Looking in classrooms of today reveals changes in tools, teaching, and learning.
This past week I observed elementary children programming Arduino controllers to turn LED lights on and off. In doing so they researched in technical manuals to figure out how to first connect their circuitry and bread boards together and then set up code to activate the Arduinos. When I visited a middle school class, I watched a teacher working with a specialist to figure out how to use a laser cutter so that students could incorporate this new tool into designing, engineering, and building projects in what once was a traditional shop class. But a visit today makes the point to me that it’s definitely not your father’s shop class. While students do continue to learn to use traditional shop tools such as a lathe or a drill press they put new tools such as 3-D printers and laser cutters in their tool “boxes”, too.
A photo posted by @gschoppa on
Our educational times are changing.
When I walked into an engineering class in one of our high schools, a student 3-D prints parts for a working U-Boat replica while another student focuses on figuring out controller code to fly quad-copters in formation. These learning experiences are ones that radically differ from what young people were accomplishing in high school just a few years ago.
When I visit our schools and see teachers and young people at work, I look for our students’ work to acquire competencies of lifelong learning – a key focus for students graduating from our high schools that moves them beyond passing required courses and tests of Virginia standards. Providing a variety of choices for students to pursue paths to learning is key. While most of our graduates will go into post-secondary education to acquire four-year or two-year degrees or credentials, we know young people will enter a rapidly changing workforce. We know that some jobs will remain important but others will be wiped out by the rise of technologies that will replace jobs we take for granted today. Focusing on citizenship, post-secondary education, and workforce capability are all critical to our children’s education. Understanding the dynamic of coming changes that will result from evolving technologies is a must to educate our young people well.
What’s needed to prepare young people to transition into an adulthood that will bring even more challenges to staying current as lifelong learners? In Albemarle, we believe those skills include both traditions of literate and mathematical thinking but also the capability to create not just consume, to design and make, to pose questions and search for needed information across media, to communicate and collaborate with others to find solutions and complete projects. We also believe its important for students to lead fit and active lifestyles and sustain wellness as they move into adulthood. We label this work in and out of our classrooms as lifelong learning competencies.To accomplish our goals, we see arts, sciences, social studies, language arts, mathematics, world languages, and physical fitness and wellness as remaining important.
Teachers plan for students to engage in work that leads to these competencies.
We assess performance through projects, tasks, and products that represent this work. Our principals look for this work when they observe students and teachers working across our instructional programs. Instructional coaches and learning tech integration specialists assist teachers with professional learning so that strategies that support integration of lifelong learning along with conceptual understanding, knowledge acquisition and skill development embedded in standards-based curricula.
Work to develop lifelong learning competencies can’t be done in isolation of excellent teaching, integration of a variety of learning technologies, and effective assessments of what we expect our young people to learn whether age 8 or 18. This kind of teaching demands that young people analyze, apply, and create as they process what they learn. This kind of learning represents integration of interdisciplinary content that supports students to use skills and knowledge being learned across the curricula.
Reading complicated technical manuals leads to programming Arduinos. Creating a U-boat leads to research about the role of new technologies in World War II and history of naval warfare. Figuring out how to use a laser cutter creates potential to connect the arts, sciences, and technical education.
Just as in other sectors, public and private, our educators today are pressed to learn new skills and incorporate changes into practice at a faster pace than we could have imagined in the twentieth century. Ensuring that our young people leave us prepared for what comes next in their lives demands our attention and time. That’s why we must sustain openness to learning even as we expect that of our children.