Learning through place-based, student-centered, teacher-facilitated STEM inquiry increases student engagement in and ownership of learning and promotes student growth in science and engineering practices, disciplinary core ideas, and crosscutting concepts. Using a unit plan I developed for exploring local microclimates, participants will engage in activities and discussion of techniques for cultivating students as collaborators in the learning process. The unit is designed to encourage growth in asking questions, designing and conducting investigations, collecting data, making sense of data, communicating findings, and identifying local problems and designing solutions to a student-identified problem. Participants will use NASA infrared images of surface temperatures captured during an ISS mission to observe the urban heat island phenomenon. They will explore Google Earth to spark questions about surface heating that can be answered through investigation of the local neighborhood or school campus. Given a list of equipment that students used during the unit, participants will collaboratively design an investigation to collect place-based data. Discussion includes extension activities that facilitate student understanding of surface heating and cooling. Discussion also includes how revision and reflection can be used to monitor individual student growth and promote ownership of learning by students. Emphasis is on facilitation techniques.
TAKEAWAYS:
Learning through place-based, student-centered, teacher-facilitated STEM inquiry increases student engagement in and ownership of learning and promotes student growth in science and engineering practices, disciplinary core ideas, and crosscutting concepts.
SPEAKERS:
Loris Chen (Science Education Consultant: Fair Lawn, NJ)