Kids in Space has always incorporated STEM education (science, technology, engineering, and maths) as part of its delivery since we opened for business in 2013. Many now wish to add Art as a component to the mix of skills required. We are all now to attach STEAM (or STEMA if you hail from the UK) as the label describing the subjects we cover during our workshops. Whichever side you come down on, here are some ideas for you to mull over.

First, consider the why and what of STEM education. Both private and public sectors report that 21st-century workers require skills that many of today’s graduates don’t have. Students need more in-depth knowledge of math and science, plus the ability to integrate and apply that knowledge to solve the challenges facing our nation. Children who study STEM also develop a variety of skills that are essential for success: critical thinking and problem solving, creativity and innovation, communication, collaboration, and entrepreneurship, to name a few.

What takes place when a quality STEM program is taught?

1. The context is motivating, engaging, and real-world.
2. Students integrate and apply meaningful and important mathematics and science content.
3. Teaching methods are inquiry-based and student-centered.
4. Students engage in solving engineering challenges using an engineering design process.
5. Teamwork and communications are a major focus. Throughout the program, students have the freedom to think critically, creatively, and innovatively, as well as opportunities to fail and try again in safe environments.

STEM, then, is a specific program designed for a specific purpose — to integrate and apply knowledge of maths and science in order to create technologies and solutions for real-world problems, using an engineering design approach. It’s no surprise that STEM programs need to maintain an intense focus.

Recently, the idea of adding the arts to STEM programs has been gaining momentum.

1. From STEM proponents: STEM lessons naturally involve art (for example, product design), language arts (communication), and social studies and history (setting the context for engineering challenges). STEM projects do not deliberately exclude the arts or any other subject; rather, these subjects are included incidentally as needed for engineering challenges.

The focus of STEM is developing rigorous maths and science skills through engineering. How can you focus on other subjects (such as art) without losing the mission of STEM or watering down its primary purpose?

2. From arts proponents: Engineering and technology can certainly serve the artist and help create art. But if we’re talking about how one can use art in engineering… as an artist, it seems we’re missing the point and devaluing, or not realizing, art’s purpose and importance. We have it backwards.

The arts are a great learning tool and can serve to boost enthusiasm for STEM underrepresented students. Engaging students’ strengths using art activities increases motivation and the probability of STEM success. Art can offer more diverse learning opportunities and greater access to STEM for all types of learners.

Art also provides diverse opportunities for communication and expression. In our technically/technology-focused world, we have a responsibility to educate the whole child to become a global citizen in his or her community. We should always aim to do just that while staying true to the specific purpose of STEM education.

How Do We Solve the STEM vs. STEAM (STEMA) Conundrum?

Let’s circle back to the question of how to include the arts in STEM in an authentic way. We could change the scope of STEM so that it focuses equally on learning in all subject areas—but why do that? We already have effective teaching methods for doing that: problem-based learning.

Let’s task another question. Can we combine art with just one of the STEM subjects? Perhaps science, and ignore meaningful subjects like maths and engineering. We certainly could, but that would be just art and science, not STEAM (STEMA).

What about having students do individual STEAM (STEMA) projects? Again, that’s not faithful to basic STEM principles, which always include teamwork. So would that be STEAM (STEMA) or just a good individual project?

We should shape STEAM (STEMA) programs by exploring opportunities where art naturally fits in the STEM arena. Art can be treated as an applied subject just like maths and science. Here are a few ideas for giving STEM projects some STEAM:

Design. Art can serve a practical function. Students might apply design and decoration to products that were created during the course of a design challenge. They could use computer graphics to create logos or stylized designs to include in communications or presentations. Through industrial design, students could improve the appearance, design, and usability of a product created during a STEM project.
Performing arts, such as drama and speech. What about technical or persuasive writing? Those arts fit naturally into the “Communications” stage of the engineering design process. They would work well as part of a STEM project. (If you want students to get REALLY ambitious and creative, check out this video of students in Paraguay who made instruments out of discarded materials!)
Creative planning. As students brainstorm solutions for an engineering problem, encourage them to adopt a playful, inventive, artistic approach. Calling on their artistic right brain can help them to generate more creative and innovative thinking.

A word of caution, though. Art is often touted as a method of adding creativity to STEM—but keep in mind that engineers are rarely lacking for creativity and ingenuity. Just look at the world around you for proof. The purpose of STEAM should not be so much to teach art but to apply art in real situations. Applied knowledge leads to deeper learning.

A STEM (STEMA) program is just one part of a child’s education, focusing on maths and science. But our children need a well-rounded, quality education that enables them to make informed decisions that will impact the world and the way they live.

We need students who are motivated and competent in bringing forth solutions to tomorrow’s problems. When push comes to shove, it’s not STEM vs. STEAM (STEMA) —it’s about making every student a fully-literate 21st-century operator.

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