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.
The EEE project focused on creating approaches for engineering experts to incorporate objects and oral narratives into family STEM programs. The engineering experts included tinkerers, mechanical, nuclear and costume engineers, with varying levels of experience and backgrounds. These experts work with the research team, Museum and Library, to create a workshop or program where children and their families can create a novel project following engineering concepts.
This CAISE report is designed to track and characterize sector growth, change and impact, important publications, hot topics/trends, new players, funding, and other related areas in Informal STEM Education (ISE) in 2017. The goal is to provide information and links for use by ISE professionals, science communicators, and interested stakeholders who want to discover new strategies and potential collaborators for project and proposal development. Designed as a slide presentation and divided into sectors, it can be used modularly or as a complete report. Each sector reports on research, events
Transforming Communities provides an overview of the agency mission, vision, goals, and objectives, and includes highlights of IMLS initiatives and projects.
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Institute of Museum and Library Services
resourceprojectWebsites, Mobile Apps, and Online Media
The intent of this five-year project is to design, deliver, and study professional development for Informal Science Learning (ISL) educators in the arena of equity-focused STEAM (Science, Technology, Engineering, Art, and Mathematics) teaching and learning. While the strategy of integrating art and science to promote interest, identity, and other STEM-related learning has grown in recent years, this domain is still nascent with respect to a guiding set of best practices. Through prior work, the team has developed and implemented a set of design principles that incorporate effective practices for broadening participation of girls in science via science-art integration on the topic of the biology, chemistry and optics of "Colors in Nature." The continued initiative would impact the ISL field by providing a mechanism for ISL educators in museums, libraries and after-school programs to adopt and implement these STEAM design principles into their work. The team will lead long-term (12-18 months) professional development activities for ISL educators, including: 1) in-person workshops that leverage their four previously developed kits; 2) online, asynchronous learning activities featuring interactive instructional videos around their STEAM design principles; 3) synchronous sessions to debrief content and foster communities of practice; and 4) guided design work around the development or redesign of STEAM activities. In the first four years of the project, the team will work with four core institutional partners (Sitka Sound Science Center, Sno-Isle Libraries, the Fairbanks North Star Borough School District after-school program, and the Pima County Public Library system) across three states (Alaska, Washington, and Arizona). In the project's later stages, they will disseminate their learning tools to a broad, national audience. This project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
The project has three main goals: (1) To support ISL educators in offering meaningful STEAM activities, (2) To create institutional change among the partner organizations, and (3) To advance the ISL field with respect to professional development and designing for STEAM Programming. The research questions associated with the professional development activities address the ways in which change occurs and focus on all three levels: individual, institutional, and the ISL field. The methods are qualitative and quantitative, including videotaped observations, pre and post interviews, surveys and analysis of online and offline artifacts. In addition, the project evaluation will assess the implementation of the project's professional development model for effectiveness. Methods will include observations, interviews, surveys and Website analytics and program data.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches, and resources for use in a variety of settings. This project will develop a national infrastructure of state and regional partnerships to scale up The Franklin Institute's proven model of Leap into Science, an outreach program that builds the capacity of children (ages 3-10) and families from underserved communities to participate in science where they live. Leap into Science combines children's science-themed books with hands-on science activities to promote life-long interest and knowledge of science, and does so through partnerships with informal educators at libraries, museums, and other out-of-school time providers. Already field-tested and implemented in 12 cities, Leap into Science will be expanded to 90 new rural and urban communities in 15 states, and it is estimated that this expansion will reach more than 500,000 children and adults as well as 2,700 informal educators over four years. The inclusion of marginalized rural communities will provide new opportunities to evaluate and adapt the program to the unique assets and needs of rural families and communities.
The project will include evaluation and learning research activities. Evaluation will focus on: 1) the formative issues that may arise and modifications that may enhance implementation; and 2) the overall effectiveness and impact of the Leap into Science program as it is scaled across more sites and partners. Learning research will be used to investigate questions organized around how family science interest emerges and develops among 36 participating families across six sites (3 rural, 3 urban). Qualitative methods, including data synthesis and cross-case analysis using constant comparison, will be used to develop multiple case studies that provide insights into the processes and outcomes of interest development as families engage with Leap into Science and a conceptual framework that guides future research. This project involves a partnership between The Franklin Institute (Philadelphia, PA), the National Girls Collaborative Project (Seattle, WA), Education Development Center (Waltham, MA), and the Institute for Learning Innovation (Corvallis, OR).
The Museum of Science and Industry, Chicago (MSI) will develop museum-based education resources to engage high school age youth in the exploration of climate literacy and Earth systems science through its Teen ACES (Teen Advocates for Community and Environmental Sustainability) project. As the future leaders who will make decisions about the issues they face in their communities, youth participants will be positioned to act as advocates for establishing resilient communities in the Midwest. The project will utilize a variety of resources, including NOAA Science On a Sphere® (SOS) technology and datasets, Great Lakes and local climate assets from the Midwest Regional Climate Center and Illinois-Indiana Sea Grant, and existing local planning guides to develop museum-based youth programming. Teens will explore environmental hazards including severe weather events and temperature extremes, and consider the impact of the Great Lakes on regional climate. The Chicago Metropolitan Agency for Planning, Resilient Chicago, the Institute of Environmental Sustainability at Loyola University Chicago, and the South Metropolitan Higher Education Consortium will advise on the project to support the integration of municipal resiliency plans and their related adaptation and mitigation measures into the program. Teen participants will share their learning with the Chicago community through interactions with public visitors in the Museum, programs at Chicago Public Library branches, and MSI’s teen science program broadcast on Chicago’s public access TV station. Teen facilitated experiences will be tailored for SOS® experiences at MSI. The project will revise content for use in 100 after-school science clubs for students from diverse communities across the Chicago area. Further dissemination to three regional science center partners equipped with SOS® technology (Boonshoft Museum of Discovery in Dayton, Ohio; Science Central in Fort Wayne, Indiana; and Hawthorn Hollow in Kenosha, Wisconsin) will build a foundation of knowledge and resources to adapt materials to meet the needs of their communities and consider how their vulnerabilities and resiliency plans may differ from Chicago.
Abstract: We aim to disrupt the multigenerational cycle of poverty in our rural indigenous (18% Native American and 82% Hispanic) community by training our successful college students to serve as role models in our schools. Poverty has led to low educational aspirations and expectations that plague our entire community. As such, its disruption requires a collective effort from our entire community. Our Collective unites two local public colleges, 3 school systems, 2 libraries, 1 museum, 1 national laboratory and four local organizations devoted to youth development. Together we will focus on raising aspirations and expectations in STEM (Science, Technology, Engineering and Mathematics) topics, for STEM deficiencies among 9th graders place them at risk of dropping out while STEM deficiencies among 11th and 12th graders preclude them from pursuing STEM majors in college and therefore from pursuing well paid STEM careers. We will accomplish this by training, placing, supporting, and assessing the impact of, an indigenous STEM mentor corps of successful undergraduate role models. By changing STEM aspirations and expectations while heightening their own sense of self-efficacy, we expect this corps to replenish itself and so permanently increase the flow of the state's indigenous populations into STEM majors and careers in line with NSF's mission to promote the progress of science while advancing the national health, prosperity and welfare.
Our broader goal is to focus the talents and energies of a diverse collective of community stakeholders on the empowerment of its local college population to address and solve a STEM disparity that bears directly on the community's well-being in a fashion that is generalizable to other marginalized communities. The scope of our project is defined by six tightly coupled new programs: three bringing indigenous STEM mentors to students, one training mentors, one training mentees to value and grow their network of mentors, and one training teachers to partner with us in STEM. The intellectual merit of our project lies not only in its assertion that authentic STEM mentors will exert an outsize influence in their communities while increasing their own sense of self-efficacy, but in the creation and careful application of instruments that assess the factors that determine teens' attitudes, career interests, and behaviors toward a STEM future; and mentors' sense of self development and progress through STEM programs. More precisely, evaluation of the programs has the potential to clarify two important questions about the role of college-age mentors in schools: (1) To what degree is the protege's academic performance and perceived scholastic competence mediated by the mentor's impact on (a) the quality of the protege's parental relationship and (b) the social capital of the allied classroom teacher; (2) To what degree does the quality of the student mentor's relationships with faculty and peers mediate the impact of her serving as mentor on her self-efficacy, academic performance, and leadership skills?
This project had three objectives to build knowledge with respect to advancing Informal STEM Education:
Plan, prototype, fabricate, and document a game-linked design-and-play STEM exhibit for multi-generational adult-child interaction utilizing an iterative exhibit design approach based on research and best practices in the field;
Develop and disseminate resources and models for collaborative play-based exhibits to the informal STEM learning community of practice of small and mid-size museums including an interactive, tangible tabletop design-and-play game and a related tablet-based game app for skateboarding science and technology design practice;
Conduct research on linkages between adult-child interactions and game-connected play with models in informal STEM learning environments.
Linked to these objectives were three project goals:
Develop tools to enable children ages 5-8 to collaboratively refine and test their own theories about motion by exploring fundamental science concepts in linked game and physical-object design challenge which integrates science (Newton’s Laws of Motion) with engineering (iterative design and testing), technology (computational models), and mathematics (predictions and comparisons of speed, distance, and height). [Linked to Objectives 1 & 3]
Advance the informal STEM education field’s understanding of design frameworks that integrate game environments and physical exhibit elements using tangibles and playful computational modeling and build upon the “Dimensions of Success” established STEM evaluation models. [Linked to Objectives 1 & 2]
Examine methods to strengthen collaborative learning within diverse families through opportunities to engage in STEM problem-based inquiry and examine how advance training for parents influences the extent of STEM content in conversations and the quality of interactions between caregivers and children in the museum setting. [Linked to Objectives 1 & 3]
The exhibit designed and created as a result of this grant project integrates skateboarding and STEM in an engaging context for youth ages 5 to 8 to learn about Newton’s Laws of Motion and connect traditionally underserved youth from rural and minority areas through comprehensive outreach. The exhibit design process drew upon research in the learning sciences and game design, science inquiry and exhibit design, and child development scholarship on engagement and interaction in adult-child dyads.
Overall, the project "Understanding Physics through Collaborative Design and Play: Integrating Skateboarding with STEM in a Digital and Physical Game-Based Children’s Museum Exhibit" accomplished three primary goals. First, we planned, prototyped, fabricated, and evaluated a game-linked design-and-play STEM gallery presented as a skatepark with related exhibits for adult-child interaction in a Children's Museum.
Second, we engaged in a range of community outreach and engagement activities for children traditionally underserved in Museums. We developed and disseminated resources for children to learn about the physics of the skatepark exhibit without visiting the Museum physically. For example, balance board activities were made portable, the skatepark video game was produced in app and web access formats, and ramps were created from block sets brought to off-site locations.
Third, we conducted a range of research to better understand adult-child interactions in the skatepark exhibit in the Children's Museum and to explore learning of physics concepts during physical and digital play. Our research findings collectively provide a new model for Children's Museum exhibit developers and the informal STEM education community to intentionally design, evaluate, and revise exhibit set-up, materials, and outcomes using a tool called "Dimensions of Success (DOS) for Children's Museum Exhibits." Research also produced a tool for monitoring the movement of children and families in Museum exhibit space, including time on task with exhibits, group constellation, transition time, and time in gallery. Several studies about adult-child interactions during digital STEM and traditional pretend play in the Museum produced findings about social positioning, interaction style, role, and affect during play.
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Deb DunkhaseKristen MissallBenjamin DeVane
Libraries serve vital roles in communities not only for access to print media but also family programming and access to the internet. Because of their widespread local presence in communities and the diverse communities served, libraries are well-positioned to address inequalities in access to technology, family programming, and spaces for collaboration. Science centers, universities, and community centers represent resources that can partner with libraries to create science and technology-related content for delivery to diverse communities. Research has firmly established the link between parent engagement and a broad range of student academic outcomes, including higher student attendance, achievement and graduation rates. A growing body of research in out-of-school science learning is focusing on the rich and varied ways in which families learn science outside of school, including habits of mind, motivation, and identities as scientists. Pilot work showed that backpacks have the potential for youth and parents to take on new roles relative to STEM work, with parents or older siblings taking on roles of lab partners, translators, and even teachers. The Robotics and E-Textiles project will support increased capacity within libraries and community centers to hold robotics workshops for families in their own communities. Libraries and community centers will serve as vehicles through which families engage with robotics and e-textiles, resulting in wider access to Next Generation Science Standards' engineering practices to more people. This Innovations in Development project is funded by the Advancing Informal STEM Learning (AISL) program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. Librarians and community engagement leaders will participate in professional experiences to develop science and technology content and facilitation skills. University researchers in collaboration with project partners will use a design-based research methodology to iteratively design the professional development and backpack programs and to investigate learning processes and outcomes. The Cultural Learning Pathways theoretical model will guide the study of how engagement with robotics/e-textiles experiences can lead to changes in practice, identity, and deeper participation in communities of practice on the part of librarians, youth, and families. Although collaborations between public libraries and informal science providers are becoming increasingly common, this project will document the process of developing such collaborations and draw insights that may be applied to other contexts. By bringing together traditional and non-traditional community organizations to develop and facilitate STEM learning experiences, this project has the potential for resulting in a new model for a decentralized system of informal STEM education and broadening participation in STEM. Over the life of the project, the number of partner libraries will expand from one to four, and it is anticipated to reach more than 550 families. It is being conducted through a partnership between the University of Washington, the Pacific Science Center, the Seattle Public Libraries, and Red Eagle Soaring, a Native American community youth program.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This research project leverages ongoing longitudinal research to investigate whether, and if so how, youth from ages 10 to 15 in a diverse, under-resourced urban community become interested and engaged in STEM. The project addresses a global issue; fewer youth choose to major in scientific fields or take science coursework at high school or university levels. These declining numbers result in fewer STEM professionals and fewer scientifically literate citizens who are able to function successfully in an increasingly scientific and technological society. These declines are observed for youth as a whole, but are most pronounced for girls and particular non-white ethnic minorities. Data collected from youth in this community of study, including non-white ethnic minorities, mirrors this decline. NSF funding will support a five-year systematic and systemic process in which project researchers work collaboratively with existing informal and formal educational partners (e.g., museums, libraries, afterschool providers, schools) to develop sets of customized, connected, and coordinated learning interventions, in and out of school, for youth with different backgrounds, needs, and interests, all with the goal of averting or dampening this decline of STEM interest and participation during early adolescence. In addition to new research and community STEM networks, this project will result in a Community Toolkit that includes research instruments and documentation of network-building strategies for use by other researchers and practitioners nationally and internationally. This mixed methods exploratory study has two distinct but interrelated populations - youth and educators from across informal and formal institutions. To develop a clearer understanding of the factors that influence youths' STEM interest development over time, particularly among three youth STEM Interest Profiles identified in a secondary analysis (1-Dislike Math, 2-Like all STEM, 3-Dislike all STEM), the design combines surveys with in-depth interviews and observations. To study educators and institutions, researchers will combine interviews, focus groups, and observations to better understand factors that influence community-wide, data-driven approaches to supporting youth interest development. Research will be conducted in three phases with the goal of community-level change in youth STEM interest and participation. In Phase 1 (Years 1 & 2) four educational partners will develop interventions for a 6th and 7th grade youth cohort that will be iteratively refined through a design-based approach. Educational partners and researchers will meet to review and discuss interest and participation data and use these data to select content, as well as plan activities and strategies within their programs (using a simplified form of conjecture mapping). By Phase 2 (Years 3 & 4) four additional partners will be included, more closely modeling the complex system of the community. With support from researchers support and existing partners, new educational partners will similarly review and discuss data, using these to select content, as well as plan activities consistent with program goals and strategies. Additional interventions will be implemented by the new partners and further assessed and refined with a new 6th and 7th grade cohort, along with the existing interventions of the first four partners. In Phase 3 (Year 5) data will be collected on pre-post community-level changes in STEM interest and participation and the perceived effectiveness of this approach for youth. These data will inform future studies.
The range of contemporary "emerging" technologies with far-reaching implications for society (economic, social, ethical, etc.) is vast, encompassing such areas as bioengineering, robotics and artificial intelligence, genetics, neuro and cognitive sciences, and synthetic biology. The pace of development of these technologies is in full gear, where the need for public understanding, engagement and active participation in decision-making is great. The primary goal of this four-year project is to create, distribute and study a set of three integrated activities that involve current and enduring science-in-society themes, building on these themes as first presented in Mary Shelley's novel, Frankenstein, which will be celebrating in 2018 the 200th anniversary of its publication in 1818. The three public deliverables are: 1) an online digital museum with active co-creation and curation of its content by the public; 2) activities kits for table-top programming; and 3) a set of Making activities. The project will also produce professional development deliverables: workshops and associated materials to increase practitioners' capacity to engage multiple and diverse publics in science-in-society issues. The initiative is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. This project by Arizona State University and their museum and library collaborators around the country will examine the hypothesis that exposing publics to opportunities for interactive, creative, and extensive engagement within an integrated transmedia environment will foster their interest in science, technology, engineering and mathematics (STEM), develop their 21st century skills with digital tools, and increase their understanding, ability, and feelings of efficacy around issues in science-in-society. These three distinct yet interlocking modes of interaction provide opportunities for qualitative and quantitative, mixed-methods research on the potential of transmedia environments to increase the ability of publics to work individually and collectively to become interested in and involved with science-in-society issues.