Science

The disciplines provide a wealth of resources to make sense of complex problems; when taking a transdisciplinary approach, students have the opportunity to engage in inquiry with local issues of meaning that can allow for deeper learning and engagement. Curriculum design experts from the Center for Technology and School Change propose a process for teachers to design STEM curriculum that prioritizes inquiry rooted in the community that empowers students to be active participants in a democratic society.

Curriculum materials can play an essential role to help teachers shift their instruction. However, curricular enactment does not look identical in every classroom, because teachers need to be responsive to their students. In this study, we investigated the customizations teachers made while enacting storyline science curriculum. Specifically, we collected two data sources: a teacher survey and interviews. The survey was completed by 169 participants and included 20 follow-up interviews with middle school science teachers enacting the OpenSciEd curriculum across the United States.

This article explores how unstructured playtime in early childhood settings offers rich opportunities for science learning. Despite play being crucial for children’s development, its potential for science education remains largely untapped. We introduce our framework featuring three observational lenses—actions, exploration, and environment—to help educators identify specific scientific practices (such as planning investigations, analyzing data, and constructing explanations) that naturally emerge during child-led play.

This article explores how unstructured playtime in early childhood settings offers rich opportunities for science learning. Despite play being crucial for children’s development, its potential for science education remains largely untapped. We introduce our framework featuring three observational lenses—actions, exploration, and environment—to help educators identify specific scientific practices (such as planning investigations, analyzing data, and constructing explanations) that naturally emerge during child-led play.

Developing scientific literacy is necessary for students with disabilities (SWD) as it supports the ability to create solutions to real-world problems and understand current events, and it strengthens critical thinking, problem-solving, and complex communication skills. The purpose of this systematic review and meta-analysis was to evaluate extant literature on inquiry-based science interventions for SWD in service of developing scientific practices. We identified 26 studies in 22 articles and 3 dissertations for inclusion in this review.

There is a compelling need to strengthen professional learning (PL) regarding systems thinking, since it crosses all disciplinary boundaries and is a crosscutting concept in the Next Generation Science Standards. Yet research has shown that effectively deploying systems thinking in the classroom is challenging both for students and for teachers.

This study aimed to explore the development of teachers’ knowledge of dialogue and argument through three specific knowledge bases: declarative, procedural, and epistemic. Additionally, the study sought to understand the implications of this knowledge for implementing a knowledge generation approach in classroom settings. To achieve these objectives, a multiple-case study was conducted with 12 elementary teachers who participated in a professional development (PD) program centered on the Science Writing Heuristic (SWH), an approach designed to promote knowledge generation.

Despite significant interest in Career and Technical Education (CTE), little is known about CTE teachers. Using ten years of Maryland administrative data, we find that almost one-fifth of CTE teachers enter the profession with a high school diploma or associate’s degree, reflecting state policies allowing trade/industry professional experience to substitute for higher degrees. Relatedly, CTE teachers are roughly twice as likely as non-CTE teachers to enter through alternative licensure pathways that bypass traditional teacher education (68% vs. 36%).

In our elementary science methods courses, we aim to shift our preservice teachers’ view of science instruction beyond teacher-directed, hands-on “touching and telling,” toward a student-centered approach that emphasizes scientific sensemaking. To that end, we have been emphasizing the sensemaking nature of the eight science and engineering practices (SEPs) defined in the Next Generation Science Standards.

In our elementary science methods courses, we aim to shift our preservice teachers’ view of science instruction beyond teacher-directed, hands-on “touching and telling,” toward a student-centered approach that emphasizes scientific sensemaking. To that end, we have been emphasizing the sensemaking nature of the eight science and engineering practices (SEPs) defined in the Next Generation Science Standards.