This project provides opportunities for Indigenous youth to transform and be transformed by opportunities for STEAM innovation and knowledge building. This project will create opportunities outside of the classroom to invest in youths’ engagement, and interest, and self-efficacy in STEAM by supporting explorations in community settings that value multiple languages and ways of knowing. Through this project, youth can engage in pressing community needs—such as climate change impacts, food and water security, chronic health crises, and out-migration— with community experts, elders, and knowledge holders. The project will expand the picture of what Informal STEAM learning and meaningful engagement in STEAM looks like in Pacific Island contexts. It will employ a collaborative research framework to investigate how Informal STEAM learning activities that foster intergenerational learning—particularly the exploration of traditional stories and the creation of prototypes, storytelling packages, and hands-on models that illustrate Indigenous STEAM practices—impact youths’ engagement and interest in STEAM and self-efficacy over time. By building the capacity of participants—particularly Pacific Islander youth—to become co-researchers, -evaluators and -designers, the project will cultivate spaces for participants to advocate for their interests, perspectives, and needs. This research within the Pacific region is important for fostering science literacy and broadening participation in STEAM fields since early interest in science is a potential indicator of future STEAM interest and career choices.
The goal of the project is to investigate how youth’s inductive exploration of local technologies featured in Indigenous stories impact their engagement and interest in STEAM, Informal STEAM learning, and future decision making that affect youth participation in STEAM pathways. The project will be implemented in Guam, the Republic of the Marshall Islands, and the Federated States of Micronesia (comprising the four states of Chuuk, Kosrae, Pohnpei, and Yap) and will address the core research question: To what extent does youths’ participation in STEAM-based storytelling and story exploration lead to increases in youths’ engagement and interest in STEAM and self-efficacy over time? The project approaches story exploration as a cultural and metalinguistic process to investigate a story not solely as an artifact or a process, but as a doorway to investigations of history, Indigenous STEAM, and local innovation. Two cohorts of youth participants will engage in summer and spring out-of-school programs led by elders, partner organizations, and project staff through which youth investigate storytelling, design, research practice, and service learning. Each cohort will also create digital storytelling packages and/or model kits to share with audiences through participant-designed community-level and cross-region sharing events. The project is expected to reach 140 youth and 30 elders. To measure learning outcomes, the project builds upon extant tools to gauge Informal STEAM learning engagement. Lessons about the application of these tools will contribute to the Informal STEAM learning knowledge base—especially regarding underrepresented communities in STEAM. Community-based participatory research (CBPR) is the overarching theoretical and methodological framework for the project and will engage participants as co-researchers through multiple methods of observation, data gathering, and analysis. The project will also create community-driven research opportunities that advances the generation of knowledge on topics that are often left unexplored because: (1) Micronesians as underrepresented minorities are not usually at the table during research design; (2) non-Micronesian/Indigenous epistemologies are usually privileged throughout the research; and (3) there is a lack of trust when any outsider asks to look in, especially when racialized colonial histories still leave daily impacts. This project encourages all participants to consider and develop answers to this question: Stewards of whose knowledge? Research findings and educational materials and resources will be disseminated to researchers, program developers, informal science institutions, partner organizations, formal and informal educators, and communities.
This Innovations in Development project supports racially and ethnically diverse youth in learning about climate resilience in informal settings, including community centers, afterschool programs, and museums. The project aims to: (1) build the capacity of community organizations to implement youth programming on climate resilience; (2) increase youth knowledge, skills, and self-efficacy associated with climate resilience (also referred to as environmental health literacy for climate resilience); and (3) explore how collaborating research universities and community organizations engage diverse youth in informal STEM learning. Project partners include the UNC Institute for the Environment, the University of Washington-Interdisciplinary Center for Exposures, Diseases, Genomics and Environment, the North Carolina Museum of Natural Sciences, Juntos NC, and the Duwamish River Community Coalition (DRCC). Juntos NC and DRCC actively engage Latino and Indigenous youth in their programming and seek to implement resilience-focused programming that supports youth science learning and leadership development.
Together, informal educators and participating youth will develop locally relevant solutions to climate impacts in their communities. Youth will interact with university-based climate scientists and educators to collect and analyze data and will participate in resilience-focused dialogue, planning, and actions in their communities. Youth will share what they learn with their families and peers through family events and teen summits. The project will engage dozens of educators in community organizations and at least 250 youth, who will share what they learn with their families and communities, reaching hundreds more people through communications and local action projects. Mixed-methods assessment will provide insight into the extent participating youth (a) develop environmental health literacy for climate resilience, and (b) take action to address resilience in their home communities. The team will assess how these outcomes vary by location, and the implications of any variation on potential for project replication. A participatory evaluation, led by an external evaluator, will provide insight into empowerment outcomes. Findings will be disseminated to professional audiences at local and national conferences; and curricular materials from this project will be disseminated through the project website.
The project will develop and research an after-school program designed to engage rural, Latinx youth in design thinking and math through making. Making is a learner-centered environment where participants design, create, and develop projects. Latinx individuals are underrepresented in the STEM workforce. The project will engage Latinx youth during the critical middle school years when young people make choices that affect their futures. The project will work with community members, after school staff, and youth as co-designers to develop and pilot the complete after school program. The program will involve Latinx youth who live in the agricultural regions of the Southwest United States with the goal of developing agency and positive identity, as makers, mathematical doers and users, and active community members. They will engage in developmentally appropriate mathematics, such as the volume and surface area of geometric shapes, within the context of informal learning projects. The program will comprise four semester-long after school projects, involving participants for 2-4 hours each week, during which time youth will design and create objects to address typical community challenges. Each project will incorporate smaller modules to enable youth with different attendance needs to participate. Real community problems (e.g., drought) and solution paths (e.g., water catchment system) will motivate the making and the mathematics. The program, co-designed in partnership with the Cesar Chavez Foundation, promises to reach 100,000 youth over the next decade. Because the program can serve as a model for others with similar goals, this reach has the potential to be expanded in many other communities.
Project research will address a gap in the current literature on mathematics, making, and community membership. The project connects community mathematics—the rich mathematical knowledge and practices drawn from communities—to educational making to both enrich understanding of school mathematics and aid in developing students’ positive mathematical and cultural identities. The project will also result in a model of professional development that can be used and studied by after school programs and researchers, contributing to the limited body of knowledge of professional development on STEM making for after school facilitators. The research design for this project will follow a mixed methods approach where quantitative and qualitative data collection and analysis will occur simultaneously. Results of both strands will be brought together at the interpretation and reporting level to compare and bring out the convergence, divergence, or complementarity of findings. The research will take place in two stages (co-design and pilot) over 3 years, with an additional half year for developing communications of the findings. Research will address the following questions: (1) What are the key features of projects for integrating community mathematics, school mathematics understanding, and design/making? (2) How do facilitators support the youth in engaging in program activities? (3) What math content and practices do youth learn through participation in program activities? and (4) How do youth’s agency and identity as makers, mathematics doers and users, and community members change with participation in the program? Program research and resources will be disseminated nationally through the Cesar Chavez Foundation and by sharing project research and resources through publications and conference presentations reaching researchers, educators, and program developers.
This Innovations in Development project explores radical healing as an approach to create after-school STEM programming that welcomes, values and supports African American youth to form positive STEM identities. Radical healing is a strength-based, asset centered approach that incorporates culture, identity, civic action, and collective healing to build the capacity of young people to apply academic knowledge for the good of their communities. The project uses a newly developed graphic novel as a model of what it looks like to engage in the radical healing process and use STEM technology for social justice. This graphic novel, When Spiderwebs Unite, tells the true story of an African American community who used STEM technology to advocate for clean air and water for their community. Youth are supported to consider their own experiences and emotions in their sociopolitical contexts, realize they are not alone, and collaborate with their community members to take critical action towards social change through STEM. The STEM Club activities include mentoring by African American undergraduate students, story writing, conducting justice-oriented environmental sciences investigations, and applying the results of their investigations to propose and implement community action plans. These activities aim to build youth’s capacity to resist oppression and leverage the power of STEM technology for their benefit and that of their communities.
Clemson University, in partnership with the Urban League of the Upstate, engages 100 predominantly African American middle school students and 32 African American undergraduate students in healing justice work, across two youth-serving, community-based organizations at three sites. These young people assume a leadership role in developing this project’s graphic novel and curriculum for a yearlong, after-school STEM Club, both constructed upon the essential components of radical healing. This project uses a qual→quant parallel research design to investigate how the development and use of a graphic novel could be used as a healing justice tool, and how various components of radical healing (critical consciousness, cultural authenticity, self knowledge, radical hope, emotional and social support, and strength and resilience) affect African American youths’ STEM identity development. Researchers scrutinize interviews, field observations, and project documents to address their investigation and utilize statistical analyses of survey data to inform and triangulate the qualitative data findings. Thus, qualitative and quantitative data are used to challenge dominant narratives regarding African American youth’s STEM achievements and trajectories. The project advances discovery and understanding of radical healing as an approach to explicitly value African Americans’ cultures, identities, histories, and voices within informal STEM programming.
DATE:
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TEAM MEMBERS:
Renee LyonsRhondda ThomasCorliss Outley
resourceprojectProfessional Development, Conferences, and Networks
Diversity, equity, access, inclusion, and belonging-related change is often difficult to achieve in organizations. In the context of Informal STEM Learning (ISL), this results in inequitable opportunities for both ISL professionals and learners to engage in STEM environments and experiences. For people to thrive in these settings, creative and innovative approaches that address historical and current realities of intersectional marginalization and inequitable norms within informal STEM institutions are necessary to disrupt conventions, institutional barriers, and patterns of inequities. TERC and the Detroit Zoological Society will develop and implement an ISL Equity Resource Center (the Center). The Center will advance equity within the ISL field by cultivating a multi-sector, diverse learning community that designs and conducts evidence-based research and practice, including but not limited to equity-focused leadership, decision-making, theory, methods, project topic selection and design, and budget management.
The Center will cultivate lasting change in the ISL and broader STEM learning ecosystem via (a) sharing more inclusive, culturally relevant, and responsive ISE research and practice; (b) identifying scalable, equity-focused research findings useful in ISL programming; and (c) promoting greater public awareness of the importance of broadening participation in STEM. The Center's primary stakeholders are ISL professionals, including researchers, practitioners, and evaluators. The Center will maintain and expand a digital infrastructure to support innovation and sharing across the ISL field. Through its combined efforts, the Center will raise the visibility and impact of ISL equity-focused research and practice and its contributions to the overall STEM endeavor. The Center will also organize and host the biennial AISL Awardee Meeting. The Center is funded by the Advancing Informal STEM Learning 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.
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TEAM MEMBERS:
Stephen AlkinsDiane MillerLisette Torres-GeraldPati Ruiz
This project is expanding an effective mobile making program to achieve sustainable, widespread impact among underserved youth. Making is a design-based, participant-driven endeavor that is based on a learning by doing pedagogy. For nearly a decade, California State University San Marcos has operated out-of-school making programs for bringing both equipment and university student facilitators to the sites in under-served communities. In collaboration with four other CSU campuses, this project will expand along four dimensions: (a) adding community sites in addition to school sites (b) adding rural contexts in addition to urban/suburban, (c) adding hybrid and online options in addition to in-person), and (d) including future teachers as facilitators in addition to STEM undergraduates. The program uses design thinking as a framework to engage participants in addressing real-world problems that are personally and socially meaningful. Participants will use low- and high-tech tools, such as circuity, coding, and robotics to engage in activities that respond to design challenges. A diverse group of university students will lead weekly, 90-minute activities and serve as near-peer mentors, providing a connection to the university for the youth participants, many of whom will be first-generation college students. The project will significantly expand the Mobile Making program from 12 sites in North San Diego County to 48 sites across California, with nearly 2,000 university facilitators providing 12 hours of programming each year to over 10,000 underserved youth (grades 4th through 8th) during the five-year timeline.
The project research will examine whether the additional sites and program variations result in positive youth and university student outcomes. For youth in grades 4 through 8, the project will evaluate impacts including sustained interest in making and STEM, increased self-efficacy in making and STEM, and a greater sense that making and STEM are relevant to their lives. For university student facilitators, the project will investigate impacts including broadened technical skills, increased leadership and 21st century skills, and increased lifelong interest in STEM outreach/informal science education. Multiple sources of data will be used to research the expanded Mobile Making program's impact on youth and undergraduate participants, compare implementation sites, and understand the program's efficacy when across different communities with diverse learner populations. A mixed methods approach that leverages extant data (attendance numbers, student artifacts), surveys, focus groups, making session feedback forms, observations, and field notes will together be used to assess youth and university student participant outcomes. The project will disaggregate data based on gender, race/ethnicity, grade level, and site to understand the Mobile Making program's impact on youth participants at multiple levels across contexts. The project will further compare findings from different types of implementation sites (e.g., school vs. library), learner groups, (e.g., middle vs. upper elementary students), and facilitator groups (e.g., STEM majors vs. future teachers). This will enable the project to conduct cross-case comparisons between CSU campuses. Project research will also compare findings from urban and rural school sites as well as based on the modality of teaching and learning (e.g., in-person vs. online). The mobile making program activities, project research, and a toolkit for implementing a Mobile maker program will be widely disseminated to researchers, educators, and out-of-school programs.
Developing solutions to large-scale collective problems -- such as resilience to environmental challenges -- requires scientifically literate communities. However, the predominant conception of scientific literacy has focused on individuals, and there is not consensus as to what community level scientific literacy is or how to measure it. Thus, a 2016 National Academies of Sciences, Engineering, and Medicine report, “Science Literacy: Concepts, Contexts, and Consequences,” stated that community level scientific literacy is undertheorized and understudied. More specifically, the committee recommended that research is needed to understand both the i) contexts (e.g., a community’s physical and social setting) and ii) features of community organization (e.g., relationships within the community) that support community level science literacy and influence successful group action. This CAREER award responds to this nationally identified need by iteratively refining a model to conceptualize and measure community level scientific literacy. The model and metrics developed in this project may be applied to a wide range of topics (e.g., vaccination, pandemic response, genetically-modified foods, pollution control, and land-use decisions) to improve a community’s capacity to make scientifically-sound collective decisions. This CAREER award is funded by the Advancing Informal STEM Learning (AISL) and the EHR CORE Research (ECR) programs. It supports the AISL program goals to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. It supports the ECR program goal to advance relevant research knowledge pertaining to STEM learning and learning environments.
The proposed research will conceptualize, operationalize, and measure community level scientific literacy. This project will use a comparative multiple case study research design. Three coastal communities, faced with the need to make scientifically-informed land-use decisions, will be studied sequentially. A convergent mixed methods design will be employed, in which qualitative and quantitative data collection and analyses are performed concurrently. To describe the i) context of each community case, this project will use qualitative research methods, including document analysis, observation, focus groups, and interviews. To measure the ii) features of community organization for each community case, social network analysis will be used. The results from this research will be disseminated throughout and at the culmination of the project through professional publications and conference presentations as well as with community stakeholders and the general public. The integrated education activities include a professional learning certificate for informal science education professionals and STEM graduate students. This certificate emphasizes high-quality community-engaged scholarship, placing students with partners such as museums, farmer’s markets, and libraries, to offer informal learning programs in their communities. This professional learning program will be tested as a model to provide training for STEM graduate students who would like to communicate their research to the public through outreach and extension activities.
Early childhood is a critical time for developing foundational knowledge, skills, and interest in science, technology, engineering, and mathematics (STEM). For that reason, the Public Broadcasting Service (PBS) places a great priority on developing early childhood STEM content, especially through its television shows that are watched by over 60% of young children in the United States. Research suggests that adding in-the-moment interaction to television watching promotes learning and engagement. Toward this end, researchers from the University of California, Irvine and PBS KIDS have prototyped interactive versions of science shows that children view on internet-connected devices while they communicate with the main character powered by an AI conversational agent. Pilot studies show that when children watch these new interactive videos with the main character pausing periodically to ask probing questions about the learning goals of the episode and following up with appropriate responses, they are more engaged and learn more about science, with heightened benefits for children who speak languages other than English at home. Based on these early results, in this Innovations in Development project the research team will develop, test and produce publicly available conversational episodes for two PBS KIDS television shows, one focused on science and the other on computational thinking.
The project will iteratively study and develop six conversational videos with novel forms of support for children, including extended back-and-forth conversation that builds upon a child's responses, visual scaffolding that facilitates verbal communication, and bilingual language processing so that children can answer in English or Spanish. The conversational videos will be evaluated in both lab-based and home settings. The lab-based study will involve 600 children ages 3-7 in a predominantly low-income Latino community in Southern California, in which researchers compare children’s learning and engagement when watching the conversational videos with three other formats: (1) watching the non-interactive broadcast version of the video; (2) watching the video with pseudo-interaction, in which the main character asks questions and gives a generic response after a fixed amount of time but can’t understand what the child says; or (3) watching the broadcast version of the video with a human co-viewer who pauses the video and asks questions. The home-based study will involve 80 families assigned to watch either the non-interactive or interactive videos as many times as they want over a month at home. In both the lab-based and home studies, pre- and post-tests will be used to examine the impact of video watching on science and language learning, and log data will be used to assess children’s verbalization and engagement while watching. Following the home study, the six videos will be further refined and made available for free to the public through the PBS KIDS apps and website, which are visited by more than 13 million users a month. Beyond providing engaging science learning opportunities to children throughout the country, this study will yield important insights into the design, usability, feasibility, and effectiveness of incorporating conversational agents into children’s STEM-oriented video content, with implications for extending this innovation to other educational media such as e-books, games, apps, and toys.
This Innovations in Development project is funded by the Advancing Informal STEM Learning (AISL) program.
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TEAM MEMBERS:
Mark WarschauerSilvia LovatoAndres BustamanteAbby JenkinsYing Xu
Creating science education that can contribute to cultivating just, culturally thriving, and sustainable worlds is an important issue of our time. Indigenous peoples have persistently been under-represented in science reproducing inequalities in a myriad of ways from educational attainment, participation in and contributing to innovations in foundational knowledge, to effective policy making that upholds and respects Indigenous sovereignty. The development of models of science education that attend to intersections of knowledge and development, socio-scientific decision-making and civic leadership, and the complexities and contradictions of these realities, is imperative. This five-year Innovations in Development project broadens participation and strengthens infrastructure and capacity for Indigenous learners to meet, adapt to, and lead change in relation to the socio-ecological challenges of the 21st century. The project engages multi-sited community-based design studies to develop and research the impacts of Indigenous informal field-based science education with three Indigenous leadership communities from the Pacific Northwest and the Great Lakes. This project will have broader impacts through model development, building infrastructure to transform the capacity of informal field-based science education, and will produce cutting edge foundational knowledge about pressing 21st century issues with a particular focus on Indigenous communities. The project increases Indigenous participation in research through 1) engagement of Indigenous community members as research assistants, 2) training of Indigenous graduate fellows, and post-doctoral fellows, and 3) supporting the careers of more junior Indigenous scholars.
This research seeks to identify key design features of an Indigenous field (land/water) based model of science education and to understand how learners’ and educators’ reasoning, deliberation, decision-making, and leadership about complex socio-ecological systems and community change evolve in such learning environments. The project also examines key aspects of co-design and partnership with Tribal communities and how these methods of co-production of new science enable new capacities for systems transformation. This multi-layered project is organized through 3 panels of studies including: Panel 1) community-based design experiments to develop and refine a model of Indigenous informal science education; Panel 2) co-design and implementation of professional learning programs for Indigenous informal science education; and Panel 3) foundational studies in cognition and learning with respect to socio-ecological systems thinking and the impact on learning and instructional practices. Of particular importance in this research is the rigorous development and articulation of effective pedagogical practices and orientations. More broadly, findings will have clear implications for theories of cognitive development, deliberation and environmental decision making and especially those pertaining to how knowledge is shaped by culture and experience.
This project is funded by the Advancing Informal STEM Learning (AISL) program.
DATE:
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TEAM MEMBERS:
Filiberto Barajas-LopezAnna LeesMegan BangAnna LeesFiliberto Barajas-Lopez
resourceprojectProfessional Development, Conferences, and Networks
Among scientists, science communication is an increasingly important area of practice, scholarship, and research, especially with early career scientists. The growing interest in combating widespread disinformation and inaccurate public perception of science has increased demand for training in science communication; however, there is a significant gap in both research and training for scientists from diverse racial and ethnic cultural backgrounds. The project will address this knowledge and research gap by applying intercultural communication theory to the design, development, and testing of a new curriculum that will provide evidence-based methods to make science communication trainings inclusive and intersectional. The curriculum will be designed and evaluated to build capacity among science communication trainers and practitioners. Sixty pre-tenure environmental science faculty of diverse racial and ethnic backgrounds will be trained in strategic science communication skills using cultural perspectives and academic goals in science communication. The project will gather research data in collaboration with the national SciComm Trainers Network. In addition to advancing science communication research, training, and practice, the project will implement a novel, peer-reviewed podcast for broader impact. The project Fellows will be prepared to engage in a wide range of science communication activities throughout their careers and lead related efforts at their home institutions. Following a final workshop to develop culturally responsive guidance for science communication trainers, the project team will share findings to the field to inform future practice and societal impacts from advancing culturally relevant science communication in training programs. This Innovations in Development 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.
The project will address two significant gaps in science communication and intercultural communication research. First, despite the recognition that more research about race and ethnicity is needed in science communication, few studies have been conducted. Second, while findings on intercultural communication research are consistent across fields, such as health communication and business communication, the research has yet to examine how well-established theories in this area of study apply to the unique norms and processes of science. Investigators will test a novel theoretical framework grounded in two intercultural communication theories: identity negotiation theory and communication accommodation theory. The project will test the extent to which the professional norms and processes of STEM and academia relate to cultural norms and communication styles of underrepresented racial and ethnic minority scientists, and how these factors influence their science communication efforts. The project will use a mixed methods approach including in-depth interviews and surveys. The results of the study will be used to develop and adapt culturally tailored science communication training for 60 pre-tenure environmental science faculty from underrepresented groups. The results of the project will provide evidence to make science communication training and practice more inclusive and effective. The collaboration with the national SciComm Trainers Network will ensure broad dissemination and professional application of project findings. The project will increase representation of racial and ethnic minority scientists as science communicators, including in environmental news coverage; provide a new peer-reviewed podcast series for public audiences that will introduce listeners to environmental research through a culturally responsive lens; provide tested methods for designing inclusive and effective science communication training curricula; and will inform faculty efforts to incorporate science communication activities as part of career advancement.
DATE:
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TEAM MEMBERS:
Bruno TakahashiSunshine Menezes
resourceprojectProfessional Development, Conferences, and Networks
Millions of Latinx youth, aged 14 to 18, work formal or informal jobs to provide income for themselves or their families. In the context of these workplaces, Latinx youth demonstrate numerous skills that are essential to industrial engineering, such as minimizing workplace injuries or optimizing processes to maximize efficiency. However, their workplace ingenuity and skills are often underrecognized by educational systems. To counter this lack of recognition, the purpose of this project is to iteratively develop and research an out-of-school engineering program for working Latinx youth. This program is designed to recognize and build from youths’ workplace experiences by connecting them with industrial engineering concepts and practices, such as those used to promote worker safety. This program is also designed for youth to articulate transformational visions of industrial engineering, which expand current goals, values, and methods commonly embraced within this discipline. This year-long program will be facilitated by educators of existing out-of-school programs (e.g., Mathematics, Engineering, and Science Achievement), in partnership with undergraduate mentors from the Society for Professional Hispanic Engineers and other local organizations that serve Latinx youth (e.g., Latinos in Action). Approximately 220 youth are expected to participate in the programming. Researchers will explore whether and how youth participants develop identities in engineering, as well as how the educators and mentors understand and enact assets-based, out-of-school engineering education grounded in youths’ experiences. Researchers will also identify the individual, institutional, and systemic factors that support or inhibit sustained implementation of the program over time in different sites and contexts. This project will result in a set of empirically tested, bilingual program materials that will be disseminated widely to professional organizations dedicated to out-of-school programming and to serving Latinx youth.
This project will result in a localizable, transferable, and sustainable model for an out-of-school time program that recognizes and amplifies Latinx youths’ workplace funds of knowledge and leverages them toward youth-driven visions and applications of engineering. This program, which will connect with other people and sites in youths’ learning ecosystems, is grounded in principles of translanguaging, transformational mentorship, and educational dignity and recognition. In partnership with youth participants, researchers will use a social design experiment to explore the following research questions: What are the engineering identity trajectories of working high school youth, and how do specific moments of identity negotiation and recognition relate to broader patterns across program sessions and identity trajectories for individual participants over time? To answer these questions, a pre-, mid- and post-program Engineering Identity Scale; recordings of program implementations; interviews; and youth artifacts will be analyzed using various methods such as critical multimodal discourse analysis. After implementations of the program across multiple sites, researchers will use design-based implementation research to answer the following questions: How do educators and mentors understand and enact assets-based pedagogies designed to foster recognition across sites? What institutional and systemic features (designed or naturalistic) support or inhibit productive adaptations and implementations of the program? These questions will be answered using constant comparative analyses of data sources such as interviews with the program educators and mentors, observations of program implementations, observations of professional development sessions, and public documents. Culturally responsive, educative evaluation will be used to iteratively improve the program. The resulting research and program materials will be disseminated widely through professional organizations dedicated to Latinx youth, engineering education, and out-of-school learning.
This Innovations in Development 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.
DATE:
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TEAM MEMBERS:
Amy Wilson-LopezAlfonso Torres-RuaMarisela Martinez-ColaColby Tofel-GrehlAlfonso Torres-Rua
This award is funded in whole or in part under the American Rescue Plan Act of 2021 (Public Law 117-2).
Math is everywhere in the world, but youth may see math as disconnected from their everyday experiences and wonder how math is relevant to their lives. There is evidence that informal math done by children is highly effective, involving efficiency, flexibility, and socializing. Yet, more is needed to understand how educators can support math engagement outside of school, and the role these out-of-school experiences can play relative to the classroom and lifelong STEM learning. This Innovations and Development Project seeks to conduct research on a location-based mobile app for informal mathematics learning. This research takes place at 9 informal learning sites and involves iteratively designing an app in which learners can view and contribute to an interactive map of math walk “stops” at these sites. Learners will be able to select locations and watch short videos or view pictures with text that describe how mathematical principles are present in their surroundings. For example, learners could use the app to discover how a painting by a local Latino artist uses ratio and scale, or how a ramp in downtown was designed with a specific slope to accommodate wheelchairs. Research studies will examine the affordances of augmented reality (AR) overlays where learners can hold up the camera of their mobile device, and see mathematical representations (e.g., lines, squares) layered over real-world objects in their camera feed. Research studies will also examine the impact of having learners create their own math walk stops at local informal learning sites, uploading pictures, descriptions, and linking audio they narrate, where they make observations about how math appears in their surroundings and pose interesting questions about STEM ideas and connections they wonder about.
This project draws on research on informal math learning, problem-posing, and culturally-sustaining pedagogies to conduct cycles of participatory design-based research on technology-supported math walks. The research questions are: How does posing mathematical scenarios in community-imbedded math walks impact learners’ attitudes about mathematics? How can experiencing AR overlays on real world objects highlight mathematical principles and allow learners to see math in the world around them? How can learners and informal educators be engaged as disseminators of content they create and as reviewers of mathematical content created by others? To answer these questions, five studies will be conducted where learners create math walk stops: without technology (Study 1), with a prototype version of the app (Study 2), and with or without AR overlays (Study 3). Studies will also compare children's experiences receiving math walk stops vs. creating their own stops (Study 4) and explore learners reviewing math walk stops made by their peers (Study 5). Using a community ethnography approach with qualitative and quantitative process data of how youth engage with the app and with each other, the project will determine how the development of math interest can be facilitated, how learner-driven problem generation can be scaffolded, and under what circumstances app-based math walks are most effective. The results will contribute to research on the development of interest, problem-posing, informal mathematics learning, and digital supports for STEM learning such as AR. This project will promote innovation and have strategic impact through a digital infrastructure that could be scaled up to support STEM walks anywhere in the world, while also building a local STEM learning ecosystem among informal learning sites focused on informal mathematics. This project is a partnership between Southern Methodist University, a nonprofit, talkSTEM that facilitates the creation of community math walks, and 9 informal learning providers. The project will directly serve approximately 500 grades 4-8 learners and 30-60 informal educators. The project will build capacity at 9 informal learning sites, which serve hundreds of thousands of students per year in their programming.
This Innovations in Development project is supported 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.