NASA@ My Library is made possible through the support of the National Aeronautics and Space Administration (NASA) Science Mission Directorate as part of its Science Activation program. The project is led by the National Center for Interactive Learning (NCIL) at the Space Science Institute (SSI) in partnership with the American Library Association (ALA) Public Programs Office, Lunar and Planetary Institute (LPI), and Education Development Center (EDC). From 2016-2020, 78 public libraries (75 partner libraries and 3 pilot libraries), 18 State Library Agencies, 6 Portal to the Public Network sites, and 30 NASA-funded scientists participated in the project. More than 225,000 library patrons were reached through their efforts.
In 2021-2022, public libraries, universities, and state library agencies will participate in the project to increase and enhance STEAM learning opportunities in their communities, with an emphasis on reaching audiences underrepresented in STEM education and professions.
The University of Washington, the Exploratorium, the Education Development Center, Inverness Research, and the University of Colorado - Boulder have come together to form a Research+Practice (R+P) Collaboratory. The Collaboratory seeks to address and reframe the gap between research and practice in K-12 STEM education. This gap persists despite decades of work by many leading organizations, associations, and individuals. Attempts to close the gap have generally focused on creating resources and mechanisms that first explain or illustrate "what research says" and then invite educators to access and integrate findings into practice. Recently, however, attention has turned to the ways in which the medical sciences are addressing the gap between research and clinical practice through the developing field of "translational research." In medicine, the strategy has been to shift the focus from adoption to adaptation of research into practice. Implicit in the notion of adaptation is a bi-directional process of cultural exchange in which both researchers and practitioners come to understand how the knowledge products of each field can strengthen the professional activities in the other. Along these lines, the R+P Collaboratory is working with leading professional associations and STEM improvement efforts to leverage their existing knowledge and experience and to build sustainable strategies for closing the gap. Activities include:
Collecting, creating and synthesizing translational research resources to expand STEM educators' and educational leaders' access and awareness to current relevant research.
Supporting multiple opportunities for cross-sector (research and practice; education and social sciences; formal and informal) meetings to foster critical engagement and cultural exchange.
Testing, documenting and innovating new resources and mechanisms at Adaptation Sites and disseminating both products and results through the R+P Resource Center.
The R+P Collaboratory is developing an online 'Go-To' Resource Center website that houses the resources collected, created, and curated by the Collaboratory. The Resource Center also has significant 'Take-Out' features, with all materials meta-tagged so that they can be automatically uploaded, reformatted, and integrated into the existing communication and professional development mechanisms (e.g., newsletters, digests, conferences, and websites) of a dozen leading professional associations within a Professional Association Partner Network.
In light of new and emerging standards in the STEM disciplines, the Collaboratory is focusing its work on four salient and timely bodies of research: (a) STEM Practices, (b) Formative Assessment, (c) Cyberlearning, and (d) Learning as a Cross-Setting Phenomenon. Special emphasis is being placed on research and practice that focuses on the learning of children and youth from communities historically underrepresented in STEM fields.
The work of the R+P Collaboratory includes research and evaluation of its own efforts through studies aimed at answering the following questions:
How are Collaboratory resources and engagement activities accessed, experienced and leveraged by participants?
What resources, mechanisms and learning contexts support cultural exchange among STEM education researchers and practitioners?
What new kinds of practices result when research-based evidence is adapted into evidence-based practices, and how does it change learning opportunities for K-12 aged children?
How can effective strategies, mechanisms and resources of the Collaboratory be scaled and adapted to new contexts?
The Center for Integrated Quantum Materials pursues research and education in quantum science and technology. With our research and industry partners, the Museum of Science, Boston collaborates to produce public engagement resources, museum programs, special events and media. We also provide professional development in professional science communication for the Center's students, post-docs, and interns; and coaching in public engagement. The Museum also sponsors The Quantum Matters(TM) Science Communication Competition (www.mos.org/quantum-matters-competition) and NanoDays with a Quantum Leap. In association with CIQM and IBM Q, the Museum hosted the first U.S. museum exhibit on quantum computing.
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TEAM MEMBERS:
Robert WesterveltCarol Lynn AlpertRay AshooriTina Brower-Thomas
resourceprojectProfessional Development, Conferences, and Networks
This project supports the Broader Impacts and Outreach Network for Institutional Collaboration (BIONIC), a national Research Coordination Network of Broader Impacts to support professionals who assist researchers to design, implement, and evaluate the Broader Impacts activities for NSF proposals and awards. All NSF proposals are evaluated not only on the Intellectual Merit of the proposed research, but also on the Broader Impacts of the proposed work, such as societal relevance, educational outreach, and community engagement. Many institutions have begun employing Broader Impacts support professionals, but in most cases, these individuals have not worked as a group to identify and share best practices. As a consequence, there has been much duplication of effort. Through coordination, BIONIC is expected to improve efficiency, reduce redundancy, and have significant impact in several areas: 1) Researchers will benefit from an increased understanding of the Broader Impacts merit review criterion and increased access to collaborators who can help them design, implement, and evaluate their Broader Impacts activities; 2) Institutions and research centers will increase their capacity to support Broader Impacts via mentoring for Broader Impacts professionals and consulting on how to build Broader Impacts support infrastructure, with attention to inclusion of non-research-intensive universities, Historically Black Colleges and Universities, and Hispanic- and Minority-Serving Institutions that may not have the resources to support an institutional Broader Impacts office; and 3) NSF, itself, will benefit from a systematic and consistent approach to Broader Impacts that will lead to better fulfillment of the Broader Impacts criterion by researchers, better evaluation of Broader Impacts activities by reviewers and program officers, and a system for evaluating the effectiveness of Broader Impacts activities in the aggregate, as mandated by Congress and the National Science Board. Through its many planned activities, BIONIC will ultimately help advance the societal aims that the Broader Impacts merit review criterion was meant to achieve.
The main goals of the project will be accomplished through the four specific objectives: 1) Identify and curate promising models, practices, and evaluation methods for the Broader Impacts community; 2) Expand engagement in, and support the development of, high-quality Broader Impacts activities by educating current and future faculty and researchers on effective practices; 3) Develop the human resources necessary for sustained growth and increased diversity of the Broader Impacts community; and 4) Promote cross-institutional collaboration and dissemination for Broader Impacts programs, practices, models, materials, and resources. BIONIC will facilitate collaborative Broader Impacts work across institutions, help leverage previously developed resources, support professional development, and train new colleagues to enter into the Broader Impacts field. This project will improve the quality and sustainability of Broader Impacts investments, as researchers continue to create unique and effective activities that are curated and broadly disseminated. BIONIC will create a network designed to assist NSF-funded researchers at their institutions in achieving the goals of the Broader Impacts Review Criterion. In so doing, BIONIC will promote Broader Impacts activities locally, nationally, and internationally and help to advance the Broader Impacts field.
This award is co-funded by the Divisions of Molecular and Cellular Biosciences and Emerging Frontiers in the Directorate for Biological Sciences and by the Division of Chemistry in the Directorate for Mathematics and Physical Sciences.
Brokering Youth Pathways was created to share tools and techniques around the youth development practice of “brokering” or connecting youth to future learning opportunities and resources.
This toolkit shares ways in which various out-of-school educators and professionals have approached the challenge of brokering. It provides a framework, practice briefs and reports that focus on a particular issue or challenge and provide concrete examples, as well as illustrate how project partners partners worked through designing new brokering routines in partnership with a research team.
This is an "Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science" (INCLUDES) Design and Development Launch Pilot that will implement a plan to assess the feasibility of a strategy designed to ensure high levels of improvement in K-12 grade students' mathematics achievement. The plan will focus on an often-neglected group of students--those who have been performing at the lowest quartile on state tests of mathematics, including African American, Hispanic, Native American, students with disabilities, and those segregated in urban and rural communities across the country. The project will draw on lessons learned from the nation's Civil Rights Movement and a community-organizing strategy learned during the struggle to achieve voting rights for African Americans. The Algebra Project (AP) is a national, nonprofit organization that uses mathematics as an organizing tool to ensure quality public school education for every child in America; it believes that every child has a right to a quality education to succeed in this technology-based society. AP's unique approach to school reform intentionally develops sustainable, student-centered models by building coalitions of stakeholders within the local communities, particularly the historically underserved populations. The AP works to change the deeply rooted social attitudes that encourage the disenfranchisement of a third of the nation's population. It delivers a multi-pronged approach to build demand for and support of quality public schools, including research and development, school development, and community development education reform efforts through K-12 initiatives.
The Algebra Project and the Young People's Project (YPP) will join efforts to bring together over 70 individuals and organizations, including 17 universities of which 8 are Historical Black Colleges and Universities, school districts, mathematics educators, and researchers to examine their experiences, and use collective learning to refine and hone strategies that they have piloted and tested to promote mathematics inclusion. The role of YPP in the proposed project will be to organize and facilitate the youth component, such that project activities reflect the language and culture of students, continuously leveraging and building upon their voice, creative input, and ongoing feedback. YPP will conduct workshops for students organized around math-based games that provide collective experiences in which student learning requires individual reflection, small group work, teamwork and discussion. The proposed work will comprise the design of effective learning opportunities; building and supporting a cadre of teachers who can effectively work with students learning under the proposed approach; using technologies to enhance teaching and learning; and utilizing evaluation and research to drive continuous improvement. Because bringing together an effective network with diverse expertise to collaborate towards national impact requires expert facilitation processes, the project will establish working groups around three major principles: (1) Organizing from the bottom up through students, their teachers, and others in local communities committed to their education, allied with individuals and organizations who have expertise and dedication for achieving the stated goals, can produce significant progress and the conditions for collective impact; (2) Effective learning materials and formal and informal learning opportunities in mathematics can be designed and implemented for students performing in the bottom academic quartile; and (3) Teachers and other educators can become more proficient and more confident in their capacity to produce students who are successful in learning the level of mathematics required for full participation in STEM. The working groups will also be tasked to consider two cross-cutting topics: (a) the communication structures and technologies needed to operate and expand the present network, and to create the "backbone" and other structures needed to operate and expand the network; and (b) the measurements and metrics for major needs, such as assessing students' mathematics literacy, socio-emotional development in specified areas; teachers' competencies; as well as the work of the network. The final product of this plan will be a "Theory of Collective Action and Strategic Plan". The plan will contain recommendations for collective actions needed in order for the current network to coordinate, add appropriate partners, develop the needed backbone structures, and become an NSF Alliance for national impact on the broadening participation challenge of improving the mathematics achievement. An external evaluator will conduct both formative and summative aspects of this process.
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TEAM MEMBERS:
Robert MosesNell CobbGregory BudzbanMaisha MosesWilliam Crombie
Video has become a key tool for scientific communication because it increases the outreach and impact of projects, furthers scientific research within and across fields of study, and offers an accessible medium to engage the public in the understanding of science. This project supports the expansion of an interactive, online STEM Videohall where hundreds of NSF-funded researchers share their work through brief video narratives and interactive discussion. While the Videohall is accessible year-round, periodic annual Showcase events are used to drive visitors to the site where they can engage with one another, the project investigators and trained facilitators. The Videohall is a multiplier of NSF's investments in individual projects because it allows STEM education researchers to become aware of, and learn from, related work that is funded across NSF programs and directorates, and other federal agencies. In 3-minute video narratives, investigators share ideas, resources, data, evidence of impact, strategies and challenges. The Videohall platform supports open access and is designed to foster communication in ways that scale beyond traditional formats such as academic conferences. Moreover, because the online STEM Videohall is open to the public, it allows STEM investigators to share their work with multiple stakeholder communities including K-12 educators and school leaders, informal educators and community organizations, the STEM industry, education policy makers and families. Finally, because each video narrative is accompanied by a facilitated online discussion thread, investigators have a unique and valuable mechanism for receiving feedback from these various stakeholder communities. The STEM Videohall project is funded by the Discovery Research K-12 program (DRK-12), which seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools. Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects.
This project brings together seven NSF-funded resource centers who work with their respective communities to encourage Principal Investigators to share video narratives of their work through annual NSF STEM Showcase events. Each annual Showcase event presents videos created by 150-230 projects; many of the projects are affiliated with one of the seven resource centers, but others are from projects across NSF directorates and beyond. During a one-week period, Principal Investigators, their project staff, as well as the public at large, are invited to engage in interactive discourse, providing queries, comments, and feedback. Participants also vote for favorite presentations through "Presenters' Choice," "Public Choice," and "Facilitators' Choice," processes. This participant voting system serves to increase engagement and enhances outreach of the event through social media. After the one-week Showcase event concludes, all of the videos along with the related discourse remain available to the public online, who continue to access the Showcase throughout the year. Based on prior pilot work, it is estimated that over the course of a year, over 30,000 visitors, from over 150 countries, will engage with each annual Showcase. Videos from annual showcase events will be shared, reused, and repurposed to create new products with new constituencies. The project includes technical development efforts to iteratively improve its interactive platform, outreach efforts before each annual Showcase event, facilitation of the week-long event, and intensive dissemination efforts. A research component examines the extent of participation on various constituencies, the benefit of participation to projects, and the success of the events in terms of dissemination nationally and internationally.
Increasingly, the prosperity, innovation and security of individuals and communities depend on a big data literate society. Yet conspicuously absent from the big data revolution is the field of teaching and learning. The revolution in big data must match a complementary revolution in a new kind of literacy, through a significant infusion of STEM education with the kinds of skills that the revolution in 21st century data-driven science demands. This project represents a concerted effort to determine what it means to be a big data literate citizen, information worker, researcher, or policymaker; to identify the quality of learning resources and programs to improve big data literacy; and to chart a path forward that will bridge big data practice with big data learning, education and career readiness.
Through a process of inquiry research and capacity-building, New York Hall of Science will bring together experts from member institutions of the Northeast Big Data Innovation Hub to galvanize big data communities of practice around education, identify and articulate the nature and quality of extant big data education resources and draft a set of big data literacy principles. The results of this planning process will be a planning document for a Big Data Literacy Spoke that will form an initiative to develop frameworks, strategies and scope and sequence to advance lifelong big data literacy for grades P-20 and across learning settings; and devise, implement, and evaluate programs, curricula and interventions to improve big data literacy for all. The planning document will articulate the findings of the inquiry research and evaluation to provide a practical tool to inform and cultivate other initiatives in data literacy both within the Northeast Big Data Innovation Hub and beyond.
The National Science Foundation (NSF) Climate Change Education Partnership Alliance (CCEPA) is a consortium made up of the six Phase II Climate Change Education Partnership (CCEP-II) program awardees funded in FY 2012. Collectively, the CCEPA is establishing a coordinated network devoted to increasing the adoption of effective, high quality educational programs and resources related to the science of climate change and its potential impacts. The establishment of a CCEPA Coordination Office addresses the need for a coordinating body that leverages and builds upon the CCEPA projects' individual initiatives. The CCEPA Coordination Office facilitates interactions to leverage a successful network of CCEP-II projects and individuals engaged in increasing climate science literacy. The efforts of the Coordination Office advance knowledge and understanding of how to effectively network related, but different, projects into a cohesive enterprise. The goal is to coordinate a functional network, where the whole is greater than the sum of the parts.
The CCEPA Coordination Office at the University of Rhode Island is helping to move the CCEPA network forward on a number of key initiatives that strengthen it, reduce duplication, and enhance its overall impact. An important role of the Coordination Office is the facilitation of the transfer of best practices between projects. An effective network forges collaborations and establishes communities of practice through network working groups, building intellectual capital network-wide. The CCEPA Coordination Office has a key role in assisting the CCEPA project PIs and staff to disseminate the results of their work. Partnerships with other relevant societies and organizations assist the Coordination Office in identifying opportunities and synergies for sharing, disseminating, and leveraging network products as well as best practices that emerge as Earth system science education models and tools are evaluated. This endeavor broadens the collective impact of the individual projects across the country.
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TEAM MEMBERS:
Gail Scowcroft
resourceprojectProfessional Development, Conferences, and Networks
The primary goal of the STEM Evaluation Community project is to increase the capacity of evaluators to produce high quality, conceptually sound, methodologically appropriate evaluations of NSF programs and projects. The project will contribute to the exploration of innovative new approaches for determining the impact of NSF programs and projects, promote the usefulness of NSF program and project evaluations, and help to expand the theoretical foundations for evaluating STEM education, workforce, and outreach initiatives. The STEM Evaluation Community will serve as a focal point for evaluation capacity building with and across the NSF programs that fund STEM education, workforce and outreach activities, bringing people and ideas together, facilitating dialogue, sharing resources, offering opportunities for dissemination and more. The resulting connected system of evaluators will promote social innovation through a lively, dynamic evaluation professional community in which NSF program and project evaluators will share their work, learn from each other, and, ultimately, leverage and enhance the existing evaluation capacity building infrastructure that has been developed for specific NSF programs and audiences, thus charting a course to build further evaluation capacity across NSF.
The University of Wisconsin-Madison, Iowa State University, University of Pittsburgh, University of Texas at El Paso, Michigan State University, University of Georgia and University of California, Los Angeles will lead this Design and Development Launch Pilot to build the foundation for a national alliance that will prepare a new national STEM faculty, spanning all of post-secondary education, able to use evidence-based teaching, mentoring and advising practices that yield greater learning, persistence and completion of women and historically underrepresented minorities (URM) undergraduates in STEM. This project was created by this group of institutions, who are members of the Center for the Integration of Research, Teaching and Learning (CIRTL), in response to the Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science (NSF INCLUDES) program solicitation (NSF 16-544). The INCLUDES program is a comprehensive national initiative designed to enhance U.S. leadership in science, technology, engineering and mathematics (STEM) discoveries and innovations focused on NSF's commitment to diversity, inclusion, and broadening participation in these fields. The INCLUDES Design and Development Launch Pilots represent bold, innovative ways for solving a broadening participation challenge in STEM.
The full participation of all of America's STEM talent is critical to the advancement of science and engineering for national security, health and prosperity. Our nation is advancing knowledge and practices to address a STEM achievement and the graduation gap between undergraduate STEM students who are women and men, and between those who are URMs and non-URMs. At the same time U.S. universities and colleges struggle to recruit, retain and promote a diverse STEM graduate student body, and a diverse STEM faculty, who serve as role models and academic leaders for URM and female students to learn from, to work with and to emulate. This project, the CIRTL INCLUDES - Toward an Alliance to Prepare a National Faculty for Broadening Success of Underrepresented 2-Year and 4-Year STEM Students, has the potential to advance a national network of organizations to improve the success of future STEM faculty who will educate a diverse undergraduate body and contribute to the learning, retention and graduation of women and URMs in STEM fields.
The collaborating CIRTL universities will work closely with multiple organizations to address key goals, including Achieving the Dream, Advanced Technological Education Central, the American Association for the Advancement of Science, the American Mathematical Society of Two-Year Colleges, the American Physical Society, the American Society for Engineering Education, the Association of American Universities, the Association of Public and Land-Grant Universities, the Council of Graduate Schools, the Council for the Study of Community Colleges, Excelencia in Education, the Infrastructure for Broadening Participation in STEM, the Louis Stokes Midwest Center for Excellence, the Math Alliance, the National Institute for Staff and Organizational Development, the National Research Mentoring Network, the Partnership for Undergraduate Life Science Education, the Southern Regional Education Board, the Summer Institutes on Scientific Teaching, and the Women in Engineering Programs and Advocates Network. Together, this extensive collaborative network will three goals: (1) To deepen the preparation of future STEM faculty in teaching, mentoring and advising practices that promote the success of undergraduates who are women and URMs; (2) To expand and strengthen faculty preparation specifically for 2-year colleges; and (3) To target the preparation of future STEM faculty who are members of underrepresented groups for effective teaching and mentoring, contributing to their early-career success. The seven universities who are partnering to lead this project will work to: (1) Form active partnerships and national coalitions for each of the three goals; (2) Employ a collective impact framework for each goal team and the entire alliance, ensuring common agendas, shared metrics, mutually reinforcing activities and an integrated process using data improvement cycles; and (3) Achieve pilot outcomes that position the alliance for future work.
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TEAM MEMBERS:
Robert MathieuRenetta TullKatherine BarnicleCraig OgilvieLeslie GonzalesErin SandersJudy MiltonMary Besterfield-SacreBenjamin FloresOcegueda Isela
Mathematics is the foundation of many STEM fields and success in mathematics is a catalyst for success in other scientific disciplines. Increasing the participation of women and other under-represented groups in the mathematics profession builds human capital that produces a diverse pool of problem solvers in business and industry, research mathematicians, faculty at all levels, and role models for the next generation. Existing support and enrichment programs have targeted women in mathematics at different stages in their undergraduate and graduate education, with different strategies to building community, creating a sense of belonging, and promoting a growth mind set. These strategies challenge some of the most common obstacles to success, including isolation, stereotype threat, not committing to mathematics early enough, and imposter syndrome. Acknowledging the diversity among women in terms of socio-economic background and educational background, this project proposes to examine the effectiveness of these programs through the lens of two primary questions: (1) Which elements of these programs are most critical in the success of women, as a function of their position along these distinct diversity axes?, and (2) which features of these programs are most effective as a function of the stage of the participant's career? These questions are guided by the rationale that a better understanding of, and improved pathways by, which programs recruit and retain undergraduate and graduate women in mathematics has the strong potential to increase the representation of women among mathematics PhDs nationwide.
This project seeks to increase and diversify the number of professional mathematicians in the United States by identifying and proliferating best practices and known mechanisms for increasing the success of women in mathematics graduate programs, particularly women from under-represented groups. The PIs on this proposal, all of whom are leaders of initiatives that have been active for nearly two decades, will work with experts in management, data collection and reporting, and communications to address the following three challenges: (1) develop a common system of measuring the effectiveness of each element in these initiatives; (2) develop a process for effective, collective decision making; and (3) create connections between existing activities and resources. This project is both exploratory research and effectiveness research. The project team first will explore the contextual factors that serve to support or inhibit female pursuit of mathematics doctorates by interviewing a variety of women who were undergraduate mathematics majors in the past, as well as current professional mathematicians. They then will use this information to better understand the most effective features of various current and past initiatives that are trying to increase the participation of women in advanced mathematics. A key stakeholder meeting will develop a process for effective, collective decision-making, to utilize what the project team learns from the interviews. The leadership team will develop a website with discussion board and social media components to highlight best practices and facilitate a virtual community for women interested in mathematics. Finally, a distillation of program elements and their targeted effectiveness will inform the selection of interconnected activities to test on a scalable model. These prototypes will be implemented at several sites chosen to represent a diversity of constituencies and local support infrastructure.
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TEAM MEMBERS:
Judy WalkerAmi RadunskayaRuth HaasDeanna Haunsperger