Sensemaking has been advocated as a core practice of science education to support students in constructing their own understanding through a prolonged trajectory. However, the field lacks a discussion of teaching strategies that can better support students as they develop in the trajectory of sensemaking, which includes four phases: initial…

The creation and use of models in science is of great importance for knowledge production and communication. For example, toy models are often used as idealized explanatory models in physics education. Models can be a powerful tool for exploring phenomena in ways that facilitate learning. However, careful consideration of instruction and…

As models of how students' thinking may change over time, learning progressions (LPs) have been considered as supports for teachers' classroom assessment practices. However, like all models, LPs provide simplified representations of complex phenomena. One key simplification is the characterization of student thinking using levels--that is, the…

In this paper, we outline how science teachers might engage in the work of creating educational equity. While acknowledging the historical inherent inequities associated with issues of access, opportunities to engage in science learning for individuals of marginalized identities (e.g., BIPOC individuals and women), and achievement, we broaden this…

Learning in Science, Technology, Engineering, and Mathematics (STEM) is challenging, leaving many students to give up on these subjects. Specifically, females are underrepresented in STEM industries. Identifying how male and female students deal with STEM learning challenges, and how this relates to learning outcomes, may inform teaching that best…

Research suggests that translanguaging can be transformative for teaching and learning by making students' diverse linguistic resources a meaningful part of classroom discourse. Building on this study, researchers have explored how translanguaging practices can support learning in STEM (science, technology, engineering, and mathematics), primarily…

Agency has been used as a lens to focus on how educators learn through pedagogical risk-taking, advocacy for curricular reform, and resisting policies that are not focused on the needs of students. We explored the role of agency as 65 preservice science teachers created learning opportunities for themselves during their clinical placements.…

In this qualitative case study, we purposively selected a passive student in elementary science class from a small group and examined what factors contributed to her socially and momentarily construction of epistemic emotions. We used various data such as emotion diaries, transcripts of the video recordings, postlesson interviews, and field notes…

This study examines how middle school students develop an increasingly coherent understanding of aquatic ecosystems. As part of a broader design research study that used Structure-Behavior-Function (SBF) theory as an organizing conceptual representation, we created two instructional units that focused on pond and aquarium environments. We coded…

In formal learning spaces, students must navigate making meaning of both new knowledge and potentially new worldviews. In this qualitative grounded theory study, we examined how adult Buddhist monastic students learned about and described the origin of biodiversity in an introductory biology course. The study was conducted at a Tibetan settlement…

We previously proposed a hypothetical learning progression around the disciplinary core idea of the Solar System and its formation as a first step in a research program to begin to fill this gap and address questions of student learning in this domain. In this study, we evaluate the effectiveness of two dimensions within the learning progression,…

To evaluate the recent advances in learning progression (LP) research and identify future research directions, we reviewed LP literature from 2006 to 2018. Through a systematic search of Web of Science databases and key journals, we located 130 LP articles published between 2006 and 2018. Among these articles, we reviewed 86 studies. The review…

We examined the conversational reflections of 248 families with 6-11-year-old children shortly after they visited a tinkering exhibit. Our aim was to understand the conditions of tinkering and conversational reflection that can enhance STEM learning opportunities for young children. Some families visited the exhibit when there was a design…

Science education reforms focus on the integration of three dimensions: disciplinary core ideas (DCIs), scientific and engineering practices (SEPs), and crosscutting concepts (CCCs). While research has examined the role of DCIs and SEPs in teaching and learning, little research has explored how the CCCs might be integrated. This research proposes…

Schwarz and colleagues have proposed and refined a learning progression for modeling that provides a valuable template for envisioning increasingly sophisticated levels of modeling practice at an aggregate level (Fortus, Shwartz, & Rosenfeld, 2016; Schwarz et al., 2009; Schwarz, Reiser, Archer, Kenyon, & Fortus, 2012). Thinking about…