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1. Reservoir Rescue: A Community-connected Elementary Water Filtration Engineering Unit (Resource Exchange)

   https://doi.org/10.18260/1-2--35152  

   Andrews, Chelsea; Batrouny, Nicole; Wendell, Kristen; Dalvi, Tejaswini (June 2020, American Society for Engineering Education)

   In the ConnecTions in the Making project, researchers and district partners work to develop and study community-connected, integrated science and engineering curriculum units that support diverse elementary students’ science and engineering ideas, practices, and attitudes. In the community-connected units, students in the third, fourth, and fifth grades use human-centered design strategies to prototype and share functional solutions to a design challenge rooted in the students’ local community while also exploring scientific explanations of the phenomena and mechanisms related to the challenge. One of these units is “Reservoir Rescue,” a fifth grade Environmental Engineering unit comprised of 12 lessons, approximately 1 hour each, including 2 lessons to launch the unit, 4 inquiry lessons, 4 engineering design lessons that build to the final design challenge, and 2 lessons to prepare for and host a design exposition. 

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2. Accessible Playground Design: A Community-Connected Elementary Engineering Unit Focused on Designing Accessible Playground Equipment

   https://doi.org/10.18260/1-2--36637  

   Dalvi, Tejaswini; Wendell, Kristen; Andrews, Chelsea; Batrouny, Nicole (July 2021, American Society for Engineering Education)

   In the ConnecTions in the Making project, researchers and district partners work to develop and study community-connected, integrated science and engineering curriculum units that support diverse elementary students’ science and engineering ideas, practices, and attitudes. In the community-connected units, students in the third, fourth, and fifth grades use human-centered design strategies to prototype and share functional solutions to a design challenge rooted in the students’ local community while scientifically exploring the phenomena and mechanisms related to the challenge. One of the units is “Accessible Playground Design,” a grade three unit that engages students in designing a piece of accessible playground equipment. It comprises 10 lessons, approximately 1 hour each, including a launch lesson, followed by four inquiry and four engineering design lessons, and a final design exposition. 

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3. The fish weir: A culturally relevant STEM activity

   Kern, A. (July 2015, Science scope)

   The Next Generation Science Standards framework focuses on “equity and diversity in science and engineering education,” with a goal that states “equity should be at the forefront of any effort to improve the goals, structures, and practices that support learning and educational attainment of all students.” Thus, curriculum and instructional strategies that are personally meaningful engage students from diverse ethnic and cultural backgrounds. Instructional activities that draw on historical references, descriptions, examples, and analogies are particularly engaging to students typically marginalized from STEM disciplines. The Fish Weir Engineering Challenge provides an example of how cultural and historical STEM practices can form the foundation for science and engineering lessons for Native American students. In this activity, students design, build, and test model fish weirs, a type of fish trap, while exploring how tribal communities have used engineering to adapt fish weirs to accommodate a changing environmental and community. 

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4. How can science teacher educators best prepare students to teach engineering practices?

   Gutierrez, K; Ayala, OM; Kidd, JJ; Ringleb, SI; Kaipa, K; Pazos, P (January 2021, 2021 Association for Science Teacher Education (ASTE) Annual International Virtual Conference)

   null (Ed.)

   Teacher education is facing challenges given the recent incorporation of engineering practices and core ideas into the Next Generation Science Standards and state standards of learning. To help teachers meet these standards in their future classrooms, education courses for preservice teachers [PSTs] must provide opportunities to increase science and engineering knowledge, and the associated pedagogies. To address this need, Ed+gineering, an NSF-funded multidisciplinary service-learning project, was implemented to study ways in which PSTs are prepared to meet this challenge. This study provides the models and supporting data for four unique methods of infusion of engineering skills and practices into an elementary science methods course. The four models differ in mode of course delivery, integration of a group project (with or without partnering undergraduate engineering students), and final product (e.g., no product, video, interactive presentation, live lesson delivery). In three of the models, teams of 4-6 undergraduates collaborated to design and deliver (when applicable) lessons for elementary students. This multiple semester, mixed-methods research study, explored the ways in which four unique instructional models, with varied levels of engineering instruction enhancement, influenced PSTs’ science knowledge and pedagogical understanding. Both quantitative (e.g., science content knowledge assessment) and qualitative (e.g., student written reflections) data were used to assess science knowledge gains and pedagogical understanding. Findings suggest that the PSTs learned science content and were often able to explain particular science/ engineering concepts following the interventions. PSTs in more enhanced levels of intervention also shared ways in which their lessons reflected their students’ cultures through culturally responsive pedagogical strategies and how important engineering integration is to the elementary classroom, particularly through hands-on, inquiry-based instruction. 

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5. Evaluation of students’ digital literacy through an immersive university-high school collaboration

   https://doi.org/10.3389/feduc.2024.1429893  

   Bruckhaus, Alexander A; Bennett, Alexis; Brawer-Cohen, Maya; Sinclair, Michael; Ramirez-De_La_Cruz, Glendy; Ragusa, Gisele; Duncan, Dominique (October 2024, Frontiers in Education)

   IntroductionRecent efforts including the U.S. Department of Education’sRaise the Bar: STEM Excellence for All Students, designed to strengthen Science, Technology, Engineering and Mathematics (STEM) education, typify the development of effective outreach programs implemented in high school settings to increase STEM achievement and literacy and to promote future careers in STEM. Specifically, artificial intelligence (AI) and machine learning (ML) are topics of great importance and interest but are often reserved for higher-level education. Introductions of complex subjects in high school promotes student efficacy, enthusiasm, and skill-development for STEM careers. Establishing strong partnerships between universities and high schools is mutually beneficial for the professional development of students, teachers, and professors. In this paper, we detail immersive outreach efforts and their effectiveness in a high school setting. MethodsFrom Spring 2021 to Spring 2024, we conducted eight data-science and analysis-coding style workshops along with two data science units, with 302 students participating in the data science workshops and 82 students in the data science units. All students who participated in the data science lessons completed a comprehensive final project. Surveys measuring knowledge and appeal to data science and coding were conducted both retrospectively and prospectively, before and after each workshop and the data science units. A 1 year follow up survey was conducted for students in the 2023 data science lessons (n= 23). ResultsOverall, average student interest significantly increased from 2.72 ± 1.08/5.0 (n= 205) to 3.15 ± 1.18/5.0 (n= 181,p= 0.001) during the data science workshops, while 70% of students expressed desire to continue with coding. Interest modestly increased in the data science lessons from 3.15 ± 0.65/4.0 to 3.17 ± 0.77/4.0 (n= 82,p= 0.8571), while knowledge significantly increased from 64.16% to 88.5% (% correct out of six questions) in the 2023 data science lessons and from 52.62% to 60.79% (% correct out of 29 questions) in the 2024 data science lessons. DiscussionIncreasing STEM exposure through outreach programs and a modified curriculum can positively alter students’ career trajectory and prepare them for the evolving technologically advanced world and the careers within it. 

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