Science

Science instruction in elementary school provides a base for student understanding of the natural world, yet policies prioritizing mathematics and reading have marginalized science. In response, some teachers have enhanced their science instruction by introducing students to participatory science (PS) projects. Using data from a larger study that examines the development of educative support materials for two existing PS projects, this embedded mixed methods study focuses on teachers’ and students’ experiences learning outdoors.

This study centers the idea that it is not just what science teacher educators (STEs) teach, but how they teach it, that matters. To prepare future teachers who can enact more equitable and transformative reform-oriented science instruction with multilingual learners, research must explore what STEs are doing, and how, to develop preservice teachers' expansive views of language and understandings around the nuanced ways students might use their diverse language repertoires for sensemaking.

Science instruction should involve learners in generating and warranting ideas, what we call epistemic generation. In modeling instruction, epistemic generation should be achieved by coordinating a model structure with the experienced world in reciprocal directions denoted as developing models and using models. In the former, a model structure is shaped from experience. In the latter, experience is shaped by a model structure. Focusing on this latter direction, the present study combats the perception that using models is not a generative practice but merely the dutiful application of others' ideas.

Science instruction should involve learners in generating and warranting ideas, what we call epistemic generation. In modeling instruction, epistemic generation should be achieved by coordinating a model structure with the experienced world in reciprocal directions denoted as developing models and using models. In the former, a model structure is shaped from experience. In the latter, experience is shaped by a model structure. Focusing on this latter direction, the present study combats the perception that using models is not a generative practice but merely the dutiful application of others' ideas.

Engaging students in scientific modeling practice is critical for developing their competence in using scientific knowledge to explain phenomena and design solutions. Student-drawn models are frequently used to investigate students’ proficiency in scientific modeling. However, scoring student-drawn models is time-consuming and requires technical expertise. The recently released GPT-4V(ision) provides a unique opportunity to facilitate the automatic scoring of scientific models with its image classification capability.

American science education leaders play critical roles in promoting equity in education, but little is known about how they understand everyday classroom interactions where inequities related to intersectionality are evident. This study examines science leaders' sensemaking about a scenario depicting the experiences of a group of American Black girl elementary students in an engineering design lesson, focusing on what leaders notice and how they propose to intervene to address problematic aspects of the students' experience.

Preservice elementary science teachers' beliefs and practices influence the kinds of adaptations they make to curriculum materials and the extent to which they are able to enact justice-oriented science lessons. Through this qualitative study, we explored the beliefs and practices of five focal preservice teachers through an analysis of their lesson plans, recorded enactments, and interviews about their science teaching throughout their student teaching experience.