Projects

Professional learning communities (PLCs) are one common model for teachers to collaborate and learn from one another. The goal of this study is to understand how teachers' expertise is positioned in a PLC and the larger system of the school and district to inform mathematics teaching and learning. This should help schools and districts understand the features of PLCs that are important for supporting teachers as they collaborate and learn.

Science education research shows that incorporating attention-grabbing concepts and experiences—phenomena—in science classes has the power to engage and inspire young learners. However, many elementary teachers, including those in small rural schools, may not have access to or the support to enact high-quality phenomenon-centered curriculum materials and resources in their science teaching practice. This project aims to address this problem of practice by designing, implementing, and investigating a professional learning approach that supports rural elementary teachers and administrators in incorporating local phenomena-driven science learning experiences in their classrooms.

Science education research shows that incorporating attention-grabbing concepts and experiences—phenomena—in science classes has the power to engage and inspire young learners. However, many elementary teachers, including those in small rural schools, may not have access to or the support to enact high-quality phenomenon-centered curriculum materials and resources in their science teaching practice. This project aims to address this problem of practice by designing, implementing, and investigating a professional learning approach that supports rural elementary teachers and administrators in incorporating local phenomena-driven science learning experiences in their classrooms.

Science education research shows that incorporating attention-grabbing concepts and experiences—phenomena—in science classes has the power to engage and inspire young learners. However, many elementary teachers, including those in small rural schools, may not have access to or the support to enact high-quality phenomenon-centered curriculum materials and resources in their science teaching practice. This project aims to address this problem of practice by designing, implementing, and investigating a professional learning approach that supports rural elementary teachers and administrators in incorporating local phenomena-driven science learning experiences in their classrooms.

Scientific argumentation is one of the eight essential practices in the Next Generation Science Standards. Over the past decade, various methods have been employed to help middle-school students develop argumentation skills in formal learning environments. Despite these efforts, teachers continue to face challenges in motivating and engaging students, particularly in addressing the increasingly varied needs of students. Additionally, districts and schools struggle to integrate these research-based methods into their curriculum in ways that gain buy-in from teachers, students, and stakeholders. To address these challenges, this partnership development project brings together the West Aurora School District in Illinois and Northern Illinois University to pursue two primary goals: (1) co-construct a research and development plan focusing on ways to enhance support and effectiveness in the teaching practice of scientific argumentation through technology, and (2) develop a model for building a design research partnership between a school district and a mid-size public university.

This project will develop a sustainable Research-Practice Partnership (RPP) model between the Worcester Public Schools (WPS) and the Learning Sciences Lab at Worcester Polytechnic Institute (WPI). Together, WPI and WPS will build the collaborative infrastructure for conducting impactful STEM education research within WPS. Specifically, the RPP will establish and document shared infrastructural systematic processes and materials, brainstorm and facilitate research ideas that address pressing issues in mathematics education, and build a community of trust among researchers, administrators, teachers, and families to make future research and implementation, innovation, and collaboration more impactful, accessible, and efficient.

Given the national priority for America's leadership in science, there is a need to strengthen the quality of teaching and learning in science classrooms. This conference brings together researchers, practitioners, curriculum developers, and policymakers to chart the future of curriculum-based professional development (CPBL) in science education. CBPL is an approach that uses high-quality curricular materials as a catalyst for teacher learning. Presently, the field is not clear about how teachers learn from these well-designed materials and what other supports might be necessary. This conference aims to address pressing questions about how high-quality materials can drive teacher learning, how materials should be designed to support teacher learning trajectories, how CBPL can promote high quality science education, and what organizational supports are needed for successful implementation. Through structured collaboration among stakeholders, the gathering will consolidate existing work and generate concrete plans for advancing both research and practice in ways that honor teacher professionalism while supporting student learning in science.

Tomorrow's domestic STEM workforce demands that students bring the ability to explain real-world phenomena and solve problems collaboratively. In many school districts, a significant gap persists between this ambitious vision and the realities of current instruction. One promising approach to bridge this gap is the use of high-quality instructional materials (HQIM), which have been shown to improve science teaching and learning. However, school systems often face serious challenges in selecting, adopting, and implementing these materials in ways that lead to consistent implementation across classrooms and lasting change. This project will establish a research-practice partnership between the University of Colorado Boulder and the Weld RE-4 School District in Colorado to better understand and address these challenges. The project will generate new understandings that support the translation of research on how curriculum can improve teaching and learning into practice for a whole school district, and yield insights into how school districts navigate organizational dynamics and competing priorities during curriculum adoption.

Throughout the United States, elementary classrooms include students with a range of communicative practices and strengths, including strengths in speaking one or more languages, and strengths in generating and understanding different types of representations. Although an emerging body of research has begun to explore how individual teachers can productively leverage these communicative strengths toward enhanced science learning and further develop language through science, there is currently little research on how larger-scale district infrastructures can be designed to support science learning that leverages and supports language development. This project will address this critical gap by developing a process through which school districts can design comprehensive infrastructures that leverage a broad range of linguistic and communicative practices for enhanced science learning among elementary students.