow you to understand commercial viability (whether a product or service solution), which can work financially within the commercial nature of most local and global economies. Although many of these skills are linked to risk, entrepreneurship is directly linked to the appreciation and management of financial risk, both personally and professionally.
  • Working relationships – workplaces and personal lives require people to work in different ways; individually, in small groups, in large groups; often involving several different dynamics.
  • Communication – linked to many of the skills above, communication skills are essential for human beings to interact efficiently and effectively – across a variety of situations and contexts. Whether it is the ability to present a new solution to a room of peers, negotiate a working group through a set of problems towards making a decision, or translate an original concept or idea to a different specialist area within an organisation, the ability to communicate accurately and concisely is highly valuedAll of these skills are inherently linked, not just by their “soft”,  

All of these skills are inherently linked, not just by their “soft”, less tangible nature, but also by the fact that they are not easily measured. However, there is an importance from industries around the world, who accept today’s students into their workplaces, which suggests we cannot ignore them simply because measurement is tricky.

Continuing from the difficulty of their measurement, the ultimate solution must include a top-down approach – not just measuring school and student performance by exam sessions and non-examined assessments and submissions, but by other metrics which consider a student’s rounded, personal, and skill-related development.

Many schools achieve skills development through different structures; by providing real-world context to topics, employing a project-based approach, and by actively developing a facilitation methodology that nurtures students through a process of self-led discovery. These approaches are largely validated by industry and reflect styles of working that students will encounter as they progress from the classroom into the workplace.

WF Education and TSL understand the connection between physical learning spaces, relationships, methods of interaction, and the whole learning experience. The challenge of twenty-first-century learning is in creating environments and spaces in which teachers can teach and learners can learn most effectively to succeed.
Learning takes a dynamic form when students have the opportunity to practice what they’ve been taught. Since no one can predict how education, technology, and teaching modalities will evolve, learning spaces must have the ability to adapt to whatever changes the future may hold. To achieve this flexibility, WF design studios have movable furniture and flexible systems that can be easily reconfigured to support different applications.
These learning spaces allow equitable access to quality learning tools and technologies and include space for group, team, and individual learning.

The tussle between knowledge-based and skills-based learning will likely end in a balance – resulting in having enough information and knowledge which provides the context to develop a relevant skillset; a skillset that allows a student to adapt and navigate around a rapidly evolving world. In turn, the solution is then based on personalisation and differentiated learning – recognising that students have different needs to build their futures.


Matt Evans
Innovation Specialist – STEM

Want an environment where skills and innovation can flow, and students can flourish?

If you would like to talk to us about developing a 21st-century learning space in your school – get in touch for a no-obligation consultation today:

t: +44 (0)7736 920 529 
e: [email protected] 

8 view(s)