The Museums of the Rockies will develop a 2450 sq. ft. exhibit titled Landforms/Lifeforms and complementary educational materials including teacher enhancement activities, outreach trunks, and other programming. The exhibit will serve as the pivotal experience for visitors as they engage the museum's theme One Place Through All Of Time and it serve to introduce all other permanent exhibit galleries. Using the important and spectacular geological and paleontological resources of the region and the museum's collections, the exhibit will bring to life the concept of the evolution and diversification of life in response to changing geological conditions from the Precambrian to the end of the Mesozoic. Visitors will experience the Northern Rocky Mountain Region and the life supported by that region over time. Critical thinking skills of visitors will be stimulated with the purpose of enhancing their overall science literacy. The exhibit is designed to promote adult-child interaction. Special attention is being given to attracting a rural audience. Complementary programming aimed at K-12 students and teachers will be developed. The content of these activities will address the goals set forth in Montana's systemic initiative and the Systemic Teacher Excellence Preparation program. The educational materials will also be shared with member museums in the Mid-Continent University Natural History Museum Consortium.
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TEAM MEMBERS:
Arthur WolfShelly WhitmanBeth MerrickBonnie Sachatello-SawyerSharon Horrigan
The Smithsonian Astrophysical Observatory will develop "Cosmic Horizons: Our Place in Space and Time." This will be a 5,000-square-foot traveling exhibition to help visitors explore the extraordinary recent breakthroughs and current mysteries in our scientific understanding of the structure and evolution of the universe. Cosmic Horizons will reach over 3 million people on its tour of nine to twelve science museums. A coordinated set of programmatic activities and resources for adult and family audiences, materials for teachers and students, and on-site workshops for host venues will be developed in partnership with Boston's Museum of Science to maximize the impact of this space-science education endeavor.
The Thames Science Center collaborative with the resources of the Smithsonian Astrophysical Observatory, Wesleyan University and the National Air and Space Museum will design and develop the project, "Shoot For the Moon." This science education project will capitalize on the attraction, familiarity and proximity of the moon using it as a basis to enrich and supplement the eight and ninth grade physical science curriculum. Ten classroom units, complimentary experiments and demonstrations will be developed. "Moonwatch" software and audio visual materials, including an instructional videotape and a multi.image presentation will accompany the units. Sixteen teachers and museum educators will participate in the training, evaluation and testing as the project is integratedinto the curriculum of twelve schools and four museums. The project is designed to be replicated in schools and science centers in different geographical locations nationally. The site for development and testing will be the Thames Science Center, a regional science museum in eastern Connecticut. The science center offers formal science enrichment programs and tours for students and teacher professional development programs throughout the region.
These 16 articles offer a gentle introduction to nano science and technology, and can be used as marketing pieces for discussing nano with the press during NanoDays or other nano event promotion.
This guide to partnering with researchers and scientists is designed for the U.S. science museum community, and was produced by the Strategic Projects Group at the Museum of Science, Boston, for the NISE Network. Note: Beta Site, under development
The Lunar and Planetary Institute (LPI) will use $286,915, or 67% of a $430,373 total project budget, over three years to develop "SkyTellers," a space science and astronomy resource for small informal (and formal) learning settings such as planetariums, museum classes, school and community libraries, youth groups and home school settings. LPI educators and science staff, in consultation with a Native American master story teller, evaluation consultants, and an advisory board, will develop 12 SkyTeller topics. Each SkyTeller topic pairs a myth or legend (primarily but not exclusively Native American) with a relevant science story (Sky Story/Science Story) that explains our current understanding of the phenomenon that the ancient tale sought to explain. Ancillary materials (illustrations produced by LPI graphics staff, images from the latest in space science missions and research) will complete the 12 story sets to be used by informal and formal science educators at a variety of venues. Extensive formative and summative evaluation (alpha and beta testing) at multiple test venues is designed to insure high quality informal science education products.
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TEAM MEMBERS:
Stephen MackwellStephanie ShippJoseph Hahn
resourceresearchProfessional Development, Conferences, and Networks
This research agenda is a living document, constructed in response to on-going field-wide conversations following the 21st Century Natural History Settings Conference at the Smithsonian Museum of Natural History. At the conference, natural history professionals explored new directions for museums and other natural history institutions, including zoos, aquaria, botanical gardens, and nature centers. The research agenda is intended to be edited, discussed, and fleshed out by the field as we work together and make progress. New research questions will emerge spurred by surprising findings
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 project is a time sensitive educational response to the 7.8 magnitude earthquake that struck Nepal on April 25, 2015 and was followed by major aftershocks. This project builds on the intense worldwide interest in that disaster by developing and distributing media resources for the public and educators explaining the scientific research into tectonic and fluvial processes of this highly vulnerable region encompassing the Himalayas of Nepal, the Ganges-Brahmaputra River Delta of Bangladesh and India, and the mountains of northeastern India. Project deliverables include PBS NewsHour broadcasts and online stories, short videos for classroom use, 3D/2D videos for public screenings in museums, Earth Magazine blogs and articles, and DVDs. Making new research understandable and accessible to the public is an important activity of the U.S. research enterprise. NSF is making a substantial investment in earth sciences research to increase knowledge of the conditions and processes that periodically cause earthquakes, landslides, and flooding. This education project leverages those investments and the public interest in the recent Nepal earthquake with a major public engagement opportunity that has the potential for reaching millions of students, teachers, and the public both in the U.S. and in other vulnerable regions.
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.
A recent report by the Association for Computing Machinery estimates that by decade's end, half of all STEM jobs in the United States will be in computing. Yet, the participation of women and underrepresented groups in post-secondary computer science programs remains discouragingly and persistently low. One of the most important findings from research in computer science education is the degree to which informal experiences with computers (at many ages and in many settings) shape young people's trajectories through high school and into undergraduate degree programs. Just as early language and mathematics literacy begins at home and is reinforced throughout childhood through a variety of experiences both in school and out, for reasons of diversity and competency, formal experiences with computational literacy alone are insufficient for developing the next generation of scientists, engineers, and citizens. Thus, this CAREER program of research seeks to contribute to a conceptual and design framework to rethink computational literacy in informal environments in an effort to engage a broad and diverse audience. It builds on the concept of cultural forms to understand existing computational literacy practices across a variety of learning settings and to contribute innovative technology designs. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds new approaches to and evidence-based understanding of the design and development of STEM learning in these settings. This CAREER program of research seeks to understand the role of cultural forms in informal computational learning experiences and to develop a theoretically grounded approach for designing such experiences for youth. This work starts from the premise that new forms of computational literacy will be born from existing cultural forms of literacy and numeracy (i.e., for mathematical literacy there are forms like counting songs -- "10 little ducks went out to play"). Many of these forms play out in homes between parents and children, in schools between teachers and students, and in all sorts of other place between friends and siblings. This program of study is a three-phased design and development effort focused on key research questions that include understanding (1) how cultural forms can help shape audience experiences in informal learning environments; (2) how different cultural forms interact with youth's identity-related needs and motivations; and (3) how new types of computational literacy experiences based on these forms can be created. Each phase includes inductive research that attempts to understand computational literacy as it exists in the world and a design phase guided by concrete learning objectives that address specific aspects of computational literacy. Data collection strategies will include naturalist observation, semi-structured, and in-depth interviews, and learning assessments; outcome measures will center on voluntary engagement, motivation, and persistence around the learning experiences. The contexts for research and design will be museums, homes, and afterschool programs. This research builds on a decade of experience by the PI in designing and studying computational literacy experiences across a range of learning settings including museums, homes, out-of-school programs, and classrooms. Engaging a broad and diverse audience in the future of STEM computing fields is an urgent priority of the US education system, both in schools and beyond. This project would complement substantial existing efforts to promote in-school computational literacy and, if successful, help bring about a more representative, computationally empowered citizenry. The integrated education plan supports the training and mentoring of graduate and undergraduate students in emerging research methods at the intersection of the learning sciences, computer science, and human-computer interaction. This work will also develop publically available learning experiences potentially impacting thousands of youth. These experiences will be available in museums, on the Web, and through App stores.