Various measures exist to assess learning outcomes from informal science, technology, engineering, or math (STEM) education programming, especially for youth audiences. Although there has been growing interest in the field among practitioners, researchers and evaluators for the development and implementation of shared, common STEM measures and frameworks, informal STEM learning (ISL) institutions (e.g., museums, zoos, aquaria, botanic gardens, and the like) face a unique challenge when they design and evaluate educational programs. By nature of the broad-ranging topic areas these institutions emphasize, programming seeks to reach audiences that vary in age, ability, cultural background, interest, and more. Participation also varies--for example, participants choose which in a series of exhibits they attend and how much time they spend at each. Given this planned-for variance, how do educators target appropriate learning outcomes? To what extent do outcomes map to activity complexity? How does programming success link to institutional goals? One solution may be a framework of outcome progressions. Progressions are within outcome categories (e.g., interest, attitude, knowledge, skills, behavior, science capital, etc.), the ordinal series of effects that can be mapped to programming that ranges from short duration with simple content (e.g. a hallway cart demonstration can trigger situational interest) to extended duration with complex content (e.g. a youth internship can generate well-developed personal interest). STEM educators, evaluators and researchers working in or with ISL institutions will come together to consider the utility and feasibility of an outcome progressions framework. With this framework STEM learning institution educators may be better equipped to understand the impact of their programming and how to design for it. This work will be undertaken by the COSI Center for Research and Evaluation in conjunction with the Office of Education, Outreach, and Visitor Services of the National Museum of Natural History and the PEAR Institute.
The primary aim of this multi-day virtual convening is to inform future development of the framework for outcome progressions. These progressions will reflect and accommodate outcomes targeted by existing and shared evaluation measures. The framework will provide informal educators and evaluators with (1) a way of aligning outcome expectations with programming depth and dosage; (2) outcome choices achievable with various depths of programming; (3) a strategic tool for planning institution-wide targeted outcomes across a full portfolio of institution educational programming; and (4) a tool for documenting an education department's varied outcomes across the full range of possible outcomes. To create rich and informed critical discussion, the conference will involve research consultant experts representing each outcome category; practitioners representing diverse programming; and evaluation theorists familiar with the broad needs of informal learning institutions. A conference subcommittee with expertise in culturally responsive and equitable program development and evaluation will ensure the agenda contains flexibility to generate emergent equitable and inclusive conversations. Conference participants will review and contribute to the soundness and utility of these categorizations as well as the progressions within them. These insights and inputs will inform future development of the framework as a valid and reliable tool. Deliverables include a paper summarizing the findings from the convenings and a related webinar that describes the framework and recommendations for its use. These will be shared broadly via the informalscience.org website and other professional venues.
This conference 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 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.
This RAPID project will study connections between children's hygiene habits and learning about science, such as the science of disease transmission. It builds upon findings from the investigator's prior research of parent-child interactions observed in children's museums and will extend this research to home settings. This research will focus on understanding how goal-setting, whether it is parent-directed, child-directed, or jointly-directed, affects children's engagement with a handwashing activity and their subsequent learning about handwashing behavior and preventing the spread of disease. More specifically, the intent is to examine how goal-setting during an interactive demonstration between parents and children relates to children's recollection of the activity and their handwashing behavior afterwards. 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.
During a pandemic, it is vital that children establish good hygiene habits and understand the importance of handwashing for the prevention of disease transmission. What is most important is that young children wash their hands frequently and follow good hygiene habits, such as using soap, when doing so. This study examines the role parents might play in engaging children to wash their hands. The project team has developed a short 10 minute intervention that parents and children can participate in while using everyday household items. Utilizing remote technology, parents and children will be guided through this intervention while video recording their behavior. Families will be presented with a structured activity for parents and children to participate in together. This activity will be focused on how handwashing, and particularly the use of soap during handwashing, helps prevent the spread of germs. Parent-child interactions will be coded using schemes for goal setting that the investigator developed in prior work. Directly after their participation and one week later, children will be asked to reflect on the activity to understand what they remember about it, and to understand whether they have encoded the importance of handwashing for preventing the transmission of disease. Parents will also be asked to track their children's handwashing to see whether aspects of these reflections, as well as individual differences in how parents and children interact during the activity, promote better engagement with handwashing. The data generated will allow researchers to develop best practices for interventions centered on children's handwashing and the prevention of disease transmission. Knowing such practices is critical for reintegrating children into social settings such as schools and children's museums.
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.
Research shows that algebra is a major barrier to student success, enthusiasm and participation in STEM for under-represented students, particularly African-American students in under-resourced high schools. Programs that develop ways to help students master algebra concepts and a belief that they can perform algebra may lead to more students entering engineering careers. This project will provide an online engineering program to support 9th and 10th grade Baltimore City Public Schools students, a predominantly low-income African-American cohort, to develop concrete goals of becoming engineers. The goals of the program are to help students with a growing interest in engineering to maintain that interest throughout high school. The project will also support students aspire to an engineering career. The project will develop in students an appreciation of requisite courses and skills, and increase self-efficacy in mathematics. The project will also develop a replicable model of informal education capable of reinforcing the mathematical foundations that students learn during the school day. Additionally, the project will broaden participation in engineering by being available to students during out-of-school time and by having relaxed entrance criteria compared to existing opportunities in supplemental engineering curricula. The project is a collaboration between the Baltimore City Public Schools, Johns Hopkins University Applied Physics Laboratory, Northrop Grumman Corporation, and Expanded School-Based Mental Health programs to support students both during and after participation. The project will benefit society by providing skills that will allow high school students to become members of tomorrow's highly trained STEM workforce.
The research will test whether an informal, scaffolded online algebra-for-engineering program increases students' mastery and self-efficacy in mathematics. The research will advance knowledge regarding informal education by applying Social Cognitive Career Theory as a framework for measuring program impact. The theoretical framework will aid in identifying mechanisms through which students with interest in engineering might persist in maintaining this interest through high school via algebra skill mastery and increased self-efficacy. The project will recruit 200 youth from the Baltimore City Public Schools to participate in the project over three years. Qualitative data will be collected to assess how student and school socioeconomic factors impact implementation, student engagement, and outcomes. The research will answer the following questions: 1) What effect does program participation have on math mastery? 2) What direct and indirect effects do program completion and supports have on students' mathematics self-efficacy? 3) What direct and indirect effects do program components have on engineering career goals by the end of the program? 4) What direct and indirect effects does math self-efficacy have on career goals? 5) To what extent are the effects of program participation on engineering career goals mediated by math self-efficacy and engineering interest? 6) How do school factors relate to the implementation of the program? 7) What socioeconomic-related factors relate to the regularity and continuation of student participation in the program? The quantitative methods of data analysis will employ descriptive and multivariate statistical methods. Qualitative data from interviews will be analyzed using an emergent approach and a coding scheme guided by theoretical constructs. Project results will be communicated to scholars and practitioners. The team will also share information through school newsletters and parent communication through Baltimore City Public Schools.
This project is funded by the Innovative Technology Experiences for Students and Teachers (ITEST) program, which supports projects that build understandings of practices, program elements, contexts and processes contributing to increasing students' knowledge and interest in science, technology, engineering, and mathematics (STEM) and information and communication technology (ICT) careers.
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.
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.
Parents and adult caregivers play a significant role in young children's understanding of (and participation in) science, technology, engineering, and mathematics (STEM). Research suggests that early engagement with STEM can have a profound impact on children's use of STEM process skills such as exploration, observation, and problem-solving, as well as future academic success. An immediate yet ongoing challenge facing informal STEM learning providers is to understand how limited resources can be used to support effective STEM learning opportunities and experiences for all children and families. Through a collaboration between researchers, Head Start, two science centers (one rural, one urban), and educators, this project aims to foster STEM access and engagement with specific attention to young children and their caregivers. 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 Pilot and Feasibility study will apply an experimental, mixed-methods design to examine parent/caregiver and child (ages 4-5) interactions before, during, and after informal STEM experiences to identify which factors influence children's transfer of learning STEM process skills across multiple informal contexts. Research results will lay the foundation for a future longitudinal study. The project team will ask: (1) What types of parent/caregiver-child engagement at the science center are most predictive of children's application of STEM process skills in subsequent problem-solving tasks and school readiness? (2) How do variations in parent/caregiver-child conversational strategies during the science center visit influence children's memory and learning? and (3) How can informal educators best support Head Start family engagement and children's emerging STEM knowledge? This study will collect data on 240, 4-5-year-old children, with their caregivers, in two different science centers that serve a largely rural and largely urban population. Data sources will include video/audio of caregiver-child interactions at the science centers and at home, as well as children's recall, engagement with a problem-solving task, and school readiness scores. Coding and analysis of the tasks during and after the science center visit will detail mechanisms underlying children's memory, learning, and application of STEM process skills that transfer to the problem-solving task. The project will be implemented by a research-practice partnership, leveraging the expertise of project partners and communities to ensure the use of culturally responsive research practices. This research has the potential to strategically impact how science centers and Head Start grantees work together on Family Engagement programming to achieve equitable STEM learning opportunities, broadening participation for low-income young children and their families.
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.
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.
This CAREER proposal focuses on the development of teachers' identities, which are operationalized as beliefs and practices, behaviors, and pedagogical knowledge. The PI uses a qualitative approach, occurring over two phases, to investigate the impact of formal-informal collaborations on identity development over time. The study is grounded in an ecological theoretical approach that incorporates a view of informal learning settings as learner-driven and unique in providing opportunities for interaction with objects during meaning-making experiences among groups of learners. The longitudinal research design includes collection of an array of data, including observations of teaching and learning activities, interviews, survey responses, and archival documents such as student work and videos of classroom experiences. The PI uses a narrative analysis and a grounded theoretical approach to generate themes about beliefs and practices around behaviors and pedagogical knowledge informed by informal science education experiences.
Research findings and related educational activities inform the field's understanding of best practices of integrating informal science activities into science teacher education, including determining appropriate kinds of support for STEM teachers who learn to teach in informal learning environments (ILE). The PI is integrating research findings in the revision of existing courses and the development of new courses and experiences for both new and experienced teachers. The project addresses the need for empirical evidence of impacts of ILE experiences on professional development, and will build capacity of informal science institution and university professionals to provide effective teacher education experiences and new teacher support.
In this virtual conference, The PEAR Institute convened over 40 practitioners and researchers to explore the power of an integrated vision of STEM and social-emotional development (SED). This conference aimed to 1) create a collaboration of out-of-school time (OST) leaders, practitioners, and researchers to map the overlays of STEM and SED; 2) identify best practices for integrated STEM-SED programming; 3) explore common existing and potential measures; and 4) identify how data is measured, communicated, and used for skills that are important to both STEM and SED. Through this collaboration, we aimed to initiate the conversations, establish partnerships, and build the capacity for assessment of STEM and SED in informal STEM learning programs.
Rather than seeking consensus, this conference sought to unearth questions and generate new ideas to lay a foundation for future research and practice, a way to inform the field about high-quality research and practice to promote cross-disciplinary collaboration and synergy between STEM and SED.
Conference deliverables include a conference report, an informal key findings webinar, and conference website (https://www.thepearinstitute.org/stem-sed-conference-2020). The website includes links to a participant directory, conference at-a-glance overview, agendas, readings, and additional resources identified during the conference.
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.
DATE:
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TEAM MEMBERS:
Judy DiamondJulia McQuillanPatricia Wonch HillElizabeth VanWormer
The primary objective of this study is to document how people learn the science of the COVID-19 pandemic in real time, how they activate this scientific knowledge towards informed decision making, and how these processes change over time. This study is intended to produce additional insights on how such learning is shaped by equity concerns and contextual factors. For example, researchers will document how the ways in which people learn the science of COVID-19 are mediated by the sources of information they have access to and leverage, as well as what supports them in doing so. The research will further document how people leverage their understandings of COVID-19, alongside other forms of knowledge and concerns in their decision-making. This study may serve a crucial role in aiding the public understanding of where structural points of informational failure might occur. It may also reveal where and how the public engages or resists community action strategies to mitigate spread and suffering through when, how and why they gather, share, and make sense of scientific data. 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 and ECR programs in the Division of Research on Learning, using funds from the Coronavirus Aid, Relief, and Economic Security (CARES) Act.
This research will draw upon a conceptual framework of consequential learning and a methodological framework of narrative inquiry. Sixty participants in Lansing, Michigan and Seattle, Washington will participate over the course of one year in cyclical interviews, focus group conversations and experience sampling approaches. Documents and resources named and used by the participants in their learning will be collected and analyzed. Attention will be paid to science learning in the following areas as the primary focus: a) the science of SARS-CoV-2 and the relationship between virus and disease, b) viral transmission, and c) origination, replication and spread. A key focus will also be how people use scientific data and evidence-based explanations when developing understandings and making decisions with respect to the pandemic. This research is urgent and timely because the COVID-19 pandemic is projected to occur in multiple waves over approximately 18 months. Insights may produce basic understanding about rapid science learning, policy strategies, school-based practices and resources for use within current and future waves. Socioscientific crises differentially impact people, with effects felt more significantly by vulnerable people. Thus, this study will address the urgent call for investigation into factors and experiences of low-income individuals and families who are trying to educate themselves on continually changing data during an international health crisis.
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.
This RAPID award is made by the AISL program in the Division of Research on Learning in the Directorate for Education and Human Resources, using funds from the Coronavirus Aid, Relief, and Economic Security (CARES) Act. COVID-19 presents a national threat to the health of children and families, presenting serious implications for the mental and physical health of children. This project addresses two critical aspects of the impact on COVID-19 on families: (a) the large-scale shift to at-home learning based on nationwide school closures and (b) the critical need for families to understand the basic science of virus transmission and prevention. To address these needs, the project team will develop a series of STEM activities for families with children in grades K-6 that make use of items readily available in most households. The activities help children and their families learn about viruses, virus transmission, and virus prevention while also developing other STEM-skills, particularly related to engineering design. Importantly, the project team also considers the emotional well-being of children and families during the disruption of the COVID-19 pandemic. Led by researchers from Indiana University and Binghamton University, and experts in educational resource development from Science Friday (a non-profit organization dedicated to increasing the public's access to science and scientific information through podcasts, digital videos, original web articles, and educational resources for teachers and informal educators) the project is further supported by partnerships with the New York Hall of Science, Amazeum (AR), the Gulf of Maine Research Institute (ME), The Tech Museum of Innovation (CA), the Indiana State Museum, and Kopernik Observatory Science Center (NY). The activities will be shared with families through live-streamed web sessions that introduce the activity, give tips to adults for facilitation, share a bit on related STEM careers and engage the audience in dialog about the activity and their current experiences. Versions of the sessions that are recorded will be edited and include closed-captioning and subtitles in multiple languages before being posted on platforms such as YouTube.
This project uses a design-based research approach to investigate strategies for enabling families to actively engage with STEM while home and away from their traditional institutions during a period of crisis. The research components focus on:
Engagement: How do families engage in the activity tasks, in terms of processes, practices, and use of resources? Who participated, why did they choose to participate and how did they engage (including modification of activities)? What barriers prevented interested families from completing activities?
Impact: How did the activities change participants? feelings of: a) efficacy around STEM and b) connectedness/ isolation, during extended school closures?
The Activities: Which activities had the greatest uptake? How many activity ideas were submitted by those outside of the team? What was the age/content focus of each of these activities?
The researchers will analyze social media data (including data on resource downloads and use of tracked links, YouTube and Facebook views, comment threads during livestreams and Likes/Shares/Follows across social media sites) to refine and improve the activities and programming as well as learn about the ways families are engaging in the activities. The researchers will solicit survey responses from website visitors to gather more information on participants, why they participated, how they engaged and how the activities impacted participants? efficacy around STEM and their feelings of connectedness or isolation. The researchers will also ask participants to submit images, videos and text that describes what they are making and their process along the way. Analysis of this data would lead to insights on how children and families use STEM language and practices; how children and families ask questions and use COVID-19-related and other information as part of their design work; and how ideas are formed, shaped and refined as families engage in design and making. While the project focuses on a unique opportunity to collect data on family STEM engagement as families respond to disruptions from the COVID-19 pandemic, this project and its findings will provide a knowledge base that can be utilized to inform future responses to national emergencies, other work aimed at promoting family learning at home, and approaches to supporting children in open-ended problem solving.
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.
The employment demands in STEM fields grew twice as fast as employment in non-STEM fields in the last decade, making it a matter of national importance to educate the next generation about science, engineering and the scientific process. The need to educate students about STEM is particularly pronounced in low-income, rural communities where: i) students may perceive that STEM learning has little relevance to their lives; ii) there are little, if any, STEM-related resources and infrastructure available at their schools or in their immediate areas; and iii) STEM teachers, usually one per school, often teach out of their area expertise, and lack a network from which they can learn and with which they can share experiences. Through the proposed project, middle school teachers in low-income, rural communities will partner with Dartmouth faculty and graduate students and professional science educators at the Montshire Museum of Science to develop sustainable STEM curricular units for their schools. These crosscutting units will include a series of hands-on, investigative, active learning, and standards-aligned lessons based in part on engineering design principles that may be used annually for the betterment of student learning. Once developed and tested in a classroom setting in our four pilot schools, the units will be made available to other partner schools in NH and VT and finally to any school wishing to adopt them. In addition, A STEM rural educator network, through which crosscutting units may be disseminated and teachers may share and support each other, will be created to enhance the teachers’ ability to network, seek advice, share information, etc.