On Friday, I was so pleased to be able to return to one of my favorite days of the year, High-Interest Day at Brookfield Elementary School. This is a day where I have been able to bring the concepts of physics to k-5 graders. You may be asking yourself, "Elementary students doing physics?" YES! Not just experimenting, but understanding the concepts behind the physics of electricity and sound. This is a very special day I have had the opportunity to be involved in since 2017. So, how are we able to bring the concepts of electricity and sound traditionally taught to high school 11th and 12th graders to the elementary level? There are a few keys 1) make it a hands-on experience 2) remove the mathematical calculations and make it practical. In the past, I had the luck of bringing a handful of my physics students with me to guide the elementary students through the concepts that they had learned over the course of the year. But in my new role as a Teaching and Learning Speciali
Over the past year, I have been gradually working to implement the Next Generation Science Standards (NGSS) into my classroom. Our new Wisconsin State Science Standards were designed with the NGSS in mind. They align very well, so please forgive me if my language focuses on the NGSS in this post. As I design lessons aligned the standards, I am considering to the skills students will be implementing that carry across multiple units. This relates to the Science and Engineering Practices contained in the standards . I am looking at the technology tools that can be used to leverage these practices. While there are 8 different practices and I hope to delve into each one and the technology tools that can help learners in each, this post will only focus on one practice. That practice is Developing and Using Models . As the name indicates, there are two major components to this practice 1) developing models 2) using models. Before looking closer at each one, we need to look at how a model is