This CAREER proposal focuses on the development of teachers' identities, which are operationalized as beliefs and practices, behaviors, and pedagogical knowledge. The PI uses a qualitative approach, occurring over two phases, to investigate the impact of formal-informal collaborations on identity development over time. The study is grounded in an ecological theoretical approach that incorporates a view of informal learning settings as learner-driven and unique in providing opportunities for interaction with objects during meaning-making experiences among groups of learners. The longitudinal research design includes collection of an array of data, including observations of teaching and learning activities, interviews, survey responses, and archival documents such as student work and videos of classroom experiences. The PI uses a narrative analysis and a grounded theoretical approach to generate themes about beliefs and practices around behaviors and pedagogical knowledge informed by informal science education experiences. Research findings and related educational activities inform the field's understanding of best practices of integrating informal science activities into science teacher education, including determining appropriate kinds of support for STEM teachers who learn to teach in informal learning environments (ILE). The PI is integrating research findings in the revision of existing courses and the development of new courses and experiences for both new and experienced teachers. The project addresses the need for empirical evidence of impacts of ILE experiences on professional development, and will build capacity of informal science institution and university professionals to provide effective teacher education experiences and new teacher support.
The Seeing Scientifically project will research a new way of supporting museum visitor experiences so they can have authentic scientific observation of live microscopic specimens. By adapting existing computational imaging techniques from current biological research, the project aims to encourage and support visitors in observing scientifically, that is, in asking productive questions, interpreting image-rich information, and making inferences from visual evidence that increasingly characterizes current biological research. The scaffolding (e.g., visual cues or information supporting learning) will consist of a system of virtual guides and prompts that are responsive to what visitors see. The scaffolding prompts will be overlaid on a real time, high-density image of a live sample that the visitor is investigating with a research grade microscope. Project research will contribute early knowledge on ways to scaffold informal learners in the practice of authentic scientific observation with the complex, dynamic visual evidence that scientists themselves see using the equipment and techniques they use. Project research and resources will be widely disseminated to learning science researchers, informal science practitioners, and other interested audiences through publications, conference presentations and sharing of resources via the NSF-supported informalscience.org website and other relevant websites. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. The project will prototype an innovative microscope exhibit that scaffolds visitors in scientific observation of live specimens and their biological processes. The overarching hypothesis is that scientific observation of real-time visual phenomena can deeply engage learners with the content, tools and practices of modern science, which increasingly rely on image-based data. Through three rounds of iterative prototype development and evaluation, the project will generate early findings for the following related questions: (1) what are promising ways of scaffolding observation of live specimens at an unmediated exhibit; (2) How can computational imaging techniques be integrated into a microscope exhibit to engage and scaffold learners to ask productive questions, interpret what they see, and make evidence-based inferences from complex, dynamic images. Data will be collected and analyzed by coding think-aloud interviews with visitors concerning their interest in and description of the biological phenomenon observed; coding of think aloud transcripts of visitor questions types and answers, relevant features noted, inferences and scaffold use; and statistical comparison of holding time, questions asked, answers, inferences, and scaffold use. Project findings will seed more rigorous research on the combination of scaffolding and computational imaging techniques effective for supporting scientific observation in image-rich areas of science.
In concert with the overall strategy of the Advancing Informal STEM Learning (AISL) program to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments, Principal Investigators from Oregon State University, University of Idaho, and University of Texas at Dallas, will study a range of data in online social networks to identify evidence of the long-term impact of informal STEM education. Tracking informal learners over time to understand the impact of informal learning experiences has been a longstanding, daunting, and elusive challenge. Now, with massive amounts of data being shared and stored online, education researchers have an unprecedented opportunity to study such data and apply data analytics and visualization technologies to identify the long-term, cascading effects of informal STEM learning. Research findings will inform the design and development of a data-analysis tool for use by education practitioners to improve STEM learning experiences online, through television and film, and at informal education institutions. An independent external critical review board of learning scientists, computer scientists, engineers, informal STEM education practitioners, participating partners, broadcast media professionals, and policymakers, will ensure a robust evaluation of the research and effectiveness and utility of the data analysis tool to improve practice. A summary report for the field will be written on the scientific and practical reliability and validity of the research and data-analysis model, and the value of the work for audiences beyond informal STEM education practitioners and policymakers. The research is contemporaneously relevant, advancing innovative use of data-mining and data-analysis processes to better understand how informal learners communicate STEM learning experiences and interact with STEM content over time, across a range of social networks. Investigators will research: 1) whether learners who engage in informal STEM education experiences further their learning through discussions and sharing of information in social media networks, 2) which types of data are present in social media that are relevant for understanding the cascading impacts of learning over time, and 3) how learning may evolve independently within shared social networks, which, if discovered, could provide a predictive computational model with implications for significant impact across both formal and informal education. Investigators will employ existing and modified data crawlers to search for key terms and phrases, assess spikes and deformations in posts, queries, and blogs, and experiment with their test data to find which types or configurations of keywords or search terms deliver the most reliable and accurate results. A variety of formats will be explored to test various strategies with participating partners and practitioners. Data will be visualized to represent the following dimensions of learning: a) Interest/Affect, b) Recommendations, c) Understanding/Knowledge-Seeking, and d) Deeper Engagement.
The Advancing Informal STEM Learning (AISL) program funds innovative projects in a variety of informal settings. The iSWOOP project aims to equip National Park Service interpretive rangers with visualizations and interactive approaches for communicating science in natural learning spaces. An advantage to locating STEM learning in national parks is that they serve as America’s outdoor laboratories, hosting thousands of research studies annually. Dynamic changes in the landscape, wildlife, and interspecies interactions offer countless avenues for inquiry. The project will build collaborations between park-based scientists, whose work frequently happens out of the public eye, and interpreters, who interact with millions of visitors annually. Based on pilot studies done at Carlsbad Caverns National Park, the researchers have extended this work to four more national park units, each with its own natural resources and research. Partners in this endeavor include Winston-Salem State University, Institute for Learning Innovation, and TERC. This project's goal is to establish a model for how national parks can be resources for science education and learning.
iSWOOP works by providing interpretive rangers with professional development. iSWOOP coordinates 1) opportunities for interpreters and scientists to work together in a classroom setting and in the field; 2) creates compelling visualizations, which can function as a jumping off point for conversations about the methods and relevance of park-based research; 3) ongoing opportunities for interpretive rangers to reflect on interactions with visitors and to experiment with questions that spark visitors’ curiosity in the moment and interest long-term.
The main goal of this proposed effort is to translate park-based research endeavors and results from the scientists to the park visitors in ways that make the process enjoyable, informative, and thought-provoking. Evaluation elements will be included every step in this process in order to not only determine if learning has occurred but also how effectively the science has been translated.
Most students who pursue math have chosen to do so by high school. Elementary and middle school experiences are thus vitally important in attracting students to STEM. Research consistently points to after-school as a golden opportunity to increase students' exposure to high-quality math learning opportunities and to develop the key influencers of math participation and persistence: interest and identity. However, more research on how and under what conditions after-school programs can foster these factors is needed. The role of identity in math education has been particularly neglected. The proposed research project addresses this gap by studying the implementation and outcomes of After-School Math PLUS (ASM+), an after-school math program designed to address all aspects of math identity and thus have a positive effect on this key influencer of math participation and achievement. "Improving Math Identity" is a Research-in-Service to Practice project funded by the Advancing Informal STEM Learning (AISL) Program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. The team will study the impact of ASM+ through a rigorous randomized controlled trial of 30 elementary-level after-school sites in South Carolina serving predominately low-income and minority students (15 treatment using ASM+; 15 control using Mixing in Math). Sites selected into the study must serve fourth and fifth graders and must operate five days a week. Through an implementation study, data will be collected in order to assess the program and understand the experiences of group leaders and students in the ASM+ program and at comparison sites. Data sources include surveys, interviews, observations, and administrative data collected from the treatment and control sites. The study will investigate how and to what extent ASM+ develops fourth and fifth grade students' math identity and increases math engagement and interest. It will explore whether increasing identity, engagement, and interest leads to greater skill development and academic achievement. This research is being conducted by IMPAQ International LLC, a social science and public policy research and evaluation firm in collaboration with Educational Equity at FHI 360, a global development and education organization. The research addresses the need to enhance students' math identity at an early age and, as a result, change students' educational and career aspirations. The ultimate goal is to broaden participation in STEM by underrepresented groups. Results will inform the development of interventions designed to motivate and retain students in STEM, particularly in informal settings. Knowledge gained from this research will be broadly disseminated to practitioners, researchers, program developers, and policy makers.
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TEAM MEMBERS:
Cheri FancsaliMerle FroschlBarbara Sprung
Research shows that participation and interest in science starts to drop as youth enter high school. This is also the point when science becomes more complex and there is increased need for content knowledge, mathematics capability, and computer or computational knowledge. Evidence suggests that youth who participate in original scientific research are more likely to enter and maintain a career in science as compared to students who do not have these experiences. We know young people get excited by space science. This project (STEM-ID) is informed by previous work in which high school students were introduced to scientific research and contributed to the search for pulsars. Students were able to develop the required science and math knowledge and computer skills that enabled them to successfully participate. STEM-ID builds on this previous work with two primary goals: the replication of the local program into a distributed program model and an investigation of the degree to which authentic research experiences build strong science identities and research self-efficacies. More specifically the project will support (a) significant geographic expansion to institutions situated in communities with diverse populations allowing substantial inclusion of under-served groups, (b) an online learning and discovery environment that will support the participation of youth throughout the country via online activities, and (c) opportunities for deeper participation in research and advancement within the research community. This project is funded by the Advancing Informal STEM Learning (AISL) program which seeks to advance new approaches to, and understanding of, the design and development of STEM learning in informal environments. STEM-ID will serve 2000 high school youth and 200 high school teachers in afterschool clubs with support from 30 undergraduate and graduate students and 10 college/university faculty. Exploratory educational research will determine the broad mechanisms by which online activities and in-person and online peer-mentor teacher-scientist interactions influence science identity, self-efficacy, motivation, and career intentions, as well as a focused understanding of the mechanisms that influence patterns of participation. Youth will be monitored longitudinally through the first two years of college to provide an understanding of the long-term effects of out-of-class science enrichment programs on STEM career decisions. These studies will build an understanding of the best practices for enhancing STEM persistence in college through engagement in authentic STEM programs before youth get to college. In addition to the benefits of the education research, this program may lead participants to discover dozens of new pulsars. These pulsars will be used for fundamental advances such as for testing of general relativity, constraining neutron star masses, or detecting gravitational waves. The resulting survey will also be sensitive to transient signals such as sporadic pulsars and extragalactic bursts. This project provides a potential model for youth from geographical disparate places to participate in authentic research experiences. For providers, it will offer a model for program delivery with lower costs. Findings will support greater understanding of the mechanisms for participation in STEM. This work is being led by West Virginia University and the National Radio Astronomy Observatory. Participating sites include California Institute of Technology, Cornell University, El Paso Community College, Howard University, Montana State University, Penn State University, Texas Tech University, University of Vermont, University of Washington, and Vanderbilt University.
There is a growing body of evidence that informal learning environments focused on science, technology, engineering, and math (STEM) disciplines cultivates an interest among young people in STEM careers and promotes understanding of STEM content knowledge and the scientific process. This project centers on the creation and validation of a theoretically grounded and empirically derived framework for professional growth and learning within the informal STEM learning (ISL) field ("Framework"). The Framework will be useful to ISL practitioners at any stage of their education or career by laying out the necessary skills, knowledge, and dispositions to guide their professional growth. While the immediate beneficiaries of the project will be ISL professionals themselves, the ultimate beneficiaries of the work will be the children, youth, teachers, and general public that engage with STEM experiences designed and implemented by a skilled and knowledgeable ISL professional workforce. The Association of Science-Technology Centers, Oregon State University's Center for Research on Lifelong STEM Learning, Pacific Science Center, University of Washington Museology Department and the Lifelong Learning Group of the Center of Science and Industry in Columbus, OH (COSI Columbus) will collaborate to develop the ISL professional framework. The Framework will be built from qualitative and quantitative empirical analyses of actual practices used by staff of science centers and ISL institutions, assessing perceived and actual needs at various career stages, as well as an analysis of the creation and use of similar learning frameworks in other professions. The project will be conducted in three phases: (1) Literature review, research synthesis, and "Developing a Curriculum" (DACUM) workshops to develop a preliminary framework; (2) Stakeholder review and feedback in order to improve the preliminary framework; and, (3) Creation of an online platform to share the final framework draft and conduct iterative testing for utility and ISL community acceptance. The project will address two current and pressing issues: (1) Ensuring that professionals working in science center-type settings have the necessary knowledge and skills to apply the substantial and growing evidence base in ISL, and (2) Understanding and supporting the needs of the full range of ISL professionals during their basic education and at particular points throughout their careers. Effective support for ISL professionals requires, at the most basic level, a fundamental understanding of the knowledge, skills, and dispositions needed by working professionals at critical points along their career pathway if they are to use evidence-based practice in their work. This project is being 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.
Libraries serve vital roles in communities not only for access to print media but also family programming and access to the internet. Because of their widespread local presence in communities and the diverse communities served, libraries are well-positioned to address inequalities in access to technology, family programming, and spaces for collaboration. Science centers, universities, and community centers represent resources that can partner with libraries to create science and technology-related content for delivery to diverse communities. Research has firmly established the link between parent engagement and a broad range of student academic outcomes, including higher student attendance, achievement and graduation rates. A growing body of research in out-of-school science learning is focusing on the rich and varied ways in which families learn science outside of school, including habits of mind, motivation, and identities as scientists. Pilot work showed that backpacks have the potential for youth and parents to take on new roles relative to STEM work, with parents or older siblings taking on roles of lab partners, translators, and even teachers. The Robotics and E-Textiles project will support increased capacity within libraries and community centers to hold robotics workshops for families in their own communities. Libraries and community centers will serve as vehicles through which families engage with robotics and e-textiles, resulting in wider access to Next Generation Science Standards' engineering practices to more people. This Innovations in Development 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. Librarians and community engagement leaders will participate in professional experiences to develop science and technology content and facilitation skills. University researchers in collaboration with project partners will use a design-based research methodology to iteratively design the professional development and backpack programs and to investigate learning processes and outcomes. The Cultural Learning Pathways theoretical model will guide the study of how engagement with robotics/e-textiles experiences can lead to changes in practice, identity, and deeper participation in communities of practice on the part of librarians, youth, and families. Although collaborations between public libraries and informal science providers are becoming increasingly common, this project will document the process of developing such collaborations and draw insights that may be applied to other contexts. By bringing together traditional and non-traditional community organizations to develop and facilitate STEM learning experiences, this project has the potential for resulting in a new model for a decentralized system of informal STEM education and broadening participation in STEM. Over the life of the project, the number of partner libraries will expand from one to four, and it is anticipated to reach more than 550 families. It is being conducted through a partnership between the University of Washington, the Pacific Science Center, the Seattle Public Libraries, and Red Eagle Soaring, a Native American community youth program.
Nationally, there is tremendous interest in enhancing participation in science, technology, engineering, and mathematics (STEM). Providing rich opportunities for engagement in science and engineering practices may be key to developing a much larger cadre of young people who grow up interested in and pursue future STEM education and career options. One particularly powerful way to engage children in such exploration and playful experimentation may be through learning experiences that call for tinkering with real objects and tools to make and remake things. Tinkering is an important target for research and educational practice for at least two reasons: (1) tinkering experiences are frequently social, involving children interacting with educators and family members who can support STEM-relevant tinkering in various ways and (2) tinkering is more open-ended than many other kinds of building experiences (e.g., puzzles, making a model airplane), because it is the participants' own unique questions and objectives that guide the activity. Thus, tinkering provides a highly accessible point of entry into early STEM learning for children and families who do not all share the same backgrounds, circumstances, interests, and expertise. This Research-in-Service to Practice project is funded by the Advancing Informal STEM Learning (AISL) program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. The project will take place in the Tinkering Lab exhibit at Chicago Children's Museum. The research will investigate how reflective interactions between parents and children (ages 6-8) during tinkering activities ultimately impact child engagement in STEM. Design-based research (DBR) is well-suited to the iterative and contextually-rich process of tinkering. Using a DBR approach, researchers and museum facilitators will be trained to prompt variations of simple reflection strategies at different time points between family members as a way to strengthen children's engagement with, and memory of these shared tinkering events. Through progressive refinement, each cycle of testing will lead to new hypotheses that can be tested in the subsequent round of observations. The operationalization of study constructs and their measurement will come organically from families' activities in the Tinkering Lab and will be developed in consultation with members of the advisory board. Data collection strategies will include observation and interviews; a series of coding schemes will be used to make sense of the data. The research will result in theoretical and practical understanding of ways to enhance STEM engagement and learning by young children and their families through tinkering. A diverse group of at least 350 children and their families will be involved. The project will provide much needed empirical results on how to promote STEM engagement and learning in informal science education settings. It will yield useful information and resources for informal science learning practitioners, parents, and other educators who look to advance STEM learning opportunities for children. This research is being conducted through a partnership between researchers at Loyola University of Chicago and Northwestern University and museum staff and educators at the Chicago Children's Museum.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This project will develop and research an integrated children's media and early childhood educator professional development strategy to prepare preschoolers with social-emotional skills that provide a foundation for later math learning success. The social-emotional skills include persistence, risk-taking, regulating anxieties, and collaborating to solve problems. Media components include Peg+Cat television episodes, videos, games and apps distributed through PBS broadcast and online. The integrated professional development model is designed to impact these educators' understanding of math and develop their skills for fostering in children a positive math mindset. Additional resources include a new Peg+Cat summer day camp at the Carnegie Science Center in Pittsburgh. The project partners include a media company, The Fred Rogers Company; researchers at the University of Pittsburgh and St. Vincent College; and the evaluator, Rockman et al. This project is unique in its focus on integrating social-emotional skills with early math learning and educator skill development. It will fill an important niche in the research literature and has the potential to impact media practice which is undergoing significant change as new digital tools and technologies become available for learning. Both standardized and researcher-developed measures will be used to assess learning outcomes, including early childhood educators' attitudes and quality of instruction, as well as children's interest and engagement in math. The research design includes iterative data collection to inform the development and refinement of the professional learning for teachers. The mixed methods approach will include classroom observations, interviews and focus groups with educators, and parent questionnaires. Key questions include: does exposure to Peg+Cat positively relate to children's use of social-emotional skills during math learning activities? Does educators' exposure to the professional development training improve their attitudes and abilities to infuse math instruction with social-emotional skills? Does having an educator who received Peg+Cat training impact children's engagement and interest in math?
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This research project leverages ongoing longitudinal research to investigate whether, and if so how, youth from ages 10 to 15 in a diverse, under-resourced urban community become interested and engaged in STEM. The project addresses a global issue; fewer youth choose to major in scientific fields or take science coursework at high school or university levels. These declining numbers result in fewer STEM professionals and fewer scientifically literate citizens who are able to function successfully in an increasingly scientific and technological society. These declines are observed for youth as a whole, but are most pronounced for girls and particular non-white ethnic minorities. Data collected from youth in this community of study, including non-white ethnic minorities, mirrors this decline. NSF funding will support a five-year systematic and systemic process in which project researchers work collaboratively with existing informal and formal educational partners (e.g., museums, libraries, afterschool providers, schools) to develop sets of customized, connected, and coordinated learning interventions, in and out of school, for youth with different backgrounds, needs, and interests, all with the goal of averting or dampening this decline of STEM interest and participation during early adolescence. In addition to new research and community STEM networks, this project will result in a Community Toolkit that includes research instruments and documentation of network-building strategies for use by other researchers and practitioners nationally and internationally. This mixed methods exploratory study has two distinct but interrelated populations - youth and educators from across informal and formal institutions. To develop a clearer understanding of the factors that influence youths' STEM interest development over time, particularly among three youth STEM Interest Profiles identified in a secondary analysis (1-Dislike Math, 2-Like all STEM, 3-Dislike all STEM), the design combines surveys with in-depth interviews and observations. To study educators and institutions, researchers will combine interviews, focus groups, and observations to better understand factors that influence community-wide, data-driven approaches to supporting youth interest development. Research will be conducted in three phases with the goal of community-level change in youth STEM interest and participation. In Phase 1 (Years 1 & 2) four educational partners will develop interventions for a 6th and 7th grade youth cohort that will be iteratively refined through a design-based approach. Educational partners and researchers will meet to review and discuss interest and participation data and use these data to select content, as well as plan activities and strategies within their programs (using a simplified form of conjecture mapping). By Phase 2 (Years 3 & 4) four additional partners will be included, more closely modeling the complex system of the community. With support from researchers support and existing partners, new educational partners will similarly review and discuss data, using these to select content, as well as plan activities consistent with program goals and strategies. Additional interventions will be implemented by the new partners and further assessed and refined with a new 6th and 7th grade cohort, along with the existing interventions of the first four partners. In Phase 3 (Year 5) data will be collected on pre-post community-level changes in STEM interest and participation and the perceived effectiveness of this approach for youth. These data will inform future studies.
Disparities in engineering participation and achievement by women and individuals from traditionally underserved racial and ethnic groups have been persistent. Approaches outside the context of university and school reform, including approaches to supporting interest development in early childhood, have not been fully considered by educators and policymakers. This AISL Pathways project will focus on engineering, which has emerged as a critical topic in the STEM education field and a prominent aspect of educational standards and policies. Building on a strong empirical and theoretical base, it will lay the foundation for future research efforts to advance the field's limited understanding of early childhood engineering-related interest development, especially through parent-child interactions; create research tools for studying engineering-related interest in young children; and identify effective strategies for supporting long-term engineering interest pathways. "Head Start on Engineering" 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. Through an asset-based approach and authentic engagement with families and community organizations, Head Start on Engineering will pilot research and program activities that are sensitive to the constraints of low-income families and build on the resources and funds of knowledge within these communities. It will test and refine an innovative, theoretical model of early childhood interest development. The overall design of the pilot study will be mixed-method and short-term longitudinal, with data collected before, during, and after program implementation from participating families. Quantitative measures will allow for consistent comparisons across groups and within families, while qualitative data will help explore complex factors and processes hypothesized in the theoretical framework and related to program implementation. This work will allow the team time to address unanswered questions and issues around how to feasibly operationalize key aspects of the revised theoretical model in preparation for more extensive, longitudinal and experimental investigations as part of the next phase of the project. Understanding and honoring parents' beliefs, knowledge, and experiences is central to this project. In developing and implementing both the programs and research activities, the team will adopt culturally responsive and asset-based perspectives. The Pathways project is a collaboration between the Institute for Learning Innovation (ILI), a nonprofit organization dedicated to the advancement of lifelong, free-choice learning for all communities through research, practice, and policy initiatives; Mt. Hood Community College Head Start program; the Oregon Museum of Science and Industry (OMSI), a nationally renowned science museum; and the Center for STEM Education at the University of Notre Dame. The project involves families with four-year-old children who attend the Head Start program. The collaboration between educators, community organizations, and researchers and the integrated approach to research and program development will ensure that study findings translate to practical and effective education strategies and that future research efforts are well-grounded in the realities of practitioners and learners.