Oregon State University (OSU) will facilitate a Polar STEAM (Science, Technology, Engineering, Arts and Mathematics) program that aims to increase the impact and visibility of polar science by integrating arts- and education-based elements into the polar science research setting.
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TEAM MEMBERS:
Julie RisienKim BernardSusan Roberta RowePeter Betjemann
This project centers on an Indigenous Scholars program, immersing students in land-based learning to deepen a relationship with their homeland while understanding how legal and political conflicts impact environmental and community health. Students will explore ways of knowing in language, mathematics, science, arts, and society and culture, through sessions led by scholars versed in Indigenous methodologies.
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.
The call for more science, technology, engineering, and mathematics (STEM) education taking place in informal settings has the potential to shape future generations, drive new innovations and expand opportunities. Yet, its power remains to be fully realized in many communities of color. However, research has shown that using creative embodied activities to explore science phenomena is a promising approach to supporting understanding and engagement, particularly for youth who have experienced marginalization. Prior pilot work by the principal investigator found that authentic inquiries into science through embodied learning approaches can provide rich opportunities for sense-making through kinesthetic experience, embodied imagining, and the representation of physics concepts for Black and Latinx teens when learning approaches focused on dance and dance-making. This Research in Service to Practice project builds on prior work to better understand the unique opportunities for learning, engagement, and identity development for these youth when physics is explored in the context of the Embodied Physics Learning Lab Model. The model is conceptualized as a set of components that (1) allow youth to experience and utilize their intersectional identities; (2) impact engagement with physics ideas, concepts and phenomena; and (3) lead to the development of physics knowledge and other skills. The project aims to contribute to more expansive definitions of physics and physics learning in informal spaces. While the study focuses primarily on Black and Latinx youth, the methods and discoveries have the potential to impact the teaching of physics for a much broader audience including middle- and high-school children, adults who may have been turned off to physics at an earlier age, and undergraduate physical science majors who are struggling with difficult concepts. 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 research is grounded in sociocultural perspectives on learning and identity, embodied interaction and enactive cognition, and responsive design. The design is also informed by the notion of “ArtScience” which highlights commonalities between the thinking and making practices used by artists and by scientists and builds on the theoretical philosophy that all things can be understood through art or through science but integrating the two lenses allows for more complete understandings. Research will investigate the relationship between embodied learning approaches, design principles, and structures of the Embodied Physics Learning Lab model using the lenses of physics, dance, and integrated ArtScience to better understand the model. The project employs design-based research to address two overarching research questions: (1) What unique opportunities for learning, engagement, and identity development for Black and Latinx youth occur when physics is explored in the context of the Embodied Physics Learning Lab Model? and (2) How do variations in site demographics and site implementation influence the impact and scalability of the Learning Lab model? Further, the inquiry will consider (a) how youth experience and utilize their intersectional various identities in the context of the activities, structures, and essential elements of the embodied physics learning lab; (b) how youth's level of physics engagement changes depending on which embodied learning approaches and essential element structures are used; (c) the physics knowledge and other skills youth attain through the set of activities; and (d) how, if at all, the embodied learning approaches engage youth in thinking about their own agency as STEM doers. An interdisciplinary team of researchers, choreographers, and youth along with community organizations will co-design and implement project activities across four sites. Approximately 200 high school youth will be engaged; 24 will have the role of Teen Thought Partner. Through three iterative design cycles of implementation, the project will refine the model to investigate which elements most affect successful implementation and to identify the conditions necessary for scale-up. Data will be collected in the form of video, field notes, pre- and post- interviews, pre- and post- surveys, and artifacts created by the youth. Analyses will include a combination of interaction analysis, descriptive data analysis, and movement analysis. In addition to the research findings and explication of the affordances and constraints of the model, the project will also create a curricular resource, including narrative text and video demonstrations of physics concepts led by the teen thought partners, video case training modules, and assessment tools.
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TEAM MEMBERS:
Folashade Cromwell SolomonDionne Champion
Science is a process of inquiry that involves question asking, experimentation, and exploration. However, for youth, it is often presented as settled, a fixed collection of facts, principles, and theories that can seem sterile and unimaginative. This project is designed to combat that idea. This Research in Service to Practice project brings scientists, middle school youth and choreographers together to explore unsettled scientific phenomena from a complex systems perspective using choreography and agent-based modeling (ABM), to engage all participants in cutting edge scientific inquiry. Given the ubiquity of complex systems, being able to adopt a complex systems perspective is critical to understanding the world and our relationship to it. However, research has shown that this can be a challenge, specifically for youth. While most complex systems research has not focused on the role of the body, recent studies have shown the promise and potential of embodiment as its own form of reasoning about complex systems. Thus, this project will create exploratory science spaces foregrounding embodiment in the process of scientific discovery. The program has two phases: (1) a 20-hour training workshop where scientists and choreographers engage in interdisciplinary collaborative design work, and (2) a 60-hour summer program where the researcher-practitioner partnership involving scientists, choreographers and youth engages in agent- based & embodied choreographic scientific modeling. The summer program takes place in community-based centers in Gainesville, FL and Boston, MA broadening perceptions of what science research looks like and can be. Each site will host 20 youth, two local scientists, and a local choreographer. Participants will engage in embodied collaborative inquiry, brainstorming and modeling to create choreographic representations and culminate in a public event for the community. The project aims to understand the experiences of and shifts in youth and scientists as they engage in these activities and to understand how to design such a model for informal learning. The project will also help scientists apply a complex systems lens to their own work and settled perspectives. 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.
Using a design-based research (DBR) approach, the project will develop and expand embodied and agent-based learning theories, while also piloting, analyzing, and refining collaborative models for science learning in informal spaces. The research questions are: 1. How does engaging in the process of creating embodied and agent-based models of complex systems contribute to new ways of understanding science, de-settle ideas about the process of how science gets “made”, and impact understanding of the role of the body in making science? and 2. How can arrangements of bodies and modeling tools work together to support understanding of complex systems? The research and design are informed by three main theoretical principles: (a) science is “dance of agency”, a process of inquiry that through iterative dialogic interaction with tools, technology, and humans, produces understandings that more and more closely explain natural phenomena; (b) embodied-interactionist theories of learning allow us to understand representational sense-making by looking closely at the processes by which representations are made, not just at representational end- products; and (c) creative embodiment and agent based modeling are valuable tools for sense-making around complex science ideas and emergent phenomena. Two cycles of design, implementation, and analysis across two different informal learning sites will be conducted. Data will be collected at both sites, resulting in four implementation and data collection periods. Each round of implementation will be staggered so that reflections and lessons from an implementation can inform the next design iteration. This project will provide insights on the relationship between choreography and ABM as tools for scientific sense-making and expand ABM to consider the role of movement and bodies more broadly in physical space. It will also contribute to an understanding of how underrepresented youth’s perceptions and conceptions of science can be shaped through embodied science activities, and of the relationships these youth see between their own bodies and identities, science, and the creative arts. Finally, by involving individuals from underrepresented communities as researchers, designers, scientists, evaluators, and advisors, this project expands cross-cultural and training opportunities within the field of education and STEM research.
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TEAM MEMBERS:
Dionne ChampionAditi WaghLauren Vogelstein
For many youth, gaining access to quality STEM (science, technology, engineering mathematics) experiences is a challenge. Inequity and underrepresentation of youth of color in STEM persist. The makerspace movement holds great promise in broadening participation in STEM among youth from underrepresented communities. Makerspaces are defined as collaborative workspaces inside a library, school, or other community location designed for creating, learning, exploring, and sharing with high- to low-tech tools. Despite the availability of making programs focused on STEM activities targeted towards youth of color, the field has few models for designing these programs in ways that build upon youths’ cultural assets and desires for making. Working collaboratively with youth, families, and maker educators in Lansing, Michigan, and Greensboro, North Carolina, this project aims to deepen the field’s understanding about the rich and deep ingenuity in STEM-based making that youth from underrepresented communities can engage. These insights will be leveraged towards advancing community-based maker programming across four community-based makerspaces. The project will also build capacity among STEM-oriented maker educators, researchers, and youth. This model is important because the voices and perspectives of families and communities have been largely absent from the formative knowledge and theory-building processes of the field of makerspace education.
This project will build new knowledge about how and why youth and families make at home, in communities, and in STEM-based maker programs. Collaborators for the project include the University of Michigan, the University of North Carolina at Greensboro, and four STEM- and youth-oriented making spaces in Lansing, Michigan, and Greensboro, North Carolina. This project will take place in two phases, exploring two main research questions: 1) What are the learning results of making at home and in the community? And 2) How do youth organize community resources for sustained STEM making, and what facilitates or hinders such organization? Phase one investigates the community resources (people, tools, materials, knowledge, data, and spaces) youth leverage towards making and how they do so across time. The project will study how youth connect these resources to STEM-rich making and what youth and families learn in the process. In phase two, design-based research will be used to apply phase one insights to the design of community-based STEM-rich maker programs in four maker clubs in Michigan and North Carolina. This work will develop an understanding of youths’ family and community-based STEM-based making practices, including the community resources (people, tools, materials, knowledge, data, and spaces) that youth leverage.
This Research in Service to Practice 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.
Computing and computational thinking are integral to the practice of modern science, technology, engineering, and math (STEM); therefore, computational skills are essential for students' preparation to participate in computationally intensive STEM fields and the emerging workforce. In the U.S., Latinx and Spanish speaking students are underrepresented in computing and STEM fields, therefore, expanding opportunities for students to learn computing is an urgent need. The Georgia Institute of Technology and the University of Puerto Rico will collaborate on research and development that will provide Latinx and Spanish speaking students in the continental U.S. and Puerto Rico, opportunities to learn computer science and its application in solving problems in STEM fields. The project will use a creative approach to teaching computer science by engaging Latinx and Spanish speaking students in learning how to code and reprogram in a music platform, EarSketch. The culturally relevant educational practices of the curriculum, as a model for informal STEM learning, will enable students to code and reprogram music, including sounds relevant to their own cultures, community narratives, and cultural storytelling. Research results will inform education programs seeking to design culturally authentic activities for diverse populations as a means to broaden participation in integrated STEM and Computing. This Broad Implementation 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, including multiple pathways for broadening access to and engagement in STEM learning, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
As part of the technical innovation of the project, the EarSketch platform will be redesigned for cultural and linguistic authenticity that will include incorporating traditional and contemporary Latin sound beats and musical samples into the software so that students can remix music and learn coding using sounds relevant to their cultures; and developing a Spanish version of the platform, with a toggle to easily switch between English and Spanish. Investigators will also develop an informal STEM curriculum using best practices from Culturally Relevant Education and Cultural Sustaining Pedagogy that provides authentic, culturally and linguistically rich opportunities for student engagement by establishing direct and constant connections to their cultures, communities and lived experiences. The curriculum design and implementation team will work collaboratively with members of Latinx diverse cultural groups to ensure semantic and content equivalency across diverse students and sites. Validating the intervention across students and sites is one of the goals of the project. The model curriculum for informal learning will be implemented as a semester long afterschool program in six schools per year in Atlanta and Puerto Rico, and as a one-week summer camp twice in the summer. The curricular materials will be broadly disseminated, and training will be provided to informal learning practitioners as part of the project. The research will explore differences in musical and computational engagement; the interconnection between music and the computational aspects of EarSketch; and the degree to which the program promotes cultural engagement among culturally and linguistically heterogenous groups of Latinx students in Atlanta, and more culturally and linguistically homogenous Latinx students in Puerto Rico. Investigators will use a mixed method design to collect data from surveys, interviews, focus groups, and computational/musical artifacts created by students. The study will employ multiple case study methodology to analyze and compare the implementation of the critical components of the program in Puerto Rico and Atlanta, and to explore differences in students' musical and computational thinking practices in the two regions. Results from the research will determine the impact of the curriculum on computer science skills and associated computational practices; and contribute to the understanding of the role of cultural engagement on educational outcomes such as sense of belonging, persistence, computational thinking, programming content knowledge and computer science identity. Results will inform education programs designing culturally authentic and engaging programming for diverse populations of Latinx youths.
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TEAM MEMBERS:
Diley HernandezJason FreemanDouglas EdwardsRafael Arce-NazarioJoseph Carroll-Miranda
Many of the Hispanic children and families who live in the Rio Grande Valley lack opportunities to engage in inspirational and educational experiences introducing Science, Technology, Engineering and Mathematics (STEM) concepts and related careers. The University of Texas, Rio Grande Valley (UTRGV) will adapt and research the "Energy and U Show," which will introduce thousands of children and families to an exciting and dramatic that shows interconverting different forms of energy. The show will meld the excitement of chemical demonstrations and the natural connection between energy and STEM education in a fully produced, on-stage science extravaganza. A foundational philosophy of the show is that there is additional real value in getting children and youth onto a college campus. For many of its participants, this is their first time sitting in a seat at a university, the first opportunity for them to envision themselves in this environment. In partnership with the University of Minnesota, which originally developed the show, UTRGV will adapt the show, now presented in English, to a bilingual, culturally accessible format that is designed to Hispanic family audiences and student groups in learning about energy and related careers. Evaluation results demonstrate that the show has effectively engaged thousands of Minnesota students. The target audience will be upper elementary (4th-5th grade), middle school students, and their parents. This project will be led by UTRGV, nation's second-largest Hispanic Serving Institution, with a student enrollment of 28,000, of which over 90% are Hispanic and more than 60% are first-generation college students). In addition to the show, the project will include: (1) a manual to guide implementation of the program and related resources at different national or international venues; (2) educational resources for parents, teachers and school counselors introducing STEM careers and specific STEM college majors; (3) mentoring of UTRGV faculty in outreach activities; and (4) dissemination of the show to other campuses and venues.
The project will conduct ongoing research and evaluation guiding the adaptation of the show and investigation of factors contributing to positive educational impacts of the project, which will be carried out by a bilingual/bicultural researcher. Project research instruments will measure student level of engagement, interest and learning, as well as college interest, in surveys and analysis of data pre and post demonstration. The project will specifically investigate the impact of language on student impacts. Each component of this project will be studied to determine program intervention effectiveness (the scientific demonstration and language of the demonstration). To determine program effectiveness, a baseline of data before program implementation will be established concerning Hispanic students, their persistence, and perceptions of the environment. The project will measure parent perceptions of STEM careers for their children through pre and post demonstration surveys and focus groups. Student and parent research participants will be able to use surveys or respond to other research activities in the language of their choice. Project findings will contribute to the knowledge base concerning how linguistically and culturally adapted science shows and related resources adapted into can have positive impacts regarding the STEM knowledge and careers of students and parents from low-income and Hispanic communities.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
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TEAM MEMBERS:
Karen LozanoArturo FuentesAaron MassariBrian Warren
This project will focus on addressing the challenges faced by rural youth with a particular emphasis on those youth who are English Language Learners. The project will provide informal education via libraries and librarians which can provide unique opportunities for rural youth and communities. Building on several years of research and experimentation, this project will augment the formal education sector, as well. The settings for the project are 12 rural school districts in largely Latinx communities. The project partners are the Space Science Institute, the American Library Association (ALA), the Institute for Learning Innovation and the Twin Cities Public Television. Expertise from the Latinx community will play a significant part in the project. The project will engage learners from diverse backgrounds, ages, and interests in science through a coordinated and tested strategy incorporating three Learning Pathways (i.e., Science Learning Spaces, Programs, and Science Kits) in a public library environment. The results should yield a model for Nationwide application.
The main goals are: 1) to establish learning pathways to engage rural communities through exhibit host libraries and (2) to increase art-rich STEM learning opportunities for rural communities through libraries and their support systems. Building on an established training model, the project will introduce library staff to the STEAM content of the exhibits and guide them in developing their own STEAM Learning Pathways. SciGirls digital media, hands-on activities, family resources, and a training network will expand the depth and reach of the project. The project draws on existing professional infrastructure to increase library staff capacity through ALA and the Institute's established community of practice. The researchers will study the efficacy of each pathway, alone and in tandem, on participant's interest development and persistence. The research will use a mixed-methods design-based approach that involves questionnaires, interviews and case studies.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
Libraries can provide unique opportunities for rural youth and communities. Phase III of the STAR Library Network will be a collaboration with 12 rural school districts in largely Latinx communities to address the challenges faced by rural youth, particularly English Language Learners. The project will use a coordinated and tested strategy to establish three learning pathways in public libraries: science learning spaces with exhibits, library programs, and science kits. These resources will provide learners with art-rich STEM learning opportunities.
Partners
Project partners include the Space Science Institute, the American Library Association (ALA), the Institute for Learning Innovation, and Twin Cities Public Television. The project will rely significantly on expertise from the Latinx community.
Project Plan
Building on an established librarian training model, the project will introduce library staff to the STEAM content and guide them in developing their own STEAM Learning Pathways. The project will draw on existing professional infrastructure from the ALA and the Institute for Learning Innovation’s established community of practice. SciGirls digital media, hands-on activities, family resources, and a training network will expand the depth and reach of the project.
The Research
The research team will study the efficacy of each pathway, alone and in tandem, on participant’s interest development and persistence. The research will use a mixed-methods design-based approach that involves questionnaires, interviews, and case studies. The results should yield a model for nationwide application and contribute insights for the formal education sector.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.