The Pacific Science Center, in collaboration and with support from the Washington NASA Space Grant Consortium, proposes a three-year program to develop and test a model for delivering mid-scale, astronomy and space-themed exhibits and programming in a shopping center environment, especially in rural locations. The program targets an audience that does not have easy access to a science center or that may not be inclined to take advantage of such a facility. The exhibits and curriculum for this project will be based on Pacific Science Center's well-tested Space Odyssey Van Program, which presently tours elementary schools in Washington State. Phase One of the project will be a test delivery of the existing exhibits and programming to two malls. Phase Two involves construction and testing of the final, larger exhibits and reworking existing programming to better fit a mall delivery environment. Phase Three takes the newly tested devices to ten malls in suburban and rural Washington.
Midwestern Wild Weather is a traveling exhibition designed to reach the target audiences in the small/rural communities and the science centers and museums in the states of Illinois, Iowa, Indiana and Michigan. This is a three-year project to replicate five of a set of nine interactive exhibits on the topic of Wild Weather. This exhibition is being produced in collaboration with SPARC (Springfield, Peoria, Aurora, Rockford and Carbondale) which are cities located in the State of Illinois. The project represents a strong model for collaboration between museums, science centers and the formal educational system. An innovative feature of this project design is the use of "attractor" exhibits to entice persons to come to the museum and/or science center. "Many places have talked about doing this but few have tried it." Also, this project has the potential to fill the real need of making available quality exhibits to small museums and bringing informal education resources to small/rural communities. The Science and Technology Interactive Center's cost share for this project is 52.1 percent of the total budget.
The Science Museum of Minnesota (SMM) in collaboration with the Illinois State Museum (ISM), the St. Louis Science Center (SLSC), and the National Center for Supercomputing Applications(NCSA) at the University of Illinois in Champaign, Illinois, will form a museum consortium to develop two virtual reality interactive displays (River Pilot Simulator and Digital River Basin) and other web-based activities that focus on the Mississippi River. This group will be known as the Mississippi River Web Museum Consortium. Each museum will end up with both software modules that will lead visitors to the story of the River. The river's local presence will serve as an entry point for the visitors at each museum. The NCSA will contribute their access to and knowledge of powerful computer simulation, scientific visualization, and collaborations technologies that are usually restricted to research settings and rarely available to a museum audience or the general public. The Consortium will also develop a shared site on the WWW that will invite users to engage in guided inquiry that will deepen their understanding of the large, complex, and integrated river system. The science content underlying the project will include river hydrology and geomorphology, life sciences, environmental studies employing geographic information systems, and the physics of motion. The activities will address a number of the National Science Education Standards. Complementary programming linking these activities with formal education include a RiverWeb(tm) Posting Board and a RiverWeb(tm) Classroom Resource Guide.
The Science Museum of Minnesota (SMM) in collaboration with the Illinois State Museum (ISM), the St. Louis Science Center (SLSC), and the National Center for Supercomputing Applications(NCSA) at the University of Illinois in Champaign, Illinois, will form a museum consortium to develop two virtual reality interactive displays (River Pilot Simulator and Digital River Basin) and other web-based activities that focus on the Mississippi River. This group will be known as the Mississippi River Web Museum Consortium. Each museum will end up with both software modules that will lead visitors to the story of the River. The river's local presence will serve as an entry point for the visitors at each museum. The NCSA will contribute their access to and knowledge of powerful computer simulation, scientific visualization, and collaborations technologies that are usually restricted to research settings and rarely available to a museum audience or the general public. The Consortium will also develop a shared site on the WWW that will invite users to engage in guided inquiry that will deepen their understanding of the large, complex, and integrated river system. The science content underlying the project will include river hydrology and geomorphology, life sciences, environmental studies employing geographic information systems, and the physics of motion. The activities will address a number of the National Science Education Standards. Complementary programming linking these activities with formal education include a RiverWeb(tm) Posting Board and a RiverWeb(tm) Classroom Resource Guide.
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
The investigators address a major educational challenge by introducing a novel format and content for science education, (a) building on past successes; (b) combining development and dissemination at a new level; and (c) centered around an interactive planetarium show aimed to inform the public on an emerging scientific discipline and medical field: Tissue Engineering. For achieving a multitude of goals, the investigators propose the establishment of a unique partnership in scientific and medical education, bringing together university researchers, clinical leaders, science center experts, and students, educators and community representatives at all levels. The project is catalyzed by the Pittsburgh Tissue Engineering Initiative, a non-profit organization dedicated to the promotion of tissue engineering and its application to improving people's lives. The main goals fall in three categories, as follows: Education: - To communicate scientific information about the human body (principles of function will be emphasized over specific facts or terminology by focusing on a limited but fundamental set). -To convey the excitement and importance of tissue engineering research. The show will utilize engaging interactive demonstrations of tissue functions and illustrate the medical uses and potential of this field. Innovation: - To enhance the educational experience. The developers will use group-interactive technology as a tool for education by engaging participants as participants in the processing functions of the body. A special visualization/interactivity laboratory will be used where prototype interactive scenarios will be tested using focus groups, consultants and representatives of the target audiences. Dissemination: - To insure national distribution to other planetaria. The presentation system will utilize portable interactive technology (to be developed). It will be deployed to planetaria throughout the country, coordinated by the Association of Science and Techology Centers (ASTC). - To engage the target audience in the development process. Content development will be achieved by a consortium of leading research universities and medical centers, with input from a panel of worldclass experts. Visualization, interactivity and sound technologies will be developed in Pittsburgh, in a unique collaboration between the arts and sciences, based on past successes. Evaluation activities will be extensive, as will the range and targets of the spin-off educational materials. The Carnegie Science Center planetarium itself will serve in achieving group immersive visualization, akin to virtual reality, for improving target audience involvement. The expected outcome is a new way of delivering educational content, and a better understanding of the emerging field of tissue engineering by the general public.
The New York Hall of Science, partnering with biomedical researchers, educators and the Association of Science-Technology Centers, is planning to develop, test, (Phase I) and nationally disseminate (Phase II) a new exhibition titled Molecules and Health. This exhibition will engage middle and high-school students and the general public in inquiry-based learning on the role of molecules in health illness and prevention. The proposed project will be a national model for conveying the molecular basis for health-related sciences, which will be increasing central to research and public understanding in the coming decades. The exhibition will be based upon Marvelous Molecules-the Secret of Life, a permanent exhibition at the Hall of Science, and will include an extensive array of biomedical and health-related exhibits. We will develop pre- and post-visit materials for teachers' use, a family guide through the exhibition, and two Explainer-run demonstrations, as well as a web site to support classroom learning. This exhibition will travel to science centers within the United States through the Association of Science and Technology Centers touring program. We anticipate that 1,000,000 science museum visitors throughout the country will see the Molecules and Health exhibition during the four year dissemination phase. We will share the results of our evaluation and the process of developing this exhibition to the science education field.
The Tech Museum of Innovation and Stanford University School of Medicine Department of Genetics have established longterm partnership to enable the public to draw connections between modern genetics research and choices they face about their health. Together we will develop, produce, evaluate, and disseminate Life's New Frontier, a dynamic exhibition which will inform the public about the goals and methods of modern genetics. Interactive permanent exhibits and guided learning centers, staffed jointly by museum educators and by working scientists (predominantly Stanford graduate students and postdoctoral fellows), will take the public into the minds and laboratories of scientists who are revolutionizing biomedical science. The exhibition and associated public and school programs will emphasize the emerging discipline of bioinformatics, which is fundamental to the Human Genome Project, gene-based diagnosis, rational drug design, and treatment of disease. Life's New Frontier will open in the summer of 2003 to reach an estimated 1.5 million diverse people annually through museum and online visitation. It will set a new standard for the treatment of cutting-edge science in exhibitions by establishing an infrastructure that permits rapid changes to exhibit content, and creating opportunities for visitors to receive personalized science and health updates after their visit. The exhibition also will serve as a platform to foster continuing personal interaction among middle and high school students, Stanford faculty and students, and the general public. The Tech/Stanford partnership will be maintained through staff liaison positions at each partner institution and will be evaluated to assess its effectiveness. We hope to extend this model to other departments at the Stanford University School of Medicine, and to disseminate it as a model for other science center/university partnerships in biomedical sciences. We anticipate significant outcomes of this partnership: the pblic will be better able to apply the ideas of modern genetics to decisions about their health; and a broad range of students from diverse backgrounds will be inspired to pursue biomedical education and research.
JOURNEY TO PLANET EARTH is a new television science series and outreach initiative from Emmy award- winning producers Marilyn and Hal Weiner. With a comprehensive informal and formal education program designed by the Chicago Academy of Sciences, the project will educate and motivate millions of people about the most important health and environmental issues of the 21st century. Against a backdrop of scientific findings illustrating the complexity and fragility of the Earth's natural systems, the series will provide a much needed perspective to help students and the general public understand and cope with the difficulties of developing a global agenda that addresses the health and environmental concerns of the next millennium. JOURNEY TO PLANET EARTH's outreach initiative targets middle-school aged youth in a variety of informal and formal educational contexts, including ten of the country's leading science museums. It is supported by a comprehensive evaluation program and strategic outreach partnerships with organizations such as the North American Association for Environmental Education, the Geological Survey, the International Food Policy Research Institute, the National 4-H, the Department of Agriculture's Classroom Program, the GLOBE Program and AAAS.
The Internet has seen an explosive growth in the past few years, and masses of information on cancer are readily available to anyone with a live connection. Unfortunately, the vast majority of this information is presented in long test passages, with few illustrations and non multi- media elements to increase user interest. Absent are materials that help people appreciate how basic research in cancer genetics is being rapidly translated into new options for diagnosis, treatment and prevention. We seek support to create an extensive WWW site, Inside Cancer, which literally will take people into the workings of the cancer cell and into the laboratories of scientists who are revolutionizing cancer research. Building upon the project staff's strong experience in building multimedia WWW sites, Inside Cancer will make use of the most up-todate technology to merge animation and video into a visually stimulating experience. At the same time, the project draws scientific authority from a world-renowned research institute and advisors who have played important roles in the development of modern cancer research. Five modules will be developed. What is Cancer? quickly answers this and other related questions in short animations and prepares more curious visitors for the next modules. Cancer in the Laboratory features researchers explaining animated sequences of their own experiments, which laid the foundation for understanding cancer at the molecular level. Cancer Causes and Prevention animates the molecular events triggered by carcinogens, such as tobacco smoke and diet and emphasizes how lifestyle changes can reduce cancer risk. In Cancer Diagnosis and Treatment visitors shadow doctors making a cancer diagnosis, showing the connections between cancer cell alterations and new treatment options. Pathways to Cancer takes visitors on a 3-dimensional tour of a cell and its signaling pathways, then allows them to see downstream effects of mutations and their relation to cancer evelopment. As new findings and therapies are discovered, we will update the modules to keep Inside Cancer current.
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TEAM MEMBERS:
David MicklosShirley ChanSusan Lauter
The Self-Reliance Foundation (SRF) requests Phase II support from NIH for the "Hispanic Role Model and Science Education Outreach Project." The project's goal is to develop daily, nationally broadcast, Spanish-language radio programming which encourages the development of science literacy in relation to biomedical research, introduces careers in biomedical research and other health sciences, and provides parents with information on how their children can achieve academic success. In addition, SRF proposes to support further learning through an 800-telephone number outreach service which links listeners with information and local resources, a related Web site with resources and links related to program topics, and a weekly newspaper column. SRF's daily programs reach a cumulative weekly audience of over two million. Through the proposed three year project, SRF can produce 90 short-form (two to five minute) and six one-hour programs on biomedical research, science education, and careers that will reach over two to three million listeners each week in the U.S. and additional listeners throughout the Western Hemisphere. The radio programs are already broadcast daily or weekly on over 100 Spanish-language stations reaching 80% of U.S. Hispanics. The programs will bring listeners the latest information on biomedical findings and how to use this information in everyday life, inspirational interviews with Hispanic biomedical research scientists, and practical information for students and parents on how to pursue careers at all levels in biomedical research fields and the health professions. Through partnerships with the Society for Advancement of Chicanos and Native Americans in Science (SACNAS), the National Coalition of Hispanic Health and Human Services Organizations (COSSMHO), the ASPIRA Association, and other national groups, SRF will identify Hispanic biomedical research scientists and health care practitioners as experts in the development of editorial content of shows and as guests for role model interview shows.
The overall goal of this project is to further develop and test one high-potential current health science research dissemination strategy initially prototyped as part of the SEPA Phase I development of the Museum of Science-s Current Science & Technology Center: updateable interactive digital multimedia displays on current research that can be networked to multiple locations, including science museums, libraries, and student centers. This SEPA project aims to broadly disseminate learning resources on nanomedicine research, capitalizing on the momentum provided by the new NSF-funded Nanoscale Informal Science Education Network (NISE Net), also headquartered at the Museum of Science, Boston, which has plans to place exhibits relating to nanotechnology in 100 museums by 2011. In collaboration with the NISE-Net, the SEPA-funded team will: 1) Research, write, and produce four - six multimedia stories about current nanomedicine research, including elements such as researcher profiles, interpretive animations, interactives exploring the basic science, potential for human benefit, and pathways for further inquiry, 2) Prototype an updateable and networkable software interface and a physical digital display kiosk that can serve audiences in science museums, student centers, libraries, and other public locations, 3) Evaluate the effectiveness of interface and story content and make plans for further development and distribution, and 4) Develop additional content production partnerships with research centers and media.