The CRIS “7e” lesson plan template, adapted from the Next Generation Science “5e”, centers the importance of including Elders and Environment in Indigenous STEM teaching and learning. The template is a way for teachers to weave Traditional Ecological Knowledge (TEK) and Western Science into lessons, and has been formative in helping team members integrate community knowledge and land-based education into science learning experiences.
Full proposal deadline for: Adaptation and Partnership (FY 2020 competition)
Students with learning disabilities display a diverse array of factors that interplay with their mathematical understanding. Our aim in this paper is to discuss the extent to which one case study elementary school child with identified learning disabilities (LDs) made sense of composite units and unit fractions. We present analysis and results from multiple sessions conducted during a teaching experiment cast as one-on-one intervention.
We report on the use of bilingual constructed response science assessments in the context of a research and development partnership with secondary school science teachers. Given the power that assessments have in today’s education systems, our project provided a series of workshops for teachers where they explored students’ emergent reform-oriented science meaning-making in our project-designed assessments.
In this article, we turn our attention to context-based approaches to science instruction. We studied the effects of changes to a set of secondary science teacher education programs, all of which were redesigned with attention to the Secondary Science Teaching with English Language and Literacy Acquisition (SSTELLA) instructional framework, a framework for responsive and contextualized instruction in multilingual science classrooms. Contextualizing science activity is one of the key dimensions of the SSTELLA instructional framework.
In this paper, I theorize reciprocal noticing as a relational practice through which teachers and students exchange roles as knowers by reciprocating each other’s noticing as they study mathematics concepts. Findings from a unit on measuring time implemented in two classrooms with non-dominant students illustrate how teachers and students—through their reciprocal noticing—mobilize concepts back to previous understandings and forward to possible new meanings.
This study is focused on engineering for sustainable communities (EfSC) in three middle school classrooms. Three in‐depth case studies are presented that explore how two related EfSC epistemic toolsets—(a) community engineering and ethnography tools for defining problems, and (b) integrating perspectives in design specification and optimization through iterative design sketch‐up and prototyping—work to support the following: (a) Students' recruitment of multiple epistemologies; (b) Navigation of multiple epistemologies; and (c) students' onto‐epistemological developments in engineering.
This study uses a mixed-method sequential exploratory design to examine influences on urban adolescents’ engagement and disengagement in school. First, we interviewed 22 middle and high school students who varied in their level of engagement and disengagement. Support from adults and peers, opportunities to make choices, and external incentives aligned with greater engagement. In contrast, a strict disciplinary structure, an irrelevant and boring curriculum, disengaged peers, and lack of respect by adults coincided with greater disengagement.