The Demo Discussion is a strategy I use to provide an interesting and memorable in-class demonstration of complex concepts that my students will learn about in class on a given day, using a variety of digital resources. The Demo Discussion is an excellent way to promote student curiosity about scientific phenomena. The "demos" provide access points for my students to witness and wonder about complicated chemical processes that they will eventually explore and understand at a much deeper level. By leveraging additional physical and digital tools, I can facilitate in-depth analysis and support the development of models to explain the science behind the demo. This strategy also allows me to surface my students' questions and interests about the day's Learning Targets (please see the "Learning Targets" strategy video), to which I can refer and make connections throughout our exploration of that content.
Truly understanding science requires my students to think in ways they might not have experienced before. Conceptualizing something that our eyes can't always see is difficult, and so it's valuable to provide graphic organizers, visual models, and other support tools as resources that my students can access while diving into content. One of the richest ways to get students to build their own methods and approaches to solving problems is to allow them to think on paper. Lessons involving direct instruction are always broken into small segments with short, casual writing periods built into the end of each one. These Quick Write Summaries are meant to focus on content construction and are free of structural analysis. I don't grade them, but I'll always help students put together their thoughts and present them with questions that guide them to the answer. Writing-to-learn strategies like the Quick Write Summary help visual learners with long-term comprehension of scientific terminology and sets the stage for students demonstrating their knowledge through writing in future assessments.
Communicating and collaborating with both colleagues and students' families is crucial in a blended environment. This is especially true if a teacher is doing something that looks very different from other teachers at his school. Check out how Jeff communicates and collaborates with both his colleagues at school and his students' families and how his methods of communication and collaboration have evolved over time.
Many of our students come to us far below grade level, some still struggling with adding and multiplying. To support these students, my co-teacher Mr. Elizondo developed an alternative program for students not prepared for high school level standards. While we want every student to work their way through the high school geometry curriculum at their own pace, we felt that our class would become prohibitive and demoralizing for students with low skills or severe learning disabilities. In the alternative program, my students work at their own pace through a series of worksheets that meet the same standards as you would see in a high school geometry curriculum except the difficulty has been adjusted to make it attainable for students in the program. The Alternative Mastery Program is a step towards greater personalization of the curriculum to meet all of my students' needs.