Many people with autism are unemployed and isolated because they do not have access to educational opportunities that support them in finding jobs that match their potential. This research seeks to empower adolescents with autism to seek out careers that are well-matched with their strengths and interests. Many people with autism are interested in computing, a marketable skill. This project builds from this interest by developing strategies to effectively engage teenagers with autism. Although people with autism share a diagnosis, each person is unique and has the capacity to become a visionary and transformer in society in their own way. Teenagers with autism will be invited to participate in a game design workshop hosted by an award-winning, not-for-profit Tech Kids Unlimited. Teenagers often enjoy learning how to design games and can learn many useful skills through design. During each workshop, teenagers will rate different teaching strategies using a picture-based survey developed in collaboration with people with autism. It is expected that teenagers with autism who have difficulty focusing to be most engaged by strategies that include multiple types of information (for example, pictures, text, and speech). The team also expects those who are more focused to be most engaged by strategies with fewer sources of information. By developing clear guidelines to help educators match their teaching styles to how different students learn, the project will help them engage youth more effectively. Through an iterative process, the team will revise the game design workshop to make it more engaging for people with different types of autism. New groups of teenagers with autism will participate in improved game design workshops that include an internship in a technology company. An important outcome is to understand which strategies are engaging for young people with autism that help them develop the belief in their skills needed to seek out fulfilling careers. This award is funded by the Advanced Informal STEM Learning program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
This Research in Service to Practice project has the following aims: 1) Identify evidence-based strategies to engage youth with autism spectrum disorder (ASD) in informal STEM learning opportunities that are well matched to their attentional profiles, 2) Determine if engaging youth with ASD in informal STEM learning opportunities increases their STEM self-efficacy, and 3) Determine if engagement with STEM internship activities is associated with increased interest in STEM careers and career decision-making self-efficacy. Principles of Universal Design (UD) and Mayer's principles of effective multimedia instruction are frameworks employed to identify instructional strategies that are emotionally engaging for youth with diverse attentional profiles. The degree to which attentional differences contribute to different patterns of emotional engagement with informal STEM learning will be investigated. Guided by assessments of youth's engagement with different learning opportunities, 'diversity blueprints' or specific instructional strategies that help youth with diverse attentional profiles engage will be developed. After identifying strategies to engage neurodivergent (neurologically diverse) youth in informal STEM learning opportunities, the extent to which these strategies generalize to STEM internship sites will be explored. The team will study potential specificity of the types of contexts that promote different types of self-efficacy, with engagement with extracurricular STEM learning opportunities expected to preferentially target STEM self-efficacy while engagement with internships targets career decision-making self-efficacy. Although UD is often endorsed to promote STEM learning among students with disabilities, the proposed research would be the first iterative adaptation of instructional strategies designed to engage neurodivergent teens in informal STEM learning guided by a systematic analysis of how they engage with and feel about instructional strategies. Project deliverables include workshops for local after-school program providers, publications, a project website, and a multimodal guide of the process of developing 'diversity blueprints' and how to apply them for informal STEM educators and researchers.
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 an emerging field of theory, research, and practice, STEAM (Science, Technology, Engineering, Arts and Mathematics) has received attention for its efforts to incorporate the arts into the rubric of STEM learning. In particular, many informal educators have embraced it as an inclusive and authentic approach to engaging young people with STEM. Yet, as with many nascent fields, the conceptualization and usage of STEAM is somewhat ambivalent and weakly theorized. On the one hand, STEAM offers significant promise through its focus on multiple ways of knowing and new pathways to equitable
Very little is known about the experiences of people with learning disabilities in informal learning environments such as science centers and museums. This project will describe the ways in which engagement and intrinsic motivation for learning are and are not supported for visitors with learning disabilities, and build capacity for informal STEM education practitioners to apply this learning for the benefit of those with learning disabilities as well as any visitor who needs more support in the context of self-directed learning. Broadening participation science, technology, engineering and math (STEM) is a core goal of the National Science Foundation and its Advancing Informal STEM Learning (AISL) program. This project pursues this goal with a focus on young people with learning disabilities. As the largest group of individuals with disabilities in the United States, people with learning disabilities make up an estimated 20% of the U.S. population. Science professions offer many life- and work-related opportunities for individuals with learning disabilities, and the flexible experiences of informal learning spaces offer important opportunities to promote participation, engagement in and motivation for science. This work represents the next generation of accessible design to broaden participation in, and impacts of, informal STEM learning opportunities. This project will generate guidelines and resources to support inclusive design for this group of visitors. Resources will include a Toolkit of Visual Assets that can be shared digitally and in print with youth with learning disabilities, informal STEM practitioners, and the learning disability research and practice community.
The project will develop empirical knowledge to support informal STEM practitioners to better facilitate the inclusion of youth with learning disabilities. Using the lens of Self-Determination Theory as an explanatory framework, this research will be pursued in three phases. Self-Determination Theory describes the psychological needs that must be met, such as autonomy and feelings of efficacy, to create an environment that supports individuals' engagement in self-motivated behaviors. Phase 1 will be an exploratory study describing the engagement and motivation of adolescents (ages 10-17) with learning disabilities when experiencing varied STEM exhibits. This first phase will adapt validated scales, employ an existing observation protocol, and conduct stimulated recall interviews with youth. Phase 2 will explore, develop and investigate design strategies to improve the intrinsic motivation of youth with learning disabilities at educational STEM exhibits. This second phase will involve a set of experimental studies in which design strategies related to intrinsic motivation are manipulated to inform principles of inclusive design for visitors with learning disabilities. As in the previous phase, Phase 2 will adapt validated scales and employ an existing observation protocol. Phase 3 will focus on design charrettes in which researchers and practitioners work with high school students with learning disabilities in a co-design process. The charrettes will generate guidelines and case examples of exhibit components using Universal Design for Learning to balance varying design priorities and effectively, inclusively design exhibits for this population. This third phase will rely on qualitative coding of co-design charette artifacts, field notes and researcher reflections; member checking will play an important role in the coding process. Dissemination efforts for this project will target youth with learning disabilities, informal STEM education practitioners, and the broader field of learning disability researchers and practitioners. In addition to the exhibit design guidelines and Toolkit described above, the project will publish peer reviewed articles and develop manuscripts aimed at educational research and practice.
This Research in Service to Practice project is funded by the Advancing Informal STEM Learning 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 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
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 RAPID was submitted in response to the NSF Dear Colleague letter related to the COVID-19 pandemic. This award is made by the AISL program in the Division of Research on Learning, using funds from the Coronavirus Aid, Relief, and Economic Security (CARES) Act. The project will develop and research an integrated package of high-quality, widely accessible media and other outreach materials designed to engage middle school youth, educators, and libraries in learning about viruses in relation to COVID-19. There is an immediate need to provide youth with accurate, engaging, and accessible materials to help them understand the basic biology underlying the COVID-19 pandemic, including the routes of COVID-19 transmission and mechanisms to prevent its spread. This is particularly important for those without science backgrounds or interests so that the rumors, hearsay, and gossip circulating among youth can be replaced with research-based information. Since 2007, the project team and partners have focused on developing and studying new ways of educating youth and the public about biology, virology, and infectious disease. The project will develop a web-accessible package of customizable graphics, illustrated stories, and essays--all of which can be easily incorporated into free-choice and directed on-line learning as well standards-based lesson plans for Grades 6-8. These resources will be disseminated broadly and at no cost to youth and educators of all kinds, including schools, libraries, museums, and other established networks for formal and informal science education. The project web package will be linked to multiple websites that serve as important educational resources on science and virology for youth, the general public, and educators. A prominent university press will publish and promote the illustrated stories and support distribution of 7,000 free copies.
The project will conduct research examining how richly-illustrated science narratives impact youth understanding of and curiosity about science. The research will help develop the foundation for better understanding how to educate youth about COVID-19 (and future pandemics) while generating new knowledge about effective methods for public science outreach during a major unanticipated natural event. For formative evaluation, the project will use an innovative rapid response feedback method. Youth will be invited to provide timely, specific comments on the serialized stories through a curated portal. As new excerpts are related online, different questions will be posed to youth who are selected because of specific characteristics (e.g., low or high initial science interest). These data will guide story development in real time and provide a mechanism to gauge the story appeal, comprehensibility, and initial impacts. The project will address two research questions: (1) How effective are illustrated stories in having positive impacts among participants on COVID-19 knowledge, science identity, attitudes, and interest in science careers?; and (2) How do story lines and characters have differential impacts on virus knowledge, epidemiology, and youth attitudes towards science and science careers? To conduct this research, the project will conduct online surveys using adapted items from prior research conducted by the project team. Additional items will assess COVID-19 knowledge, attitudes, personal experiences with the virus, well-being, and exposure to public health messaging about the virus. Research findings will be shared widely to inform the field about new ways delivering science education content during the advent of rapidly evolving global and educational challenges.
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.
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TEAM MEMBERS:
Judy DiamondJulia McQuillanPatricia Wonch HillElizabeth VanWormer
This document is the final summative evaluation report written by EDC, the external evaluator of the STEM Guides project. The report concludes that the project was highly ambitious, with many dynamic and evolving pieces. It was deemed successful as a model of brokering connections between students aged 10-18 and STEM resources and opportunities in rural Maine communities. The STEM Guides program contributed to the increase in STEM awareness within each community, as well as connecting youth with interesting and relevant STEM experiences.
The purpose of this study is to develop an instrument to assess civic scientific literacy measurement (SLiM), based on media coverage. A total of 50 multiple-choice items were developed based on the most common scientific terms appearing in media within Taiwan. These questions covered the subjects of biology (45.26%, 22 items), earth science (37.90%, 19 items), physics (11.58%, 6 items) and chemistry (5.26%, 3 items). A total of 1034 students from three distinct groups (7th graders, 10th graders, and undergraduates) were invited to participate in this study. The reliability of this instrument
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TEAM MEMBERS:
Carl-Johan RundgrenShu-Nu Chang RundgrenYuen-Hsien TsengPei-Ling LinChun-Yen Chang
The videogames industry has been flourishing. In 2010 in America alone, total consumer spending on the games industry totaled $25.1 billion (Siwek, 2010), surpassing both the music industry ($15.0 billion) and box office movies ($10.5 billion). It is also one of the fastest growing industries in the U.S. economy. From 2005 to 2010, for example, the videogames industry more than doubled while the entire U.S. GDP grew by about 16 percent. The amount of time young people spend with entertainment media in general is staggering. Youth aged 8 to 18 years old consume about 10.45 hours per day of
This video presents reflections on SCIENCES: Supporting a Community’s Informal Education Needs—Confidence and Empowerment in STEM. SCIENCES brought together Eden Place Nature Center and the Chicago Zoological Society to collaboratively support environmental conservation and lifelong scientific learning in the Fuller Park neighborhood of Chicago.
The SCIENCES project began in 2013 and focused on adapting existing educational programs into a suite of environmentally focused science learning opportunities for professional, student, and public audiences in the Fuller Park neighborhood
The summative evaluation documents and articulates what SCIENCES has improved or changed, and in what ways. The final design of the summative evaluation was based on findings from the front-end and formative evaluations, including using participatory evaluation techniques to engage community members in discussing their experience with the programs and assessment of community needs and assets at the close of the project.
The goal of the summative evaluation was to address discrete program impacts in the context of the project, as well as the cross-program impact of providing a thematically
In The Nature of Community: SCIENCES, we share the lessons learned from an innovative partnership designed to leverage the strengths of two nonprofit organizations—a large cultural institution and a smaller, deeply-rooted community-based organization, both of which offer informal science education expertise.
You’ll read first-hand reflections of how staff members, community leaders and members, children, and adults experienced this partnership: the expectations, surprises, challenges, successes, and lessons learned. We hope the description of this partnership inspires other organizations to
Youth from non-dominant racial and linguistic backgrounds often have limited access to school science learning opportunities. Afterschool settings may provide learning environments in which they improve science knowledge and construct positive science identities. With this premise, our research team designs and provides a community-based afterschool program that engages resettled Burmese refugee youth in STEM learning. In this paper, we seek to understand how refugee youth utilize their funds of knowledge and what identities were foregrounded in the program. We adapt a micro-ethnographic
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TEAM MEMBERS:
Minjung RyuMavreen Rose Sta. Ana TuvillaCasey Elizabeth Wright