The project will investigate how air quality data interactions (via these two concurrent designs: the public kiosk and the youth summer camp) can be designed to support learners' personal agency in data investigations, visualizations, and communications as well as how these experiences help non-experts learn about their environment.
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TEAM MEMBERS:
Jessica RobertsAlexander EndertJayma Koval
Oregon State University (OSU) will facilitate a Polar STEAM (Science, Technology, Engineering, Arts and Mathematics) program that aims to increase the impact and visibility of polar science by integrating arts- and education-based elements into the polar science research setting.
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TEAM MEMBERS:
Julie RisienKim BernardSusan Roberta RowePeter Betjemann
Explora Science Center and Children's Museum of Albuquerque will conduct “Roots: supporting Black scholars in STEAM,” a project to increase Explora’s relationships with and relevance to Albuquerque’s Black communities and increase opportunities for Black students in Albuquerque to pursue STEAM. The project is designed to foster a holistic, place-based approach to K–16 STEAM learning that incorporates a growth mindset and highlights the contributions of community members, particularly Black STEAM professionals. The museum will collaborate on project activities with the Mexico Black Leadership Council, the Greater Albuquerque Housing Partnership/Casa Feliz, the Community School at Emerson Elementary, and Sandia National Laboratories’ Black Leadership Committee.
The Adler Planetarium will expand access to STEM programs for African American and Latinx Chicago teens through a progressive series of entry-point, introductory, intermediate, and advanced level programs. Students in grades 7–12 will be invited to join teams of scientists, engineers, and educators to undertake authentic scientific research and solve real engineering challenges. In collaboration with schools and community-based organizations, Adler will develop and implement new participant recruitment and retention strategies to reach teens in specific neighborhoods. The initiative will help address the underrepresentation of Latinx and African Americans in engineering.
Few people realize that the largest part of our planet’s biosphere remains virtually unexplored and unknown. This enormous habitat, accounting for an area of 116 million square miles or the equivalent size of roughly 30 times the area of the United States, is the abyssal zone of the deep ocean. The abyssal sea floor, at about 6000 ft., contains more than four times as much habitat for animal life as all of the dry mountains, forests, deserts, plains and jungles combined. Microscopic larvae in the deep ocean, are essential for the renewal and replenishment of life and they repopulate areas damaged by human activities such as mining and trawling, and they make marine protected areas both feasible and important. The National Science Foundation has funded intensive studies of oceanography related to larval recruitment for decades. However, findings from this large NSF investment of personnel, technology and funding have never been widely presented to the public. This project proposes to remedy this by developing a 40 minute giant screen film to be shown in science centers across the country, supported by virtual reality and augmented reality learning tools. The film will cover select deep ocean science expeditions using the deep-sea vehicles Alvin and ROV Jason. Content will include elements of the research process, activities related to the design and operation of deep-sea vehicles as well as interviews with scientists and technologists. The companion activities, Deep-Ocean Pilot (a VR-360° viewing station) and Plankton Quest (an AR biology treasure hunt) will extend the audience experience of the deep ocean out of the giant screen theater and into the surrounding museum environment. The website and social media will extend awareness and resources into homes. The project will be appropriate for a broad general audience, with particular appeal for the target audience of women and girls (ages 7-20). The larval biologist team is led by the PI at the University of Oregon, in collaboration with scientists from North Carolina State University, Western Washington University and the University of Rhode Island. Several young women scientists will be featured in the film providing role models. The production company, Stephen Low Productions, Inc. will use the latest technology on the Alvin and other cinematic tools to capture the visual images in the abyss. Collaborating museums will participate in the development and implementation of the Virtual and Augmented Reality learning tools as well as showing the film in their theaters.
Broader impact project goals include 1) Advancing public awareness of the abyssal ocean, the role of microscopic larvae, and what scientists are learning from expeditions that use deep submergence technologies; 2) Introducing public audiences and young women specifically to the wide range of STEM-related occupations encompassed in the field of ocean exploration and research; and 3) Advancing STEM learning research and practice in the area of immersive media in conveying STEM concepts and enhancing audience identification with STEM. Oregon State University’s STEM Research Center will build new knowledge by conducting formative and summative evaluation of the film and its associated support products (e.g., Virtual and augmented reality activities, website resources), addressing the following evaluation questions: 1)What do audiences take away from their experience in terms of fascination/interest, awareness and understanding related to ocean science exploration? 2) To what degree does the film alone or in combination with supplemental experiences trigger career awareness in girls and young women, and youth of racial/ethnic backgrounds? 3) To what degree do immersive experiences (a sense of “being there”) contribute to learning from the film? 4) How enduring are outcomes with audiences past the onsite immediate experience? Formative evaluation will be designed as ongoing improvement informed by empirical evidence in which evaluators work with team members to answer decision-relevant questions in a timely and project-focused way. The summative evaluation will be structured as an effectiveness study using mixed methods and ascertaining whether key programmatic outcomes have been reached and the degree to which particular program elements will have contributed to the results.
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TEAM MEMBERS:
Craig YoungAlexander LowStephen LowGeorge von DassowTrish Mace
Data is increasingly important in all aspects of people’s lives, from the day-to-day, to careers and to civic engagement. Preparing youth to use data to answer questions and solve problems empowers them to participate in society as informed citizens and opens doors to 21st century career opportunities. Ensuring equitable representation in data literacy and data science careers is critical. For many girls underrepresented in STEM, developing a "data science identity" requires personally meaningful experiences working with data. This project aims to promote middle school-aged girls’ interest and aspirations in data science through an identity-aligned, social game-based learning approach. The goals are to create a more diverse and inclusive generation of data scientists who see data as a resource and who are equipped with the skills and dispositions necessary to work with data in order to solve practical problems. The research team will run 10 social clubs and 10 data science clubs mentored by women in data science recruited through the University of Miami’s Institute for Data Science and Computing. Participants will be 250 middle school-aged girls recruited in Miami, FL, and Yolo County, CA, through local and national girls’ organizations. Youth will participate in a data science club and will learn key data science concepts and skills, including data structures, storage, exploration, analysis, and visualization. These concepts will be learned from working with their own data collected in personally meaningful ways in addition to working with data collected by others in the same social game eco-system. The project will also develop facilitator materials to allow adult volunteers to create game-based informal data science learning experiences for youth in their areas. The 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 and is co-funded by the Innovative Technology Experiences for Students and Teachers (ITEST), which seeks to engage underrepresented students in technology-rich learning environments, including skills in data literacy, and increase students’ knowledge and interest in information and communication technology (ICT) careers.
Researchers will focus on two primary research questions: 1) Across gameplay and club experiences, in what ways do participants engage with data to pursue personal or social goals? 2) How do gameplay and club experiences shape girls’ perceptions of data, data science, and their fit with data and data science? The project will use design-based research methods to iteratively design the game and social club experiences. To ensure that uses of data feel personally and socially meaningful to young girls, the virtual world’s goals, narratives, and activities will be co-designed with girls from groups underrepresented in data science. The project will research engagement with game data in two informal, game-based learning scenarios: organic, self-directed, social play club, and structured, adult-facilitated data science clubs. The research will use a combination of quantitative and qualitative methods including surveys, focus groups, interviews, and gameplay and club observations. Project evaluation will determine how gameplay and club experiences impact participants' attitudes toward and interest in data-rich futures. The project holds the potential for broadening participation and promoting interest in data science by blending game-based learning with the rich social and adult mentoring through club participation. The results will be disseminated through conference presentations, scholarly publications, and social media. The game and facilitator materials will be designed for dissemination and made freely available to the public.
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TEAM MEMBERS:
Lisa HardyGary GoldbergerJennifer Kahn
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.
DATE:
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TEAM MEMBERS:
Juan ChavezDaniella ScaliceWendy Todd
The Field Museum of Natural History will present “Changing Face of Science,” an exhibition series targeting pre-teens and teenagers and featuring Field Museum scientists and science educators who are women or people of color. Over three years, the museum will mount six exhibitions that highlight the experiences and work of museum scientists from diverse backgrounds in a range of disciplines. Programming will include on-site field trips and virtual events during which students and educators will interact with featured researchers. By presenting the stories of individuals from groups traditionally underrepresented in scientific fields, the museum will provide role models who will show that science is accessible and inspire a diverse group of future scientists.
The Ice Worlds media project will inspire millions of children and adults to gain new knowledge about polar environments, the planet’s climate, and humanity’s place within Earth’s complex systems—supporting an informed, STEM literate citizenry. Featuring the NSF-funded THOR expedition to Thwaites glacier, along with contributions of many NSF-supported researchers worldwide, Ice Worlds will share the importance of investments in STEM with audiences in giant screen theaters, on television, online, and in other informal settings. Primary project deliverables include a giant screen film, a filmmaking workshop for Native American middle school students that will result in a documentary, a climate storytelling professional development program for informal educators, and a knowledge-building summative evaluation. The project’s largest target audience is middle school learners (ages 11-14); specific activities are designed for Native American youth and informal science practitioners. Innovative outreach will engage youth underserved in science inspiring a new generation of scientists and investigative thinkers. The project’s professional development programs will build the capacity of informal educators to engage communities and communicate science. The Ice Worlds project is a collaboration among media producers Giant Screen Films, Natural History New Zealand, PBS, and Academy Award nominated film directors (Yes/No Productions). Additional collaborators include Northwestern University, The American Indian Science and Engineering Society, the Native American Journalism Association, a group of museum and science center partners, and a team of advisors including scientific and Indigenous experts associated with the NSF-funded Study of Environmental Arctic Change initiative.
The goals of the project are: 1) to increase public understanding of the processes and consequences of environmental change in polar ecosystems, 2) to explore the effectiveness of the giant screen format to impart knowledge, inspire motivation and caring for nature, 3) to improve middle schoolers’ interest, confidence and engagement in STEM topics and pursuits—broadly and through a specific program for Native American youth, and 4) to build informal educators’ capacity to share stories of climate change in their communities. The main evaluation questions are 1) to what extent does the Ice World film affect learning, engagement, and motivation around STEM pursuits and environmental problem solving 2) what is the added value of companion media for youth’s giant screen learning over short and longer term, and 3) what are the impacts of the culturally based Native American youth workshops.
The evaluation work will involve a Native American youth advisory panel and a panel of science center practitioners in the giant screen film’s development and evaluation process. Formative evaluation of the film will involve recruiting youth from diverse backgrounds, including representation of Native youth, to see the film in the giant screen theater of a partner site. Post viewing surveys and group discussions will explore their experience of the film with respect to engagement, learning, evoking spatial presence, and motivational impact. A summative evaluation of the completed film will assess its immediate and longer term impacts. Statistical analyses will be conducted on all quantitative data generated from the evaluation, including a comparison of pre and post knowledge scores. An evaluation of the Tribal Youth Media program will include a significant period of formative evaluation and community engagement to align activities to the needs and interests of participating students. Culturally appropriate measures, qualitative methods and frameworks will be used to assess the learning impacts. Data will be analyzed to determine learning impacts of the workshop on youth participants as well as mentors and other stakeholder participants. Evaluation of the community climate storytelling professional development component will include lessons learned and recommendations for implementation.
Science is a process of inquiry that involves question asking, experimentation, and exploration. However, for youth, it is often presented as settled, a fixed collection of facts, principles, and theories that can seem sterile and unimaginative. This project is designed to combat that idea. This Research in Service to Practice project brings scientists, middle school youth and choreographers together to explore unsettled scientific phenomena from a complex systems perspective using choreography and agent-based modeling (ABM), to engage all participants in cutting edge scientific inquiry. Given the ubiquity of complex systems, being able to adopt a complex systems perspective is critical to understanding the world and our relationship to it. However, research has shown that this can be a challenge, specifically for youth. While most complex systems research has not focused on the role of the body, recent studies have shown the promise and potential of embodiment as its own form of reasoning about complex systems. Thus, this project will create exploratory science spaces foregrounding embodiment in the process of scientific discovery. The program has two phases: (1) a 20-hour training workshop where scientists and choreographers engage in interdisciplinary collaborative design work, and (2) a 60-hour summer program where the researcher-practitioner partnership involving scientists, choreographers and youth engages in agent- based & embodied choreographic scientific modeling. The summer program takes place in community-based centers in Gainesville, FL and Boston, MA broadening perceptions of what science research looks like and can be. Each site will host 20 youth, two local scientists, and a local choreographer. Participants will engage in embodied collaborative inquiry, brainstorming and modeling to create choreographic representations and culminate in a public event for the community. The project aims to understand the experiences of and shifts in youth and scientists as they engage in these activities and to understand how to design such a model for informal learning. The project will also help scientists apply a complex systems lens to their own work and settled perspectives. This project is funded by the Advancing Informal STEM Learning (AISL) program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
Using a design-based research (DBR) approach, the project will develop and expand embodied and agent-based learning theories, while also piloting, analyzing, and refining collaborative models for science learning in informal spaces. The research questions are: 1. How does engaging in the process of creating embodied and agent-based models of complex systems contribute to new ways of understanding science, de-settle ideas about the process of how science gets “made”, and impact understanding of the role of the body in making science? and 2. How can arrangements of bodies and modeling tools work together to support understanding of complex systems? The research and design are informed by three main theoretical principles: (a) science is “dance of agency”, a process of inquiry that through iterative dialogic interaction with tools, technology, and humans, produces understandings that more and more closely explain natural phenomena; (b) embodied-interactionist theories of learning allow us to understand representational sense-making by looking closely at the processes by which representations are made, not just at representational end- products; and (c) creative embodiment and agent based modeling are valuable tools for sense-making around complex science ideas and emergent phenomena. Two cycles of design, implementation, and analysis across two different informal learning sites will be conducted. Data will be collected at both sites, resulting in four implementation and data collection periods. Each round of implementation will be staggered so that reflections and lessons from an implementation can inform the next design iteration. This project will provide insights on the relationship between choreography and ABM as tools for scientific sense-making and expand ABM to consider the role of movement and bodies more broadly in physical space. It will also contribute to an understanding of how underrepresented youth’s perceptions and conceptions of science can be shaped through embodied science activities, and of the relationships these youth see between their own bodies and identities, science, and the creative arts. Finally, by involving individuals from underrepresented communities as researchers, designers, scientists, evaluators, and advisors, this project expands cross-cultural and training opportunities within the field of education and STEM research.
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TEAM MEMBERS:
Dionne ChampionAditi WaghLauren Vogelstein
Black girls display high interest, confidence and ability in STEM but face multiple barriers including racial, ethnic and gender stereotypes, low exposure to STEM role models, low awareness of diverse STEM fields and financial obstacles to STEM education. It is critical to infuse STEM education with specific and intentional culturally responsive and anti-racist strategies to attract and retain Black girls in STEM. Through this combination of media, role modeling and outreach, Black SciGirls will help increase access to STEM education for Black girls, preparing them for future workforce participation. This project will study the impacts on elementary/middle school Black girls’ exposure to early career Black female STEM professionals as role models. Deliverables include 1) professional development for STEM educators and Black STEM professional women to prepare them to lead STEM programs for girls 2) a PBS series of role model videos of early-career Black STEM professionals and 3) a research study that examines how/if in person and media-based STEM role models increase Black girls’ interest and confidence in STEM, motivation to pursue future STEM studies, and STEM identity. While women make up 47% of the U.S. workforce, they are underrepresented in STEM and only 1.6% are Black women.
The research study will examine how educators’ use of role models addresses a critical barrier for Black girls, seeing women in STEM who look like them. The research study questions are: How and in what ways do Black STEM women role models influence Black girls’ interest in STEM? How and to what extent do role models report changes in their confidence and ability to engage girls in STEM as a result of training in best practices in role modelling? and, How and to what extent are parents engaged in supporting girls’ involvement in STEM, as a result of the participation of role models? The research team will visit participating local SciGirls programs to collect qualitative data, including observations of program activities, interviews, and focus groups. To ensure reliable outcomes and utilize robust theoretical underpinnings, the research will combine pre/post survey data and an in-depth cross-case studies employing qualitative and quantitative data collection. This mixed-methods approach will enable gathering data that comprehensively offers insight into Black girls’ STEM experiences and those of the Black STEM professional women role models and parents who support them. Qualitative data that centers girls’, role models’, and parents’ perspectives will contribute to this identity-centered study. A culturally responsive evaluation will determine the extent to which the project builds educators’ ability to integrate equitable and anti-racist practices to build Black girls’ interest and confidence in STEM studies.
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.
DATE:
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TEAM MEMBERS:
Rita KarlAngel Miles NashRonda BullockAdrienne StephensonLataisia Jones
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.