This past week the rethinkED team participated in a day-long think tank on how to re-invent the American High School, in an effort to develop a proposal for the XQ Super School Project. While I am excited to share some of the ideas we had, today I thought I’d start by thinking about one really powerful idea that kept me thinking long after our session ended:
“Why do we need to know this?”
^ This question is one that often pops up in the classroom. Quite frankly, students often do not see a connection between the abstract and tedious work done in classroom and their lives outside of school, both future and present. This lack of connection is problematic for a number of reasons:
- Without this vital connection, we often encounter the “inert knowledge” problem; students learn something but they don’t know how to use it. This relates more broadly to issues of transfer: how can we help students to use something they have learned in one context, at one time, or on one type of task in a different context, time, or on a different task? I am currently taking a course about Transfer of Learning. While transfer is arguably a main goal of education, research has generally found weak support for transfer. Students often do not learn content in ways that facilitate applying knowledge later in life or in different situations (I hope to talk about this more in upcoming weeks!).
- A second issue is the lack of value assigned to content learned in school. Without understanding potential applications of a skill, students see little value in learning it in the first place. If I don’t value what I am learning, I am less motivated and engaged.
Connecting classroom and community through project and problem based learning…*
With this in mind, I loved hearing this TED talk by Cesar Harada: How I teach kids to love science. He connects science to real community problems, both local and abroad. From developing an invention to estimate plastic in polluted oceans to analyzing seabed radioactivity near the Fukushima nuclear power plant that was damaged in 2011, Harada’s students work on real and relevant work problems in their science classroom. This sort of problem and project-based experiential learning can help students see the relevance of science education. Furthermore, Harada is cultivating a generation of innovators and problem solvers. His classroom is a workshop. Through rapid prototyping with tools, his students have become scientists and inventors. As he says,
“So citizen scientists, makers, dreamers — we must prepare the next generation that cares about the environment and people, and that can actually do something about it.”
THE POWER OF CONNECTION
By connecting science skills to real-world issues, we can increase the relevance of school education and give our students much needed experience in using skills in a meaningful way. As illustrated by Cesar Harada, connecting schoolwork to real life problems has benefits beyond increasing value and transfer; we can empower students to be innovators and problem solvers.
This process of embedding learning in the community and in real, complex problems is something that we hope to include in our XQ proposal. By providing students with a variety of contexts in which their knowing can be directly applied, we can create a more engaging and useful education that has applicability far beyond the classroom…*