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1. Teachers’ Pedagogical Content Knowledge in Mathematics and Science: A Cross-Disciplinary Synthesis of Recent DRK-12 Projects

   Miller, D. I.; Pinerua, I.; Margolin, J.; Gerdeman, D. (April 2022, American Institutes for Research)

   Teachers’ pedagogical content knowledge (PCK) is a complex, multifaceted construct that is widely seen as foundational to the act of teaching. In this synthesis, we investigated how the National Science Foundation’s (NSF’s) recent research investments have advanced understanding and supported the development of teachers’ PCK in PK–12 mathematics and science education. In the 5 years from 2011 to 2015, NSF’s Discovery Research PK–12 program (DRK-12) funded or cofunded 27 projects relating to PCK, totaling $62 million awarded. These 27 DRK-12 projects primarily applied correlational/observational and longitudinal methods (rather than quasi-experimental or experimental methods), often targeting teaching in the middle school grades. Our synthesis of empirical findings focused on how these projects studied PCK, including its measurement, development, and relationship to teaching and student learning. Link to PDF: https://www.air.org/sites/default/files/2022-05/Teachers-Pedagogical-Content-Knowledge-in-Math-and-Science-April-2022.pdf 

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2. WySLICE - Integrating Computer Science throughout Existing K-12 Core Disciplinary Areas

   Borowczak, Mike; Burrows, Andrea C.; Johnson, Mason (July 2021, 2021 ASEE Virtual Annual Conference Content Access)

   Wyoming recently mandated that computer science instruction be provided in K-12 schools by 2022, and there is an urgent need for designing instruction that can integrate computer science into the teaching of other subjects. This project assembles a network improvement community comprised of partners from the University of Wyoming, community colleges, Wyoming school districts, the Wyoming Library System, the Wyoming Department of Education, and local software development firms. The community meets once monthly over the duration of the project to collaborate stakeholder agendas for meeting the project goals. The community enlists K-8 teachers from across the state to experience professional development and collaborate on integrating computer science into their instruction of STEM and social science topics. The project is producing units for teachers, who are implementing these units with support from master teachers and educational scholars. The community serves as a forum for teachers to debrief and learn from each other about ways to improve their instruction and design of the curricular units. Libraries in the state system act as partners for dissemination to rural areas of the innovative instructional approaches. WySLICE prepares 150 K-8 teachers and state librarians from all disciplines to integrate computer science into their teaching. The project is reaching almost half of all K-8 students in Wyoming. The research questions address how teachers use modeling practices as supports for student understanding of algorithms and coding in a variety of ways. The curricula involve cybersecurity as well as other topics relevant to measurement in mathematics and social studies topics that involve social concerns like voting. Data sources include teacher lesson plans and recordings of their instructional implementation, scoring of each of these according to a rubric, meeting notes of monthly meetings, and results from pre-post student assessments. The evaluation focuses on the meeting of project goals and the quality of the management of the network improvement community. This project is jointly funded by CS for All and the Established Program to Stimulate Competitive Research (EPSCoR). This work is supported by the National Science Foundation under DRL Grant #1923542 "CS For All:RPP - Booting Up Computer Science in Wyoming." 

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3. Particle Engineering Research from the NSF ERC Research Experience for Teachers (RET) Program at NJIT

   Bilgili, E.; Li, M.; Zhang, L.; Armani, M.; Orbe, P.; Aloia, M.; Pielecha-Safira, B.; Dave, R.N. (November 2016, AICHE Annual Meeting)

   We aim to give highlights of particle engineering research from the New Jersey Institute of Technology (NJIT)’s Research Experiences for Teachers (RET) Program, which is a collaboration of the NSF Engineering Research Center for Structured Organic Particulate Systems (ERC-SOPS) and the Center for Pre-College Programs. This NSF-funded program engaged pairs of 14 high school teachers in 2015 summer research program, where they performed research on various particulate materials and processes relevant to pharmaceutical products. In addition, various faculty and educational experts delivered workshops on technical writing, best research practice, effective collaboration in a team, pharmaceutical industry and process–formulation development, educational module development, etc. The teachers acquired the skills and knowledge of research and the subject of particle engineering and pharmaceutical engineering that they incorporated into their teaching practice. In the research component of the program, the teachers collaborated with graduate student mentors under the guidance of professors and worked on various particle–pharmaceutical engineering projects. In the educational component, the teachers came up with a professional development plan and prepared “educational modules”, which were delivered to high school students. While this presentation will expose few educational highlights including sample modules developed by the teachers, it will mainly focus on two summer research projects about the bioavailability enhancement of poorly water-soluble drugs via drug nanoparticle composites and drug nanoparticle-laden polymer strip films. Through application of particle engineering approaches such as nanoparticle formation–stabilization and drug encapsulation within hydrophilic polymeric matrices, we have ensured fast redispersibility of drug nanoparticles from solid dosages and demonstrated significant improvement of the dissolution rate of poorly water-soluble drugs. 

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4. Development of a questionnaire on teachers' knowledge of language as an epistemic tool

   https://doi.org/DOI: 10.1002/tea.21666  

   Gavin W. Fulmer, Jihyun Hwang (August 2020, Journal of research in science teaching)

   null (Ed.)

   We report on the development of a new instrument for measuring teachers' knowledge of language as an epistemic tool in science classes. Language is essential for science learning, as all learning requires the use of language to constitute one's own ideas and to engage with others' ideas. Teachers with knowledge of language as an epistemic tool can recognize the ways that language allows students to generate and validate knowledge for themselves, rather than to replicate canonical knowledge transmitted by other sources.We used a construct‐driven development approach with iterations of domain analysis, item revision, teacher feedback, expert review, and item piloting to address the content, substance, and structure aspects of validity. Data from 158 preservice and in‐service teachers on 27 preliminary items were collected. Findings from Rasch measurement modeling indicate a single dimension fits the items well and can distinguish teachers of higher and lower knowledge. We revised and selected 15 items for an updated instrument. This contributes to ongoing measurement projects and provides a potential instrument for future, broader use by the field to gauge teachers' knowledge of language as an epistemic tool. 

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5. Making Formative Use of Student Experience Data to Promote Equity

   https://doi.org/10.1080/08872376.2024.2314675  

   Penuel, William; Raza, Ali; Salinas_Del_Val, Yamileth; Salinas-Estevez, Rosa; Williamson, Emily; Smith, Jennifer; Gill, Quincy (March 2024, Science Scope)

   This article describes a cycle of teacher collaborative inquiry called the Student Experience Improvement Cycle (SEIC). The SEIC is a novel form of assessment: It focuses on supporting teachers in using evidence of the quality of student experience formatively to make the classroom more equitable. The SEIC begins by setting a goal for improvement in one of three aspects of student experience: coherence, relevance, and contribution. Then teachers review, adapt, and test research-based strategies for improving the quality of student experience overall and for students from systemically marginalized groups and communities. The article presents examples of improvement goals teachers set and the strat- egies they tried as part of one inquiry cycle. It also provides examples of survey items used to elicit student experience. 

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