This project will teach foundational computational thinking (CT) concepts to preschoolers by creating a mobile app to guide families through sequenced sets of videos and hands-on activities, building on the popular PBS KIDS series Work It Out Wombats!
DATE:
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TEAM MEMBERS:
Marisa WolskyJanna KookJessica Andrews
This project is funded by the EHR Core Research (ECR) program, which supports work that advances fundamental research on STEM learning and learning environments, broadening participation in STEM, and STEM workforce development. It responds to continuing concerns about racial and social inequities in STEM fields that begin to emerge in the early childhood years. The overarching goal of the project is to identify cultural strengths that support early science learning opportunities among Spanish-speaking children from immigrant Latin American communities, a population that is traditionally underrepresented in STEM educational and career pursuits. Building on a growing interest in the ways stories can promote early engagement in and understanding of science, this project will investigate the role of oral and written stories as culturally relevant and potentially powerful tools for making scientific ideas and inquiry practices meaningful and accessible for young Latinx children. Findings will reveal ways that family storytelling practices can provide accessible entry points for Latinx children's early science learning, and recommend methods that parents and educators can use to foster learning about scientific practices that can, in turn, increase interest and participation in science education and fields.
The project will advance knowledge on the socio-cultural and familial experience of Latinx children that can contribute to their early science learning and skills. The project team will examine the oral story and reading practices of 330 Latinx families with 3- to 5-year-old children recruited from three geographic locations in the United States: New York, Chicago, and San Jose. Combining interviews and observations, the project team will investigate: (1) how conversations about science and nature occur in Latinx children's daily lives, and (2) whether and to what extent narrative and expository books, family personal narratives, and adivinanzas (riddles) engender family conversations about scientific ideas and science practices. Across- and within-site comparisons will allow the project team to consider the immediate ecology and broader factors that shape Latinx families’ science-related views and practices. Although developmental science has long acknowledged that early learning is culturally situated, most research on early STEM is still informed by mainstream experiences that largely exclude the lived experiences of children from groups underrepresented in STEM, especially those who speak languages other than English. The proposed work will advance understanding of stories as cultural resources to support early science engagement and learning among Latinx children and inform the development of high quality, equitable informal and formal science educational opportunities for young children.
This pilot and feasibility project will explore whether participation in informal science initiatives like citizen science, which is a form of Public Participation in Scientific Research, can foster or enhance participant attachment to the natural places participants investigate via these programs. The project also examines if participant attachment to place influences the development or application of critical thinking skills among adult learners. Critical thinking skills and the factors that enhance critical thinking skills are important areas of inquiry within the informal STEM learning community. Existing scholarship suggests that three components may be linked: (1) feelings of connection to specific places, (2) intentional exploration and investigation of those places (in this case via citizen science), and (3) understanding of complex socio-ecological systems, which is predicated on critical thinking skills ability. However, the degree to which these aspects are related to each other, the scale at which they occur (local to global), and the specific dimensions of place connection or informal science experiences implicated is not known. Working with the Coastal Observation and Seabird Survey Team (COASST) citizen science program, this project advances collaboration among experts from disparate fields to examine if and how citizen science contributes to increases in connection to place and higher-order critical thinking skills among participants and the potential links between those hypothesized outcomes. The ultimate goal of the project is to inform design of Public Participation in Scientific Research programming that optimizes participant learning, interest, and retention; produces societal outcomes like critical thinking in support of science literacy; and creates high quality data of the scale and grain needed to address questions and issues across the basic-applied science continuum.
This research focuses on the degree to which Public Participation in Scientific Research, specifically citizen science, may foster the presence or intensity of place attachment felt by participants for the sites and settings investigated through these programs and to what extent place attachment may be linked to higher order critical thinking skills among adult learners. A three-pronged mixed-methods research strategy will include: (1) a re-analysis of existing survey and interview data for markers of three-dimensional (personal, social, natural) place attachment as well as critical thinking skills and dispositions; (2) an assessment survey to test for the presence and intensity of place attachment and critical thinking skills; and (3) in-depth interviews to better understand the qualitative nature and development of place attachment and critical thinking skills in a citizen science context. The survey and interview sample will be drawn from participants in the COASST citizen science program and will be stratified into four groups as a function of time engaged in the program, including new, novice, and long-term participants. An independent external advisory board and a committee of visitors comprised of experts in informal science, education, and sense of place will critique and help guide this work. Results are expected to reveal important factors that impact the learning and behavioral outcomes of informal STEM initiatives by probing questions about the essential experiences, exposures, and COASST program components that facilitate deeper critical thinking skills and place attachment. Synthesizing theoretical frameworks from the fields of geography, science education, and educational psychology while testing a unique methodological approach to best measure critical thinking skills and place attachment in an informal citizen science setting will enhance knowledge-building among research and practitioner communities.
In a globalized and increasingly technologically complex world, the ability of citizens to interrogate and interpret scientific evidence, views, and values is critical. That is, scientific literacy is essential for the maintenance of robust and healthy economic, social, and environmental systems in the twenty-first century. Informal science learning fills an important gap in national educational efforts to cultivate a scientifically literate populace as research suggests that formal science training is not always capable of fostering the type of higher order critical thinking skills that undergird such scientific competency. This project aims to strengthen infrastructure and build capacity among informal science practitioners by clarifying whether specific aspects and forms of Public Participation in Scientific Research, especially those relating to people-place connections, are implicated in the development and/or application of critical thinking skills in STEM settings. This effort may expand opportunities to strengthen informal science learning program outcomes, including the cultivation of numerous 21st century skills like information literacy and social skills like conflict management. Through a greater understanding of the individual components that shape informal learning experiences and outcomes, this project also has the potential to support the broadening of participation in STEM fields by providing the groundwork for further research on whether or not underrepresented or traditionally marginalized groups of people experience and/or relate differently to both the "places" most common in citizen science and the practice of informal science programming itself.
It is estimated that over 95% of all school children across the country are out of the classroom due to social distancing mandates in response to the COVID-19 pandemic. Almost overnight, families have had to develop and support new practices for learning at home as districts scramble to meet the academic, social and emotional needs of their communities. It is essential to collect data now to develop a deeper understanding of how schools and families are adapting to these changes and will continue to do so in coming weeks/months - the troubles they encounter, and the solutions they generate. Retrospective accounts may mask critical features of what was experienced, minimizing the country’s capacity to conceptualize and build more robust, equitable and transformative learning ecologies for the future. Emphasizing an equity approach to solution development, this research will document how families engage in creative practices to generate powerful learning based on local needs, values, contexts, and histories in this present crisis. It will address the following questions: (1) What resources are schools providing and how are parents navigating and extending these resources to sustain their child’s learning? (2) How are families exploring science and math concepts related to the pandemic? (3) How are parents and families learning to adapt (e.g. communication with teachers; broader social networks) and what challenges do they face (e.g. subscription costs; reliable Internet)? (4) How are digital resources for STEM, curated by the research team, utilized for learning?
Emergency school closures are exposing significant gaps in access to the Internet and communication devices, and the capacity of parents/caregivers and communities to capitalize on technology to sustain health-relevant learning in a time of crisis. This project will use a novel, remote-diary tool based on a smartphone-enabled data collection platform, to reach families across the country. Mobile-phone-enabled remote diary tools make it possible to reach families who are under-connected, not just those with robust technical infrastructure. The data collected will lay the groundwork for creating new socio-technical support systems informed by diverse families’ experiences, as the crisis unfolds. Approximately 200 parents with school age children (early and upper elementary grades) living at home will be recruited. This study and a subsequent virtual workshop with other researchers who are also using remote methods to study learning will help establish a broader research agenda to specify the conditions under which socio-technical systems productively augment a family’s capacity to innovate and learn when traditional co-located school settings disappear. It will advance our understanding of how human learning adapts to unexpectedly changed learning environments. This study draws on advances in remote data collection and new analytical tools for innovation in research design.
Three-dimensional digital models are increasingly prevalent in preserving tangible and intangible aspects of Indigenous material heritage. Yet, there are no comprehensive, clearly laid-out best practices that can guide researchers, Indigenous communities, and museum personnel in designing ethically sound and socially engaged 3D heritage preservation projects. The use of 3D technologies for heritage preservation and providing public access to digital 3D collections is well-established in the European context. While there have been several robust efforts on digitizing European national heritage, in the U.S. context, the focus often involves work with Indigenous heritage, instantly placing 3D projects into a post-colonial research paradigm with a complex set of ethical ramifications. This research examines emerging thoughts from the European context and connects them with best practices in digital Indigenous data management to identify practices that contribute to cultures of academic integrity that are inclusive of all stakeholder voices. This work fosters ethical cultures of STEM through the development of a comprehensive Responsible Conduct of Research guiding document that can be adapted to address culture-specific Indigenous perspectives as well as project-specific challenges in future 3D heritage preservation endeavors.
Project goals are accomplished through workshops and virtual collaborations that bring together researchers, Indigenous community members, and heritage preservation professionals with previous experience in the responsible management, protection, and sharing of Indigenous digital data and the use of 3D technology for heritage preservation. The collaboratively produced guidelines outline ethical considerations that can be used in developing: 1) partnerships with origin/descendant communities, 2) institution- and collection-specific museum policies on using 3D technology, 3) Tribal policies for culturally appropriate use of 3D technologies, and 4) training material and curriculum that integrates with other research compliance regulations pertaining to heritage preservation. The project explores the questions that have emerged through previous experiences using 3D technologies to preserve Indigenous ancestral heritage. These questions include the factors contributing to developing ethically sound 3D heritage preservation projects; the practices useful in 3D projects to foster a culture of integrity that equally engages academic and Indigenous perspectives; consideration for what constitutes Responsible Conduct of Research in using 3D technologies to preserve Indigenous cultural heritage; and addressing practice-based questions that contribute to understanding ethical challenges in digitally preserving and presenting Indigenous heritage. The project situates 3D modeling and heritage representation as part of the larger discourse on decolonizing core methodologies in museum management and anthropological collection practices. Results from this work can be adapted to training future researchers and digital heritage management professionals and creating meaningful partnerships in heritage documentation. This research cultivates cultures of academic integrity by informing heritage management policy on the critical importance of heritage ethics for the creation and management of 3D digitization projects involving Indigenous collections. This award is funded by the Directorate of Geosciences and the Directorate of Education and Human Resources.
Environmental Protectors is a four-year project based at the University of California at Berkeley’s Lawrence Hall of Science. The project is designed to explore the educational and developmental impact of an informal science education programming model that features Community and Citizen Science (CCS) activities for youth of color residing in urban communities. The project is grounded in hypothesis that CCS-focused experiences result in learning outcomes that better position youth of color to more effectively engage in Science, Technology, Engineering, and Mathematics (STEM) related educational, occupational, and civic activities. Each year, in three economically challenged urban communities located throughout the country, youth of color between the ages of 14 and 18 will participate in month-long summer or semester-long afterschool programs. These programs will feature CCS-related activities that include collection, analysis, interpretation and presentation of data that addresses local, pressing environmental quality concerns, such as soil lead contamination and air particulate matter pollution. The project will use a mix of qualitative and quantitative data collection and analysis to assess the impact of youth engagement in these CCS activities. Overall, through its implementation the project aims to generate information useful in nationwide efforts designed to identify effective strategies and approaches that contribute to increasing STEM understanding and interest among youth of color.
Project research is guided by the following questions: A) What are ways to increase STEM engagement among those who have typically been underrepresented in Community and Citizen Science (CCS) research projects in particular and STEM in general? B) When youth are engaged in CCS, what outcomes are observed related to their science agency and science activism? What other unanticipated outcomes are observed related to benefits of participation and learning? C) How does science activism develop in youth participating in CCS?; and D) How do differences in program implementation impact youth outcomes. In particular, the project explores the manner in which particular CCS activities (e.g., project design, data analysis and interpretation, data presentation) impact youth “Science Agency,” defined as a combination of constructs that include Science Identity (i.e., sense of themselves as science thinkers), Science Value (i.e., awareness of the potential benefits of applying scientific practices to addressing critical community health and environmental issues) and Science Competency Beliefs (i.e., belief of themselves as competent science practitioners) and “Science Activism,” defined as a combination of perceived behavioral control and personal salience. Through its execution the project will refine a theory of learning that makes explicit connections between these constructs. Information derived from the execution of the project will contribute to deeper understanding of the potential for using of CCS projects as a key component of science education environments in urban areas and in general.
This Research in Service to Practice project is funded by the Advancing Informal STEM Learning (AISL) program.
Communities with the highest risk of climate change impacts may also be least able to respond and adapt to climate change, which highlights a specific need for inclusive Science, Technology, Engineering, and Mathematics (STEM) strategies. This Pilot and Feasibility project builds on the success of US Cooperative Extension Service programs that empower volunteers to conduct outreach in their own communities. It focuses on climate change, and seeks to co-design an informal STEM climate science curriculum, called Climate Stewards, in collaboration with community members from groups often underrepresented in STEM, including indigenous and Latinx communities, as well as rural women. The project is designed to strengthen community awareness as well as prioritize community voices in climate change conversations. The knowledge and skills obtained by Climate Stewards and their communities will allow for more involvement in decisions related to climate adaptation and mitigation in their communities and beyond. After establishing a proof of concept, the project seeks to expand this work to more rural and urban communities, other communities of color, and additional socioeconomically disadvantaged communities.
Grounded in the theory of diffusion of innovation as a means for volunteers to communicate information to members of a social system, this project seeks co-create a retooled Climate Stewards curriculum using inclusive and adaptive strategies. Community collaboration and involvement through new and existing partnerships, focus groups, and meetings will determine what each community needs. During the program design phase, community members can share their concerns regarding climate change as well as the unique characteristics and cultural perspectives that should be addressed. The collaboration between extension and education leverage resources that are important for developing a robust implementation and evaluation process. This project is expected to have a significant influence on local and national programs that are looking to incorporate climate change topics into their programming and/or broaden their reach to underrepresented communities. The hypotheses tested in this project describe how inclusion-based approaches may influence competencies in STEM topics and their impact on communities, specifically willingness to take action. Hypothesis 1: STEM competencies in climate issues increase with interactive and peer learning approaches. Hypothesis 2: Community participation in the co-creation of knowledge about climate change, by integrating their values and objectives into the climate change education program, increases people's motivation to become engaged in climate change adaptation and mitigation strategies.
This Pilot and Feasibility project is funded by the Advancing Informal STEM Learning (AISL) program.
DATE:
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TEAM MEMBERS:
Patricia TownsendRoslynn McCannMelissa KreyeArthur Nash
This award is funded in part under the American Rescue Plan Act of 2021 (Public Law 117-2).
It has been well documented that under-resourced Latinx communities face persistent barriers to accessing quality STEM education and STEM careers, particularly in the field of engineering. For young children and their families from these communities, the development of executive function skills offers promising pathways to support educational success and prepare children to engage with STEM practices and content. Executive function skills, such as focusing attention, retaining information, and managing emotions are critical for children’s development and long-term success, and have been identified as central to engagement with STEM practices and content, whether in or out of school. However, much of the work on development of executive function skills to date has been conducted with White, middle-class children and has largely ignored the knowledge, values, or perspectives of other communities, including Latinx families. Similar gaps also exist in attention to culturally responsive approaches to using family-based STEM activities to support executive function skills. Taken together, there is a critical need to work with Latinx communities to re-imagine the intersection of STEM learning and executive function skills using equity-based frameworks. This Pilot and Feasibility project will develop and test a new participatory, dialogic method that leverages informal family engineering activities to support the development of executive function skills for preschool-age children from Latinx families. The combination of this proposal’s unique engagement of parents as research partners with the study of engineering and executive functions could lay the foundation for a promising program of future equity-focused research.
Three research questions will guide the study: 1) What knowledge, assets, and practices already exist within Latinx families related to these executive function skills? 2) What aspects of executive function skills can be supported through informal family engineering activities? and 3) What are promising design strategies for adapting informal family engineering activities to highlight family assets and support executive function skills for young children? To address these questions, the project team will engage Latinx parents in a dialogue series in which parents are central collaborators, sharing their in-depth perspectives and partnering with researchers to develop conceptual frameworks and new approaches. Data generated through these ongoing discussions will be analyzed using (a) qualitative, participatory approaches, including iterative co-development and refinement of emergent themes with parents, (b) detailed inductive coding of parent dialogue group discussions using grounded theory techniques, and (c) retrospective analysis at the end of the project. The parent dialogue series will be supported by a systematic literature review examining the intersections between engineering design, executive function, and the strengths and assets within Latinx families. The results of the exploratory research will include a (1) conceptual framework co-developed with parents that highlights promising opportunities and design strategies for using family engineering design activities to support executive function skills for preschool-age children from Latinx families and (2) research agenda outlining questions and priorities for future work that reflect the goals and interests of this community. Aligned with project’s equity approach, the team will work collaboratively with project partners and families for dissemination, focusing on amplifying community voices, sharing challenges and successes, and supporting improvements in the local community. Results will also be broadly shared with educators and researchers to advance knowledge and promote new equitable approaches to collaborating with parents from Latinx communities.
This Pilots and Feasibility project is funded by the Advancing Informal STEM Learning (AISL) program.
This project will draft a framework to guide citizen science projects in addressing issues of equity, diversity, and inclusion (EDI). Citizen science, sometimes called community science, involves volunteers who use science research procedures to collect valid scientific data for research projects and who often learn much about science in the process. These projects contribute directly to scientific research and often collect data of direct relevance to many communities. Although there are millions of citizen science volunteers, only a small proportion come from marginalized communities. The project will host a series of six, half-day virtual (online) workshops with scholars and practitioners with deep understanding of the participatory sciences and issues related to EDI. Workshop participants will discuss topics relevant to preparing a framework to provide guidance for integrating support EDI practices in citizen science. The project will disseminate the framework and workshop recommendations through publications for researchers and practitioners, a new website that will serve as a hub for relevant resources and EDI professional development, blogposts, and webinars.
This project will focus on EDI issues in institution-led, large-scale, citizen science projects. The project will organize workshops addressing issues relating to: (1) designing multipurpose projects that can be useful for empowering communities with data addressing community needs, providing researchers a large and robust data set, and providing learners with opportunities to develop a deeper understanding of research; (2) developing diverse leadership and engaging marginalized communities in framing research priorities; and (3) supporting strategies across citizen science projects to address barriers to participation, identity professional development needs, and create inclusive models that foster trust, create supportive networks, and build capacity for EDI in citizen science. The workshop will include approximately 20 participants, including researchers, project leaders and practitioners, with a majority of workshop participants belonging to groups underrepresented in science, such as Black, Hispanic, and Indigenous people.
Maker education has increased tremendously in community settings and classrooms across the country. Maker education is learner-driven and hands-on, often collaborative, and may focus on solving a problem or designing an object or device. There is a growing need for assessment and evaluation tools and approaches to understand and improve the nature of maker learning and provide evidence for the value of maker pedagogy. This workshop will bring together approximately 25 researchers from formal and informal settings as well as practitioners to review current maker assessment and evaluation tools and examine the role those tools can play for informing research and practice. The workshop will identify areas where future work is needed, including designing assessment and evaluation that effectively addresses the interests and needs of diverse learners. The workshop will disseminate an online collection of these assessment and evaluation tools, a research brief, and several webinars sharing the results and recommendations of the conference.
The two-day, in-person conference will include pre-workshop surveys to determine and refine issues for consideration at the conference, identify a core set of readings and resources for conference participants, and to identify key topics for research briefings presented at the conference. The conference will include background briefings, hands-on try-outs of assessment tools, synthesis discussions, and identification of future directions for research and next steps. Resources developed from the workshop will be widely disseminated through workshop partner Maker Education’s website, an annual maker conference held at the University of Wisconsin, and through other publications reaching researchers and practitioners in informal and formal educational settings,
This project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to (a) advance new approaches to and evidence-based understanding of the design and development of STEM learning in informal environments; (b) provide multiple pathways for broadening access to and engagement in STEM learning experiences; (c) advance innovative research on and assessment of STEM learning in informal environments; and (d) engage the public of all ages in learning STEM in informal environments.