Arecibo C3 will serve as a collaborative hub for STEM discovery and exploration by building upon existing programs and opportunities established at the Arecibo site by previous NSF programs, while also creating new STEM education, research, and outreach programs and initiatives. The goals for the Center are to (1) promote STEM education, learning, and teaching; (2) support fundamental and applied STEM and STEM education research; (3) broaden participation in STEM; and (4) build and strengthen collaborations and partnerships.
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TEAM MEMBERS:
Jose Agosto RiveraJoseph Carroll-MirandaJaime Abreu RamosAmilcar VelezJason WilliamsCristina Fernandez-MarcoWanda Diaz MercedAnuchka RamosPatricia Ordonez
This Integrating Research and Practice project leverages museum exhibits as unique family learning spaces to promote community engagement in critical climate change conversations.
This project builds on an NSF-funded program which engaged youth in the creation of art-science experiences that use the biology and the experiences of migratory birds as a means for communicating the impact of a changing climate.
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TEAM MEMBERS:
Rebecca SafranShawhin RoudbariMary Osnes
Climate change presents a significant challenge for parents worldwide as they navigate the task of preparing the next generation for a rapidly changing world. This interdisciplinary project aims to address this challenge by focusing on the needs of under-resourced Latino families, with a particular emphasis on Latino children who bear a disproportionate burden from climatic changes.
Growth in the US Latinx population has outpaced the Latinx growth in science, technology, engineering, and math (STEM) degrees and occupation, further widening the ethnic gap in STEM. Mathematics has often identified as a bottleneck keeping many youth, especially minoritized youth, from pursuing STEM studies. Unequal opportunities to develop powerful math assets explain differences in math skills and understanding often experienced by minoritized youth. Implementing culturally responsive practices (CRP) in afterschool programs has the potential to promote math skills and motivation for youth from minoritized groups. However, extensive research is needed to understand which culturally responsive informal pedagogical practices (CIPPs) are most impactful and why. This project aims to identify and document such practices, shed light on the challenges faced by afterschool staff in implementing them, and develop training resources for afterschool staff to address these challenges. 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.
The fundamental research questions addressed by the project focus on (1) which CIPPs matter most in the context of a STEM university-community partnership engaging Latinx youth, and (2) in what context(s) and under what conditions do these CIPPs relate to positive outcomes for both youth participants and college mentor/facilitator. A third aim is to build capacity of afterschool staff for implementing CIPPs in informal STEM afterschool programs. The first two aims are addressed through a mixed-methods research study which includes quantitative surveys and qualitative in-depth interviews with five cohorts of adolescent participants, parents, and undergraduate mentors. Each year, surveys will be collected from adolescents and mentors at four time points during the year; the in-depth interviews will be collected from adolescents, parents, and mentors in the spring. In total, 840 adolescents and 210 mentors will be surveyed; and 87 adolescents, 87 parents, and 87 mentors will be interviewed. The third aim will be addressed by leveraging the research findings and the collective knowledge developed by practitioners and researchers to create a public archive containing documentation of CIPPs for informal STEM afterschool programs and training modules for afterschool staff. The team will disseminate these resources extensively with informal afterschool practitioners in California and beyond. Ultimately, this project will lead to improved outcomes for minoritized youth in informal STEM afterschool programs across the nation, and increased representation of minoritized youth in STEM pursuits.
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TEAM MEMBERS:
Alessandra PantanoSandra SimpkinsCynthia Sanchez Tapia
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.
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.
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TEAM MEMBERS:
Amy Wilson-LopezAlfonso Torres-RuaMarisela Martinez-ColaColby Tofel-GrehlAlfonso Torres-Rua
Access to STEM information is unequal, with rural and poor communities often receiving the fewest public education science and science literacy opportunities. Rural areas also face unique STEM teaching and technology integration challenges. In fact, LatinX communities in rural areas are less likely to have access to educational resources and language supports available to LatinX communities in urban centers. This project will help address these inequities by engaging rural librarians, bilingual science communicators, polar scientists, and a technical team to create a series of five bilingual virtual reality (VR) experiences to enhance STEM understanding and appreciation. Project researchers will create a new channel for disseminating polar science, working first with rural Latinx communities in Wisconsin to create a new network between rural communities and university researchers. Involving rural librarians in the co-design of instruction process will produce new ways for rural libraries to engage their local communities and their growing Latinx populations with polar science learning experiences. Each of the five VR experiences will focus on a different area of research, using the captivating Arctic and Antarctic environments as a central theme to convey science. VR is a particularly powerful and apt approach, making it possible to visit places that most cannot experience first-hand while also learning about the wide range of significant research taking place in polar regions. After design, prototyping and testing are finished, the VR experiences will be freely available for use nationally in both rural and urban settings. Public engagement with science creates a multitude of mutual benefits that result from a better-informed society. These benefits include greater trust and more reasoned scrutiny of science along with increased interest in STEM careers, many of which have higher earning potential. The project team will partner with 51 rural libraries which are valued community outlets valuable outlets to improve science literacy and public engagement with science. The effects of this project will be seen with thousands of community members who take part in the testing of prototype VR experiences during development and scaled engagement through ongoing library programs utilizing the final VR experiences for years to come.
This project will create new informal STEM learning assessment techniques through combining prior efforts in the areas of educational data mining for stealth assessment and viewpoint similarity metrics through monitoring gaze direction. Results of the project contribute to the field of educational data mining (EDM), focusing on adopting its methods for VR learning experiences. EDM is a process of using fine grained interaction data from a digital system to support educationally relevant conclusions and has been applied extensively to intelligent tutors and more recently, educational videogames. This project will continue building on existing approaches by expanding to include the unique affordances of VR learning media, specifically gaze. The project will focus on predicting user quitting as well as assessing key learning goals within each experience and triangulate these predictive models with user observations and post-experience surveys. The eventual application of this foundational research would address the problem in assessing a learner using measures external to the experience itself (i.e., surveys) and instead provide new methods that instrument learners using only data generated by their actions within the learning context. These techniques will provide a new means for evaluating informal learning in immersive technology settings without need for explicit tagging. The findings from this project will enable a greater understanding of the relationship between a user’s experience and their learning outcomes, which may prove integral in the creation of educational interventions using VR technology.
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. This project is also supported by the Office of Polar Programs.