Adding Families to the Equation in Appalachia is a multi-state collaborative effort to improve parental involvement in science, mathematics, and technology education in a region of Central Appalachia noted for its persistent poverty and isolation from opportunities. During the planning grant period, project staff and consultants will use key stakeholder groups to generate and test preliminary project ideas and will enhance and consolidate relationships among collaborative partners in 66 counties in six state of Central Appalachia. The planning is essential to build collaboration across the six states and to develop a strategy that will be successful in a region with low educational attainment and limited science and technology resources.
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TEAM MEMBERS:
Wimberly RoysterDonna HallJoanne Lang
The California State University, Los Angeles (CSLA) ACCESS Center [consortium] requests $216,949 to pilot a collaborative with the Los Angeles County Department of Community and Senior Services Community Centers and several community-based organizations to provide informal science experiences to underserved 11-14 years old youth and their families. The pilot will engage families in hands-on science activities, participate in community-based science clubs, and provide opportunities for leadership roles by enhancing their interest and knowledge in science, mathematics and technology. California State University Los Angeles (CSLA) School of Natural and Social Sciences, Charter School of Education, School of Health and Human Services' Social Work Department, and ACCESS Center's partners for this pilot project include he following organizations: Girls, Incorporated, of Los Angeles (Girls, Inc) Con Los Padres Grandma's House Los Angeles Unified Districts Division of Adult and Career Education The NASA Jet Propulsion Laboratory (JPL) The California Science Center
"The Connecticut Museum Collaborative for Science Education" is teacher enhancement program that will serve approximately 5,000 middle school teachers (and their students) from throughout Connecticut over a three-year program period. The proposed program has been developed cooperatively by four of Connecticut's Science Museums and Centers (The Discovery Museum, The Maritime Center at Norwalk, Mystic Marinelife Aquarium, and Talcott Mountain Science Center), in consultation with the school districts they serve and the Connecticut Academy for Education in Mathematics, Science, and Technology, the State's leadership organization solely devoted to enhancing education in mathematics, science, and technology. The Collaborative seeks to enliven and enhance the teaching of science, mathematics, and technology by drawing upon the resources of Connecticut's science-rich institutions and related businesses and industry. The proposed project will provide direct services to a core group of 72 middle school teachers and their students in eight urban and suburban school districts at the four participating museums and in their classrooms, as well as teacher training, curriculum development, and networking activities. Larger numbers of teachers and their students will be served through a planned series of interactive video teleconferences. A theme-based approach will be followed in which the unifying theme of "Earth Resource Monitoring" will serve to connect the activities at the four cooperating museums. The central concept of the project is collaboration among museums throughout the state to provide a bridge between science-rich institutions and the schools for teacher enhancement, curriculum improvement, and student enrichment. Special program components involve the participation of business and industry through "Video Field Trips", and parents through a "Family Science" activity. The involvement of the Connecticut Academy for Education in Mathematics, Science and Technolo gy as a member of the "Connecticut Collaborative" provides a direct link for integration of project activities into Connecticut's NSF-funded Statewide Systemic Initiative.
This project is a collaboration between the Miami Museum of Science and the Big Brothers and Big Sisters of Greater Miami (BBBS) to empower single-parent families to become actively engaged in the science, mathematics, and technology education (SMT) of their children. It will involve, over the course of the project, parents, mentors, and community elements to create and expand a resource network and support primarily father-absent homes. The design of the project is focused on providing resources and advocacy critical to the success of young children in SMT education. It is a project designed to get parents actively involved with their children's science, mathematics, and technology education. The program will serve Dade County, Florida families. Museum staff and volunteers of BBBS will work closely in the development of mentor materials to be nationally distributed. The strategies that are used and refined will be packaged in a Tripod Toolkit and Mentor Handbook that can be used by other community groups to aid and assist parents in becoming more active in the science, mathematics, and technology education of their children. In addition to the toolkit materials, a set of Science/math Matters activities will be included designed to promoted science learning in the home with parents and their children. These materials will be produced in both English and Spanish to meet the needs of a diverse and multicultural American society.
The Franklin Institute proposes to establish the Science Learning Network (SLN), a unique online collaborative of science museums, industry and schools to support the teaching and learning of science, mathematics and technology (SMT) in grades K-8. The SLN will integrate the educational resources offered by science/technology centers with the power of telecomputing networking to provide powerful new support for teacher development and science learning. By December 1997 the SLN will develop and evaluate the following: UniVERSE - an online SMT database and software package which will provide interactive capabilities to actively and intelligently assist K-8 classroom teachers in their Internet explorations, much like an electronic "librarian." Online Museum Collaborative - a national consortium of science museums (The Franklin Institute, the Exploratorium, Oregon Museum of Science and Industry, Museum of Science - Boston, and Science Museum of Minnesota) that will pool their resources and expertise to create online assets and provide ongoing professional development on telecomputing networking for precollege SMT teachers. Online Demonstration Schools - a network of K-8 schools, working in collaboration with consortium museums and Unisys Corporation volunteers as demonstration sites for online teaching and learning in SMT. Over the course of three years, the SLN will provide direct support to 180 teachers and 3,000 K-8 students in the online demonstration schools. Through existing teacher networks, each museum will offer professional development for an additional 200 teachers each year. The Urban Systemic Initiatives in Philadelphia and Miami offer the potential for broader, systemic impact in those cities. By the end of the grant period, the SLN will provide field- tested models of a new kind of online SMT community through the collaboration of science museums with industry and schools. The sustainable impact of the SLN will be assured by UniVERSE's status as a publicly accessible database and software package and the development of the national consortium of online museums, whose network resources will be made available on an ongoing basis to educators. The three-year formative development of the online demonstration schools will contribute vital data to precollegiate school reform in SMT, showing how schools build capacity to become members of the online community and demonstrating how teaching and learning are enhanced by online resources. Unisys Corporation has pledged its support to this project and will provide matching funds for up to 40% of the total NSF award.
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TEAM MEMBERS:
Stephen BaumannWayne RansomPaul Helfrich
This proposal calls for development, over five years, of a national, interactive, telecommunications-supported Network of 85 or more affiliated neighborhood technology learning centers in inner cities and other impoverished areas, for the purpose of attracting, and then nurturing underserved peoples' active involvement with math, science, and technology. Network affiliates will provide informal opportunities for disadvantaged minority young people and their families and friends to get access to, and learn to use, the most powerful tool for personal empowerment yet known, to engage in explorations designed to increase awareness of their ability to do math and science and of the potential for careers in these areas, and, through telecommunications, to involve themselves with distant peer groups in collaborative investigations. Such opportunities present attractive and cost-effective alternatives to the dead ends that street life, drugs, incarceration, and/or welfare offer. Success in achieving these goals depends, however, on the availability of continuing programmatic and staff development assistance, and on the ability of Network members to engage, not as disparate entities, but as a mutually supportive community, in this momentous task. Proposed Network services include (in addition to telecommunications linkages) the identification, development, and dissemination of technology-mediated math and science activities appropriate to community education, consultative planning and technical assistance, staff development workshops, the development of a resource database, and an annual all-affiliates meeting -- all these to be accompanied by systematized self-assessment procedures. Also included is the development of a Network infrastructure to support continued existence of the Network beyond the grant period.
SciGirls is a multimedia project designed to encourage and empower more girls to pursue careers in STEM. It is a bold and unique experiment--the first television series on PBS designed specifically for girls aged 8-13. The approach is based on the findings of prior gender research. The television show and the Web site are integrally linked. Episodes are available for distribution on many of the newest digital platforms, e.g., Vimeo and iTunes for downloads, free of charge. SciGirls launched in February 2010 and reaches over 80% of the country. This project will support further research and development to advance SciGirls' online and outreach activities. Specifically, the deliverables include: (1) enhancement of the SciGirls website on pbs.org; (2) maintenance of the SciGirls Educator Networks and outreach to new partners; and (3) R&D on other media platforms. The project's two strategic partners are the National Girls Collaborative Project (NGCP) in Seattle and The Franklin Institute in Philadelphia. The NGCP links SciGirls with its network of 500 community-based science programs for girls, and The Franklin Institute coordinates an affiliate network of science museums to implement SciGirls' outreach activities. The project will also work with the Girl Scouts of America's new "Girl Scout Leadership Experience" program, which emphasizes STEM learning. The most significant web component is a social networking feature that allows girls who are interested in science to connect with peers across the nation. To date, there have been over 300,000 unique visitors and 20,000 registered "SciGirls."
The New York Hall of Science (NYSCI), in collaboration with O\'Reilly Media will host a two-day workshop to explore the potential for the kinds of making, designing, and engineering practices celebrated at Maker Faire to enrich science and math learning. The purpose of this workshop is to identify and aggregate successful programming strategies that increase student engagement and proficiency in STEM, with a focus on students underrepresented in STEM careers. The meeting will be organized around three main ideas: catalyzing a national Maker movement; dissemination and scaling of design principles; and assessment of impacts on STEM learning and attitudes. The convening highlights the capacity of making activities to impact student motivation, attitudes, and conceptual understanding in STEM in both informal and formal learning environments. The workshop will be held in conjunction with the World Maker Faire at NYSCI on September 18-19, 2011. The World Maker Faire is a two-day, family-friendly event that celebrates the Do-it-Yourself or DIY movement and brings together a broad community of professionals and laypersons with a common interest in technology-based creativity, tinkering, and the reuse of materials and technology. The proposed workshop extends the work of the previous Maker Faire workshop (DRL 10-46459) by identifying initiatives that bridge the Maker and STEM communities while building students' foundational STEM knowledge and engaging audiences underrepresented in STEM careers. This workshop will accommodate approximately 50 local and national scientists, engineers, learning science researchers, educators, policymakers, and philanthropists. Select participants will present detailed case studies of maker programs, design principles, assessments, and measured outcomes in STEM attitudes and learning. Key elements of successful programs and assessment strategies will be identified across the case studies in brainstorming sessions and roundtable discussions. Following the workshop, a subset of the case studies will be compiled into an edited volume, indexed by the dimensions of student learning in the National Research Council publication, "A Framework for K-12 STEM Education: Practices, Crosscutting Concepts and Core Ideas." This project uses the momentum of the popular Maker Faire movement, based in design, engineering and technology concepts, to connect to STEM education while capitalizing on the strengths of informal learning environments. The workshop provides researchers, practitioners, and policymakers with an aggregated collection of program design principles and reliable metrics for documenting changes in preK-20 STEM attitudes and learning. The edited volume has the potential to advance the understanding of how to bridge formal and informal learning environments, while also fostering research on the affective dimensions of making in diverse audiences.
The PBS NewsHour STEM Learning project is a broadcast and online science journalism and informal science education initiative to report breaking science news and cutting-edge STEM (Science, Technology, Engineering and Mathematics) research and researchers to a national audience. The multi-platform project goals are to: (1) increase and improve the knowledge of the audience with respect to science and technology; (2) stimulate the active engagement of the audience with science and technology through interactive tools; and (3)position the PBS NewsHour as a regular destination for in-depth and innovative science reporting; (4) deploy new and creative digital tools to extend the impact of NewsHour science reporting, especially for youth. The PBS NewsHour is produced by MacNeil/Lehrer Productions and distributed by PBS to PBS television and radio stations across the country, five nights per week. This project is informed by an expert advisory board and other consultants. Project evaluation will be conducted by City Square Associates. The formative evaluation in year one will employ focus groups of adults from the general audience and teens as well as a quantitative survey online to determine a benchmark of current science knowledge, attitudes and behaviors. The evaluation in year two will test digital components of the project in a usability lab setting to gather information to help improve the quality and effectiveness of these deliverables. The summative evaluation will administer a tracking study with the same population surveyed in the first year. Deliverables include: a minimum of 26 science documentary reports broadcast per year plus additional in-studio interviews and coverage of breaking science news; a revamped website, notably "Science and Tech To Go"; a weekly STEM interview or report online featuring Hari Sreenivasan or other reporters; additional weekly digital STEM reporting; and an expanded and redesigned outreach program for teens and educators including an innovative, cloud-based student editing and content-sharing initiative in collaboration with several science centers. Six new PBS NewsHour Student Reporting Labs, established in high-need urban schools, will shoot, edit, and post their videos on the web. The PBS NewsHour science reports will be broadcast and featured on the NewsHour iPhone app, as well as disseminated on the NewsHour's YouTube Channel, Disqus and UStream, Hulu.com, with new science material updated daily on the web. The NewsHour is seen by more than 7 million viewers each week, with additional audiences being reached by radio, the Online NewsHour website, podcasts, and other social media. New community-based programs expand the audience farther. The final summative report will outline the impact of the project and identify the strategies and tactic found to be most effective in making use of digital media to support project goals.
Arizona State University is conducting a May 2010 two-day workshop that will bring together "Next Generation" (NextGen) science communicators (writers, journalists, bloggers, documentary filmmakers, museum professionals); NextGen scholars/researchers in science and technology policy; and publication editors. The goals are: to help improve the communications skills of these professionals, to encourage collaborations of communicators and scholars, and, ultimately, to help the public gain a better understanding of the policy dimensions of STEM by encouraging more effective communications about STEM and policy issues that affect their lives. The workshop provides direct experience in a writing genre called "narrative nonfiction" or "creative nonfiction," a domain in which Gutkind has been a leader. The co-PI, Guston, is a scholar in science and technology policy and an active partner of the NSF-funded Nanoscale Informal Science Education Network. In addition, the Spring 2011 issue of Issues in Science and Technology will include works by the collaborating communicators/scholars. This workshop precedes and informs a larger conference on science policy, The Rightful Place of Science?," funded by others, including NSF's Science, Technology, and Society program.
This project is designed to bridge the "public understanding of science" radio model with a "public engagement with science" approach using a new public media tool - the "Public Insight Network". Radiolab, an innovative hour-long radio program has developed a highly innovative and successful format over the past 5 years that fosters interest and understanding in STEM based on audiences' natural curiosity. It has exposed non-science attentive listeners to transformative STEM concepts such as Stochasticity (physics, statistics, neuroscience), Musical Language (behavioral science, neurology, acoustics) and Space (mathematics, astronomy, technology, engineering). This project will expand the model using innovative online strategies that will connect listeners with working scientists, with each other and with the Radiolab hosts. This new model is grounded in the direct interaction of audiences and scientists which positions listeners as active creators and curators of content rather than passive recipients. The target audience is young adults 18 years old and above. Key organizational partners are The Public Insight Network (and their affiliation with the National Academies of Science), American Public Media, the Borough of Manhattan Community College and Brooklyn College. Project deliverables include 30 hour-long Radiolab programs for broadcast on public radio stations; interactive, user generated articles for the web site; live online chats, engagement "apps" for mobile smart phones; and live events at college campuses and science centers. In addition, the project will implement a mentorship program to train college-aged underrepresented students that have demonstrated an interest in science and/or science journalism. Formative evaluation will gather actionable information from audiences and scientists than can inform the design of the deliverables.The summative evaluation will assess the success of the strategy for engaging audiences in ongoing science learning. Audiences are projected to increase from the current base of 1 million radio listeners per season and 2 million podcast downloads per month. The intended learning outcomes for the audience include their gaining greater knowledge and exposure to current scientific research, and increased engagement by becoming participatory learners through online interactions with science professionals and other listeners.
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TEAM MEMBERS:
Ellen HorneJad AbumradRobert KrulwichSoren Wheeler
The University of Pittsburgh's Center for Learning in Out-of-School Environments (UPCLOSE), the Carnegie Museum of Natural History, and the Robotics Institute at Carnegie Mellon University are building an open access cyberlearning infrastructure that employs super high-resolution gigapixel images as a tool to support public understanding, participation, and engagement with science. Networked, gigapixel image technology is an information and communication technology that creates zoomable images that viewers can explore, share, and discuss. The technology presents visual information of scientifically important content in such detail that it can be used to promote both scientific discovery and education. The purpose of the project is to make gigapixel technology accessible and usable for informal science educators and scientists by developing a robotic imaging device and online services for the creation, storage, and sharing of billion-pixel images of scientifically important content that can be analyzed visually. Project personnel are conducting design activities, user studies, and formative evaluation studies to support the development of a gigapan technology platform for demonstration and further prototyping. The project builds on and leverages existing technologies to provide informal science education organizations use of gigapixel technology for the purpose of facilitating three types of activities that promote participatory learning by the public--Public Understanding of Science activities; Public Participation in Scientific Research activities; and Public Engagement in Science activities. The long-terms goals of the work are to (1) create an accessible database of gigapixel images that informal science educators can use to facilitate public-scientist interactions and promote participatory science learning, (2) characterize and demonstrate the affordances of networked gigapixel technologies to support socially-mediated, science-focused cyberlearning experiences, (3) generate knowledge about how gigapixel technology can enable three types of learning interactions between scientists and the public around visual data, and (4) disseminate findings that describe the design, implementation, and evaluation of the gigapixel platform to support participatory science learning. The project\'s long-term strategic impacts include guiding the design of high-resolution images for promoting STEM learning in both informal and formal settings, developing an open educational resource and science communication platform, and informing informal science education professionals about the use and effectiveness of gigapixel images in promoting participatory science learning by the public.