Tinkering experiences in informal learning spaces can engage families in engineering practices and support learning (Pagano et al., 2020). Further, reflections after informal learning experiences can reveal and extend children’s memory and learning (Pagano et al., 2019), but reflections vary by age, culture, setting, program, and other factors (Fivush et al., 2006). We examined how the conversational structure and engineering content of families’ reflections vary across multiple museum visits and across different types of tinkering programs (e.g., open-ended vs. function-focused).
Tinkering activities designed for parents and children can foster spatial thinking, which benefits spatial skill development (Ramey et al., 2020). During tinkering activities, families may be challenged to use tools and materials to solve open-ended problems (Bevan, 2017). The problems specified by different tinkering challenges can highlight intrinsic or extrinsic spatial information (Chatterjee, 2008; Mix et al., 2018). In this project we asked, how does the spatial information highlighted by a tinkering challenge affect the quality of families’ spatial thinking?
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TEAM MEMBERS:
Naomi PolinskyElena FiegenKaitlyn HurkaCatherine HadenDavid Uttal
The tinkering process of making, testing, and iteratively redesigning projects can teach children about engineering concepts (Marcus et al., 2021; NGSS, 2013), but there is variability in how tinkering programs are designed. Storytelling may make children’s learning experiences personally meaningful and narratively organized, thereby supporting memory (Bruner, 1996). We designed multiple story-based tinkering programs and examined how the types of story characters and goals introduced in the tinkering programs would relate to the content of families’ talk in post-tinkering reflections.
In this project, we asked whether storytelling during tinkering might support children’s engagement in STEM and how that may differ across boys and girls. According to Bruner (1996), stories can help children to organize experiences by adding coherence, increasing understanding, and facilitating learning. We observed associations between story and STEM in two contexts: home and museum exhibit.
Given the important role of autonomy support in children’s motivation and learning, this study asked whether parents’ use of autonomy supportive language (vs. controlling language) was associated with children’s engagement in science, technology, engineering, and mathematics in a bi-directional manner during an at-home tinkering activity.
In fall 2019, the Bell Museum received funding via a NASA TEAM II grant to create Mars: The Ultimate Voyage, a full-dome planetarium show and accompanying hands-on activities that focus on the interdisciplinary roles that will be needed to send humans to Mars. This report from Catalyst Consulting Group presents the findings from the summative evaluation completed in March–May 2023.
We present the assets that collaboration across a land grant university brought to the table, and the Winterberry Citizen Science program design elements we have developed to engage our 1080+ volunteer berry citizen scientists ages three through elder across urban and rural, Indigenous and non-Indigenous, and formal and informal learning settings.
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TEAM MEMBERS:
Katie SpellmanJasmine ShawChristine VillanoChrista MulderElena SparrowDouglas Cost
resourceevaluationMuseum and Science Center Exhibits
Over the course of six years (2016–2022), History Colorado, three Ute Tribes, and archaeology and ethnobotany partners undertook an ambitious, highly collaborative project, called Ute STEM, to explore new ways of looking at the field of Science, Technology, Engineering, and Math (STEM) learning. This final report goes into details about the project and lessons learned.
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TEAM MEMBERS:
Elizabeth CookSheila GoffKate LivingstonShannon Voirol
The Aldrich Contemporary Art Museum will amplify its partnership with Hart Magnet School, a Title 1 elementary school in urban Stamford, Connecticut, by increasing exposure and access to the arts for first-fifth graders, their families, and educators. A new program model, leveraging the museum's artist exhibitions, will focus on technology and an inquiry-based approach to science. Students, educators, and families will be encouraged to see and think in new ways through on-site STEAM tours at the museum, artist-led workshops at Hart, teacher professional development, and afterschool family activities. Outside evaluators will work with the project team to develop goals and associated metrics to measure how the model of museum-school partnership can enhance student achievement, engage families more deeply in their child's school experience and community, and contribute to teacher professional development. The evaluator will also train museum staff on best practices for program assessment.
The Bay Area Discovery Museum will address the need for STEM education by delivering engineering outreach programming to schools and libraries throughout the San Francisco Bay Area. The museum's mobile engineering lab, Try It Truck, will introduce the engineering design process to students and teachers in grades K-5 with hands-on activities (both on and off the truck) where they can collaborate, experiment, and design solutions to engineering challenges. The Try It Truck will serve 21,600 children, parents, and educators throughout the Bay Area, with at least 50 percent of all participants coming from underserved communities and Title I schools. The museum will work with an external evaluator to design survey instruments for both formative and summative evaluation, analyze summative evaluation data, and produce a report. Museum staff will share project results with colleagues at national and statewide conferences.