The St. Louis Science Center is a major metropolitan science museum serving a population of 2.3 million people. One year ago they moved into a new facility at a new location and attendance at the museum has tripled, reaching 600,00 visitors this past year. The center will develop a "Science Playground" in order to teach basic science principles and process through a series of 45 outdoor participatory exhibitions around the major areas of motion, energy, light, sound and the natural environment. The physics of motion will be explored through exhibits such as a friction slide, lunar gravity swing, double-axis human pendulum, etc. Energy exhibits will provide experiences with watermills and water power, fulcrum leverage and solar energy. Light exploration includes a solar column, prisms and rainbows, soundwheel and whisper discs. A weather station will have a rain gauge, anemometer, a variety of barometers, etc. This contemporary playground concept was developed as a response to limitations of indoor facilities and to extend use of outdoor space in a creative manner. The exhibit will be a model for extending science learning opportunities for schools, parks, other science museums and similar institutions. The center surveyed 31 science centers, 82 parks and 85 school districts to gauge interest in use of science playground exhibits, and found a clear interest in this type of project by all sectors surveyed. Exhibit designs will be published and furnished at cost to any facility wishing to replicate all or any part of the exhibition.
The Exploratorium is developing a model program that demonstrates the vital role science museum exhibits can play in supporting formal science education reform. The development of exhibitions and enhancement activities is based on the Science Framework for California Public Schools and the emerging National Science Education Standards. The project includes: A series of four museum exhibitions (with a total of 60 exhibits) based on the Science Framework themes of Patterns of Change, Stability, Scale and Structure, and Systems and Interactions Publications (Exhibit Guides and Pathways) for each collection A series of workshops and evening events for teachers, families and students A symposium, video and Internet resource for museum and education professionals An important feature is an information desk and resource kiosk to inform teachers, parents and the general public about science education reform efforts. The project aims at 5,000 teachers, 32,000 parents and caregivers, 140,000 students and 1,320,000 members of the general public.
The Department of Geological Sciences at Rutgers, in collaboration with the Liberty Science Center, the New York State Museum, Palisades Interstate Park Commission, Appalachian Trail Conference, and ABS-Capital Cities, Inc., has a planning grant to develop a universal model that will encourage science education in conjunction with outdoor recreational activities in wilderness parks near urban centers. The initial effort will focus on the Harriman and Bear Mountain State Parks and the Sterling Forest lands, all near New York City. Current plans for the full project include development of: 1) an illustrated guidebook describing the features chosen as "exhibits" at the sites, 2) a map showing locations of the "exhibits", 3) plaques marking the features of the exhibits, 4) proposals for new trails to access outstanding botanical and geological features, 5) a web site with virtual reality filed trips of the sites chosen, 6) museum displays and media programs at Liberty Science Center, the New York State Museum, and other sites, 7) regular field trips from Liberty Science Center, New York State Museum, and Bear Mountain Trailside Museum, 8) workshops for high school teachers, and 9) special project to get more public use of the park resources. During the planning stage the project will gather data on public interest, determine the most effective means of dissemination, identify and contact other organizations and scientist that could contribute to the full project, and develop a coordination plan and schedule for this complex project. Small examples and/or written descriptions of the web-site, the guidebook stops, museum displays, and field trips will also be produced in the planning phase.
This project brings together polar researchers, science centers and broadcast media reporters to tell the story of four polar research expeditions to the general public, teachers and students. The four expeditions to the Arctic and Antarctic were chosen based on their relevance to the three primary IPY research emphasis areas defined by NSF. A science writer and a professional photographer/oceanographer reporting on each expedition will do daily webcasts on the "Polar Discovery web site (http://polardiscovery.whoi.edu)" as well as several scheduled real-time phone patches to audiences at the Museum of Science, Boston, the Smithsonian Natural History Museum, The Field Museum (Chicago), the Houston Museum of Natural Science, the Pacific Science Center (Seattle), the Birch Aquarium (San Diego), National Public Radio stations, CBS News and to student "reporters" writing for Scholastic Online. Programs will also be broadcast on University of California TV. A museum exhibit at the WHOI Exhibit Center will highlight polar research. Components of it will either travel to partner museums or be replicated in the partnering museums. Photo archives of the expeditionary material will also be created and made available to interested users.
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TEAM MEMBERS:
Christopher LinderFrederic HeideJames Kent
New and developing science centers make up a significant percentage of ASTC membership. They often have limited funds, facilities, exhibits, education programs and experience developing and operating a science center. These institutions desire ready-to-use exhibits, demonstrations and education materials, as well as management workshops concerning the basic operation of a science center. This project proposes the formation of a Science Carnival Consortia, a partnership of the Pacific Science Center and five to eight new and developing science centers. Building on the success of the Pacific Science Center's Science Carnival, Consortia members: (1) Obtain twenty to forty Science Carnival exhibits (2) Obtain six ready-to-use demonstrations (3) Obtain supplementary education materials (4) Obtain appropriate training regarding the implementation and maintenance of the above items (5) Participate in a week long management workshop at the Pacific Science Center (6) Receive ongoing consultation with Pacific Science Center Staff (7) Participate in three annual meetings of Consortia members The project also produces a Science Carnival "cookbook" which provides instructional for fabricating and maintaining all exhibits in Science Carnival, plus scripts and material lists for each demonstration, and enrichment class. The project also evaluates the success of this model for serving other new and developing science centers.
Explore Evolution is a three-year project that uses a combination of traveling exhibits and activity kits to introduce the concept of evolution to museum audiences and 4-H groups. Six museum partners will collaborate on the development of eleven interactive exhibit modules on the following topics: disease in humans, eye development in animals, fruit fly diversity, sexual selection, hominoid development and extinction. The museum consortium includes the Kansas Museum and Biodiversity Center, Museum of the Rockies (MT), Sam Noble Oklahoma Museum of Natural History, Science Museum of Minnesota, University of Nebraska State Museum and the Exhibits Museum of the University of Michigan. The inquiry-based activity kits will be modeled after the University of Nebraska-Lincoln's "Wonderwise" kits, funded in part by NSF, and designed for middle school audiences. An "Explore Evolution" website will be launched to support the exhibits and activity kits. Dissemination will occur through museum education programs as well as a consortium of 4-H programs in Iowa, Minnesota, Montana, Michigan, Nebraska and Wyoming. It is anticipated that more than 1.8 million museum visitors and 800,000 4-H members will participate in this project.
The Association of Science-Technology Centers, in partnership with the Franklin Institute Science Museum, requests $360,523 from the National Science Foundation in support of a major hands-on traveling exhibition about global climate change. The 3,500-square-foot exhibition will provide a broad public with accurate, balanced scientific information about global warming and insight into its economic and social context. In so doing, it will help to spark interest in science and mathematics among the many young museum visitors who are concerned about the future of our environment. Approximately 2,000,000 citizens will visit the exhibition during its two-year tour of 11 U.S. science museums. Workshops conducted at each site before the exhibition arrives and educational materials to supplement program planning will assist host museums in broadening the exhibition's impact. ASTC and the Franklin Institute have a history of highly successful collaborative traveling exhibition projects. We will be assisted by a group of eminent advisors, a leading developer of hands-on science exhibits, and the Museum's experienced team of exhibit evaluators. The exhibition may serve as a model for other museums that are now developing permanent exhibitions about environmental issues and other topic issues in science.
Produce an exhibition that will lead visitors, particularly 140,000 school children each year, to explore and understand modern audio technology. The exhibition capitalizes on the great popularity of recorded music (every student seems to carry a Walkman tape or disc player), to encourage hands-on exploration of audio technologies from microphones to compact disc players. Further visitor inquiry, using a computer-based system developed by the Hall of Science, will encourage an understanding of the underlying principles. The prototype of this "Science Link" system, now in use, has already drawn replication inquiries from 84 science-technology centers, educational institutions, and advertising agencies. Develop additional exhibit techniques that will allow the hands-on investigation of phenomena that cannot be directly observed. Techniques linking computer simulations directly to the physical exhibits will encourage investigation of phenomena that cannot be directly observed. While contemporary electronic technology has become more and more pervasive, its inner workings have become less and less accessible to the layman. In addressing audio technology as typical of this challenge, the project will have applications to many fundamental and applied topics, and will find wide use in science centers and other settings.
The Franklin Institute Science Museum will develop, install and evaluate a museum-wide Interactive Computer Information System (ICIS) designed to enhance visitors' exhibit learning through museum-wide visitor information access and connectivity. ICIS will provide educational experiences for 1.2 million people per year, tailoring its information presentations to individual visitor needs and levels of knowledge. Exhibit based units will add advanced presentation functions beyond the usual graphics and text labels. ICIS will include 67 touchscreen-operated computer stations and six min- computers linking 27 exhibit areas in The Franklin Institute. This project is a collaboration between The Franklin Institute and the Unisys Corporation, which will provide over a five year period systems engineering, hardware, installation, maintenance and training of museum personnel valued at $2.4 million. An extensive evaluation plan will include studies of visitor-computer interaction, the economics and management of system maintenance, collaboration between museum and corporation and effectiveness of computer-based exhibit interpretation techniques. Project results will be disseminated through conference presentations, seminars and published articles.
Washington State University, the University of Puget Sound, the University of Washington, a consortium of three museums, and a state-wide charter school system that assists home-school teachers in the Northwest are collaborating to develop new strategies to educate and inform the public about evolution through interactive museum exhibits. Background information and baseline knowledge will be garnered through focus group discussions and surveys. Information will be sought from parents and students in home-school environments and teachers of faith-based groups. The planning work is the prelude to development of the actual exhibition and is needed to inform the PIs how most effectively to help the public best learn key concepts of evolution. The same groups that supply the baseline information and knowledge of concepts will be used to judge museum development in an iterative manner. A second objective in this endeavor is to catalyze collaboration among regional museums. Participants in the project will be staff from the Burke Museum of Natural History and Culture in Seattle, Conner Museum in Pullman, Washington, Slater Museum of Natural History in Tacoma, Washington, Nebraska State Museum, and Idaho Distance Education Academy. An advisory committee includes evolutionary scientists, philosophers of science, and members of the clergy. This project will derive baseline perspectives on evolution from the unique home-school and faith-based communities, piloted interactive exhibits describing contemporary evolution stories, comparative knowledge on whether these participating groups provide useful strategies in the exhibit development, and whether contemporary content exhibits are better at explanations of evolution than the more traditional examples.
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TEAM MEMBERS:
Larry HuffordMichael WebsterRichard OlmsteadAmy RykenCarol AnelliPeter Wimberger
This planning grant project addresses the problem that individuals and communities in rural areas do not have access to typical informal science education venues that help the public better understand significant issues that impact their lives. A team of Cornell University investigators will develop strategies to educate rural communities in New York State on science-based issues such climate change and energy. The project seeks to determine how to effectively meet audience needs through a set of sustainable traveling exhibits tailored to very small rural venues. If successful, the practices could be expanded into a nationwide initiative for rural communities. The specific objectives of the planning work are to determine the most effective strategies for communicating science-based topics, the baseline knowledge of the communities on the topics; how to engage communities that are under-served by traditional informal science education venues; which human behaviors after the interventions are responsive to the proposed efforts; and how they can broaden their efforts to create a robust model for the nation. Steps to achieve these objectives will include: regional and local climate change opinion surveys, the establishment of rural partnerships and networks, content materials development targeted at specific audiences and regions, development of prototypes of small traveling exhibits, experiments to foster learning in rural communities through Web 2.0, groups and individual discussions, and internet dialogs.
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TEAM MEMBERS:
Sarah ChiconeTrisha SmrecakSamantha SandsRobert Ross
Native Universe: Indigenous Voice in Museums, a collaboration between the Indigenous Education Institute, University of California-Berkeley, and the University of Hawaii at Hilo, builds on the successful NSF-funded Cosmic Serpent collaborative (DRL 07-14631/DRL 07-14629). The Cosmic Serpent professional development project explores commonalities between native and western science, enabling participants to use STEM as an entry point for museum programs and exhibits. Native Universe endeavors to move to the next level by creating a professional development program which fosters systemic institutional change through the infusion of indigenous voice in programs and exhibits focusing on environmental change. Topics to be explored include species distribution, environmental vulnerability, adaptation of human systems, and science and policy issues on the local, regional, and global levels. This project is designed to assess how cultural background and exposure to indigenous knowledge systems integrated with western science influence these perspectives; develop sustainable institutional competence in presenting multiple perspectives on environmental change; and create models for inclusion while building an enduring community of practice. The project design relies upon a conceptual framework grounded in the literature on indigenous voice and traditional ecological knowledge, as well as current models for institutional change. Front-end, summative, and process evaluation will address questions related to how science museums facilitate engagement and inclusion of indigenous voice in the presentation of environmental change content, stages of readiness, and the emergence of models for this process. Methods for data collection include reflective logs, pre-post questionnaires, and semi-structured interviews at multiple points to measure the degree and nature of change within museums, as well as how change was initiated, supported, and sustained by staff. Project deliverables include three museum case studies developed during 9-month residencies, public experiences for visitors, a culminating virtual conference, and a dynamic community of practice among museums committed to indigenous voice in informal science education. The museum residencies will take place at the Oregon Museum of Science and Industry, the Arizona-Sonora Desert Museum, and the Museum of the North in Alaska. Intensive case studies will be conducted at each site following the Diné Strategic Planning Process (consisting of initiation, growth, implementation, and renewal) and featuring the Ìmiloa Astronomy Institute as a model for institutional change. Exhibits and programs have been identified at each site that will be developed or expanded to integrate environmental change content and native perspectives. Dissemination of the project findings will be accomplished through publications, conference presentations, videos, webinars (four per year), and the virtual conference. It is anticipated that this project will impact over 1.2 million visitors at the collaborating institutions, in addition to the professional audience of museum staff. Native Universe may provide valuable interpretive tools for the field to understand and address the challenges associated with integrating cultural perspectives and science content. The museum case studies will contribute knowledge about the cultural process of science learning, and may transform the way science is presented in museums by leveraging indigenous voice to enhance public awareness and understanding of environmental change from a culturally-grounded perspective. The overall benefit is increased participation of indigenous individuals in STEM and increased public science literacy in the area of environmental change.