DuPage Children's Museum will enhance visitor engagement by incorporating current research on infant and toddler development to redesign two exhibits and develop an educational program for low-income caregivers. The museum will partner with two community-based organizations, Teen Parent Connection and Family Focus DuPage, to collaborate in the project and refer clients to participate in the educational programs. The museum will present twelve onsite sessions that will enable parents and caregivers to nurture an understanding of STEM fundamentals at the museum and at home for their young children. Participants will be given educational videos and take-home kits that correspond with the educational sessions. Project activities will also include training to help museum staff use the exhibits to further a visitor's learning experience. The museum will disseminate project results to other children's museums and early childhood educators and professionals.
Miami Children's Museum will redesign its Construction Zone Gallery into a STEM-learning space providing children, primarily ages eight and under, with a stimulating and interactive experience. The exhibition will incorporate 13 distinctive exhibition components, allowing full engagement in a variety of STEM-based learning activities. The museum will conduct focus group activities with field interpreters, specialists and educators working in STEM fields to guide and refine content development of the script and exhibition layout, followed by testing of the themes, programming activities, exhibition props and tools, software concepts, and learning outcomes. The project team will develop accompanying programming for children to be presented at the museum and at area public libraries. All components of the exhibition will support Florida's Early Learning Standards, and will meet the evolving educational needs of its youngest learners.
Clark Planetarium will partner with the Salt Lake County Library System to extend STEM education for adolescent audiences throughout the regional community. The planetarium will create STEM classes in up to 18 different county libraries, with up to four library activity sessions each week. With each activity session, the project will engage middle school and high school aged participants in hands-on science, technology, and engineering activities that explore complex concepts and principles through simulations of robotic missions. Each visit will engage learners in STEM-focused activities that emphasize group work such as building robots, collecting and analyzing data, and solving problems. Over the span of three years, the project will reach over 7,700 teens. The Utah Education Policy Center will use observation, program records, and a brief online survey to measure the program's impact on STEM interest and improvement in confidence, attitudes, and behavioral intentions around STEM.
ECHO, Leahy Center for Lake Champlain will launch the Partners in School Science Excellence (SciExcel) project, designed to deliver high-quality STEM opportunities to low-resourced students by growing the capacity of northwestern Vermont schools that lack science subject specialists. Building on lessons learned from national and regional museum-school partnership models, ECHO will facilitate school self-assessments in which partner schools will evaluate their current STEM programs and identify actions for improvement. The museum will work closely with three primary schools and nine Head Start preschools to provide coaching, teaching methods, and curriculum consultation. The museum will also offer Community STEM Nights where partner schools will engage families in the celebration of science excellence. The project will allow the museum to strengthen its existing relationships with low performing primary schools and Head Start preschools while expanding its geographic reach to rural service areas.
Sciencenter will develop a touring exhibition, Engineer.Design.Build, to spark interest and build confidence in STEM by providing learning opportunities about the broad impact engineers have on the environment and society. The museum will partner with Cornell University's College of Engineering to develop scientific content which will be reviewed by an advisory board of representatives from the academic, business, and informal science education sectors. Partners from informal learning institutions will provide expertise on the educational content to ensure that it is accessible and engaging for the target audience of 5-11 year olds. Through a combination of focus groups, youth/guest feedback during exhibition development, and experts in girls' engagement in STEM on the advisory board, the museum will ensure that the exhibition and programming are designed to appeal to girls, and accessible to all learners. The project will include front-end, formative, and summative evaluation through observations and mediated interviews, collecting data from youth, families, and school groups.
Developing a growth mindset has been identified as a key strategy for increasing youth achievement, motivation, and resiliency (Rattan et al. 2015). At its core, growth mindset describes the idea that one’s abilities can change through using new learning strategies and receiving appropriate mentoring (Dweck 2008). In contrast, a fixed mindset relates to the idea that ability is inherent and cannot be changed. We have taken up the concept of growth mindset and developed it specifically for the context of STEAM (science, technology, engineering, art, and math), a growing area of focus in both in
Fostering STEAM provided exceptional professional development that was highly rated by participants and contributed to expected participant learning outcomes. The in-person Fostering STEAM workshop reflected professional development best practices. Likewise, the online Fostering STEAM course reflected indicators of effective online continuing education and professional development.
The Fostering STEAM professional development contributed to significant self-reported growth in principles or beliefs related to the Fostering STEAM instructional approach, as well as preparedness to develop and
As STEAM has gained traction in informal education settings, it is important to support educators in learning about and developing STEAM learning experiences. We investigated what STEAM means to informal educators and how it relates to their everyday lives and identities by examining a STEAM objects activity. We found three themes in how the participants talked about the significance of the STEAM objects they shared: connection to land, historicity, and agency of materials. The STEAM objects served as boundary objects that connected communities of practice, showing the integrative nature of
Iteration is a central practice in art and science; however, it has yet to be deeply explored in STEAM learning environments. This study adopts a sociomaterial orientation (Fenwick and Edwards, 2013) to characterize the nature of iteration in one STEAM activity, an Optics Design Challenge, with informal educators. We found that iteration emerged as “microcycles” of interactions, specifically as adjustments, additions, and negotiations in both material artifacts and the narrative.
Materials play an important role in learning. Humans actors use materials in particular ways depending on the context and materials also can shape how human actors use materials. This study explores the dialogical relationship between the participants and materials in suminagashi, a Japanese paper marbling activity. We found that materials that are traditionally thought of as art materials, such as paintbrushes, are used to support practices often considered science practices, such as experimentation.
The integration of Art with Science, Technology, Engineering, and Mathematics (STEAM) has been growing in popularity, however, there are a variety of conceptualizations of what it looks like. This study explores images of STEAM by examining activities created by informal educators. We found that STEAM activities were conceptualized as using one discipline in the service of another, intertwined, or parallel. This provides concrete images of what STEAM can look like in educational settings.
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TEAM MEMBERS:
Blakely TsurusakiLaura ConnerCarrie TzouPerrin Teal SullivanMareca GuthriePriya Pugh