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These narratives explore what it might entail to begin school–university partnerships towards the goal of transformative social changes through the voices of two women scholars of color. Using two school–university partnerships as focal cases, we unpack the complexity, tensions, and possibilities that arise through collaborations driven by the objective to promote new and more just forms of science learning within public schools.

Despite the increased availability of curricular resources intended to support teachers to engage in equitable instruction as expected by the Next Generation Science Standards (NGSS Lead States 2013), teachers are still left wondering how to use those generic resources in local classroom contexts that have unique challenges.

Uvvatuq naluallangniaqtugut (I humbly hope we run into game) is a phrase an Iñupiaq person would say before going out hunting in the Selawik dialect. We believe all things have a spirit, including animals. If a hunter announces they are going out hunting, the animal spirits will hear that and the hunter may have bad luck. Another phrase said in English is “I am going out for a ride.” The University of Alaska Fairbanks (UAF) was awarded a grant from the National Science Foundation.

In this chapter, we argue that the learning sciences and science education have coevolved, a co-evolution that began with the emergence of the learning sciences in the 1990s and that continues today. Our chapter begins with a discussion of four areas of educational scholarship in which the learning sciences and science education have worked in mutually beneficial ways to shape each other’s scholarship, resulting in advantageous outcomes for both fields.

In this paper, we share the design and impact of a set of two-hour online mathematics professional development modules adapted from face-to-face video-based materials. The “Video in the Middle” (VIM) modules are aligned with principles of authentic e-learning and can be combined in a variety of ways to form professional development pathways that meet the unique needs of a wide range of professional learning settings and contexts. VIM modules aim to support teacher noticing of student thinking and increase their mathematical knowledge for teaching.

The worldwide COVID-19 pandemic has highlighted the importance of mathematical models in predicting the spread of the coronavirus (Srinivas 2020; Stevens & Muyskens 2020) and assessing the effectiveness of various safety measures in reducing that spread (Li et al 2020). These models can be extremely sophisticated, drawing on the expertise of applied mathematicians, epidemiologists, public health experts, and others, but at its core, there is a notion of exponential growth that is relevant for the secondary mathematics curriculum.

This study explores two teachers participating in professional development workshops implementing SocioScientific Issues (SSI) into STEM classrooms. Two research questions were investigated: (a) To what extent did teachers implement SSI into their lesson plans and (b) In what ways did lessons change from the beginning of the workshop?

This study explores two teachers participating in professional development workshops implementing SocioScientific Issues (SSI) into STEM classrooms. Two research questions were investigated: (a) To what extent did teachers implement SSI into their lesson plans and (b) In what ways did lessons change from the beginning of the workshop?

We explored how preservice teachers in a middle school science methods course learned and applied computational thinking (CT) concepts and activities during a month-long
intervention. In the intervention, preservice teachers learned about CT concepts through an hour-long lecture in their methods class, practiced a computing-integration activity for