Science

In this study, we present a conceptual tool for guiding teachers’ principled pedagogical actions toward equitable instruction, referred to as the Transforming Science Learning (TSL) framework. The TSL framework was developed to address the challenges of enacting an ideological commitment in local contexts–promoting equity and justice through culturally relevant pedagogy (CRP) in K-12 science classrooms. TSL consists of five design principles that articulate the goals (the ‘why” of practice), instead of prescribing pedagogical activities (the “what” of practice).

Black and Brown girls are underrepresented in science, technology, engineering, and math (STEM) fields. Although studies have examined the reasons for this by exploring Black and Brown girls' experiences based on culture, gender, and race, there is a need for specifically understanding how language contributes to racialized experiences in science education. This study fills this critical gap by presenting narratives of three academically talented multilingual girls from Black and Brown communities.

An ability to engage in system thinking is necessary to understand complex problems. While many pre-college students use system modeling tools, there is limited evidence of student reasoning about causal relationships that interact in diverging and converging chains, and how these affect system behavior. A chemistry unit on gas phenomena was implemented in two successive years with 73 high school students. Although the phenomena could be explained with simple linear causal reasoning, many student models included surprising and problematic causal chains and non-linear patterns.