Although approximately one-quarter of U.S. students reside in rural communities, rural youth are fifty percent less likely to receive and engage in out-of-school STEM experiences than their urban counterparts. In addition, there has been significantly more investment in understanding and improving informal experiences in urban settings than in rural settings. As a result, there is less known about the characteristics of learning ecosystems and programs that support STEM learning for youth in informal contexts within rural communities. This Research in Service to Practice project aims to address this challenge by exploring the feasibility of a culturally relevant and sustaining STEM program designed specifically for rural youth and their families. Parents and caregivers play a critical role in fostering youths’ interests and persistence in STEM through their own engagement and by connecting them to STEM opportunities and STEM-related fields and career pathways. Through a partnership between the High Desert Museum in Oregon, the Institute for Learning Innovation, Maine Mathematics and Science Alliance, JKS Consulting, and three informal science education institutions, a year-long series of STEM-based workshops and experiences for youth and their families will be co-designed by members of the rural community, informal STEM educators, and STEM professionals and implemented within the rural communities of the participating informal science education institutions—Caddo Mounds State Historic Site Weeping Mary (TX), High Desert Museum (OR), Oregon Coast Aquarium, and The Wild Center (NY). Each series will reflect the cultural knowledge, connections, and resources specific to each rural community. In addition, the informal STEM educators and STEM professionals will receive training on facilitating the culturally sustaining workshops and experiences. Researchers at the Institution for Learning Innovation and the Maine Mathematics and Science Alliance together with the evaluator at JKS Consulting will employ a collaborative design-based research approach to identify and study the STEM learning practices and supports that occur within the program to promote youths’ interests and persistence in STEM. The findings will offer evidence-based insights to the field on how to better engage, reflect, and provide opportunities for diverse rural communities. Ultimately, this research has the potential to advance the current understanding thereby, strengthening rural STEM learning ecosystems and broadening STEM participation among youth in rural communities.
Over a four-year project duration, a collaborative design-based research approach will be employed to address the following research questions: (1) How does culturally sustaining informal STEM programming for families in rural communities contribute to increases in youth STEM persistence? (1a) How might this vary in relation to family and community factors? (2) How does culturally sustaining informal family STEM programming increase community connectivity between STEM-related resources and institutions across informal and formal learning contexts in rural communities leading to a more robust and inclusive STEM learning ecosystem? (2a) To what extent do participating families, informal STEM educators, STEM professionals, and community partners each play a role in increasing this connectivity? The research sample will include 300 families with youth ages 8-11, informal science educators, and STEM professionals across all four sites. Surveys, interviews and observations will be the primary data sources. Analysis of Variance and simple descriptive statistical analysis will be used to analyze the quantitative data. The qualitative data will be analyzed using thematic coding through NVivo. In addition, to complement the research data, JKS Consulting will conduct the formative and summative evaluations of the project to hone effective practices for training informal science learning practitioners in developing and implementing place-based, inquiry-based family learning in rural communities and effective and sustainable practices for engaging rural families in place-based STEM. Findings from the research will be made available and widely distributed in publications, conference presentations, and a multi-part Research to Practice Toolkit designed for parents and caregivers, informal science educators, STEM professionals, and the informal education field at large.
This Research in Service to Practice project is funded by the Advancing Informal STEM Learning (AISL) program.
This Innovations in Development project aims to foster the development of STEM identity among a diverse group of middle school students and, in turn, motivate them to pursue in STEM interests and careers. Vegas STEM Lab, led by a team of investigators from the University of Nevada, Las Vegas, will employ a mix of online and on-site activities to introduce students to engineering methods in the context of the entertainment and hospitality (E&H) industry that is the lifeblood of Las Vegas. Investigators will collaborate with local resorts, multimedia designers, and arts institutions to offer field experiences for students to interview, interact with, and learn from local experts. The Lab will help youth overcome prevailing beliefs of STEM as boring and difficult, boost their confidence as STEM-capable individuals, and expose them to the exciting STEM careers available in their hometown. UNLV engineering undergrads will serve as near-peer mentors to the middle school students, guiding them through Lab activities and acting as role models. Investigators will measure student learning and engagement over the course of the Vegas STEM Lab experience with the aim of understanding how the Lab model—with its rich set of activities and interpersonal interactions set in the local E&H industry—can cultivate STEM identity development and encourage students to pursue STEM pathways. Despite the project’s hyperlocal focus on the Las Vegas community, if successful, other cities and towns may learn from and adapt the Lab model for use in their youth development programs.
Vegas STEM Lab will provide online materials for students’ STEM learning during the academic year followed by on-site visits and hands-on project development during a three-week summer experience. The Lab will run for three years with cohorts of 40 students each (N=120) with the aim of iteratively improving its activities and outcomes from year to year. The local school district will help recruit middle school students who have demonstrated low interest in STEM to participate in the Lab, ensuring that participants reflect the demographic makeup of the Las Vegas community in terms of race and ethnicity, socio-economic status, and gender. Summer activities will take students behind the scenes of the city’s major E&H venues; investigate the workings of large-scale displays, light shows, and “smart hospitality” systems; and then build their own smaller scale engineering projects. Investigators will employ the Dynamic Systems Model of Role Identity (DSMRI) framework to study how intentionally designed Lab experiences shape students’ understanding of themselves, their future aspirations, and their grasp of the scientific enterprise. Summer activities will be integrated into the online learning platform at the end of each year of Vegas STEM Lab, and in the final year of the project, workshops will train local educators to use the platform in either formal or informal learning settings. Materials and research findings produced through this work will be disseminated to middle school teachers and afterschool care providers, and shared with researchers through academic publications and conferences.
This Innovations in Development project is funded by the Advancing Informal STEM Learning (AISL) program.
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TEAM MEMBERS:
Emma RegentovaVenkatesan MuthukumarJonathan HilpertSi Jung Kim
Research suggests that when both science, technology, engineering, and mathematics (STEM) education and social-emotional development (SED) are supported in afterschool, summer, and other informal settings, young people can better develop skills for the future such as leadership, decision-making, and relationship-building so they could have successful careers/participation in STEM. However, researchers and practitioners working in the out-of-school time (OST) sector often do so without connections across these fields. The appeal for more integration of STEM and SED in OST program delivery and data collection has remained abstract and aspirational. This Literature Review and Synthesis project is the next step needed to move the OST field toward the intentional, explicit, and evidence-based integration of STEM and SED in research and practice. The project will create shared understanding necessary to improve program content, staff training, and evaluation. This synthesis will support future research on unified STEM+SED that can lead to more effective, equitable, and developmentally appropriate programming. Improved programming will contribute to talent development, address STEM workforce needs, and promote socioeconomic mobility to benefit children, youth, educators, and society. 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 project will systematically examine what domains and skills at the interface of STEM+SED are most researched among K-12 youth in informal STEM learning environments, compared to formal STEM educational environments. The team will further explore how gender, race, and other intersectional forms of equity can be added to the STEM+SED equation. The project team will search and appraise empirical and gray literature (2001-2020) to identify the most commonly researched domains and skills at the interface of STEM+SED in informal environments serving K-12 youth. The review and synthesis process will include four steps: search, appraisal, synthesis, and analysis. The search will begin with STEM+SED skills in four foundational domains (agency, belonging, engagement, and reflection) identified previously with experts from the fields of STEM and SED. The search will include all existing, eligible references from formal K-12 settings to contrast commonly studied domains and skills (e.g., perseverance, self-regulation, teamwork, complex problem-solving, self-awareness) in formal versus informal learning environments. The study approach will then compare these domains and skills by the demographics variables noted above. Following the creation of a strong catalog of evidence, information will be synthesized using three “pillars” for building coherence in STEM+SED integration: phenomenon (the knowing), implementation (the doing) and assessment (the result). These pillars will be used to organize and critically analyze the literature. Building conceptual coherence through a systematic review and synthesis of literature from the fields of STEM and SED will lead to greater understanding of STEM+SED in OST practice, highlight the most important content and skills to learn in informal environments, and identify when and how youth should learn specific content and skills at the interface of STEM+SED. Applying coherence to the integration of STEM+SED ensures that the principles and practices are layered carefully, in ways that avoid superficial checklists or duplication of effort and build meaningfully upon young people’s knowledge and skills. The long-term goal is to broker connections and alignment of STEM+SED across schools and OST programs. Recommendations and a roadmap to guide equitable, effective STEM+SED research, practice, and policy will result from this research.
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.
This award is funded in whole or in part under the American Rescue Plan Act of 2021 (Public Law 117-2).
Research shows that Black girls and women, regardless of their academic achievements and STEM interests, often encounter academic under-preparation, social isolation, exclusion, and race-gender discrimination that negatively impacts their ongoing engagement and retention in STEM. This project will provide innovative, culturally relevant learning environments to middle and high school Black girls to counter these negative trends. Using hands-on coding and robotics activities, project participants will develop positive attitudes toward science, technology, engineering, and mathematics (STEM). The project emphasizes peer-mentoring by providing opportunities for Black female high school (assistant coaches) and Black college students (coaches) to serve as counselors and mentors to participants. Additionally, engineers, scientists, and executives from STEM industries will serve as mentors and share their experiences to broaden participants’ STEM career aspirations. The project is a three-year collaborative effort between the University of California Davis C-STEM Center, the Umoja Community Education Foundation, and the 66 affiliated California community colleges, industry partners, and school districts in California. Over three years, nearly 2,000 females will participate in the project.
Learning environments for Black girls and women led by other Black girls and women are referred to as “counterspaces” where they are free to engage in STEM in ways that value their identities while promoting STEM engagement, interests, and career aspirations. The project’s curriculum will follow a research-based, culturally relevant multi-tiered mentoring approach. The curriculum is designed to develop participants’ STEM content knowledge, critical thinking, and logical reasoning capabilities through meaningful connections to real-life applications using hands-on coding and robotics. A mixed-method longitudinal study will examine the impact on participants’ STEM outcomes, emphasizing contributing new knowledge on the viability of multi-tiered, culturally relevant mentoring for increasing equity in informal STEM learning (ISL). The program's effectiveness will be evaluated using longitudinal assessments of mathematics standards, computer science and robotics conceptual knowledge, logical and critical thinking skills, STEM school achievements, interests and attitudes toward STEM subjects, advanced STEM course-taking, involvement in other ISL opportunities, and leadership in STEM in one’s school/university and community. The project will test a locally based informal learning model with projects hosted by other K-12 and college partners.
This Innovations in Development project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to (a) advance new approaches to and evidence-based understanding of the design and development of STEM learning in informal environments; (b) provide multiple pathways for broadening access to and engagement in STEM learning experiences; (c) advance innovative research on and assessment of STEM learning in informal environments; and (d) engage the public of all ages in learning STEM in informal environments.
Black Girls Create (BGC) is a program that uses maker pedagogy, social history (i.e., Black women’s contributions in STEM), culturally responsive pedagogy, and mentoring to engage Black girls in STEM. For the project, culturally responsive making is operationally defined as the use of cultural knowledge and maker technologies to create, design, and produce artifacts that are related to a particular concept, theme, or person. The project will conduct a feasibility research study that investigates how engagement in BGC affects participants' STEM interest, STEM confidence, and racial and gender identities. In the project, participants will discover how Black women have made an impact in STEM fields and will learn how to digitally create cultural artifacts/wearable art related to their discoveries. Approximately 120 middle school girls in grades 6-8 (8 groups of 15 participants each) from underserved neighborhoods will be recruited for participation in this two-year study. Each group will meet for 3 hours per week over an 8-week period. Instructional materials from this research will be made freely available online so that they can be adapted and used at other formal and informal educational institutions that seek to garner interest and access to STEM learning for Black girls and women.
A pre- and post-test, quasi-experimental design will be used to research the program’s influence on participants’ self-efficacy, racial identity, and gender identity. Lagged regression models that control for students’ age, race/ethnicity, and pre-survey scores will be used to examine growth in each of the four outcomes. Once all of the participants in the groups have completed BGC, data from all groups will be combined to increase power and thereby detect statistically meaningful differences in pre- and post-survey scores. In addition, variables representing attendance and program engagement will be entered into the model to examine whether students who are highly engaged in BGC programming exhibit more growth in the four outcomes. Qualitative data will be derived from students' journal entries as well as focus group interviews. Weekly journals will be used to gather data about the context and experiences of participants as they unfold throughout the program. Semi-structured focus groups will center around the usefulness of skills and knowledge gained from the program activities, significant experiences with peers and program staff, the opportunity to learn about Black women STEM progenitors, and learning how to make digitally fabricated artifacts. NVIVO, a computer software program, will be used as a tool to support the analysis of the rich, text-based information resulting from the journals and focus group narratives.
This feasibilty research 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.
Informal STEM learning environments, programs, and policies can be designed to support and promote neurodiversity through inclusive practices. This project will explore the benefits of informal STEM learning for K-12 neurodiverse learners through a systematic review and meta-analysis of extant literature and research grounded in the theory of social model of ability. This framework is an asset-based approach and aims to promote social, cognitive, and physical inclusion, leading to positive outcomes. Using various quantitative and qualitative methodologies, this project endeavors to collect and synthesize the evidence for supporting and enhancing accessibility and inclusiveness in informal STEM learning for K-12 neurodiverse learners. It will explore key features of informal STEM learning and effective, evidence-based strategies to effectively engage children and youth with neurological conditions such as autism spectrum disorder, attention deficit hyperactivity disorder (ADHD), dyslexia, and dyspraxia, in informal STEM learning environments. The findings of this complex synthesis will provide a timely contribution to deeper understanding of supports for neurodiversity while also highlighting areas that inform further research, shifts in practice, and policy.
The systematic review will occur over a two-year period. It will focus on identifying program elements that promote inclusion of children and youth with neurodevelopmental disabilities in informal STEM learning contexts. Specifically, the review will explore two overarching research questions and several sub-research questions:
RQ1. What program elements (teaching and learning variables) in informal STEM learning settings facilitate inclusion of K-12 neurodiverse STEM learners? Sub-RQ1a: What are the overlapping and discrete characteristics of the program elements that facilitate social, cognitive, and physical inclusion?
Sub-RQ1b: In what ways do the program elements that facilitate inclusion vary by informal STEM learning setting?
RQ2: What program elements (teaching and learning variables) in informal STEM learning settings are correlated with benefits for K-12 neurodiverse STEM learners? Sub-RQ2a: What are the overlapping and discrete characteristics of the program elements that correlate with increased STEM identity, self- efficacy, interest in STEM, or STEM learning?
Sub-RQ2b: In what ways do the program elements that correlate with positive results for students vary by informal STEM learning setting? The research synthesis will consider several different types of studies, including research and evaluation; experimental and quasi-experimental designs; quantitative, qualitative, and mixed methods; and implementation studies.
The research team will (a) review all analyses and organize findings to illustrate patterns, factors, and relationships, (b) identify key distinctions and nuances derived from the contexts represented in the literature, and (c) revisit and confirm the strength of evidence for making overall assertions of what works, why, and with whom. The findings will be disseminated in practice briefs, journal articles, the AISL resource center, as well as presentations and materials for researchers, practitioners, and informal STEM leaders. Ultimately, this work will result in a comprehensive synthesis of effective informal STEM learning practices for neurodiverse K-12 learners and identify opportunities for further research and development.
This literature review and meta-analysis 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 presentation "Revealing Impacts: How does one long-term, statewide field trip program influence a community's learning ecosystem?" was shared as showcase at the 2021 Connected Learning Summit (https://app.clowdr.org/conference/clsummit2021/) held virtually from July 7-30, 2021.
In the showcase session, we shared details of an NSF funded collaborative project between the Gulf of Maine Research Institute, Oregon State University and TERC to understand how a longstanding, statewide field trip program, LabVenture, influences a community’s learning ecosystem. The project uses the construct
Reframing engineering activities to emphasize the needs of others has the potential to strengthen engineering practices like problem scoping, while also providing more inclusive and socially relevant entry points into engineering problems. In a three-year design-based research project, we developed novel strategies for adding narratives to engineering activities to deepen girls’ engagement in engineering practices by evoking empathy for the users of their designs. In this article, we describe a set of hands-on engineering activities developed through iterative development and testing with 190
Described by Wohlwend, Peppler, Keune and Thompson (2017) as “a range of activities that blend design and technology, including textile crafts, robotics, electronics, digital fabrication, mechanical repair or creation, tinkering with everyday appliances, digital storytelling, arts and crafts—in short, fabricating with new technologies to create almost anything” (p. 445), making can open new possibilities for applied, interdisciplinary learning in science, technology, engineering and mathematics (Martin, 2015), in ways that decenter and democratize access to ideas, and promote the construction
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TEAM MEMBERS:
Jill CastekMichelle Schira HagermanRebecca Woodland
Using a design-based research approach, we studied ways to advance opportunities for children and families to engage in engineering design practices in an informal educational setting. 213 families with 5–11-year-old children were observed as they visited a tinkering exhibit at a children’s museum during one of three iterations of a program posing an engineering design challenge. Children’s narrative reflections about their experience were recorded immediately after tinkering. Across iterations of the program, changes to the exhibit design and facilitation provided by museum staff corresponded
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TEAM MEMBERS:
Maria MarcusDiana AcostaPirko TouguDavid UttalCatherine Haden
"Making and Tinkering" links science, technology, engineering and mathematics learning (STEM) to the do-it-yourself "maker" movement, where people of all ages "create and share things in both the digital and physical world" (Resnick & Rosenbaum, 2013). This paper examines designing what Resnick and Rosenbaum (2013) call "contexts for tinkerability" within the social design experiment of El Pueblo Mágico (EPM) -- a design approach organized around a cultural historical view of learning and development. We argue that this theoretical perspective reorganizes normative approaches to STEM education
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TEAM MEMBERS:
Lisa SchwartzDaniela DigiacomoKris Gutierrez