Science

Physics has the reputation of being purely about nature, not about people or culture. Physics concepts such as time, space, and mass are often considered to be independent of sociopolitical concepts such as democracy and capitalism. However, physics concepts are not “out there” in the universe, free of cultural values: rather, they are created and sustained by people in specific times and places, for the purpose of addressing particular social needs and empowering particular people.

For this study, we focused on the Ambitious Science Teaching–based teacher talk engaged in by two middle school science teachers to support student sensemaking regarding a phenomenon-based science unit with embedded data visualization and simulation software over the course of a 2-week teaching unit. This descriptive case study identifies how differences in the purpose of questioning impacts the patterns of teacher talk regarding establishing norms in support of the norms of progressive discourse.

Learning about natural hazards and risks through science practices entails considerations of uncertainty. We examined ways in which students expressed their epistemic (un)certainty about claims they made based on their inscription-based science practices.

While citizen science and other participatory approaches to science are increasingly used in schools to promote student science learning, rarely are these students supported to collect, analyze, and share their data with meaningful outside audiences. In this study, we used a Design-Based Research approach to iteratively develop and examine an elementary school-focused community and citizen science (CCS) program that facilitated students’ collecting, analyzing, and sharing forest health data with their forest manager community partners in an area of California, USA facing continual risk of catastrophic wildfires.

Students benefit from dialogs about their explanations of complex scientific phenomena, and middle school science teachers cannot realistically provide all the guidance they need. We study ways to extend generative teacher–student dialogs to more students by using AI tools.

Environmental education is essential for protecting and restoring natural water sources. Integrating education with positive environmental experiences can instill values and stewardship in the public, encouraging proactive steps to preserve and enhance water resources. Elementary teachers can incorporate real-world water-related environmental issues into their classrooms, promoting critical thinking and problem-solving skills. Place-based education, which involves experiential learning in local settings, effectively builds connections between students and their communities. Authentic water-focused climate science learning should anchor in local phenomena, fostering student inquiry and validating student voices.

Educative curriculum materials (ECM) have been shown to support K-12 teacher learning, but little is known about teacher educators’ use of ECM. In this study, we report on enactments of ECM designed to support the development of preservice elementary teachers’ content knowledge for teaching about matter in two different courses to understand how teacher educators use ECM.

Educative curriculum materials (ECM) have been shown to support K-12 teacher learning, but little is known about teacher educators’ use of ECM. In this study, we report on enactments of ECM designed to support the development of preservice elementary teachers’ content knowledge for teaching about matter in two different courses to understand how teacher educators use ECM.

Water scarcity poses a significant global challenge, which is often overlooked, particularly in regions with abundant water resources. This article outlines a curriculum designed for middle school students (grades 6–8) that addresses the dynamics of water scarcity and sustainability through five detailed lessons centered around the water cycle.

Despite a growing effort to integrate students’ civic action projects into science and engineering curricula that address climate change and environmental justice, there are few frameworks that guide teachers and students to make well-informed decisions and actions towards a more just and sustainable future. This article presents a tool, Civic Action Matrix, that characterizes different types of students’ civic action projects. The tool attends to two dimensions of activities that capture important aspects of learning–the development of student agency and understanding the complexity of climate and environmental issues.