Stark inequities evident in the low representation of Black women in Science, Technology, Engineering, Mathematics, and Medicine (STEMM) careers persist despite considerable investment in the diversification of the education-to-workplace STEMM pipeline. College participation rates of Black women measure 4-5% of all degrees in biological and physical sciences, 2-3% of degrees in computer science and math, and roughly 1% in engineering. Ultimately, Black women make up only 2.5% of the workforce in STEMM-related fields, indicating that they chronically experience stalled professional advancement. Because there are so few longitudinal studies in either formal or informal settings, educators and researchers lack critical insights into why BA/BS credentialed Black women drop out of STEMM careers at high rates upon entering the workforce. This Research in Service to Practice project will conduct a longitudinal examination of key professional outcomes and life trajectories among adult Black women who enrolled Women in Natural Sciences (WINS), a 40-year-old out-of-school time (OST) high school STEM enrichment program. Prior research on WINS documents that alumnae outperform national averages on all metrics related to STEMM advancement up through college graduation. This study will test the hypothesis that such success continues for these cohorts as they pursue life goals and navigate the workforce. Findings from this study will promote the progress of science, pivotal to NSF’s mission as the project builds knowledge about supportive and frustrating factors for Black women in STEMM careers. Strategic impact lies in the novel participant-centered research methods that amplify Black women’s voices and increase both accuracy and equity in informal STEM learning research.
This research probes the experiences of Black women at a critical phase of their workforce participation when BS/BA credentialed WINS alumnae establish their careers (ages 26-46). The team will conduct a longitudinal comparative case study of outcomes and life trajectories among 20 years of WINS cohorts (1995-2015). Research questions include (1) What do the life-journey narratives of WINS alumnae in adulthood reveal about influential factors in the socio-cultural ecological systems of Black women in STEMM? (2) What are the long-term outcomes among WINS women regarding education, STEMM and other careers, socio-economic status, and STEMM self-efficacy and interest? How do these vary? (3) What salient program elements in WINS are highlighted in alumnae narratives as relevant to Black women’s experiences in adulthood? How do these associations vary? (4) How do selected outcomes (stated in RQ2) and life story narratives among non-enrolled applicants compare to program alumnae? and (5) How do salient components in the WINS program associate with socio-cultural factors in regard to Black women’s careers and other life goals? Participants include 100 Black WINS alumnae as an intervention group and a matched comparison group of 100 Black women who successfully applied to the WINS program but did not or could not enroll. Measurable life outcomes and life trajectory narratives with maps of experiences from both groups will be studied via a convergent mixed methods design inclusive of quantitative and qualitative analyses. Comparisons of outcomes and trajectories will be made between the study groups. Further, associations between alumnae’s long-term outcomes and how they correlate their WINS experiences with other socio-cultural factors in their lives will be identified. It is anticipated that findings will challenge extant knowledge and pinpoint the most effective characteristics of and appropriate measures for studying lasting impacts of OST STEMM programs for Black women and girls. The project is positioned to contribute substantially to national efforts to increase participation of Black women in STEMM.
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TEAM MEMBERS:
Ayana Allen-HandyJacqueline GenovesiLoni Tabb
Science identity has been shown to be a necessary precondition to academic success and persistence in science trajectories. Further, science identities are formed, in large part, due to the kinds of access, real or perceived, that (racialized) learners have to science spaces. For Black and Latinx youth, in particular, mainstream ideas of science as a discipline and as a culture in the US recognize and support certain learners and marginalize others. Without developing identities as learners who can do science, or can become future scientists, these young people are not likely to pursue careers in any scientific field. There are demonstrable links between positive science identities and the material and social resources provided by particular places. Thus, whether young people can see themselves as scientists, or even feel that they have access to science practices, also depends on where they are learning it. The overarching goal of this project is to broaden participation of Black and Latinx youth in science by deepening our understanding of both science identities and how science learning spaces may be better designed to support the development of positive science identities of these learners. By deepening the field’s knowledge of how science learning spaces shape science identities, science educators can design more equitable learning spaces that leverage the spatial aspects of program location, culturally relevant curriculum, and participants’ lived experiences. A more expansive understanding of positive science identities allows educators to recognize these in Black and Latinx learners, and direct their continued science engagements accordingly, as positive identities lead to greater persistence in science. This project is a collaboration between researchers at New York University and those at a New York City informal science organization, BioBus. It 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 participatory design research project will compare three different formats, in different settings, of afterschool science programming for middle schoolers: one located in a lab space on the campus of a nearby university, one located in the public middle school building of participating students, and one aboard a mobile science lab. For purposes of this study, the construct of “setting” refers to the dimensions of geographic location, built physical environment, and material resources. Setting is not static, but instead social and relational: it is dynamically (co)constructed and experienced in activity by individuals and in interaction by groups of individuals. Therefore, the three BioBus programming types allow for productive comparison not only because of their different geographic locations, built environments, and material resources (e.g., scientific tools), but also the existing relationships learners may have with these places, as well as the instructional designs and pedagogical practices that BioBus teaching scientists use in each. This project uses a design-based research approach to answer the following research questions: (1) How do the settings of science learning shape science identity development? What are different positive science identities that may emerge from these relationships? And (2) What are ways to leverage different spatial aspects of informal science programming and instruction to support positive science identities? The study uses ethnographic and micro-analytic methods to develop better understandings of the relationships between setting and science identity development, uncover a broad range of types of positive science identities taken up by our Black and Latinx students, and inform informal science education to design for and leverage spatial aspects of programming and instruction. Findings will contribute to a systematic knowledge base bringing together spatial aspects of informal science education and science identity and identity development, and provide new tools for informal science educators, including design principles for incorporating spatial factors into program and lesson planning.
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TEAM MEMBERS:
Jasmine MaLatasha WrightRoya Heydari
Despite decades of policies and programs meant to increase the representation of girls and women in science, technology, engineering, and mathematics (STEM), girls and women of color still represent a much smaller percent of the STEM workforce than they do in the US population. This lack of representation is preventing the US STEM workforce from reaching its true potential. Intersecting inequalities of gender, race, ethnicity, and class, along with stereotypes associated with who is successful in STEM (i.e., White men), lead to perceptions that they do not belong and may not succeed in STEM. Ultimately, these issues hinder girls’ STEM identity development (i.e., sense of belonging and future success), lead to a crisis of representation for women of color and have compounding impacts on the STEM workforce. Research suggests there are positive impacts of in-person STEM learning after-school and out-of-school time programs on girls’ sense of belonging. The increasing need for online learning initiated by the COVID-19 pandemic means it is vital to investigate girls’ STEM identity development within an online community. Thus, the project will refine and test approaches in online learning communities to make a valuable impact on the STEM identity development of girls of color by 1) training educators and role models on exemplary approaches for STEM identity development; 2) implementing a collaborative, girl-focused Brite Online Learning Community that brings together 400 girls ages 13-16 from a minimum of 10 sites across the United States; and 3) researching the impact of the three core approaches -- community building, authentic and competence-demonstrating hands-on activities, and interactive learning with women role models -- on participating girls’ STEM identities in online settings.
The mixed methods study is guided by guided by Carlone & Johnson’s model of STEM identity involving four constructs: competence, performance, recognition, and sense of belonging. Data collection sources for the quantitative portion of the project include pre- and post-surveys, while qualitative data sources will be collected from six case study sites and will include observations, focus group interviews with girls, artifacts created by girls and educators, educator interviews, and open-ended survey responses. This approach will enable the research team to determine how and the extent to which the Brite Online Learning Community influences STEM identity constructs, interpreting which practices lead to meaningful outcomes that can be linked to the development of STEM identity for participating girls in an online environment. The products of this work will include research-based, tested Brite Practices and a toolkit for fostering girls’ interest, identification, and long-term participation in STEM. The resulting products will increase the reach of informal STEM education programming to girls of color across the nation as online spaces can reach more girls, potentially increasing the representation of women of color in the STEM workforce.
This project is designed to support collaboration between informal STEM learning (ISL) researchers, designers, and educators with sound researchers and acoustic ecologists to jointly explore the role of auditory experiences—soundscapes—on learning. In informal STEM learning spaces, where conversation advances STEM learning and is a vital part of the experience of exploring STEM phenomena with family and friends, attention to the impacts of soundscapes can have an important bearing on learning. Understanding how soundscapes may facilitate, spark, distract from, or even overwhelm thinking and conversation will provide ISL educators and designers evidence to inform their practice. The project is structured to reflect the complexity of ISL audiences and experiences; thus, partners include the North Park Village Nature Center located in in a diverse immigrant neighborhood in Chicago; Wild Indigo, a Great Lakes Audubon program primarily serving African American visitors in Midwest cities; an after-school/summer camp provider, STEAMing Ahead New Mexico, serving families in the rural southwest corner of New Mexico, and four sites in Ohio, MetroParks, Columbus Zoo and Aquarium, Franklin Park Conservatory and Botanical Gardens, and the Center of Science and Industry.
Investigators will conduct large-scale exploratory research to answer an understudied research question: How do environmental sounds impact STEM learning in informal learning spaces? Researchers and practitioners will characterize and describe the soundscapes throughout the different outdoor and indoor exhibit/learning spaces. Researchers will observe 800 visitors, tracking attraction, attention, dwell time, and shared learning. In addition to observations, researchers will join another 150 visitors for think-aloud interviews, where researchers will walk alongside visitors and capture pertinent notes while visitors describe their experience in real time. Correlational and cluster analyses using machine learning algorithms will be used to identify patterns across different sounds, soundscapes, responses, and reflections of research participants. In particular, the analyses will identify characteristics of sounds that correlate with increased attention and shared learning. Throughout the project, a team of evaluators will monitor progress and support continuous improvement, including guidance for developing culturally responsive research metrics co-defined with project partners. Evaluators will also document the extent to which the project impacts capacity building, and influences planning and design considerations for project partners. This exploratory study is the initial in a larger research agenda, laying the groundwork for future experimental study designs that test causal claims about the relationships between specific soundscapes and visitor learning. Results of this study will be disseminated widely to informal learning researchers and practitioners through workshops, presentations, journal articles, facilitated conversations, and a short film that aligns with the focus and findings of the research.
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TEAM MEMBERS:
Martha MersonJustin MeyerDaniel Shanahan
This project addresses the urgent need for the development of equitable approaches to early childhood STEM education that honor the diverse cultural practices through which caregivers (such as parents, grandparents, and other adults in children’s lives) support young children’s learning. Recent studies suggest that both formal and informal educational institutions often privilege Western or Eurocentric parenting practices, neglecting many families’ cultural practices and ways of learning. This study will bring together a group of caregivers, pre-K educators, researchers, and museum staff to investigate how families with young children negotiate among their own cultural practices and the types of STEM learning they encounter in museums, schools, and other community settings. The project team will work together to identify opportunities for informal STEM learning institutions to strengthen their roles as places that can bridge home and school environments and open up new possibilities for building on caregivers’ knowledge and cultural practices within this larger community context. The project will directly benefit the 330 families whose children attend the partnering public school each year, as well as hundreds of families who attend family events at the New York Hall of Science annually. Finally, by considering nuances in caregivers’ perspectives and experiences based on multiple facets of their identities, the research will reveal how structures in educational settings might be changed to become more inclusive and culturally responsive for the broadest possible audience of families.
This Pilots and Feasibility project seeks to 1) conduct exploratory research to understand caregiver engagement, defined as caregivers’ expectations, values, and practices related to their roles in children’s learning, from the perspectives of caregivers, and 2) engage in co-design efforts with caregivers and pre-K educators to explore how the museum can be leveraged as a material and creative resource to support caregiver engagement in STEM learning. This work will be carried out in the context of a long-term partnership between the New York Hall of Science and the New York City Department of Education. Methods will include in-depth interviews with caregivers, using narrative and intersectional research methods to extend existing studies on caregiver engagement in informal STEM learning, while taking into account multiple aspects of families’ social and cultural identities. This work will be carried out in Corona — a neighborhood in Queens, NY, largely made up of low-income and first-generation immigrant families. The project team will collaboratively interpret findings and engage in the initial phases of co-design work, which will include: reflecting on the systems currently in place to support caregivers’ involvement in children’s learning across settings; collaboratively generating new, culturally responsive strategies for leveraging the museum as a material and creative resource for families with young children; and choosing promising directions for further development and testing. Products from this work will include directions for new caregiver engagement initiatives that can be developed and refined as the partnership continues, and strategies for supporting equitable participation by caregivers, pre-K educators, and other community stakeholders in future research-practice partnerships.
Data science is ever-present in modern life. The need to learn with and about data science is becoming increasingly important in a world where the quantity of data is constantly growing, where one’s own data are often being harvested and marketed, where data science career opportunities are rapidly increasing, and where understanding statistics, data sources, and data representation is integral to understanding STEM and the world around us. Museums have the opportunity to play a critical role in introducing the public to data science concepts in ways that center personal relevance, social connections and collaborative learning. However, data science and statistics are difficult concepts to distill and provide meaningful engagement with during the brief learning experiences typical to science museums. This Pilot and Feasibility study brings together data scientists, data science educators, and museum exhibit designers to consider these questions:
What are the important data science concepts for the public to explore and understand in museum exhibits?
How can museum exhibits be designed to support visitors with diverse backgrounds and experiences to engage with these data science concepts?
What principles can shape these designs to promote broadening participation in data science specifically and STEM more broadly?
This Pilot and Feasibility project combines multidisciplinary expert convening, feasibility testing, and early exploratory prototyping around the focal topic of data science exhibits. Project partners, TERC, the Museum of Science, Boston, and The Tech Interactive in San Jose will engage in an iterative process to develop a theoretical grounding and practical guidance for museum practitioners. The project will include two convenings, bringing together teams of experts from the fields of data science, data science education and museum exhibit design. Prior to the first convening, an initial literature summary and a survey of convening participants will be conducted, culminating in a preliminary list of big ideas about data science. Periodically, participants will have the opportunity to rank, annotate and expand this list, as a form of ongoing data collection. During the convenings, participants will explore the preliminary list, share related work from the three disciplines, engage with related data science activities in small groups, and work together to build consensus around promising data science topics and approaches for exhibits. Participant evaluation will allow for iterative improvement of the convenings and the capture of missed points or overlooked topics. After each convening, museum partners will create prototypes that respond to the convening conversations. Prototypes will be pilot tested (evaluated) with an intentionally recruited group of families that includes both frequent visitors and those who are less likely to visit the museum; diversity in terms of race, languages and dis/ability will be reflected in selection. Pilot data collection will consist of structured observations and interviews. Results from the first round of prototyping will be shared with convening participants as a way to modify the list of big ideas and to further interrogate the feasibility of communicating these ideas in an exhibit format. Results from the convenings and from both rounds of prototyping will be combined in a guiding document that will be shared on all three partner websites, and more broadly with the informal STEM learning field. The team will also host a workshop for practitioners interested in designing data science exhibits, and present at a conference focused on museum exhibits and their design.
The Science Museum of Minnesota (SMM) will collaborate with four community organizations serving Black, Indigenous, and People of Color (BIPOC) audiences to research and develop a novel outdoor makerspace that engages families in STEM learning. A makerspace is a place where people work together on creative, interest driven projects. In working with BIPOC families, the project addresses three forms of historical (and present day) exclusion of community participants, including participation in the design of informal learning experiences, participation in such activities, and overall engagement in STEM. The project aims to develop activities that foster STEM learning using natural materials in an outdoor makerspace, informed through robust collaboration with local communities. This project will result in an outdoor makerspace at SMM that will include 3-4 settings (approximately 2500 square feet total) that house and support multiple making activities in an outdoor context. The proposed work will contribute to advancing knowledge through exploring how BIPOC families define learning in makerspaces and how younger children can be fully engaged in family learning. The project will share the inclusive design and community collaboration practices developed through this work with other museums, maker educators, and other community organizations that can develop or expand their own outdoor makerspaces in ways that will respect and reflect BIPOC families’ perspectives.
BIPOC families will join museum staff as contributors in the development and iteration of an outdoor makerspace and collaborators in the development of generalized design principles and dissemination of the research. Visitor-captured video of engagement in the outdoor makerspace, surveys, and memos from design meetings with community partners serve as the foundation for the process of aligning design and development of outdoor informal science education spaces with community needs and values. All research activities will be guided by a culturally responsive research framework and use strategies to ensure the multicultural validity such as video meaning-making with family research participants and member-checking instruments, data analyses, and findings with Design Partners. Project research will address three questions: (1) What are the characteristics of family learning in an outdoor nature-situated makerspace, including how BIPOC families identify and describe STEM learning and how outdoor spaces can be built to support BIPOC families’ perspectives? (2) How can the space be built to support multi-age families to engaged in making, including a focus on what design elements support preschool learner’s engagement and sustained participation by other family members? and (3) How do the design principles for making with widely available materials translate from indoor to outdoor spaces and materials? Research findings, design principles and community engagement guides will be widely disseminated to researchers, designers, program developers, informal science institutions and community organizations.
This Innovations in Development project supports racially and ethnically diverse youth in learning about climate resilience in informal settings, including community centers, afterschool programs, and museums. The project aims to: (1) build the capacity of community organizations to implement youth programming on climate resilience; (2) increase youth knowledge, skills, and self-efficacy associated with climate resilience (also referred to as environmental health literacy for climate resilience); and (3) explore how collaborating research universities and community organizations engage diverse youth in informal STEM learning. Project partners include the UNC Institute for the Environment, the University of Washington-Interdisciplinary Center for Exposures, Diseases, Genomics and Environment, the North Carolina Museum of Natural Sciences, Juntos NC, and the Duwamish River Community Coalition (DRCC). Juntos NC and DRCC actively engage Latino and Indigenous youth in their programming and seek to implement resilience-focused programming that supports youth science learning and leadership development.
Together, informal educators and participating youth will develop locally relevant solutions to climate impacts in their communities. Youth will interact with university-based climate scientists and educators to collect and analyze data and will participate in resilience-focused dialogue, planning, and actions in their communities. Youth will share what they learn with their families and peers through family events and teen summits. The project will engage dozens of educators in community organizations and at least 250 youth, who will share what they learn with their families and communities, reaching hundreds more people through communications and local action projects. Mixed-methods assessment will provide insight into the extent participating youth (a) develop environmental health literacy for climate resilience, and (b) take action to address resilience in their home communities. The team will assess how these outcomes vary by location, and the implications of any variation on potential for project replication. A participatory evaluation, led by an external evaluator, will provide insight into empowerment outcomes. Findings will be disseminated to professional audiences at local and national conferences; and curricular materials from this project will be disseminated through the project website.
The project will develop and research an after-school program designed to engage rural, Latinx youth in design thinking and math through making. Making is a learner-centered environment where participants design, create, and develop projects. Latinx individuals are underrepresented in the STEM workforce. The project will engage Latinx youth during the critical middle school years when young people make choices that affect their futures. The project will work with community members, after school staff, and youth as co-designers to develop and pilot the complete after school program. The program will involve Latinx youth who live in the agricultural regions of the Southwest United States with the goal of developing agency and positive identity, as makers, mathematical doers and users, and active community members. They will engage in developmentally appropriate mathematics, such as the volume and surface area of geometric shapes, within the context of informal learning projects. The program will comprise four semester-long after school projects, involving participants for 2-4 hours each week, during which time youth will design and create objects to address typical community challenges. Each project will incorporate smaller modules to enable youth with different attendance needs to participate. Real community problems (e.g., drought) and solution paths (e.g., water catchment system) will motivate the making and the mathematics. The program, co-designed in partnership with the Cesar Chavez Foundation, promises to reach 100,000 youth over the next decade. Because the program can serve as a model for others with similar goals, this reach has the potential to be expanded in many other communities.
Project research will address a gap in the current literature on mathematics, making, and community membership. The project connects community mathematics—the rich mathematical knowledge and practices drawn from communities—to educational making to both enrich understanding of school mathematics and aid in developing students’ positive mathematical and cultural identities. The project will also result in a model of professional development that can be used and studied by after school programs and researchers, contributing to the limited body of knowledge of professional development on STEM making for after school facilitators. The research design for this project will follow a mixed methods approach where quantitative and qualitative data collection and analysis will occur simultaneously. Results of both strands will be brought together at the interpretation and reporting level to compare and bring out the convergence, divergence, or complementarity of findings. The research will take place in two stages (co-design and pilot) over 3 years, with an additional half year for developing communications of the findings. Research will address the following questions: (1) What are the key features of projects for integrating community mathematics, school mathematics understanding, and design/making? (2) How do facilitators support the youth in engaging in program activities? (3) What math content and practices do youth learn through participation in program activities? and (4) How do youth’s agency and identity as makers, mathematics doers and users, and community members change with participation in the program? Program research and resources will be disseminated nationally through the Cesar Chavez Foundation and by sharing project research and resources through publications and conference presentations reaching researchers, educators, and program developers.
The Northwest Passage Project explored the changing Arctic through an innovative expedition aboard the Swedish Icebreaker Oden to conduct groundbreaking ocean science research, while it actively engaged 22 undergraduate and graduate students from the project’s five Minority Serving Institution (MSI) partners and 2 early career Inuit researchers in the research at sea. Over 35 hours of training in Arctic research techniques, polar science, and science communication was provided to these participants, who were engaged in the Northwest Passage expedition and worked with the onboard science team
Engineering is arguably one of the most critical skills in any society, from building bridges and homes, to designing cell phones and life-saving medical devices. Yet many Americans do not consider engineering to be essential or relevant to their everyday lives, and may even question its positive impact on society. While there have been gains in the number of women and underrepresented minorities in STEM professions over the past few decades, their numbers in the field remain disproportionately low. The Built World integrated multimedia and research project therefore aims to expand access to engineering content through the lens of “inclusive engineering,” which highlights how problem-solvers of all ages, genders, backgrounds, and perspectives approach and overcome challenges to innovate. The project applies this concept through the creation of Built World, a three-hour documentary series for broadcast on PBS stations nationwide, and a complementary interactive escape game streamed live on Twitch, where individuals of all ages and backgrounds can play and solve engineering challenges together. There is a need for effective remote and virtual interaction to support informal STEM learning, and live streaming game platforms present a promising approach to filling this need. Built World is poised to advance the field through: (1) content - creating high-quality inclusive engineering content across multiple platforms to reach a wide audience (Built World documentary, digital reporting and short form videos, community outreach campaign); (2) applied research - designing and studying how live-streaming, collaborative platforms can serve as safe and inclusive spaces for engineering learning; and (3) best practices - exploring how audiences engage with inclusive engineering on different platforms—a traditional documentary format (Built World) versus an interactive, collaborative space (Twitch game)—and identifying what learning outcomes might be expected on each.
A three-phase research design aims to understand what motivates users to engage with STEM content on Twitch; how to define and measure learning outcomes associated with the platform; and how to mitigate the risk of toxic environments in online communities by fostering safe spaces for a diversity of gamers. Phase 1 informs the initial design of the Twitch game and audience interaction strategies and seeks to answer: What is the best way to measure informal learning on Twitch? What is the best way to design a Twitch channel to create an inclusive space while optimizing learner engagement? Phase 2 is the core focus of the research and uses a semi-experimental design to answer questions such as: Is there evidence of learning on Twitch, and what type of learning is happening? What is the digital culture that emerges? Phase 3 assesses the pairing of the documentary series with the Twitch game to maximize informal STEM learning and is guided by questions such as: How does inclusive engineering content presented on two platforms (Twitch game and Built World series) mediate learning outcomes? How does inclusive engineering content presented on two platforms shape learners’ experiences of inclusivity and belonging? Knowledge generated through the Built World project will offer tools and best practices to other STEM media producers so that they may also leverage live streaming platforms for learning.
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TEAM MEMBERS:
Chris Schmidt
resourceprojectProfessional Development, Conferences, and Networks
Centering Native Traditional Knowledge within informal STEM education programs is critical for learning for Native youth. In co-created, place-based learning experiences for Native youth, interweaving cultural traditions, arts, language, and community partnerships is vital for authentic, meaningful learning. Standardized STEM curricula and Western-based pedagogies within the mainstream and formal education systems do not reflect the nature of Native STEM knowledge, nor do they make deep connections to it. The absence of this knowledge base can reinforce a deficit-based STEM identity, which can directly impact Native youths’ participation and engagement in STEM. Reframing STEM education for Native youth to prioritize the vitality of community and sustainability requires active consideration of what counts as science learning and who serves as holders and conduits of STEM knowledge. As highly regarded holders of traditional and western STEM knowledge, Native educators and cultural practitioners are critical for facilitating Native youths’ curiosity and engagement with STEM. This Innovations in Development project is Native-led and centers Native knowledge, voice, and contributions in STEM through a culturally based, dual-learning approach that emphasizes traditional and western STEM knowledge. Through this lens, a network of over a dozen tribal nations across 20 U.S. states will be established to support and facilitate the learning of Traditional and Western STEM knowledge in a culturally sustaining manner. The network will build on existing programs and develop a set of unique, interconnected, and synchronized placed-based informal STEM programs for Native youth reflecting the distinctive cultural aspects of Native American and Alaska Native Tribes. The network will also involve a Natives-In-STEM Role Models innovation, in which Native STEM professionals will provide inspiration to Native youth through conversations about their journeys in STEM within cultural contexts. In addition, the network will cultivate a professional network of STEM educators, practitioners, and tribal leaders. Network efforts and the formative evaluation will culminate in the development and dissemination of a community-based, co-created Framework for Informal STEM Education with Native Communities.
Together with Elders and other contributors of each community, local leads within the STEM for Youth in Native Communities (SYNC) Network team will identify and guide the STEM content topics, as well as co-create and implement the program within their sovereign lands with their youth. The content, practitioners, and programming in each community will be distinct, but the community-based, dual learning contextual framework will be consistent. Each community includes several partner organizations poised to contribute to the programming efforts, including tribal government departments, tribal and public K-12 schools, tribal colleges, museums and cultural centers, non-profits, local non-tribal government support agencies, colleges and universities, and various grassroots organizations. Programmatic designs will vary and may include field excursions, summer and after school STEM experiences, and workshops. In addition, the Natives-In-STEM innovation will be implemented across the programs, providing youth with access to Native STEM professionals and career pathways across the country. To understand the impacts of SYNC’s efforts, an external evaluator will explore a broad range of questions through formative and summative evaluations. The evaluation questions seek to explore: (a) the extent to which the culturally based, dual learning methods implemented in SYNC informal STEM programs affect Native youths’ self-efficacy in STEM and (b) how the components of SYNC’s overall theoretical context and network (e.g., partnerships, community contributors such as Elders, STEM practitioners and professionals) impact community attitudes and behaviors regarding youth STEM learning. Data and knowledge gained from these programs will inform the primary deliverable, a Framework for Native Informal STEM Education, which aims to support the informal STEM education community as it expands and deepens its service to Native youth and communities. Future enhanced professional development opportunities for teachers and educators to learn more about the findings and practices highlighted in the Framework are envisioned to maximize its strategic impact.
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TEAM MEMBERS:
Juan ChavezDaniella ScaliceWendy Todd