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1. Eco-Solutioning: The Design and Evaluation of a Curricular Unit to Foster Students’ Creation of Solutions to Address Local Socio-Scientific Issues

   https://doi.org/10.3389/feduc.2021.642320  

   Songer, Nancy Butler; Ibarrola_Recalde, Guillermo D (March 2021, Frontiers in Education)

   The global pandemic and climate change have led to unprecedented environmental, social, and economic challenges with interdisciplinary STEM foundations. Even as STEM learning has never been more important, very few pre-college programs prepare students to address these challenges by emphasizing socio-scientific issue (SSI) problem solving and the engineering design of solutions to address local phenomena. The paper discusses the design and evaluation of a pre-college, SSI curricular unit where students expand their learning by creating solutions to increase biodiversity within local urban neighborhoods. The learning approach, which we call eco-solutioning, builds from current vision and policy documents in STEM education emphasizing phenomenon-centric instructional materials, science investigations, and engineering design. The paper outlines design principles for creating an eco-solutioning instructional unit that guides young students to: collect and analyze data on local organisms, use an engineering design approach to craft solutions to increase local biodiversity, and present their solutions to local city planners and community members. Two cycles of research studies evaluated student learning using paired t-tests. Results demonstrated significant pre-post learning outcomes in both research cycles. A third research cycle in the form of a summer extension program supported students as they implemented their local solutions. Conclusions highlight design principles for the successful creation of SSI curricular units centered on local environmental issues of interest to students, teachers, and stakeholders. 

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2. Usable STEM knowledge for tomorrow's STEM problems

   https://doi.org/10.56367/OAG-037-10193  

   Butler Songer, Nancy (January 2023, Open Access Government)

   Usable STEM knowledge for tomorrow's STEM problems More universities and education programs need more STEM knowledge in formal and informal settings to guide learners in applying STEM learning to the creation of solutions. To address this challenge, Nancy Butler Songer, the dean of the College of Education at the University of Utah designed a learning approach, Solutioning, that guides youth to deepen science content through science and engineering practices. Creating a six-week curricular program, the learning approach provided opportunities for students to use engineering design to create and provide feedback on a trap design that would attract a local invasive insect that was harmful to their community. Research was conducted on studies to provide empirical evidence on student STEM knowledge and learning and their ability to define science and engineering. Research results indicate that even elementary-age students demonstrate significant improvement in their understanding of STEM arguments as evaluated with a pre-post assessment before and after implementing a six-week solutioning curricular program. 

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3. Promoting Computational Thinking Through Science-Engineering Integration Using Computational Modeling

   Basu, Satabdi; McElhaney, Kevin W.; Rachmatullah, Arif; Hutchins, Nicole; Biswas, Gautam; Chiu, Jennie (January 2022, Proceedings of the 16th International Conference of the Learning Sciences (ICLS))

   Careers in science, technology, engineering, and mathematics (STEM) increasingly rely on computational thinking (CT) to explore scientific processes and apply scientific knowledge to the solution of real-world problems. Integrating CT with science and engineering also helps broaden participation in computing for students who otherwise would not have access to CT learning. Using a set of emergent design guidelines for scaffolding integrated STEM and CT curricular experiences, we designed the Water Runoff Challenge (WRC) - a three-week unit that integrates Earth science, engineering, and CT. We implemented the WRC with 99 sixth grade students and analyzed students’ learning artifacts and pre/post assessments to characterize students’ learning process in the WRC. We use a vignette to illustrate how anchoring CT tasks to STEM contexts supported CT learning for a student with low prior CT proficiency. 

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4. Exploring Elementary Teachers’ Perceptions of Teaching a Science, Engineering, Mathematics, and Computer Science Project

   Lilly, Sarah; McAlister, Anne M.; Chiu, Jennifer L. (January 2022, Proceedings of the 16th International Conference of the Learning Sciences (ICLS))

   While national frameworks call for the integration of science, technology, engineering, mathematics, and computer science (STEM+CS) in K-12 contexts, few studies consider elementary teachers’ perceptions of implementing STEM+CS projects in science classrooms. This single case study explores elementary science teachers’ perceptions of enacting STEM+CS curricular materials. Survey and interview data were collected over the four-week project and qualitatively coded. Findings demonstrate teachers’ reported struggles to implement unfamiliar disciplines and leverage students’ prior knowledge in familiar disciplines as well as unanticipated consequences of instructional decisions based on perceived student engagement and pacing. Results underscore the value of teacher voice for curricular and professional development and highlight the need for further investigation of how teachers’ perceptions may influence enactment of STEM+CS curricular materials. 

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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. 

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