STEM for Homeschoolers

Graphic tile by E. Keyser, ACTS Geometry student

What is STEM and how is it different from science or math?

"STEM" or "STEM education" are hot topics right now, but they sound like you're into teaching plants or helping flowers.  The name itself is misleading.  STEM stands for science, technology, engineering and math, all lumped together in a handy dandy acronym.  So - not plants, but math and science loosely glued together?  No, that's not quite it either.  With this post I'm going to break down what STEM is and compare one day's science class versus STEM class.

What is STEM?

Although you can find umpteen definitions of STEM around, many agree on the following: STEM education combines multiple subjects together while using student-centered learning techniques.  It is an effort to bridge the gap between what a pure science class teaches (biology) and the skills a biological research scientist uses in a career (knows biology, but also needs to communicate well, design and test, use math to analyze data, and interact with other scientific professionals).  STEM education has a heavy focus on design, student initiative and "soft" skills such as collaboration, innovation and invention.

What's a real example of the difference between a science, math or computer class and a STEM class?

I teach several high school math and science courses at a co-op to homeschoolers, along with STEM classes, so I experience this every week. Here's the rundown of what happened on a recent day.

Physics class: we are studying periodic motion, and begin a unit on spring systems.  Students sit on chairs around a table and listen while I lecture and use the whiteboard.  I have several visuals to illustrate how springs work.  Students seem like they understand, and I prompt them for where they see springs in everyday life.  I do all my usual "teacher-ey" things to keep students engaged.  We do a lab exercise, where students in small groups measure data about springs.  I review what their lab report should look like.  End of class. The next class will continue with periodic motion.

STEM class:  Early in the year student groups brainstormed areas of interest in any STEM field.  One group picked alternative energy, so this day we are studying wind tunnels.  I arrive with a fan, clear containers and lots of tools.  After a brief lecture on how wind tunnels design, student groups spread out on the floor to make their own models. I walk between groups, making sure everyone is collaborating well.  While each group works, we talk about how to make smoke lines, how a mesh can help reduce wind turbulence, and what kind of turbines might work well.  We also brainstorm about where turbines could be placed.  We pack up and groups take their models home to finish. The next class will test our models and smoke lines.

Let's run that back.  Both classes were valuable.  Physics was concept-centered, and I used strategies to engage students including a hands-on lab.  STEM was also concept centered, but those concepts drew from multiple sciences and design work.  Students chose the topic and drove the flow of class, working with their peers the entire class.  Their end product will be a workable wind tunnels to test turbine prototypes, along with enhanced collaboration and design skills.

In coming posts I'll outline some age-specific STEM opportunities and what some barriers to STEM involvement are for homeschoolers.  If you have any experience with STEM and would like to add to the conversation, drop me a line at marycsaville@gmail.com or on twitter at @marycsaville.

STEM Service Learning: Homeschoolers Gain Collaborative Skills

For seven years now I've taught at a homeschool co-op while my own kids attend public school, and I attended parochial school for 12 years, so I feel like I've gotten a front-row seat to the best of all worlds. I've heard endless debates about which mode of education is best, with lots of stereotypes and suspicion thrown around. My take? There are excellent aspects to each, and each has its own drawbacks. I'd rather skip the esoteric arguments and move right to being part of a solution. If that sounds OK to you, keep reading. If not, go on and post on a debate website somewhere.

My passion is STEM (science technology engineering and math) education. Key elements of STEM ed include group collaborative skills, innovation, and stem concepts through project-based learning. What better place for homeschoolers, who are traditionally more independent learners, to gain experience than at a co-op with other same-aged students?

Last year my 9th and 10th grade Introduction to Engineering students filtered water, built tiny cantilevers, played with polymers and crafted a Wright Flyer out of recyclables. This year many of those same students are in Engineering 2 and we're starting a new effort. It's called service learning, and it's been on my brain ever since I stumbled upon the National Service Learning Partnership's website .

We're embarking on a 20-24 week project (we're 3 weeks in now) called Capstone. In the Capstone projects, teams of three, four or five students will practice service learning and the design cycle. Service learning is a model where educational concepts and teamwork are put to use in projects for the good of the local community. Service learning can happen in any subject - an example would be creating "reading buddies" where older students practice reading skills by working with younger kids.

In the STEM (science/technology/engineering/math) world service learning can happen by student teams designing computer models for churches, inventing products for animal shelters to make their work easier, creating computer applications to help senior citizens, and many other possibilities. Some of these very ideas were proposed last week by student groups.

Some service learning models are student-led, and this is what I'm striving for. Our four class group leaders volunteered for the leads and are doing an admirable job so far. After assembling teams and brainstorming ideas, teams presented their select ideas for feedback. Criteria for Capstone Project approval include meeting an actual need, having a community partner, teacher approval, and of a scope and level of effort to fit well inside a 20-24 week process.

If you are in the Charlottesville, Virginia area, work with a non-profit or community group that has a project, and are willing to partner with some awesome high-school engineering students, drop me a line! Also, if you are interested in supporting our efforts with a donation, that would be much appreciated and would help offset materials costs.

I'll post updates throughout the year on what we cook up.