Urban environments are remarkable natural laboratories to study ecology and speciation. These learning ecosystems are ecologically diverse and potentially more accessible for urban youth and their families. Unfortunately, disparities in STEM access continue to persist. Transportation, social and financial barriers, and a lack of awareness of STEM opportunities are a few of the inequities that significantly limit participation in STEM programs among urban youth, especially from underrepresented groups. Perceptions of who can meaningfully engage in scientific research remain demographically skewed to affluent, aged, and non-minoritized individuals. In an effort to address these challenges, this pilot study will investigate the feasibility of using remote cameras to survey local, urban wildlife to promote inclusive practices and youth engagement in STEM. A co-created curriculum will be employed, bringing urban ecologists and Detroit youth (6th-8th grade) together to participate in wildlife field experiences to garner and analyze data collected from cameras deployed through the city. It is the unique coupling of the camera surveys with authentic place-based, culturally relevant ecological research that will facilitate the innovative, experiential learning experiences. This pilot study will advance the understanding of the extent to which various facilitation methods and participation in out-of-school time programs like the Wildlife Neighbors program impact youth. From a broader impacts perspective, this work may yield positive environmental literacy outcomes and prove applicable for other urban youth in the country. The research findings would lay the foundation for future research and add novel approaches to the NSF portfolio on urban, out-of-school time environmental education programs for middle school youth using camera surveys to promote inclusivity, engagement in scientific field research, and increase youths' interest in STEM.
Through a strategic partnership between the Applied Wildlife Ecology Lab at the University of Michigan and the Detroit Zoological Society, this pilot will examine the effects of experiential learning through wildlife monitoring in twenty-four Detroit parks on strengthening four aspects of youth's environmental literacy: knowledge of ecology, competencies as researchers, empathy for wildlife, and sense of place. Youth will self-select into one of four facilitation models, each varying in intensity (summer experience, afterschool club) and mode (in-person, remote). Using camera surveys deployed in Detroit parks, youth will be immersed in ecological research, engaging them in the entire scientific process: observation, inquiry, data collection, fieldwork, data analysis and storytelling. Youth pre- and post-surveys, daily reflections on program activities, and parent/guardian questionnaires will assess impacts and experiences of the Wildlife Neighbors facilitation models and program more broadly. The research questions will explore the extent to which participation in Wildlife Neighbors: (a) differs across facilitation intensity and mode, and (b) strengthens environmental literacy among middle school urban youth when engaged in a co-created out-of-school time experiential program using remote cameras to survey local wildlife. Over the two-year pilot duration, approximately 100 youth and their families will participate in the program.
This pilot study is funded by the NSF 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.
This Pilots and Feasibility Studies award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
The University of South Carolina will develop and research an educational program in the Southeastern United States designed to recognize and foreground the scientific contributions of the descendants of West Africans and West Indians. Though these contributions have been vital to many scientific enterprises, including land stewardship and aquaponics, they have remained largely underappreciated in educational programs. To address this issue, this project will develop an informal science education program for youth from Gullah/Geechee communities whose ancestors were formerly enslaved West African and West Indian peoples. Across centuries, Gullah/Geechee people have developed historical and contemporary scientific, engineering, and technological practices that enabled the mastery of fishing and the cultivation of numerous crops across barrier islands and coastal cities from North Carolina to Florida. Guided by Gullah/Geechee scholars and community members, pre-service and in-service teachers will co-design culturally sustaining summer programs, which provide Gullah/Geechee youth with opportunities to engage in culturally-embedded scientific and engineering practices as they learn about numerous STEM (science, technology, engineering, and mathematics) career pathways related to these practices. The University of South Carolina will host these summer programs in partnership with the historic Penn Center, an African American historical and cultural institution, and in partnership with the Belle W. Baruch Institute for Marine and Coastal Sciences, a research organization dedicated to improving the management of marine and coastal resources. Researchers will study how the in-service and pre-service teachers enact pedagogies that sustain Gullah/Geechee cultural practices. They will also study how the Gullah/Geechee youth share their understandings of culturally-embedded scientific content through creating iMovies and through giving community presentations hosted by the Penn Center, Baruch Institute, and other community partners. This project will advance knowledge on broadening participation in STEM (science, technology, engineering, and mathematics) career pathways in informal settings through culturally sustaining pedagogies. This project will also advance partnerships through illuminating how different institutions and stakeholders?such as community leaders, cultural centers, university educator programs, and scientific research organizations can work together to support culturally-embedded learning across informal settings.
The University of South Carolina will conduct a mixed-method study grounded in principles of design-based research and community-based participatory research. Pre-service and in-service teachers from underrepresented groups will participate in an immersive two-year professional development experience during which they co-design and teach culturally sustaining summer programs with Gullah/Geechee scholars and leaders. In these programs, fifth- and sixth-grade Gullah/Geechee youth will engage in project-based learning by applying historical and contemporary scientific practices grounded in Gullah/Geechee cultures. Guided by cultural mentors, youth will engage in STEM practices similar to those of STEM professionals in the community. Researchers will study how the educators understand and apply culturally sustaining pedagogies by using constant comparative analytic methods to analyze transcripts from observations and interviews, as well as the educators' work materials (e.g., lesson plans). They will also study how the youth convey their understandings of culturally-embedded scientific content and practices by using constant comparative and multimodal analysis to analyze transcripts from interviews and observations, as well as youth-generated artifacts such as the iMovie. Additionally, pre- and post-tests will enable the research team to determine changes to the youths' understandings of scientific content and perceptions regarding participation in STEM enterprises and careers. Deliverables, such as youth-generated products, will be shared with local media and with relevant cultural centers, while empirical results will be widely disseminated through local and national conferences. This project is funded by the Innovative Technology Experiences for Students and Teachers (ITEST) program, which supports projects that build understandings of practices, program elements, contexts, and processes contributing to increasing students' knowledge and interest in science, technology, engineering, and mathematics (STEM) and information and communication technology (ICT) careers. This project is also co-funded by the Advanced Informal STEM Learning (AISL) program. As part of its overall strategy to enhance learning in informal environments, the AISL program 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.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Makerspaces are learning environments that engage participants in authentic science and engineering practices, using hands-on and collaborative approaches to support activities and projects that foster creativity, interest, and skill development. Recently there has been a rapid growth of makerspaces in schools and in informal places like museums, libraries, and community centers. However, many of these spaces are not accessible to all members of society. This project will produce a model for a STEM makerspace that focuses on increasing access. The model has four critical components that operate together: affordable housing, informal STEM learning, maker education, and multi-generational learning. This project will develop and study the community-based, multigenerational makerspace model for Bayview Towers, a 200-unit affordable housing complex in Connecticut. The Multi-Gen STEM Makerspaces project brings together CAST, a non-profit education research organization, the NHP Foundation/Operation Pathways, a national affordable housing provider, and the Boston University Social Learning Lab, which researches the social context for STEM learning. The project will produce a Multi-Gen Maker Playbook comprised of an educational guide for a series of four-week workshops around different themes and modes of making. The Playbook will also serve as a program model that guides similar communities on how to create and run sustainable and thriving maker programs of their own. Families in the Bayview Towers community will build an understanding of science, technology, engineering, and mathematics (STEM) concepts through participation in an onsite makerspace. Families will relate what they are doing through making to longer-term goals connected to STEM learning, education, and careers. The project will also enable the engagement of individuals in the co-design (individuals provide creative contributions) of making that can be translated into community structures and values that support a sustainable makerspace. The affordable housing context will provide understanding of individual and other social factors that impact learners' sense of STEM identity. The project will support mobility from poverty by including STEM learning as part of the resident services.
The research will examine how low income communities access, engage, and learn in makerspaces, and relate their learning to relevant goals. The team will use design-based research (DBR) whereby participants and researchers work together to design interventions intended to explore theory through cycles of enactment, analysis, and revision. The DBR research will answer the following questions:
In what ways, if any, does the model support residents experiencing STEM learning as consequential?
What kind of making goals do residents set and how do they embed STEM in these goals?
If residents experience STEM learning as consequential through the workshops, do they also see the relationship between their making goals and longer term goals?
Do those residents that use the makerspace more frequently experience more positive outcomes in terms of consequential STEM learning?
How do the various makerspace structures - training of facilitators, dedicated space and equipment, Playbook - support the model?
Are groups of residents participating regularly in the makerspace and if so, who is in these groups? Do these groups start to identify as a maker community? Is the community finding the makerspace of value?
In what ways does the organization and operations of the makerspace support building a sustainable model for multigenerational and consequential learning?
Participants will include 90 youth and 90 adults from the resident community at Bayview Towers. Research data to be collected includes open-ended response measures for scoring residents' interpretation, analysis and understanding of each workshop elements. Also, interview protocols will be used to guide the refinement of the Multi-Gen Maker Playbook features and analyze usability, feasibility, engagement and user experience of the Multi-Gen Maker Playbook within the platform. The program will use semi-structured interview protocols on participants' goals and STEM identity and focus group protocols on community maker values and makerspace structures. Additionally, a Likert-style survey on STEM identity will also be adapted from the Science Identity Scale. Project evaluation will examine the overall achievement of program goals and objectives. Project results will be communicated by traditional means of dissemination to scholars and practitioners. The team will also create targeted digital media, including online articles, podcast interviews, and blog posts, to reach a broader audience.
This Innovations in Development award 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. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
DATE:
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TEAM MEMBERS:
Sam Catherine JohnstonKathleen CorriveauJess GropenKim DucharmeKenneth White
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program 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. The goal of this RAPID project is to better understand how an informal science education organization and its STEM resources can partner with community groups and their expertise to support people's ability to understand, process, and work toward dismantling systemic racism. The project will draw from exhibition and programming resources that have been developed and refined over almost two decades of engagement with the topics of STEM, race, and racism in a science museum context. Examples of STEM programming include data and data visualization, how biology and environment shape behavior and perception, and the use of technology to communicate. This project will build on previously developed relationships in three regions to design and facilitate virtual STEM-informed activities and conversations about race in each regional site. These activities and training will support participants to better understand, process, and work toward dismantling systemic racism.
This RAPID project is timely given the Covid-19 pandemic and the increased awareness of the ongoing impact of systemic racism. The project will address the following questions:
What kinds of virtual STEM-informed activities allow for community members to explore, understand, or act upon the impacts of systemic racism? What are key features of those activities, from the perspective of participants? What are promising changes that community members report as a result of these activities? How are science-based resources perceived, and how do participants perceive they are learning STEM?
What supports allow the regional project group members and museum staff to collaborate successfully, and what obstacles slow that work down?
How do local collaboratives define long-term success of their work, and how can they track their progress over time? The project team and the regional project group members bring a range of experience in community engagement, science education programming, and informal science learning research.
The project will develop this new knowledge for the informal science education field and other local stakeholders through qualitative and participatory research and virtual STEM-informed activities that are responsive to the changing needs of community members. The project will begin in August 2020 as the ability to understand the research questions requires immediate collection of data. Because of the essential nature of this type of research for the informal STEM learning field, the team plans to analyze data and start initial dissemination by the fall of 2020 with additional data collection, analysis, and dissemination continuing as the project progresses.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Across the country, educators and mentors in informal settings have provided youth with opportunities to persist and thrive along STEM (science, technology, engineering, and mathematics) trajectories. Unfortunately, the current COVID-19 pandemic may limit youths' opportunities to continue pursuing STEM pathways by removing their access to important resources, such as mentors in science labs and other STEM learning spaces. The impact of the pandemic may be especially harmful for youth from underrepresented groups whose families have been disproportionately affected by this crisis. The purpose of this project is to study the impact of COVID-19 on the STEM trajectories of teenagers from underrepresented groups who had previously worked with scientists as mentors before the pandemic. A survey, which will be administered to hundreds of teenagers, will identify the supports that they used to successfully navigate disruptions as they continued to pursue college and career pathways in STEM. For teenagers who decided not to actively pursue STEM pathways during the pandemic, this survey will illuminate how loss of supports and new challenges discouraged their active pursuit of STEM. By identifying supports and challenges that encouraged or discouraged STEM pursuits, this project will advance knowledge on how informal learning programs can support underrepresented teenagers in persisting along STEM pathways during national crises and emergencies.
The American Museum of Natural History will conduct mixed-methods research to explore the impact of the pandemic on the STEM trajectories of underrepresented teenagers. They will administer surveys to 560 teenagers from underrepresented groups who previously participated in the New York City Science Research Mentoring Consortium. The survey will ascertain whether and how the youth found access to new supports or lost access to former supports; whether they face new challenges and how they have responded to those challenges; and whether and how their feelings about pursuing STEM in college and beyond have changed. Teenagers who complete the survey will identify adults in their lives who have been important in supporting their pursuits in STEM, and two adults per teenager will also be invited to complete surveys on perceived disruptions. Latent class analyses, cognitive interviews, and consultation with youth and survey experts will be used to establish survey validity, while the survey results will be analyzed via two-mode social network analysis. Additionally, 16 teenagers will participate in in-depth interviews regarding the impact of the pandemic on their STEM trajectories. Findings and implications for practice will be disseminated widely to researchers, educators, and mentors in informal science education. These findings will help stakeholders to provide better supports for underrepresented youth during the current pandemic and during future national emergencies. This project is funded by the Advanced Informal STEM Learning (AISL) program. As part of its overall strategy to enhance learning in informal environments, the AISL program 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.
This RAPID award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
DATE:
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TEAM MEMBERS:
Preeti GuptaTimothy PodkulKaren Hammerness
Well-designed out-of-school time experiences can provide youth with rich opportunities to learn. However, to design effective out-of-school time experiences, it is critical to have a research basis that clarifies the features of programs that support increased youth engagement that then leads to better outcomes for youth. This project explores the features of programming that integrates sports, mathematics and science concepts, and growth mindset for 4th through 8th grade aged Latinx and African American youth. To accomplish this, the investigators refine curricular resources for out-of-school time programs and develop a model for professional learning experiences for informal educators and facilitators to support their implementation of integrated sports and STEM programming. To identify critical features of the programming, the researchers explore the ways that the program activities are implemented in two different contexts as well as the impact of the programming on youth participants' mindset, understanding of science and mathematics concepts, STEM interests, and self-perceived science and mathematics abilities. Additionally, researchers will explore the ways that the sports-themed programming supports (or could better support) girls' engagement.
The project builds on the University of Arizona researchers' existing partnerships with Major League Baseball (MLB) and Boys/Girls Club programs and an existing school-based MLB program for schools to (a) expand and refine Science of Baseball activities to enhance engagement among girls and incorporate growth mindset experiences that focus on the value of effort, determination, and learning from mistakes in both athletics and STEM; (b) study the enactment and outcomes of the program with 4th-8th grade aged youth in the two distinct informal learning settings; and (c) develop and refine a model for professional learning that includes in-person and on-line components for training informal STEM learning facilitators. The work will focus on two study contexts: afterschool programs of Boys and Girls Clubs in AZ, CA, and MO and summer programs of MLB in CA and MO. Participants will include 300 youth and up to 28 informal STEM learning facilitators split across the two contexts. Design-Based Implementation Research (DBIR) will be used to a) iteratively refine the activities and professional development model, and b) study the enactment and outcomes of the program. Research questions focus on outcomes for youth participants (i.e., impact on growth mindset, STEM dispositions, and understanding of science/math concepts), and the elements of effective professional development for informal STEM educators. Outcomes of the project include empirical evidence of what works and what doesn't work in the design, implementation, and professional development for STEM learning programs that integrate sports and growth mindset principles. In addition, outcomes of the project will advance knowledge of how different out-of-school program structures with similar sports-focused STEM programming can similarly (or differentially) support youth learning.
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. 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.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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
While museums strive to be as inclusive and welcoming as possible to all visitors, data from many institutions shows that audiences are still disproportionately white, well-educated, and more affluent than the average local population. One contributing factor to the lack of progress is that staff often create programs that work to create inclusivity from their own perspective, rather than grounding the work in a broader vision of the museum experience. This project will allow for a deeper exploration of how visitors, particularly those from groups that visit less frequently, experience a museum visit, and how their sense of belonging is supported or eroded during their visit. The team believes this sense is built up or taken away through specific moments of engagement or alienation and will explore these moments that matter through the work. Through intensive work at one museum, and additional work at three other museums, the project will look for themes and insights that can help all museums to create more positive moments that matter for all audiences. Specifically, the project will result in a) insights for museums in supporting a visitor-based sense of belonging, b) shared methods for working with visitors that could be applied by other researchers to explore specifics in a particular setting, and c) grounding work to develop survey questions for use across the field. This award is funded by the Advanced 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.
Building on existing work around exclusion and inclusion in everyday science learning, this project aims to formally define what a sense of belonging means in the science and natural history museum context as a construct for understanding inclusivity. The research team hypothesizes that the majority of experiences in an entire museum visit have a relatively neutral effect on visitor sense of belonging; however, at times, visitors may experience positive or negative moments, and these moments that matter may influence a visitor's STEM engagement, interest, and/or identity. This exploratory work will help to develop and ground the construct of sense of belonging within the museum visitor's experiences, to identify visitor moments that matter using an equity approach that intentionally centers the experiences of visitors from underrepresented groups, and to form the basis for future research that would support the development of a fieldwide measure of sense of belonging. The research study will focus on defining the construct of sense of belonging so it 1) aligns with the research literature and 2) is grounded in the experiences of science/natural history museum visitors. Photovoice data collection method and interviews will be used with visitors ages six and above to identify moments that matter for them during a visit to a science/natural history museum. This project will create new understanding of this construct for not only science/natural history museums and the larger informal science education (ISE) field, but fill a gap in the overall literature around the construct of sense of belonging. The project will also provide new learnings for the ISE field on how to adapt and use the photovoice method to study complex constructs, such as sense of belonging, in science/natural history museums.
This Pilots and Feasibility Studies award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Many people with autism are unemployed and isolated because they do not have access to educational opportunities that support them in finding jobs that match their potential. This research seeks to empower adolescents with autism to seek out careers that are well-matched with their strengths and interests. Many people with autism are interested in computing, a marketable skill. This project builds from this interest by developing strategies to effectively engage teenagers with autism. Although people with autism share a diagnosis, each person is unique and has the capacity to become a visionary and transformer in society in their own way. Teenagers with autism will be invited to participate in a game design workshop hosted by an award-winning, not-for-profit Tech Kids Unlimited. Teenagers often enjoy learning how to design games and can learn many useful skills through design. During each workshop, teenagers will rate different teaching strategies using a picture-based survey developed in collaboration with people with autism. It is expected that teenagers with autism who have difficulty focusing to be most engaged by strategies that include multiple types of information (for example, pictures, text, and speech). The team also expects those who are more focused to be most engaged by strategies with fewer sources of information. By developing clear guidelines to help educators match their teaching styles to how different students learn, the project will help them engage youth more effectively. Through an iterative process, the team will revise the game design workshop to make it more engaging for people with different types of autism. New groups of teenagers with autism will participate in improved game design workshops that include an internship in a technology company. An important outcome is to understand which strategies are engaging for young people with autism that help them develop the belief in their skills needed to seek out fulfilling careers. This award is funded by the Advanced 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 Research in Service to Practice project has the following aims: 1) Identify evidence-based strategies to engage youth with autism spectrum disorder (ASD) in informal STEM learning opportunities that are well matched to their attentional profiles, 2) Determine if engaging youth with ASD in informal STEM learning opportunities increases their STEM self-efficacy, and 3) Determine if engagement with STEM internship activities is associated with increased interest in STEM careers and career decision-making self-efficacy. Principles of Universal Design (UD) and Mayer's principles of effective multimedia instruction are frameworks employed to identify instructional strategies that are emotionally engaging for youth with diverse attentional profiles. The degree to which attentional differences contribute to different patterns of emotional engagement with informal STEM learning will be investigated. Guided by assessments of youth's engagement with different learning opportunities, 'diversity blueprints' or specific instructional strategies that help youth with diverse attentional profiles engage will be developed. After identifying strategies to engage neurodivergent (neurologically diverse) youth in informal STEM learning opportunities, the extent to which these strategies generalize to STEM internship sites will be explored. The team will study potential specificity of the types of contexts that promote different types of self-efficacy, with engagement with extracurricular STEM learning opportunities expected to preferentially target STEM self-efficacy while engagement with internships targets career decision-making self-efficacy. Although UD is often endorsed to promote STEM learning among students with disabilities, the proposed research would be the first iterative adaptation of instructional strategies designed to engage neurodivergent teens in informal STEM learning guided by a systematic analysis of how they engage with and feel about instructional strategies. Project deliverables include workshops for local after-school program providers, publications, a project website, and a multimodal guide of the process of developing 'diversity blueprints' and how to apply them for informal STEM educators and researchers.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
There is a national need to expand opportunities to learn coding and computational thinking in informal science, technology, engineering, and mathematics (STEM) education. These skills are increasingly needed in STEM disciplines. As young people learn to code, they engage in computational thinking concepts and practices which are problem solving strategies that include repeated process (iterative) design skills. This project promotes innovation by designing and developing activities for tinkering spaces (a space filled with materials for hands-on exploration of STEM) combined with coding in informal learning organizations such as museums, and community centers. The project supports both tinkering and making as methods to meaningfully incorporate computational thinking in STEM learning experiences. The tinkering approach to learning is characterized by hands-on, trial and error engagement. Making is similar to tinkering with additional attention to learning with peer groups. The long-term goal of the project is to enable informal educators to engage in STEM programming with youth and families from underrepresented groups. The project brings together interdisciplinary teams from the Department of Information Science at the University of Colorado Boulder (CU Boulder), the Tinkering Studio at the Exploratorium, and the Lifelong Kindergarten research group at the Massachusetts Institution of Technology. In collaboration with local partner sites, the project team will design and disseminate a collection of six computational tinkering activity areas that engage learners in creative explorations using a combination of physical objects and computational code. The team will develop visual coding "microworlds" for each of the activity areas, specialized sets of coding blocks designed to provide scaffolding. Additionally, the project team will design and develop facilitation guides to document these activities and facilitation strategies, as well as workshops to better support facilitators in making and tinkering spaces.
The project enhances knowledge building through investigations of what instructional supports informal educators need to develop effective facilitation practices that engage underrepresented youth and families in STEM computational learning experiences. Study participants will include informal educators in museum, library, and community-based settings with varying backgrounds and experiences facilitating computing activities. The project team will also engage youth and families from underrepresented groups through collaborative efforts with community-based partners. Research questions include: 1) What challenges and barriers do informal learning educator, face to engage their learners in design-based activities with computing? 2) What supports informal learning educators to take on key facilitation practices that support children and families in computational tinkering activities? 3) In jointly engaging in these computational tinkering activities, how do the activities and informal learning educators? facilitation of these activities impact children's and families' development of computational tinkering and identities as creators and learners with computing? To answer these research questions the project will use qualitative ethnographic methods to study the developing interactions between learners and facilitators at three local sites. Comparative case studies of facilitators across the local partner sites will also be used to examine what supports facilitators to take on key facilitation practices. Data sources will include participant observation of facilitators and families, documentation in the form of photos, videos, and audio recordings, project artifacts, bi-monthly short surveys with reflective prompts, and interviews with facilitators and families.
This award 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. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
This Pilot and Feasibility project will investigate: a) the kinds of learning outcomes that occur in an informal STEM project utilizing a Critical Environmental Justice-informed Participatory Action Research framework, co-created between researchers and homeless communities, and b) the challenges and opportunities that arise in evaluating such collaborative projects. To address these questions, a team of university and community researchers will work with two self-organized homeless communities, in Portland, OR and Baltimore, MD, to systematically examine air quality at their sites and further develop a multimedia environmental justice toolkit. The toolkit is aimed at equipping homeless communities with STEM-based information and approaches to learn about and address various environmental hazards. Homeless people are disproportionately vulnerable to the impacts of air and soil pollution, rodents, extreme weather, floods, fires, and other hazards. This collaboration will study STEM learning outcomes related to the broader historical socio-political context in which people are living. The project also anticipates finding ways to adapt evaluation processes to better suit the needs of marginalized groups participating in informal STEM projects.
Guided by this integrated framework, the team will undertake participant observation, interviews, focus groups, and document analysis to assess learning. It also anticipates gaining insights into how evaluation processes may be adapted to better suit the needs of marginalized groups participating in informal STEM learning. 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. 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.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
DATE:
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TEAM MEMBERS:
Chris HawnMelanie MaloneErin GoodlingDillon MahmoudiAnthony Levenda
An ecosystems model of learning suggests there are critical partners within and across a community that support learning across the lifespan. These school-community partnerships, developed with shared accountability and goals, are essential to rural students given the lack of economic and geographic access to such services. Youth in rural areas may have limited opportunities to engage with professionals. The team proposes to overcome this gap by capitalizing on the wide-spread interest in archaeology to teach critical thinking using STEM concepts and testing components of a partnership program. This project will advance knowledge on multidisciplinary STEM education by iteratively developing and researching an after-school program in which youth engage in multidisciplinary inquiry in the context of archeology. Mentored by archaeologists, rural youth and citizen scientists will use concepts and tools drawn from biology, ecology, geospatial science, mathematics, physics, and data science to identify and answer questions related to the history of their local region. An outcome of this project will be a road map for moving from a feasibility project to a larger implementation project locally and an understanding of community partnerships engaging more broadly.
Researchers at SUNY Binghamton will conduct a mixed-methods research study that examines the ways in which participation in a multidisciplinary after-school archaeology program supports the development of STEM identities among rural youth in sixth through eighth grades. The research team will use content analysis to analyze field notes from observations, as well as transcripts from focus groups and interviews with the youth. They will use inferential statistics to explore changes in the youths' STEM identity using an identity survey, which will be administered to the youth before and after participation in the program. Additionally, the research team will conduct qualitative research that explores shifts in the afterschool program providers' perceptions about supporting middle school youth as STEM learners. The program providers are comprised of graduate and undergraduate archaeology students, citizen scientists, and professional archaeologists. The course modules developed for the after-school program will be disseminated through professional networks and organizations dedicated to archaeologists and informal educators, and empirical findings will be shared widely via peer-reviewed publications. This project is funded by the Advanced Informal STEM Learning (AISL) program. As part of its overall strategy to enhance learning in informal environments, the AISL program 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.
This Pilots and Feasability Studies award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.