Using their imagination and creativity, inventors have made significant contributions to our world throughout the course of human history. In recent times, a growing community has responded to the need for more intensive research on Invention Education and within the last several years has begun organizing itself around collaborative action that will accelerate the uptake and practice of Invention Education. The purpose of this document is to provide a comprehensive community-driven framework and set of principles for Invention Education that can support its growth within formal and informal
As professionals, we often assume that the engaging experiences visitors have in our exhibits and programs will lead to long-term learning. But how do we know this is happening, and, moreover, how do we design exhibits, programs and interactions to maximize visitors’ ability to learn from their experiences? At Chicago Children’s Museum a long- standing research collaboration with Northwestern University and Loyola, Chicago University has allowed us to examine how families’ conversational reflections during and after their in-museum experiences impact children’s ability to process and recall
Implementation of a permanent exhibition, on-line content, educational materials, and public programs exploring the history and cultural impact of video games.
Through the design, fabrication, and implementation of a 24,000-sq. ft. permanent, long-term gallery—tentatively entitled Digital Worlds—The Strong National Museum of Play will explore and share the history, influence, and experience of video games as they relate to culture, storytelling, human development, and the broader evolution of play. This gallery, the centerpiece of a transformational museum expansion, will include complementary and cohesive interactive exhibit spaces that showcase the history of video games through: (1) display of rare and unique historical artifacts; (2) use of multiple media formats that allow guests to discover the history of video games and their impact on society and culture; and (3) inclusion of one-of-a-kind interactive experiences that bring the history, art, and narrative structures of video games to life.
Implementation of a traveling exhibition, website, curriculum, and public programs exploring the history of the scrap industry in America.
The Jewish Museum of Maryland (JMM) is developing Scrap Yard: Innovators of Recycling, a temporary, traveling exhibit that will allow visitors to explore the evolution of the American scrap industry over 250 years through the stories of people who created it – immigrants, their descendants and their successors. In addition to the 2,000-sq ft, experiential exhibit exploring scrap recycling through the lenses of history, sociology and technology, JMM intends to publish a companion book and free interpretive brochure, create a website, plan public programs, collect and curate select oral histories, and develop educational curricula. The exhibit will feature historical objects, oral histories, texts, images, multimedia, and interactives. Resources will be drawn from JMM’s collections, the archives of the Institute of Scrap Recycling Industries (ISRI), and a variety of other sources. Scrap Yard opens at JMM in 2019 and begins a national tour in 2020.
In informal science contexts, the word tinkering describes a learning process that combines art, science, and technology through hands-on inquiry. With the growth in popularity of the making and tinkering movements nationwide, these practices are increasingly making their way into early childhood environments where they have great promise to positively impact the early STEM learning experiences of young children. This 2-day conference hosted at the Exploratorium in San Francisco will bring together stakeholders exploring applications of tinkering in informal early childhood environments. The conference will provide opportunities to explore the role, value, and challenges associated with implementing meaningful tinkering interventions in learning environments serving young children. The project seeks to 1) Convene stakeholders from the tinkering and early childhood programs; and 2) further the exploration and evolution of practitioner and researcher knowledge about tinkering in early childhood contexts. The long-term goal is to support more young children being introduced to STEM learning through tinkering's adaptable approaches to STEM-learning that align with the developmental needs of this young population.
This project will collaboratively analyze and document the state of the field of STEM-rich tinkering in informal early childhood contexts. Additionally, the project will deepen relationships across the early childhood tinkering ecosystem. Additional outcomes include an effort to provide tangible resources to the field highlighting current promising practices and future opportunities for development. The conference will also provide an understanding of how tinkering interventions may contribute to the development of STEM interest, identity and learning amongst early childhood audiences. Finally, the conference will bring together research and practitioners to explore how tinkering in early childhood settings can be used effectively to meet the needs of diverse learners including learners from underserved and underrepresented communities. The project will recruit a total of 75 participants with backgrounds in the field of tinkering and STEM learning, early childhood research, and professional development practices representing a diverse set of institutions and organizations. Research questions for the conference will focus on: 1) What types of supports and professional development do early childhood educators need to facilitate early STEM learning through tinkering? 2) What types of built environment and hands-on materials best support young children's ability to learn STEM content and practices through tinkering? 3) What types of strategies best support caregiver involvement in young children's learning? 4) What is the role of early childhood tinkering in young children?s STEM learning, interest, and identity development? 5) How can culturally and linguistically sustaining pedagogies be used to ensure equity across a diversity of young learners and their families? To answer these research questions the project will use qualitative methods before, during and post-conference. Research methods will include a landscape analysis identifying needs of participants, surveys, observations and informal interviews with participants.
This Conference award 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.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program 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 will research core methods of science documentary film production and impact on audience engagement and understanding. The findings from this study will be used to later produce a film on how the CRISPR genome editing technology will shape agriculture, ecology, and the natural world. The research study and film to be produced will be a collaboration of science communication practitioners and researchers. The intended outcomes are to improve effective science filmmaking and increase impact on audiences. Many people rely on documentary film and videos for science information outside of formal learning environments. Research has shown that video programming can reduce knowledge gaps between those of higher and lower levels of education. But there is little research with findings about what makes a particular style of storytelling effective for engagement and learning outcomes. A recent report of the National Academies of Sciences, Engineering and Medicine identified a significant shortage of social science research with directly applicable lessons for filmmakers. This project addresses this need by providing new frameworks for research and methods to produce science documentaries. Project partners are iBiology, a producer of video resources for learning, and science communication researchers at the University of Wisconsin-Madison.
This project will examine two key questions: 1) In a science documentary film, how does the diversity of the scientists profiled and the use of a narrator shape audiences? perception of content and scientists? and 2) What are effective methods in science filmmaking to visualize the invisible (i.e. explain scientific phenomena that are not easily visualized)? The project begins by testing a recently produced film, Human Nature, that tells the story of the discovery of CRISPR (genome editing), told by the scientists who led the effort. Phase 1 testing will include screenings, focus groups, and experiments run through Amazon Mechanical Turk to test what features of the film (editorial voice and visualization styles) are most effective for communicating scientific content. In Phase 2 video test clips will be produced using a combination of narration and visualization strategies. An experimental design run through Amazon Turk will randomly assign participants to watch a clip using different combinations. Researchers will use this data to parse out what effect seems to be related to particular narration and visualization choices. This quantitative experimental data will be supplemented by qualitative data from focus groups with participants with a diverse range of science experience and demographic backgrounds. Researchers will design a survey-embedded experiment with a U.S. nationally representative sample to see how well the findings translate and change in a broader population.
This Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Dietram ScheufeleSarah GoodwinElliot Kirschner
A makerspace is a place where participants explore their own interests and learn by creating, tinkering, and inventing artifacts through the use of a rich variety of tools and materials. This project will develop and research a flexible model for makerspaces that can be adapted to local settings to support informal STEM learning for hospitalized, chronically ill patients in pediatric environments who are predominantly youth of color from low-income backgrounds. These youth are subject to health disparities and healthcare inequities. Their frequent absence from school and other activities disrupt friendship formations, reduce their opportunities for social support, reduce their access to environments where they can feel a sense of self-agency through learning and creative activities. Through patient centered co-design, this project will build adaptable STEM makerspace environments conducive to STEM-rich learning, the exercise of self-agency, and development of STEM identity. Project design will focus on the sensitive nature of working with vulnerable populations (i.e., immunocompromised patients). The project will develop and disseminate several resources: (1) a flexible makerspace model that can be adapted to work in different pediatric settings; (2) research methods for conducting research in highly sensitive environments with and alongside young patients; and (3) professional development resources and a playbook including guidebook and facilitators guide that will articulate principles and processes for designing, implementing and sustaining makerspaces in pediatric settings. These resources will be widely disseminated through maker and other informal STEM networks.
The project will pursue two innovations. First, the project will develop the physical design of adaptable informal STEM makerspaces in pediatric settings. Second, the project will develop innovative patient-centered methodologies for studying approaches to physical design and the effects of makerspace installations for informal STEM-learning, self-agency, and STEM identity development. Using a design-based research approach, the project will investigate: (1) the extent to which physical makerspace designs support access to material, relational, and ideational resources for STEM-learning and well-being; (2) the extent to which makerspace installations, researchers, and medical care staff support patients in accessing and generating tools and other resources for personal learning and a sense of agency; and (3) the extent to which makerspace design with a focus on affording material, relational, and ideational resources provide rich opportunities for young patients to explore their own interests and cultivate STEM identities. One of the project's innovations, beyond development of adaptable makerspace model involves developing an innovative patient-centered methodology for conducting educational research toward broadening participation in STEM in highly sensitive medical care environments. The project will employ a mixed-methods research design and collect a variety of data to address these areas of research including documentation of makerspace design plans and renderings, observational data gathered through fieldnotes, video and audio recordings, informal interviews with patients, their families, and child-care staff, and patient generated artifacts. Articles for researchers and practitioners will be submitted for publication to appropriate professional journals and peer-reviewed publications.
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 Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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.
Making, which supports interest-driven skill-development and learning, has been recognized as having the potential to engage underserved youth in STEM. Makerspaces are community spaces that allow participants to create items using tools, such as 3-D printers, computer-aided design, and digital fabrication technologies. Makerspaces and making-related programs are often inaccessible, unaffordable, or simply not available to underserved youth. Digital Harbor will partner with recreation centers, two in Pittsburgh and two in Baltimore, to research, refine and implement an equity-based approach to making that will engage underserved youth aged 12-16 in making. The project will prepare out-of-school time (OST) educators to collaboratively develop culturally sensitive curricula with underserved youth to engage them in maker-based technology and computer science experiences. The project will (1) design a professional development program that will prepare and support local educators to collaboratively design and deliver localized, maker-based, STEM curricula; (2) research the impact of these programs on both educators' and youth's self-efficacy, creativity, and attitudes towards STEM; and (3) develop and evaluate an online Localization Toolkit that will prepare educators in makerspaces across the nation in using an equity-based approach to create localized content. The project will result in four new maker sites (two in Baltimore and two in Pittsburgh directly impact 4 sites (10 educators and 240 youth). The project will result several resources that will support the development and educational programs of other community sites. The resources will include the Localization Toolkit, Case Studies, Best Practices, and Research Study. The Localization Toolkit has the potential to strengthen infrastructure and capacity building in OST maker-based programs, as well as other informal and formal education programs using similar pedagogies and design principles.
The project will use a mixed-methods approach in researching the challenges and processes involved in establishing the four maker sites in Baltimore and Pittsburgh, the approaches and effectiveness of the professional development program on OST educators, and the impacts of the project of participation on the self-efficacy, creativity, and attitudes on participating youth and educators. The research study will apply several instruments and data collection sources to develop quantitative data, including youth attendance logs, the Upper Elementary and Middle/High School Student Attitudes toward STEM survey, a retrospective technology self-efficacy survey and pre-post surveys. In addition to project document review, the researchers will collect qualitative data through educator interviews, educator focus groups, and youth focus groups. Project research and resources will reach key audiences of learning scientists and OST educators through articles in peer-reviewed and practitioner journals, public events and professional conferences. These audiences will also be reached through the project website, which will share project resources. The project will reach OST sites across the country directly through dissemination partners, including the National Recreation and Parks Association, Association of Science and Technology Centers, and statewide out-of-school networks.
This Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Sense-making with data through the process of visualization—recognizing and constructing meaning with these data—has been of interest to learning researchers for many years. Results of a variety of data visualization projects in museums and science centers suggest that visitors have a rudimentary understanding of and ability to interpret the data that appear in even simple data visualizations. This project supports the need for data visualization experiences to be appealing, accommodate short and long-term exploration, and address a range of visitors’ prior knowledge. Front-end evaluation
As new technologies continue to dominate the world, access to and participation in science, technology, engineering, mathematics (STEM), and computing has become a critical focus of education research, practice, and policy. This issue is exceptionally relevant for American Indians, who remain underrepresented as only 0.2% of the STEM workforce, even though they make up 2% of the U.S. population. In response to this need, this Faculty Early Career Development Program (CAREER) project takes a community-driven design approach, a collaborative design process in which Indigenous partners maintain sovereignty as designers, to collaboratively create three place-based storytelling experiences, stories told in historical and cultural places through location-based media. The place-based storytelling experiences will be digital installations at three culturally, politically, and historically significant sites in the local community where the public can engage with Indigenous science. The work is being done in partnership with the Northwestern Band of the Shoshone Nation (NWBSN).
The principal investigator and the NWBSN will investigate: (a) what are effective strategies and processes to conduct community-driven design with Indigenous partners?; (b) how does designing place-based storytelling experiences develop tribal members' design, technical, and computational skills?; (c) how does designing these experiences impact tribal members' scientific, technological, and cultural identities? The goals are to establish a process of community-driven design, build infrastructure to support this process, and understand how this methodological approach can result in culturally-appropriate ways to engage with science through technology. The principal investigator will work with the tribe to complete three intergenerational design cycles (a design cycle is made up of multiple design iterations). Each design cycle will result in one place-based storytelling experience. The goal is to include roughly 15 youth (ages 6-18), 10 Elders, and 10 other community members (i.e. members ages 18-50, likely parents) in each design cycle (35 tribal members total). Some designers are likely to participate in multiple design cycles. The tribe currently has 48 youth ages 6-18 and the project aims to engage at least 30 across all three design cycles. Over four years of designing three different experiences, the NWBSN aims to recruit at least 100 tribal members (just under 20% of the tribe) to make contributions (as designers, storytellers, or to provide cultural artifacts or design feedback).
This CAREER award 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.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Engaging with Tinkering is a highly stimulating and complex experience and invites rich reflections from museum practitioners and teachers. "Tinkering as an inclusive approach for building STEM identity and supporting students facing disadvantage or with low science capital” presents the reflective practice process and tools designed by the "Tinkering EU: Building Science Capital for All" project aiming to understand in more depth the potential impact of using a Tinkering approach with students facing disadvantage. Using tools specifically designed to help teachers observe their students
The goal of the National Science Foundation?s Research Coordination Network (RCN) program is to advance a field or create new directions in research or education by supporting groups of investigators to communicate and coordinate their research, training and educational activities across disciplinary, organizational, geographic and international boundaries. This RCN will bring together scholars and practitioners working at the intersection of equity and interdisciplinary making in STEM education. Making is a culture that emphasizes interest-driven learning by doing within an informal, peer-led and creative social environment. Hundreds of maker spaces and maker-oriented classroom pedagogies have developed across the country. Maker spaces often include digital technologies such as computer design, 3-D printers, and laser cutters, but may also include traditional crafts or a variety of artist-driven creations. The driving purpose of the project is to collectively broaden STEM-focused maker participation in the United States through pursuing common research questions, sharing resources, and incubating emergent inquiry and knowledge across multiple working sites of practice. The network aims to build capacity for research and knowledge, building in consequential and far-reaching mechanisms to leverage combined efforts of a core group of scholars, practitioners, and an extended network of formal and informal education partners in urban and rural sites serving people from groups underrepresented in STEM. Maker learning spaces can be particularly fruitful spaces for STEM learning toward equity because they foster interest-driven, collective, and community-oriented learning in making for social and community change. The network will be led by a team of multi-institutional and multi-disciplinary researchers from different geographic regions of the United States and guided by a steering committee of prominent researchers and practitioners in making and equity will convene to facilitate network activities.
Equitable processes are rooted in a commitment to understand and build on the skills, practices, values, and knowledge of communities marginalized in STEM. The research network aims to fill in gaps in current understandings about making and equity, including the many ways different projects define equity and STEM in making. The project will survey the existing research terrain to develop a dynamic and cohesive understanding of making that connects to learners' STEM ideas, communities, and historical ways of making. Additionally, the network will collaboratively develop central research questions for network partners. The network will create a repository for ethical and promising practices in community-based research and aggregate data across sites, among other activities. The network will support collaboration across a multiplicity of making spaces, research institutions, and community organizations throughout the country to share data, methodologies, ways of connecting to local communities and approaches to robust integration of STEM skills and practices. Project impacts will include new research partnerships, a dissemination hub for research related to making and equity, professional development for researchers and practitioners, and leveraging collective research findings about making values and practices to improve approaches to STEM-rich making integration in informal learning environments. The project is funded by NSF's Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of settings. 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 award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.