The Louisville Science Center will develop "'The World We Create' -- a Traveling Exhibit." This project will develop two traveling version exhibitions (approximately 2,500 sq. ft. each) based on the programs of the highly successful permanent 12,500 sq. ft. exhibition "The World We Create," funded by NSF. One exhibit copy will travel nationally to small and medium-sized science centers throughout the United States over a three-year period, filling a need for quality traveling exhibits and reaching an audience of 300,000 to 500,000 people. The second exhibit copy will travel to rural areas of Kentucky to be hosted by schools, public libraries or community colleges, reaching an audience of 150,000 to 200,000 students and adults.
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TEAM MEMBERS:
Theresa MatteiGail BeckerNancy Potoczak
The Exploratorium will develop "The Math Explorer Activity Book," a project designed to build interest in math among youth ages 11 to 14, particularly girls and minority youth; and to engage youth group leaders, parents, and caregivers in math outside the classroom. The project includes a national campaign to raise public awareness among youth and adults of the critical difference that achievement in middle school-level mathematics makes in the life opportunities of students as well as to publicize a new book of math activities, the heart of the project. The new book, tentatively titled "The Math Explorer," will describe how to do activities at home or in nonschool settings with common, inexpensive materials. The experiences and activities in the book will give middle school-aged youth opportunities to see the relevance of mathematics to their lives and to experiment with math outside the social pressure of school. After testing and evaluation, the Exploratorium will publish the book in collaboration with a commercial publisher for wide dissemination.
The New York Hall of Science is in the process of designing and constructing a 50,000 sq. ft. facility addition. This project, which could also be called project BUILD: Building Underway-Informal Learning Design, will take advantage of the inherent teaching and learning opportunities in science and engineering found in an authentic, real-time setting. A portable exhibit unit, fashioned after a construction-site fence with peepholes, will highlight aspects of technology, math, engineering, and materials sciences found in the building trades and architecture. Each peephole will display an artifact, text, image or interactive for the visitor and have specific learning outcomes defined during the development of the exhibit. Associated programing, in the form of Explainer demostrations, workshops, lectures, building trades career days, design, and hard hat tours will be created for three distinct audiences -- families, adolescents 11-14 (middle-school) and young adults 15-18 (high school). The exhibit and programs will evolve and amend themselves in tandem with the changeable timetables and nature of construction. Finally, a guidebook written on "how to" replicate these learning experiences, construct the exhibit fence for other venues, and partner with architects and tradespeople will be available to the wider museum and informal learning community.
The Association for Science-Technology Centers (ASTC) will gather data and develop a report to the field on mathematics activities in science museums. The purpose of the Small Grant for Exploratory Research (SGER) grant is to support initial research on the current status of mathematics in science museums, to document exemplary models for the field, and to determine the feasibility of a mathematics initiative for science museums and their client schools. The final product, a document similar to the NSF-funded publication "First Hand Learning," will serve the field as well as the education community in seeking better approaches for improving mathematics education.
Learning to Work with the Public in the Context of Local Systemic Change is a five-year Teacher Enhancement initiative to build a knowledge base and develop the necessary tools and resources for teachers and administrators to engage with their parents and public in pursuit of quality mathematics, and to prepare teacher leaders and administrators to successfully lead these efforts in their schools. The project has three major components: (1) focused and sustained work with teachers, administrators, school boards, parents and the public in strategically located current and potential NSF-supported Local Systemic Change communities; (2) the development and implementation of mathematics sessions and materials designed for parents/public and informed by the project's research/findings, and the preparation of teacher leaders and administrators to conduct these sessions within their own communities; and (3) dissemination conferences and other outreach activities. More specifically, the project will (a) engage in studies that identify the elements critical for successful intervention with parents and the public, (b) develop materials that can be used by lead teachers and other educational leaders to work with peer teachers and the broader public in their home communities, and (c) provide the professional development necessary to support implementation. The plan of work for the project is designed around the following questions: (1) What does it take to secure a public that is knowledgeable of issues in mathematics education and knowledgeable of what it means to teach important and relevant mathematics for understanding? (2) Will a knowledgeable public support and/or actively advocate for mathematics reform? If so, what is the nature of their advocacy? (3) What impact will a knowledgeable and/or proactive public have on the efforts of current and potential Local Systemic Change (LSC) projects to improve the quality of mathematics instruction in schools? (4) Are there critical times during mathematics restructuring efforts when parent engagement is essential? If so, what are those times and what is the nature of support needed? (5) What are the critical issues and caveats that need to be considered in designing and delivering successful mathematics education sessions for parents and the public? (6) What kinds of public engagement can best be accomplished by teacher leaders working within their own communities? What kinds of support do local leaders need in order to work successfully with parents and the public? (7) What kinds of public engagement can best be accomplished by national mathematics education leaders who come into a community on a limited basis? The work to be performed in the project is a carefully designed effort to develop a more practice-based understanding of the critical elements needed for productive public involvement in support of quality mathematics. Sites participating in the plan of work are Portland (OR), St. Vrain (CO), and San Francisco (CA). Resources and tools (e.g., deliverables) planned include professional development materials that can be used by teacher leaders and administrators as they work with peer teachers, as well as with parents and the public; rough-cut video tapes that are potentially useful in these professional development sessions; and a website. Cost sharing is derived from participating school districts and the Exxon and Intel Foundations.
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TEAM MEMBERS:
Ruth ParkerJaneane GolliherDominic PeressiniLisa Adajian
The Museum of Science in Boston will develop exhibits and programs for visitors to use models as tools for understanding the world around them. It is the 4th stage of a six-part, long-range vision and plan that focuses on comprehending science as a way of thinking and doing. "Making Models" will serve over one million visitors per year, mostly families and school groups. The models to be featured include physical, biological, conceptual, mathematical, and computer simulation models. Four (4) specific science inquiry skills will be stressed, which are associated with making and using models: recognition of similarities, assessment of limitations, communication of ideas, and the creation of one's own models for developing personal understanding and appreciation of the world in which we live. In tandem with this new exhibit, some current exhibits and programs will be modified to meet these modeling goals. Demonstrating the application of these new exhibit techniques for other museums and science centers, and evaluating how visitors learn in this setting will also be performed, with the results disseminated on a national level. The Museum will collaborate with two (2) other nationally known sites in this development and evaluation of exhibit components, creation of new teacher development programs, and the development of models-related web resources.
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TEAM MEMBERS:
Douglas SmithLarry BellPaul Fontiane
WGBH is undertaking a planning phase to develop "PEEP and the Big, Wide World," a daily, half-hour series for the preschool and kindergarten public television audience. The series will use the explorations and adventures of a newly-hatched chick and his animal friends as the foundation for an initiative in early childhood science and math education. The goal of the project is to introduce science and math to a broad, diverse audience of children in an exciting and developmentally appropriate way. During this planning phase, the project will: 1) Bring the Science Content Director on board to work with the production staff and advisors; 2) Develop the series curriculum; 3) Create a series "bible" where principal characters, visual design, approach to science and math, and sample story ideas are sketched out; 4) Write two story treatments for the series; and 5) Conduct preliminary testing of PEEP with the target audience. The Principal Investigator for the project will be Kate Taylor, Director of Children's Programming at WGBH. Karen Worth, Senior Scientist at EDC, will serve as Content Director. For production of the series, WGBH will team with Derek Lamb, former Executive Director of Animation at the National Film Board of Canada, and Kaj Pindal, former Head of Animation at Danish Television.
The Education Development Center (EDC) is implementing the national expansion and institutionalization of the Playing to Win (PTW) Network. With the goal of working toward universal technology enfranchisement and prior support from the NSF Informal Science Education Program, the PTW Network currently links close to fifty agencies in a mutually supportive community of neighborhood technology learning centers serving people living in low-income areas who otherwise would have little or no access to computer-based technologies. The purposes of this phase of the project are: - to increase the number of affiliates nationally - to provide effective support for their technology programs and to do so in a planned and thoughtful manner which also is flexible and responsive to the flows, demands, and unforeseen opportunities fro community technology center development -- to move the affiliate membership toward independence and self-governance. Each year of the project, PTW will work in collaboration with the United Neighborhood Centers of America, the Alliance fro Community Media, NTIA-funded programs, FreeNets, and others in three to four target areas of the US to recruitment additional primary affiliates. The goal is to add 20 additional affiliates annually who will be supported by local coordinators and another 30 with subsidized telecommunications support. PTW plans to enrich programmatic content at the centers with special emphasis on math and science. The network will support an on-line math and science program consultant and continue to recruit and support affiliates with a math/science program emphasis. The Co-Principal Investigators for the project will be Myles Gordon, Director of EDC's Center for Learning, Teaching and Technology, and Antonia Stone, Founder of PTW and PI for the previous phases of the project.
The North Carolina Museum of Life & Science requests $627,003 (54.6% of a total $1,148,397 project budget) to develop "Mathematics=Easy as Pi." This will be a three-year statewide project from the North Carolina Museum of Life and Science on behalf of the 15 member museums of The North Carolina Grassroots Science Museum Collaborative to develop and implement programs and exhibits that will assist families, children and teachers to understand and appreciate mathematics. The components are a public celebration of mathematics name Pi day that will be held in 15 museums on March 14th of each year, teacher professional development workshops, 12 hands-on tabletop exhibits for 13 museums, and a Sharing math guide for use by families and children. This initiative will serve more than 2.7 million young people and adults in North Carolina over the initial three-year project. The materials will have continued usage beyond the project timeframe.
The Education Development Center, Incorporated, requests $2,081,018 to create informal learning opportunities in science, mathematics, engineering and technology utilizing the study of the ancient African civilization of Nubia as context. Educational activities and resources will be developed based on the extensive ongoing archeological research on historical Nubia. The two main components of the project are a traveling exhibit with related educational materials and a website that will provide the target audience an opportunity to access extensive on-line resources and activities. The project will provide community outreach and professional development for educators in museums, community groups, schools and libraries. The project is designed for thirty-six months' duration. In year one, a network of collaborators in the Boston area will focus on research and development; in year two, project materials will be piloted and evaluated in six cities, and on-line professional development programs will be conducted; and in year three, project materials will be disseminated directly to 60 sites and more broadly via the internet.
The Quality Education for Minorities (QEM) Network requests $1,518,318 to develop and pilot, in ten low-income communities, a two-pronged initiative for providing professional development for parents to be stronger advocates for their children in science, mathematics and technology. The objectives for this project are to prepare a cadre of parents (or parent surrogates) at each of ten pilot sites to advocate for a stronger participation in quality science, mathematics, and technology education for their own and other children; to establish an information and support network from which parents can retrieve educational resources via QEM's Website, an 800-telephone number, fax, and e-mail, and regular postal service. The pilot sites are Lowndes County, AL; targeted communities in Cleveland and Florence, SC; seven public housing communities in Atlanta, GA, Baltimore, MD, Chicago, IL, New York (Brooklyn and Jamaica), Norfolk, VA, and Tallahassee, FL. The Community Service Centers (CSC's) established on neighboring college campuses serve the seven public housing communities with support from the Annie E. Casey Foundation, with technical assistance provided by the QEM Network. The participating neighboring colleges are Clark-Atlanta University, Morgan State University, Chicago State University, New York City Technical College, York College, Norfolk State University, and Florida A&M University.
San Francisco State University is collaborating with MESA of California to replicate the Mission Science Workshop (MSW) model for informal science education to establish 10 self-supporting interactive Community Science Workshops (CSW's) throughout California. The overriding theme for activities at the CSW's is to let children and parents "be" scientists as they explore through the use of interactive exhibits, hands-on building/tinkering activities and content workshops, while at the same time ensuring they learn correct science concepts. Content to be presented is from the areas of Engineering, Life Sciences, Physical Sciences, and Mathematics. The target audience is primarily African-American, Latino, and Native American children in grades K-8 and their families.