The National Center for Earth-surface Dynamics (NCED) is a Science and Technology Center focused on understanding the processes that shape the Earth's surface, and on communicating that understanding with a broad range of stakeholders. NCED's work will support a larger, community-based effort to develop a suite of quantitative models of the Earth's surface: a Community Sediment Model (CSM). Results of the NCED-CSM collaboration will be used for both short-term prediction of surface response to natural and anthropogenic change and long-term interpretation of how past conditions are recorded in landscapes and sedimentary strata. This will in turn help solve pressing societal problems such as estimation and mitigation of landscape-related risk; responsible management of landscape resources including forests, agricultural, and recreational areas; forecasting landscape response to possible climatic and other changes; and wise development of resources like groundwater and hydrocarbons that are hosted in buried sediments. NCED education and knowledge transfer programs include exhibits and educational programs at the Science Museum of Minnesota, internships and programs for students from tribal colleges and other underrepresented populations, and research opportunities for participants from outside core NCED institutions. The Earth's surface is the dynamic interface among the lithosphere, hydrosphere, biosphere, and atmosphere. It is intimately interwoven with the life that inhabits it. Surface processes span environments ranging from high mountains to the deep ocean and time scales from fractions of a second to millions of years. Because of this range in forms, processes, and scales, the study of surface dynamics has involved many disciplines and approaches. A major goal of NCED is to foster the development of a unified, quantitative science of Earth-surface dynamics that combines efforts in geomorphology, civil engineering, biology, sedimentary geology, oceanography, and geophysics. Our research program has four major themes: (1) landscape evolution, (2) basin evolution, (3) biological sediment dynamics, and (4) integration of morphodynamic processes across environments and scales. Each theme area provides opportunities for exchange of information and ideas with a wide range of stakeholders, including teachers and learners at all levels; researchers, managers, and policy makers in both the commercial and public sectors; and the general public.
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TEAM MEMBERS:
Efi Foufoula-GeorgiouChristopher PaolaGary Parker
The Science Museum of Minnesota will develop "Investigations in Cell Biology," an integrated program that introduces cell, microbiology, and molecular biology to museum audiences through open-access, wet-lab, micro-experiment benches; training and support for school teachers; classes for adults and teens; and a long-term program for local high school youth. The project includes the development, testing, and installation of four micro-experiment benches that introduce visitors to the objectives, tools, and techniques of cell biology experimentation. These benches,"Inside the Cell," "Testing for DNA," "DNA Profile," and "Microbe Control," will be part of "Cell Lab," a 1,500 square-foot open experiment area within the science museum's new core exhibition, "The Human Body," opening December 1999.
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TEAM MEMBERS:
Laurie Kleinbaum FinkSusan FlemingJ Newlin
The Science Museum of Minnesota would like to create a network of partnerships between the museum and small community-based science organizations (CBSOs). CBSOs will receive professional development workshops to increase their capacity to produce high quality exhibits and publications and offer effective science programming. A team from each science organization will participate in a 12-hour skills development workshop to cover such topics as exhibit development, audience research, science communication and program development. A workshop "tool kit" will capture the essence of the training workshops and be made available to other museums. Each team will develop a small traveling exhibit and supporting materials. Annual Science Summit programs will showcase the CBSOs to the general public, museum visitors and students, while a CBSO Roundtable will invite the participants to explore collaborations and programming strategies. An online database will be created and a complimentary printed resource guide of all local CBSOs will be available to the public. The model will be tested at two small science centers, the Kirby Science Discovery Center in Sioux Falls, SD, and at the Headwaters Science Center in Bemidji, MN. It is anticipated that 72 organizations and 450 CBSO staff members will be served by this project, in addition to over 5,000 members of the general public.
The North Carolina Museum of Life and Science will develop two areas in a new 70 acre outdoor exhibit "BioQuest Woods: Linking Animals and Plans with Interactive Exhibits". This concept is to pair live animals and plants in their natural setting with science center-style interactive exhibits to communicate key ideas in biology and physics. Support will go to sixteen interactive stations in two four-acre theme areas "Catch the Wind" and "Down to Earth". "Catch the Wind" will assist visitors in the exploration air movement and learning about how plants and animals use air in specialized ways. For example, visitors will experiment with air thermals while observing the behavior of birds of prey and will learn how prairie dogs exploit the venturi effect to ventilate their burrows. In the "Down to Earth" thematic area, visitors, simulate the activities of field biologists, will track bears equipped with radio collars, examine living invertebrates, among other activities. Scientific instruments, including microscopes, in kiosks will aid on-the-scene study of live animals and plans. "BioQuest Woods" will help visitors, teachers and students gain the realistic experience of scientific inquiry in a natural setting. Education programming will highlight curriculum linkages and fulfills the goals of North Carolina's new science curriculum. It directly addresses the State's competency-based goals requiring understanding of natural systems and the interrelations of the basic sciences. Pre and post-visit materials will be developed along with teacher guides and enhancement activities. This project is being developed with the cooperation of the Austin Nature Center, the National Zoo, and the Indianapolis Zoo.
Community Science Workshops: Beginning a National Movement is an extension of a successful, NSF-funded project that created a network of community science centers in California. The San Francisco State University will now take this successful venture to a national level by working with the American Association for the Advancement of Science (AAAS) and Quality Education for Minorities (QEM) to establish a new Community Science Workshop (CSW) 8-10 in underserved communities over the next four years. Once sites are selected, CSW directors participate in an intensive two-week training program. This is followed by visits by site mentors, and ongoing support through the WWW and other media, which contributes to the establishment and eventual sustainability of the centers. Each site partners with larger, established museums and science centers locally to gain much needed assistance with exhibits and education programs. Community Science Workshops contain permanent exhibit space, a workshop area for student projects and classroom/storage space. They serve a variety of audiences through after school, family, school and summer science programs. Potential locations include Arizona, Florida, Louisiana, Michigan, Montana, Nebraska, New York, Tennessee, Texas, Washington and the District of Columbia.
The Liberty Science Center, located across the Hudson River from the former World Trade Center, will develop, evaluate and install an 8,000 square foot, five-story permanent exhibition about the architectural design and engineering, physics, and urban-related environmental science of skyscrapers. The exhibit will use a vertical space that includes a view overlooking southern Manhatten, the former World Trade Center, and one of the most famous urban skylines in the world. The exhibition is organized around three basic theme areas and is balanced between the advantages and disadvantages of skyscrapers. Visitors enter the exhibit through SKYSCRAPER WORLD, an advance organizer that sets the stage for the exhibit and identifies possible wayfinding pathways through other areas. BUILDING THE BUILDING (second and third levels) addresses principles in the design and construction of skyscrapers, while HABITAT AND IMPACT (fourth level) describes patterns of adaptation in the ecosystems created by skyscrapers. An outdoor observation deck (fifth level) facing the Manhattan skyline and the former World Trade Center, provides the opportunity for skyline programming. What is a Rooftop, Rooftop Garden, and Skyline Clock, assisted by binocular telescopes for observing detail, are interactive programs that use the skyline as a teaching tool. Taking advantage of the dramatic skyline seen from the Science Center, the project will document changing public attitudes about skyscrapers and analyze patterns of visitor traffic and wayfinding in a five-story exhibition tower. The exhibit is supported by mediated public programs in LSC and by experiences for school audiences, both at LSC and in local schools. Although "Skyscraper" is primarily an informal learning experience, it has significant linkages to formal in-school programs.
The Lemelson Center for the Study of Invention in cooperation with the Playful Invention and Exploration Network (a consortium of six museums) will develop "Invention at Play." This will be a traveling exhibit in two sizes (3,500 sq. ft. & 1,500 sq. ft.) exploring the value of play and its critical role in the development of creative human beings. Audiences will a) learn how play fosters creative talents among children as well as adults; b) experience their own playful and inventive abilities; and c) understand how children's play parallels processes used by innovators in science and technology. The exhibit will be divided into three sections: 1) the "Invention Playhouse" where visitors will be offered a variety of creative play activities to help them understand how playing builds creative and inventive skills; 2) "Case Study Clusters" where visitors will learn about the playful habits of five inventors, and 3) "Issues in Invention and Play" where visitors learn about ideas and debates among theorists who have linked inventive processes to children's play. This exhibit is based on documentation collected by the Lemelson Center since 1995 from and about inventors of the past and present, and symposia they have organized to examine the characteristics of innovative processes. This research has led to new insights into remarkable parallels between children's play and the way inventors approach their work. A series of complementary educational activities and programs will be developed and documented in an Educational Manual. These programs will be aimed at diverse audiences including families, parents, teachers and other groups in science and children's museums nationwide and will help extend the impact of the exhibit theme beyond the exhibit itself. Teacher workshops will be developed and arranged for each venue along with a special teacher's manual that will be distributed during exhibit-related school events offering a variety of activities on the themes of inventive play, creative model of problem solving, and exemplary tales of playful events and habits in the lives of interesting American inventors. RK & Associates have done the front-end audience surveys for this project and will do the summative and remedial evaluation work. The exhibit prototyping will be done by the Science Museum of Minnesota exhibit contractors.
Ways of Knowing, Inc. is producing two one-hour film documentarties for public television on the origin, nature and history of writing. "The Writing Project" (working title) is about the study of writing as a technology. The goal of the films is to explain how writing systems work and to make people aware of the importance of writing in societies. The programs will address what reading and writing is, how writing was invented and how it is used in dozens of different systems around the world. The focus is on the diversity, yet sameness, of writing systems and on the grand variety of its uses. The target audience is the PBS television audience, with follow-up educational viedocassette distribution to schools and colleges to be used as an introduction to linguistics "basic text." The program's outreach will be enhanced by a companion website and book.
Family Science: Expanding Community Support for Inquiry-based Science is the University of Washington's innovative five-year plan for reaching youth and families in the Seattle school district. This program represents an enhancement of the NSF-funded Family Science program targeting grades K-5 and expansion of this successful program to include middle and high school students. The proposed activities, Science Explorations, Inquiry Science Conferences and Community Celebrations, are designed to help parents understand inquiry-based science instruction while heightening students' confidence in their ability to understand science processes. The hands-on activities also support and complement Seattle's Local Systemic Change project by enlisting teachers, parents and community members to champion science education outside of the formal school setting. The implementation strategy includes workshops to train Family Science Lead Teachers and Parent/Community Leaders to coordinate Family Science programs. Subsequent partnerships between teachers and community organizations are designed to establish regional clusters of community networks to support programmatic activities during and beyond the funding period. It is estimated that Family Science will result in the presentation of nearly 300 school and community-based events impacting 10,000 individuals.
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TEAM MEMBERS:
Leroy HoodEthan AllenDana RileyPatrick Ehrman
resourceprojectProfessional Development, Conferences, and Networks
The purpose of this project is to enhance African American parental involvement with high school student children by developing skills and strategies for effectively managing the educational careers of their children. It would create a capacity for collaborations with the schools that service African American children by developing the social and organizational infrastructure for continued parental involvement in educational careers. It seeks to increase enrollment and success of Black students in higher-level mathematics and science courses to diminish the race gap in math and science track placements. It uses a quasi-experimental design to implement a series of community workshops designed to enhance knowledge, skills, and strategies for managing placements of children in science and math tracks. The research would create an intervention designed to change the outcome of students. It would conduct ethnographic work to map successful pathways to enrollment in higher-level math courses. It would use findings from these studies to implement workships within the Black communities, and conduct statistical analysis of the growth in achievement as a result of the reduction in course taking.
Thinking SMART is a comprehensive five-year program that will encourage young women to pursue careers in science, mathematics and technology. The project focuses on girls ages 12-18, and will especially target those who are underserved and underrepresented in the sciences, including girls from diverse backgrounds and persons with disabilities. Key elements include four science/engineering module options, a two-tiered mentoring component, training, resource materials, online activities and an awards program. The modules (Material Girls, Eco Girls, Galactic Girls, Net Girls), focus on engineering, ecology, physics and computer science respectively, and will be aligned with national standards. The modules are implemented during the school year and include weekly programming, a summer camp and a spring "Women in Science and Engineering" conference organized by girls. Weekly meetings are augmented by online activities, in which girls interact with other participants and mentors, publish reports and obtain career information. Additionally, participants who complete all four modules are eligible to become paid mentors for younger participants. Five publications will be produced to support the program, including manuals for mentors (both adults and youth), module activities, a parent guide and a guide for implementation sites on community partnerships. Thinking SMART materials will be developed and piloted tested at eight sites in conjunction with Girls, Inc. affiliates in Nashua, NH, Worcester, MA, Oakridge, TN and Shelbyville, IN, with input from the Society of Women Engineers. Extensive training will also be provided for pilot programs and future dissemination. Finally the E3 Awards Program will motivate implementation sites to create high quality local programs. It is anticipated that more than 1,500 Girls, Inc. affiliates will adopt "Thinking SMART."
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TEAM MEMBERS:
Brenda StegallJanet StantonHeather Johnston NicholsonShalonda MurrayJoe Martinez
The Garden Mosaics program will develop and test a model in which youth conduct research on community and home gardens in urban settings. Youth ages 11-18 will be recruited to participate in gardening activities in conjunction with elders from their communities. Students learn the science content associated with organismal biology, community ecology, ecosystems and the physical environment, as well as culturally-related food growing practices. Participants then take part in guided research; using methods such as transect walks, mapping, ecosystem models and soil tests, to document food-growing practices of immigrant minority and traditional gardeners. Expanded research investigations will be open to students who want to continue their explorations using the Internet and other resources. Students contribute to new and existing databases of ethnic and heritage gardening practices in the United States. Materials to be developed include an Educator's Manual, a Youth Handbook and a Garden Mosaics website. During the pilot phase a national leadership team will be established to test the program and materials at 10 sites in different cities across the U.S. including San Antonio, Baltimore, Boston, Sacramento, New York, Brooklyn and Philadelphia. It is anticipated that the dissemination of this model will reach more than 750 educators and 13,000 youth.
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TEAM MEMBERS:
Marianne KrasnyAlan BerkowitzGretchen Ferenz