Is Your STEM the Real Deal?
A MiddleWeb Blog
I’m passionate about STEM – a process that offers students a chance to make sense of complex things and helps them connect their learning across subject areas. Another of my passions is professional learning teams – how teachers can work productively in teams to improve instruction. I’ve written a book about that, and I conduct workshops with teachers working in community to solve student problems and meet learning needs.
One thing I notice about PLC initiatives as I work with teaming is that PLCs have morphed into a variety of styles, some better than others. I worked with one system that mandated PLCs in every school. Rather than giving schools firm guidance, the system left it up to the schools to decide how PLCs would “look.” Schools struggled to get up to speed. Several established teacher teams and gave them time to meet during the school day. In another school, I learned, “Our faculty meeting counts as a PLC.”
Still another school decided that if two or more teachers met at lunch and discussed instruction – while monitoring students – those teachers could count that as a PLC meeting. Some mandated school improvement meetings were labeled as PLC meetings. So PLCs have taken on many faces – with a lot of schools and professional staffs just going through the motions as they wait out the latest “fad.”
The same thing could happen to STEM. Chances are, it’s already beginning. I know for certain that some schools/systems believe they have STEM programs if one subject (usually science) in the school teaches lessons officially labeled as “STEM.” Some believe they have STEM if they let kids make roller coasters or Lego robots in an after school program. Those kinds of things certainly include STEM components, but I wonder, is the meaning of STEM beginning to be diluted, from a rich stew to a thin soup?
The Ingredients of a Good STEM Stew
Different looks and approaches can be good, depending on what they accomplish for students and for the workforce. However, there ought to be some basic core principles around which STEM programs revolve.
What, exactly, makes a particular curriculum an authentic STEM program?
The answer is up for grabs in some areas, but STEM programs should focus on attaining the following 10 outcomes at the very least. That doesn’t mean that every one of these outcomes must be in place at the launch of a program, but they should be present as the program matures. They sum up the basics of solid STEM programs and represent the “bonus” or “value added” that comes from doing STEM right. Check these out and see how many your STEM program already has in place:
Basic Outcomes of Real STEM programs
1. Students gain a deep understanding of the content areas. Depth is more evident than breadth as students learn rich content that they will apply in future careers. (STEM Bonus: Students may gain real understanding of concepts rather than just knowing facts.)
2. STEM areas (science, technology, engineering, and math) are interconnected and integrated. Students are able to identify and integrate concepts and skills from content areas to understand and solve complex problems. (STEM Bonus: This will give students a reason to learn content that once seemed useless.)
3. Engineering is a driving force behind STEM challenges. The engineering design process provides an organized structure that students use in solving challenges. (STEM Bonus: There’s a high probability that students will learn how to think through problems if they use this process frequently.)
4. STEM students work to solve real-world problems. Students apply problem solving and design skills across the interrelated STEM disciplines to address real social, economic, and environmental situations in their local and global communities. (STEM Bonus: Students may actually grow up to solve some of these problems.)
5. Teachers facilitate STEM learning through hands-on inquiry and exploration. STEM teachers use inquiry-based, firsthand investigations that encourage critical thinking, problem solving, and teamwork. (STEM Bonus: This way of teaching may spread throughout the school!)
6. STEM involves teamwork. A glance in a classroom where students are involved in a STEM project will reveal students working together in teams to solve problems. (STEM Bonus: Teamwork builds skills that will be useful in almost every area of their lives.)
7. Students feel comfortable working with technology. Students view technology as more than computers; technology includes all tools used to make life easier and better. (STEM Bonus: School may be a place that feels up-to-date and students enjoy coming.)
8. Students understand how their STEM coursework relates to future careers. They believe that STEM skills are vital to their success as 21st century workers and vital to our collective future. (STEM Bonus: Students who engage in STEM coursework may become leaders who improve our economic growth, national security, and our future.)
9. Teachers are active learners. Teachers have access to, and time allotted for, collaborative professional development that sharpens their STEM knowledge and inquiry teaching approach. (STEM Bonus: Teachers may become less isolated in silos and more likely to spread expertise.)
10. The community is supportive, including both parents and private industry. The STEM program has strong leadership, sufficient resources, and support from parents, businesses, higher education, and/or private industry. (STEM Bonus: The community may find out about the good things your school is doing.)
You can find more about what goes on with outstanding STEM initiatives at these websites:
If you know of a STEM program with some successful components, tell us about it here or share a link to the site.