STEM stands for Science, Technology, Engineering and Mathematics. STEM is important because it is present in every part of our lives. Science is everywhere in the world around us. Technology is continuously expanding into every aspect of our lives. Engineering is the basic design of roads and bridges, but also tackles the challenges of global warming and environmental change. Mathematics is in every occupation. By exposing yourselves to STEM you will hopefully develop a passion for it and hopefully pursue a job in a STEM field. STEM education provides you with a well-rounded foundation of skills to help you understand a wide range of concepts and thrive in many industries.
Backbone of civilisation
Science, Technology, Engineering and Mathematics are the foundation of our technological society. Industries and the economy in general are dependent on these complex and multi-layered systems that are taught in STEM subjects.
Solid intellectual foundation and learning experience
STEM subjects provide the foundations and tools for future scientists, inventors and engineers. The STEM approach is very hands-on and can be a fun way of learning. This practical approach to learning can help you to retain information and understand concepts.
Problem solving skills
Even if you don’t want a career in a STEM subject, the STEM curriculum can help you to become analytically minded. This scientific mind-set goes a long way in helping you to solve many types of problems, not only in the workplace but life in general.
STEM problems require you to quickly work to make sense of problems as they are presented, and work productively to propose real and appropriate solutions.
STEM requires the ability to look at and propose solutions to a problem through multiple approaches, including ones that are highly creative or “out-of-the-box.” In STEM, mistakes and failed attempts are positive experiences, offering opportunities for deeper learning.
The mathematics and science skills you are learning in school are the foundation of STEM and must be applied in pursuit of solutions. The math and science used to solve problems will connect to and extend your coursework, as well as highlight connections between ideas and subject areas.
In solving STEM problems, the use of engineering-design thinking is vital. In this kind of thinking, you must identify the problem at hand, research potential solutions, build prototypes, test, redesign, test again, and iterate further as needed. Each step in the process moves you closer to creating a functional solution.
Effective STEM learning requires you to analyse information, evaluate designs, reflect on your thinking, synthesize new ideas, and propose creative solutions. All of these skills are vital to becoming an independent, critical thinker.
Big challenges are rarely solved by individuals. Working on STEM problems also involves learning to work as a productive part of a collaborative team.