On behalf of BEAM with Perry, Liz, and Emily, I had the opportunity to participate in a panel, which was part of a 4-day teacher workshop, Engaging Young Minds. The audience of about 100+ mostly consisted of elementary school teachers. With the new state standards putting emphasis on the engineering design process and STEM in general, it is understandable that many educators feel anxious and slightly intimidated. I thought back to elementary school, when my teachers at each grade level were required to teach absolutely everything - Science, Math, English, History... even when they probably didn't specialize in that particular field! By introducing educators to BEAM and sharing our elementary school experiences with science, our goal was to show that science isn't such a terrifying subject. Science provides a plethora of opportunity to learn and enlivens curiosity within young children.
When we arrived at the venue, the first thing I noticed were the packages filled with indiscernible objects near front of the auditorium. I later learned that these materials were provided by Trash for Teaching. Educators were working on a hands-on project during the workshop with the materials. I loved the message conveyed: you can learn science with simple, everyday materials. There's no need to be spending big bills on fancy, enigmatic equipment.
The packages supplied by Trash for Teaching. |
- Presentation time! We opened up the panel by introducing some of the departments within the School of Engineering, transitioning to a brief talk on the Blackawton Bees study (all done by kids ages 8-12), introducing BEAM, and then sharing our experiences with science when we were in elementary school.
- Demonstrations of some of BEAM's showcase lessons: stomp rockets, microscopes, zip-line balloon racers, rubber band cars, and lung models.
- Concluded with a fabulous Q&A session.
Many of the teachers were intrigued and impressed by BEAM's student-designed lesson plans. Some spontaneously asked me for advice and feedback on their current lessons. How can I include hands-on experimentation with a topic like ecology? How should I have them better understand the concept of erosion? I then recognized my broad knowledge of science, creatively thinking of ways for elementary school teachers to incorporate the engineering design process in their curricula. It also delights me that teachers were interested in having passionate BEAM mentors visit their classrooms and work with their students.
After the panel, I reflected more about my education as a kid. In elementary school, I really did have great instructors who encouraged me to experiment with science and discover new things - we had science fair projects and Elmer's tri-fold posters to work with, hands-on activities with rocks and minerals, astrocamp... I definitely liked science when I was younger and realized how ubiquitous it is. The funny part: while this should have prompted me to pursue a degree in STEM fields, the fact that science is everywhere scared me. It felt like too much for me to handle at that time. Math and science were probably my weakest subjects when I was younger, and I didn't have the mindset to pursue those subjects then. I surprised myself when I selected Electrical Engineering as my major on all my college applications two years ago. So what happened in-between?
The major change took place in high school. Ironically, I was part of a humanities-based program in high school which put a lot of focus on writing. Every day, I was writing... writing about Nietzsche, Danto, existentialism, Jared Diamond's Guns, Germs, and Steel, and the list goes on. All this extensive writing fostered my critical thinking skills and helped me become a better communicator, and I am beyond thankful to my high school education for providing me these skills. I was also very lucky to have some great math and science teachers in high school. Three years of math with Mr. Butler and one year of physics with Ms. Blumfield (but really two years, considering how much I visited her classroom in senior year) sealed the deal for me. Despite some ridiculous homework problems (would I really slide my book on an icy surface and then calculate the conservation of momentum?), great instruction from 10th to 12th grade made me love physics and math. I even surprised my self by opting to self-study for AP Physics C in senior year.
While the discussion on Thursday did claim that students tend to make a decision about whether or not they like science in 3rd-5th grade, I know that there people like myself who didn't decide to pursue a career in STEM until their late teens. I never quite realized how the people around me played such a critical role in inspiring me about STEM, leading me to choose the career path I am pursuing today.
The lovely view from the 3rd floor of Boetler Hall. |