Scientific misinformation and disinformation, proliferating via the internet and social media, are now significant problems. Proposed solutions vary substantially. Here, I describe a set of prospective benchmarks--10 competencies--that seem essential for reorienting science education to address the challenge. They include, first, elements of…

Across decades, science educators have invested in curricula that presume scientific unity. The phrases "habits of mind, scientific method, processes of science, inquiry skills, nature of science, practices of science" reflect this obsession. However, historians look with skepticism at universal notions of science and endorse…

This article offers a retrospective synopsis of 70 years of development of a humanistic approach to science education. Instruction using the history of science, for example, provides a rich context for students to learn not only canonical science content on a need-to-know basis, but also content from the other domains of humanistic science…

In this essay, we share historical and structural components of mentoring within institutions of higher education and grapple with technical and moral obligations of support. We argue for more humanizing approaches that embed personal, social, and cultural aspects of mentoring, and seek to disrupt the purposes of mentoring, and for whom? Using a…

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…

Concepts in science education such as "science identity" and "science capital" are informed by dominant epistemological and ontological positions, which translate into assumptions about what counts as science and whose science counts. In this theoretical paper we draw on decolonial and antiracist perspectives to examine these…

This paper is one of three sequential papers interrogating equity in partnerships (or partnering relationships [PRs]) in science, technology, engineering, and mathematics education. In this piece, we prioritize abundance framing and dignity-conferring work when engaging in partnerships with and for communities who have been historically…

Addressing equity issues in science education requires a reorientation to how science students are advised and how science, technology, engineering, and mathematics (STEM) education, particularly science, is viewed. STEM education is often figuratively described as a pipeline containing students who "leak" out before reaching the nexus…

For some time, scholars who are guided by critical theories and perspectives have called out how white supremacist ideologies and systemic racism work to (re)produce societal inequities and educational injustices across science learning contexts in the United States. Given the sociopolitical nature of society, schooling, and science education, it…

In this position paper, we draw from previous research and theoretical developments in the field to propose a set of affordances of engineering with English learners (ELs). Students learning both the language of instruction (e.g., English) and academic subject matter (e.g., engineering, mathematics, science) face the challenge of making sense of…

Most science curricular reform efforts are designed by administrators or science education experts. It is less common for teachers to work collaboratively across disciplines to create, implement, and disseminate an integrated STEM curriculum developed for noncollege-bound students that ended up being popular across student populations at the…

The "Framework for K-12 Science Education" (NRC; 2012) placed renewed emphasis on creating equitable science learning opportunities for all learners by engaging in three-dimensional learning experiences: disciplinary core ideas, crosscutting concepts, and science and engineering practices. Additionally, the "Framework" calls…

The purpose of this study is to present a conceptual framework that integrates science and language learning for all students, including English learners (ELs). This framework is grounded in the mutually supportive nature of science instructional shifts, spurred by "A Framework for K-12 Science Education" (National Research Council,…

In recent years, science education researchers have increasingly studied the ways in which students "make sense" of science. However, although researchers might all agree intuitively on what it looks like, the literature on sensemaking is theoretically fragmented. In this paper, we address this fragmentation by proposing a coherent…

What is engineering? What do engineers do? How is engineering related to, but distinct from, science? These questions all relate to the nature of engineering (NOE), and as engineering is incorporated into K-12 education across the United States, the NOE is becoming increasingly important for students and teachers. While many policy documents call…