More Like this

1. All in the Ohana: A Model to Develop and Sustain Community Partnerships with Teachers and Schools

   Pinner, PC (October 2025, medalliance@meducationalliance.org)

   Science education integrates the study of and practices from the Next Generation Science Standards (NGSS). At the fundamental level, the pedagogy involves teaching and learning that emphasizes the use of scientific inquiry and the engineering design process to develop students’ problem-solving, critical thinking, and collaboration skills. Unfortunately, funding and professional development for teachers, which is essential to assure successful implementation of science lessons to increase the potential for student achievement, is lacking. Therefore, this NSF-funded science-education research project explored the development of a model that deepens the existing partnerships among grass-roots, non-profit community education organizations, K-12 public schools, and local university partners. Together, they worked collaboratively to develop systems where teachers could implement high-quality, place-based, NGSS-aligned science learning opportunities that actively engage students. This research project may lead to a future proposal for high-quality professional development for teachers, using the Teacher-to-Teacher professional development model, with the goal of impacting student achievement in science. The goals of this research project were to (1) develop a collaborative model that deepens community, public school, and university partnerships designed to support science educators and their students and (2) explore the current academic and social impact of the Teacher-to-Teacher professional development program as a possible solution for the development and implementation of high-quality, place-based, NGSS-aligned learning experiences for and with students. This presentation will focus on the components used to develop the partnership model with community partners, K-12 teachers and administrators, and university professors. Finally, the Teacher-to-Teacher (T2T) model and its new iteration, the Teacher-Plus-Community Partners T+CP Model will be shared for future development of place-based science learning experiences. 

   more » « less
2. Partnering to Develop a Coordinated Engineering Education Program Across Schools, Museum Field Trips, and Afterschool Programs

   Harlow, D. (January 2020, Connected science learning)

   Engineering Explorations are curriculum modules that engage children across contexts in learning about science and engineering. We used them to leverage multiple education sectors (K–12 schools, museums, higher education, and afterschool programs) across a community to provide engineering learning experiences for youth, while increasing local teachers’ capacity to deliver high-quality engineering learning opportunities that align with school standards. Focusing on multiple partners that serve youth in the same community provides opportunities for long-term collaborations and programs developed in response to local needs. In a significant shift from earlier sets of standards, the Next Generation Science Standards include engineering design, with the goal of providing students with a foundation “to better engage in and aspire to solve the major societal and environmental challenges they will face in decades ahead” (NGSS Lead States 2013, Appendix I). Including engineering in K–12 standards is a positive step forward in introducing students to engineering; however, K–12 teachers are not prepared to facilitate high-quality engineering activities. Research has consistently shown that elementary teachers are not confident in teaching science, especially physical science, and generally have little knowledge of engineering (Trygstad 2013). K–12 teachers, therefore, will need support. Our goal was to create a program that took advantage of the varied resources across a STEM (science, technology, engineering, and math) education ecosystem to support engineering instruction for youth across multiple contexts, while building the capacity of educators and meeting the needs of each organization. Specifically, we developed mutually reinforcing classroom and field trip activities to improve student learning and a curriculum to improve teacher learning. This challenging task required expertise in school-based standards, engineering education, informal education, teacher professional development, and classroom and museum contexts. 

   more » « less
3. For States, by States: State Policymakers' Efforts to Reform Elementary Science Education

   Lyle, Angela M.; Spillane, James P.; Haverly, Christa (January 2022, Annual meeting program American Educational Research Association)

   Developing as a national policy movement, the “for states, by states” approach to the development and implementation of the Next Generation Science Standards (NGSS) intends to give states formidable discretion in whether and how to pursue science education reform. This article explores how state education agencies (SEAs) engaged with these national efforts and worked to incentivize and support school districts in building educational infrastructures to promote the instructional vision advanced by the NGSS. Based on our analysis of interview data and documents from 18 SEAs, we document the critical challenges SEAs face in reforming elementary science education and detail how SEAs sought to school districts in bridging from standards, assessments, and accountability to the teaching, learning, and organization of instruction inside classrooms. Given our analysis, we argue that the school subject is a critical explanatory variable in understanding SEA efforts to support the implementation of ambitious learning standards and advance a reframing of the relationship between state/federal government policy and local school districts as educational system-building. This study contributes to the growing research base on the role of state policy in supporting the implementation of ambitious learning standards. 

   more » « less
4. For States, by States: State Policymakers' Efforts to Reform Elementary Science Education

   Lyle, Angela M.; Spillane, James P.; Haverly, Christa (January 2022, Annual meeting program American Educational Research Association)

   Developing as a national policy movement, the “for states, by states” approach to the development and implementation of the Next Generation Science Standards (NGSS) intends to give states formidable discretion in whether and how to pursue science education reform. This article explores how state education agencies (SEAs) engaged with these national efforts and worked to incentivize and support school districts in building educational infrastructures to promote the instructional vision advanced by the NGSS. Based on our analysis of interview data and documents from 18 SEAs, we document the critical challenges SEAs face in reforming elementary science education and detail how SEAs sought to school districts in bridging from standards, assessments, and accountability to the teaching, learning, and organization of instruction inside classrooms. Given our analysis, we argue that the school subject is a critical explanatory variable in understanding SEA efforts to support the implementation of ambitious learning standards and advance a reframing of the relationship between state/federal government policy and local school districts as educational system-building. This study contributes to the growing research base on the role of state policy in supporting the implementation of ambitious learning standards. 

   more » « less
5. Integrating computational thinking into middle school science through co-designed storylines

   Biddy, Q.; Gendreau Chakarov, A.; Jacobs, J.; Recker, M.; Sumner, T.; Penuel, W. (January 2020, Association for Science Teacher Education)

   We describe a professional development model that supports teachers to integrate computational thinking (CT) and computer science principles into middle school science and STEM classes. The model includes the collaborative design (co-design) (Voogt et al., 2015) of storylines or curricular units aligned with the Next Generation Science Standards (NGSS Lead States, 2013) that utilize programmable sensors such as those contained on the micro:bit. Teachers spend several workshops co-designing CT-integrated storylines and preparing to implement them with their own students. As part of this process, teachers develop or modify curricular materials to ensure a focus on coherent, student driven instruction through the investigation of scientific phenomena that are relevant to the students and utilize sensor technology. Teachers implement the storylines and meet to collaboratively reflect on their instructional practices as well as their students’ learning. Throughout this cyclical, multi-year process, teachers develop expertise in CT-integrated science instruction as they plan for and use instructional practices that align with three dimension science teaching and foreground computational thinking. Throughout the professional learning process, teachers alternate between wearing their “student hats” and their “teacher hats”, in order to maintain both a student and teacher perspective as they co-design and reflect on their implementation of CT-integrated units. This paper illustrates two teachers’ experiences of the professional development process over a two-year period, including their learning, planning, implementation, and reflection on two co-designed units. 

   more » « less