This poster was presented at the 2021 NSF AISL Awardee Meeting.
Collaborative robots – cobots – are designed to work with humans, not replace them. What learning affordances are created in educational games when learners program robots to assist them in a game instead of being the game? What game designs work best?
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TEAM MEMBERS:
Ross Higashi
resourceresearchProfessional Development, Conferences, and Networks
This poster was presented at the 2021 National Science Foundation (NSF) Advancing Informal STEM Learning (AISL) Awardee Meeting.
The goal of this two-year project is to examine systemic issues within learning spaces and provide educators with anti-racist approaches that validate and uplift Black learners. Through a combination of media, educator and role model professional development, and intentional outreach, Black SciGirls will create more gender-equitable and anti-racist informal STEM learning environments for Black girls.
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TEAM MEMBERS:
Rita KarlAdrienne StephensonLataisia JonesRonda Taylor BullockAngel Miles NashJohnavae Campbell
This poster was presented at the 2021 National Science Foundation (NSF) Advancing Informal STEM Learning (AISL) Awardee Meeting.
The project’s goal is to create media-rich citizen science experiences for girls, particularly girls of color and/or from rural areas, which broaden their STEM participation, build positive STEM identity and increase understanding of scientific concepts, while leveraging the citizen science endeavors occurring at 16 diverse National Parks.
Identity development frameworks provide insight into why and to what extent individuals engage in STEM related activities. While studies of “STEM identity” often build off previously validated disciplinary and/or science identity frameworks, quantitative analyses of constructs that specifically measure STEM identity and its antecedents are scarce, making it challenging for researchers or practitioners to apply a measurement-based perspective of participation in opportunities billed as “STEM.” In this study, we tested two expanded structural equation models of STEM identity development
An individual's sense of themselves as a “STEM person” is largely formed through recognition feedback. Unfortunately, for many minoritized individuals who engage in STEM (science, technology, engineering, and mathematics) in formal and informal spaces, this recognition often adheres to long-standing exclusionary expectations of what STEM participation entails and institutionalized stereotypes of what it means to be a STEM person. However, caregivers, who necessarily share cultural backgrounds, norms, and values with their children, can play an important role in recognizing their children's
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TEAM MEMBERS:
Heidi CianRemy DouSheila CastroElizabeth Palma-D'souzaAlexandra Martinez
This poster was presented at the 2021 NSF AISL Awardee Meeting. The project aims to engage students who had no or negative STEM experience in science and engineering through site visits and learning what is behind the scenes of entertainment and hospitality projects.
This poster was presented at the 2021 NSF AISL Awardee Meeting. The RAPID: Using Popular Media to Educate Youth About the Biology of Viruses and the Current COVID-19 Pandemic project's goal is develop a web-accessible package of customizable graphics, illustrated stories, and essays, which can be easily incorporated into free-choice and directed on-line learning as well standards-based lesson plans for Grades 6-8.
This practitioner guide summarizes lessons learned from a three-year design-based research project focused on using elements of narrative (such as characters, settings, and problem frames) to evoke empathy and support girls' engagement in engineering design practices. The guide includes a summary of the driving concepts and key research findings from this work, as well as design principles for creating narrative-based engineering activities. Six activity case studies illustrate the design principles in action, and facilitation tips and observation tools offer practical guidance in developing
The Ice Worlds media project will inspire millions of children and adults to gain new knowledge about polar environments, the planet’s climate, and humanity’s place within Earth’s complex systems—supporting an informed, STEM literate citizenry. Featuring the NSF-funded THOR expedition to Thwaites glacier, along with contributions of many NSF-supported researchers worldwide, Ice Worlds will share the importance of investments in STEM with audiences in giant screen theaters, on television, online, and in other informal settings. Primary project deliverables include a giant screen film, a filmmaking workshop for Native American middle school students that will result in a documentary, a climate storytelling professional development program for informal educators, and a knowledge-building summative evaluation. The project’s largest target audience is middle school learners (ages 11-14); specific activities are designed for Native American youth and informal science practitioners. Innovative outreach will engage youth underserved in science inspiring a new generation of scientists and investigative thinkers. The project’s professional development programs will build the capacity of informal educators to engage communities and communicate science. The Ice Worlds project is a collaboration among media producers Giant Screen Films, Natural History New Zealand, PBS, and Academy Award nominated film directors (Yes/No Productions). Additional collaborators include Northwestern University, The American Indian Science and Engineering Society, the Native American Journalism Association, a group of museum and science center partners, and a team of advisors including scientific and Indigenous experts associated with the NSF-funded Study of Environmental Arctic Change initiative.
The goals of the project are: 1) to increase public understanding of the processes and consequences of environmental change in polar ecosystems, 2) to explore the effectiveness of the giant screen format to impart knowledge, inspire motivation and caring for nature, 3) to improve middle schoolers’ interest, confidence and engagement in STEM topics and pursuits—broadly and through a specific program for Native American youth, and 4) to build informal educators’ capacity to share stories of climate change in their communities. The main evaluation questions are 1) to what extent does the Ice World film affect learning, engagement, and motivation around STEM pursuits and environmental problem solving 2) what is the added value of companion media for youth’s giant screen learning over short and longer term, and 3) what are the impacts of the culturally based Native American youth workshops.
The evaluation work will involve a Native American youth advisory panel and a panel of science center practitioners in the giant screen film’s development and evaluation process. Formative evaluation of the film will involve recruiting youth from diverse backgrounds, including representation of Native youth, to see the film in the giant screen theater of a partner site. Post viewing surveys and group discussions will explore their experience of the film with respect to engagement, learning, evoking spatial presence, and motivational impact. A summative evaluation of the completed film will assess its immediate and longer term impacts. Statistical analyses will be conducted on all quantitative data generated from the evaluation, including a comparison of pre and post knowledge scores. An evaluation of the Tribal Youth Media program will include a significant period of formative evaluation and community engagement to align activities to the needs and interests of participating students. Culturally appropriate measures, qualitative methods and frameworks will be used to assess the learning impacts. Data will be analyzed to determine learning impacts of the workshop on youth participants as well as mentors and other stakeholder participants. Evaluation of the community climate storytelling professional development component will include lessons learned and recommendations for implementation.
Many Black youth in both urban and rural areas lack engaging opportunities to learn mathematics in a manner that leads to full participation in STEM. The Young People’s Project (YPP), the Baltimore Algebra Project (BAP), and the Education for Liberation Network (EdLib) each have over two decades of experience working on this issue. In the city of Baltimore, where 90% of youth in poverty are Black, and only 5% of these students meet or exceed expectations in math, BAP, a youth led organization, develops and employs high school and college age youth to provide after-school tutoring in Algebra 1, and to advocate for a more just education for themselves and their peers. YPP works in urban or rural low income communities that span the country developing Math Literacy Worker programs that employ young people ages 14-22 to create spaces to help their younger peers learn math. Building on these deep and rich experiences, this Innovations in Development project studies how Black students see themselves as mathematicians in the context of paid peer-to-peer math teaching--a combined social, pedagogical, and economic strategy. Focusing primarily in Baltimore, the project studies how young people grow into new self-definitions through their work in informal, student-determined math learning spaces, structured collaboratively with adults who are experts in both mathematics and youth development. The project seeks to demonstrate the benefits of investing in young people as learners, teachers, and educational collaborators as part of a core strategy to improve math learning outcomes for all students.
The project uses a mixed methods approach to describe how mathematical identity develops over time in young people employed in a Youth-Directed Mathematics Collaboratory. 60 high school aged students with varying mathematical backgrounds (first in Baltimore and later in Boston) will learn how to develop peer- and near-peer led math activities with local young people in informal settings, after-school programs, camps, and community centers, reaching approximately 600 youth/children. The high school aged youth employed in this project will develop their own math skills and their own pedagogical skills through the already existing YPP and BAP structures, made up largely of peers and near-peers just like themselves. They will also participate in on-going conversations within the Collaboratory and with the community about the cultural significance of doing mathematics, which for YPP and BAP is a part of the ongoing Civil Rights/Human Rights movement. Mathematical identity will be studied along four dimensions: (a) students’ sequencing and interpretation of past mathematical experiences (autobiographical identity); (b) other people’s talk to them and their talk about themselves as learners, doers, and teachers of mathematics (discoursal identity); (c) the development of their own voices in descriptions and uses of mathematical knowledge and ideas (authorial identity); and (d) their acceptance or rejection of available selfhoods (socio-culturally available identity). Intended outcomes from the project include a clear description of how mathematical identity develops in paid peer-teaching contexts, and growing recognition from both local communities and policy-makers that young people have a key role to play, not only as learners, but also as teachers and as co-researchers of mathematics education.
This Innovations in Development project is funded by the Advancing Informal STEM Learning (AISL) program.
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TEAM MEMBERS:
Jay GillenMaisha MosesThomas NikundiweNaama LewisAlice Cook
This Innovations in Development project is funded by the Advancing Informal STEM Learning program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. Specifically, this project connects Native Hawaiian youth ages 12-17 and their family members to STEM by channeling their cultural relationship with ʻāina, the sustaining elements of the natural world including the land, sea, and air. This project seeks to: broaden participation of Native Hawaiian youth who have been historically underrepresented in STEM; actively uphold Native Hawaiian ways of knowing and traditional knowledge; articulate the science rooted in cultural wisdom; and bring STEM into the lives of participants as they connect to the ʻāina. In partnership with six ʻāina-based community organizations across Hawaiʻi, this project will develop, implement, and study ʻāina-centered environmental education activities that explore solutions to local environmental problems. For example, in one module youth and their families will explore of a section of a nearby stream; identify and discuss the native, non-native, and invasive species; remove invasive species from a small section of the stream and make observations leading to discussions of unintended consequences and systemic impacts; ultimately, learners will meet at additional local waterways to engage in similar explorations and discussions, transferring their knowledge to understanding the impacts of construction on local streams and coral reefs. To this effort, the community-based organizations bring their expertise in preserving Hawaiian culture and sustainable island lifestyle, including rural and urban systems such as farming and irrigation traditions and the restoration of cultural sites. University of Hawai’i faculty and staff bring expertise in Environmental Science, Biology, Hawaiian Studies and Problem-Based Learning Curriculum Development. This project further supports organizational learning and sharing among the six community-based organizations. Grounded in Hawaiian ʻAʻo, where learning and teaching are the same interaction, community-based organizations will create a Community of Practice that will co-learn Problem-Based Learning pedagogy; co-learn and engage in research and evaluation methods; and share experiential and traditional knowledge to co-develop the ʻāina-based environmental education activities.
This project is uniquely situated to study the impact of community-led culturally relevant pedagogy on Hawaiian learners’ interests and connections to environmental science, and to understand ʻāina-based learning through empirical research. Research methods draw on Community-Based Participatory Research and Indigenous Research Methods to develop a collaborative research design process incorporated into the project’s key components. Community members, researchers, and evaluators will work together to examine the following research questions: 1) How does environmental Problem-Based Learning situate within ʻāina-based informal contexts?; 2) What are the environmental education learning impacts of ʻāina-based activities on youth and family participants?; and 3) How does the ʻāina-centered Problem-Based Learning approach to informal STEM education support STEM knowledge, interest and awareness? The evaluation will employ a mixed-methods participatory design to explore program efficacy, fidelity, and implementation more broadly across community-based sites, as well as program sustainability within each community-based site. Anticipated project outcomes are a 15-week organizational learning and sharing program with six ʻāina-based community organizations and 72 staff; the design and implementation of 18 activities to reach 360 youth and at least one of their family members; and the launch of an ʻāina-based STEM Community of Practice. The project’s research and development process for ʻāina-centered environmental education activities will be shared broadly and provide a useful example for other organizations locally and nationally working in informal settings with Native or Indigenous populations.
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