A new, permanent exhibition at the San Diego Museum of Man will reflect the great scientific strides made in unraveling the mysteries of our uniquely human biology. The exhibit of 7,000 sq. ft. will take visitors on a 65-million year journey through time and even go beyond the present with glimpses of current technologies which will shape the future of human evolution. The exhibit development is being guided by a team of renowned scholars, museum professionals and community members in order to insure that the material is scientifically accurate, current and comprehensive. Evaluation and community input combined with engaging exhibitry will further enhance the informal science learner's experience. The exhibit will be about time, genetics and the environment. Dioramas, casts, artifacts and engaging interactives will convey the storyline. As a result of the development of culture, technology is refined and becomes intertwined with the human evolution. The exhibit will unify and draw together other halls in the museum. Further hands-on discovery will be encouraged in an outdoor archaeological site. Associated programming, which will foster the integration of research and education, will include a lecture series, on-line chats and guidebooks, as well as resources for teachers and students.
Freedom Machines is a one-hour special for public television which will highlight the information about the newest technological advances which support over 54 million Americans with disabilities. Through personal narratives, high-impact storytelling, and a comprehensive public education and outreach campaign, the show will inform viewers about assistive technology (AT) being used, and how it is adapted and designed by people with disabilities. The individuals to be profiled, many of them leaders in science and technological fields, will encourage young people with disabilities to pursue careers in the sciences. Many of the devices and approaches to be featured will also show how valuable these technologies are for the able bodied, general public. The sixty-minute documentary is structured around the themes of Pioneers, Partners and Prophets in order to examine the evolving relationship between technology and the disabled, profile emerging technologies and explore the larger societal implications of this growing phenomenon. A companion website and extensive outreach program will continue the informative material, support and create networks, and promote linkages between viewers, either abled or disabled, and the technology that might benefit them. Technological changes have always been influenced by people with needs beyond the ordinary. This dynamic is even more relevant in today's information age. Freedom Machines will dramatically demonstrate that designing a world of inclusion benefits everyone.
The Fred Friendly Seminars is producing a three-part, prime-time television series about the ethical, legal and social implications of advances in genetic research and technology. The audience for the series is the general public with special emphasis on the scientific and policy-making communities. Each of the programs will begin with a presentation of the basic genetic science linked to a specific ethical and policy issue and then will engage a panel in a Socratic dialogue based on a hypothetical situation related to that issue. The panel will represent a wide range of perspective including scientists, policy makers and people experiencing the dilemmas presenting in the hypothetical situations. Outreach material for the project will be developed by the National Center for Science Literacy, Education and Technology and Exhibition at the American Museum of Natural History. The center will produce a 16-page discussion guide designed for by a variety of informal education organizations that reach the general public. This guide will be available in both print and on the project web site. In addition to the guide, the web site include guidelines about how to use segments of the series as catalysts for discussion, a list of annotated resources on genetics, and a behind-the-scenes look at the genomic research labs of the museum.
The Cornell Theory Center (CTC), the university's high performance computing center, will use a Small Grant for Exploratory Research to develop a prototype online exhibit entitled "Jumping Genes." The goal is to use interactive technologies to design a 3D virtual world that engages young audiences (ages 11 & up) and encourages further exploration. The content of the online exhibit will focus on transposons, small sequences of nucleic acids associated with the rice genome. The rice transposons are thought to play a part in evolution and are currently being studied for potential use in genetic engineering. By experimenting with a variety of open-ended and discrete activities, the CTC will design a multi-user virtual environment (MUVE) that is comparable to exhibits found in science museums in terms of both quality and effectiveness. This final product will be disseminated via SciCentr.org, CTC's virtual science museum, as well as on Activeworlds, an online educational universe for middle and high school students that employs a virtual reality interface.
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TEAM MEMBERS:
Margaret CorbitSusan McCouchWilliam Winn
The Maryland Science Center is developing a large format film project on the inner workings of the human body. The film, to be produced in collaboration with the British Broadcasting Corporation (BBC), SDA of Canada, and the Science Museum of London, will focus on the daily activities of the human body -- the simple yet astonishing things that happen throughout one's body on a single day. Emphasis will be placed on such everyday events as hearing, sneezing, eating, healing, crawling and seeing. It will be complemented by a range of ancillary educational materials including teachers' guides, a web site, and a small exhibit for placement in theater lobbies. The co-Executive Producers for the project are James O'Leary and Greg Andorfer, both from the Maryland Science Center; Richard Dale from the British Broadcasting System; Alison Roden from the Science Museum of London; and Andre Picard of SDA Productions. Michael Ackerman, Assistant Director for High Performance Computing and Communications at the National Library of Medicine of the NIH, and Lord Robert Winston, Professor of Reproductive Medicine at London's Imperial College, will be the project's principal advisors. Other advisors include: Harry Chugani, Neurochemistry, Henry Ford Hospital, Detroit; Susan Greenfield, Neuropharmacology, Oxford University, London; Chris Firth, Wellcome Institute of Cognitive Neurology, London; Michael Preece, Institute of Child Health, University College, London; John B. West, School of Medicine, University of California, San Diego; and Scott Frazer, Head of Biological Imaging, California Institute of Technology, Pasadena.
The Educational Broadcasting Corporation (WNET in New York) is developing and producing a new public television project exploring cutting-edge technology. The project consists of an eight-part hourly broadcast component; six 60-second "mini-programs;" a World Wide Web component; and extensive educational outreach targeted to adults aged 25-39 and older. The topics for the eight programs in season one are: Replacements - prosthetic devices and biologically electronic artificial body parts In Search of Eve - the race to decode the human genome Light of the 21st Century - Fiber Optics Nanotechnology - molecular manipulation of materials Technospy - technologies used to gain information Sports Technology - the pursuit of better equipment and training regimes Artificial Intelligence - efforts to create computers the mimic human intelligence Appropriate Technologies - technologies that use local, inexpensive material Beth Hoppe, WNET's Director of Science Programs will serve as Executive Producer for the series. Each of the programs would be produced by an independent producer selected by WNET. Content advisors include: Angela Christiano, Departments of Dermatology, Genetics and Development, Columbia University; Sheila Sen Jasanoff, Harvard University JFK School of Government; Horace Freeland Judson, Center for History of Recent Science, George Washington University; Michio Kaku, theoretical physicist, CUNY and host, Explorations radio series; Wilfred Pinfold, Microprocessor Research Labs, Intel Corp.; and Barbara Wilson, chief technologist, NASA's Jet Propulsion Laboratory
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TEAM MEMBERS:
Beth HoppeTamara RobinsonWilliam GrantBarbara Flagg
The Science Museum of Minnesota (SMM) requests a grant from the National Center for Research Resources through the SEPA program to develop and evaluate a model biomedical science education partnership program in collaboration with the University of Minnesota's Cancer Center, Medical School, School of Public Health, and College of Veterinary Medicine. The museum will work with 19 researchers at the University to develop a multifaceted exhibition and presentation program focusing on the importance of human tissues in biological development, function, and disease. The 1500-square-foot exhibition, to be located in SMM's new Human Body Gallery, will consist of an introduction to tissues and four topical exhibit clusters. Each topic was chosen because it tells a fascinating story of how the human body works and because it represents an important current NIH research focus in health and medicine. The exhibits will emphasize the importance of understanding how tissue function and viability leads to advances in detection, treatment, and curing different diseases. The exhibits closely support the National Science Education Standards Content Standards for Life Science for grades 5-9 (representing the majority of school field trip visitors to the museum.) A complimentary presentation/outreach program will involve NIH-supported researchers in three programs designed to increase public understanding of basic biomedical science, the causes and cures for disease, and the goals and achievements of biomedical research. A Visiting Scientists Program will feature scientists in the museum presenting programs and demonstrations related to their research interests. A Scientist Mentor Program will involve scientists closely with a diverse team of high-school aged youth to develop ongoing demonstrations and community outreach programs. A Dramatic Presentation will bring home to museum visitors the wider ethical and philosophical dimensions of tissue research.
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.
This Phase I SEPA proposal supports a consortium of science and education partners that will develop System Dynamics (SD) computer models to illustrate basic health science concepts. The consortium includes Oregon Health Sciences University (OHSU), Portland Public Schools (PPS), Saturday Academy, and the Portland VA Medical Center. SD is a computer modeling technique in which diagrams illustrate system structure and simulations illustrate system behavior. Desktop computers and commercial software packages allow SD to be applied with considerable success in K-12 education. NSF grants to Portland Public Schools have trained over 225 high school teachers in Portland and surrounding areas. Two magnet programs have been established with an emphasis on systems and at least five other schools offer significant systems curriculum. Major components of this project include (1) Annual summer research internships at OHSU for high school teachers and high school students, (2) Development of SD models relevant to each research project, (3) Ongoing interactions between high school science programs and OHSU research laboratories, (4) Development of curriculum materials to augment the use of the SD model in the high school classroom or laboratory setting, and (5) Development of video materials to support the classroom teacher. Content will focus on four fundamental models: linear input/exponential output, bi-molecular binding (association/dissociation), population dynamics, and homeostasis. Each of these models is very rich and may be extended to a broad variety of research problems. In addition these models may be combined, for example to illustrate the effect of drugs (binding model) on blood pressure (homeostasis model). System Dynamics is an exemplary tool for the development of materials consistent with National Science Education Standards. SD was specifically developed to emphasize interactions among system structure, organization, and behavior. Students use these material as part of inquiry-based science programs in which the teacher serves as a guide and facilitator rather than the primary source of all content information; technical writing by students is also encouraged. Finally, these SD materials will provide a coherent body of work to guide the ongoing professional development of the classroom science teacher.
The Nature of Aging project presents the biology of senescence to families and K-12 students through interactive exhibits and museum experiences. Senescence is perhaps the most complex and least understood biological process, yet it is also a universal experience marked by signs we all recognize. Aging has great relevance in the twenty-first century as medical advances and demographic shifts accelerate the growth of our elder population, and scientific research narrows in on the central mysteries of the aging process. In partnership with the Center for Healthy Aging at the Oregon Health and Science University (OHSU) and national experts in gerontology research and education, the Nature of Aging project has produced a 2,500-square-foot permanent exhibition, Amazing Feats of Aging, which opened in OMSI-s Life Science Hall in May 2003. A duplicate 2,500 traveling exhibition was also produced and began its national tour in June 2004. The proposed eight-year tour to an average of three venues per year is funded by exhibition rental fees and significantly extends the life and audience of the project. Visitors to the Amazing Feats of Aging exhibition explore comparative aging across the animal kingdom, healthy aging, and the aging of the brain. The exhibition is intended for a family audience, and activities are designed to foster intergenerational interaction. The exhibit experience is enriched by a series of educational materials and programs including a teachers- guide, an interactive website, demonstrations, and activities in OMSI-s Life Science Lab. The Amazing Feats of Aging exhibition was made possible by the contribution of expertise, photographs, video footage, software, prepared slides and specimens from scientists and researchers across the country, including: Aging Concerns, Florida Fish and Wildlife Conservation Commission, OHSU, Oregon Department of Fish and Wildlife, National Institute on Aging, Oregon Zoo, Portland State University, University ofCalifornia, San Francisco, University of Colorado, Boulder, University of Idaho, University of Illinois at Urbana-Champaign, University of Virginia, and Washington State University.
The Children's Museum of Houston (CMH) and Baylor College of Medicine (BCM) collaborated to create and travel a museum exhibit on children's environmental health for a target audience of children 5-10, their parents, caregivers, and teachers. My Home Planet Earth (MHPE) is based on the NIH-funded, interdisciplinary My Health My World educational program developed at BCM and disseminated nationally through Carolina Biological Supply. The aims of the project are to: (1) expand understanding by children (ages 5-10) and their caregivers of the health consequences of human induced changes in the environment and increase their abilities to make healthful decisions through informal self-directed activities in a museum setting; (2) encourage linkages between formal and informal education settings by providing a model for connecting classroom-based curricula to museum-based exhibits and informal learning programs, based on the My Health My World educational materials and the My Home Planet Earth exhibit and support programs; (3) help parents provide additional environmental health-related informal learning experiences for their children, and promote awareness of science and health careers; and (4) partner scientists and educators in the creation of a model environmental health sciences exhibit and support program for the field of family-centered informal learning. The exhibit and support programs are in the process of touring 18 youth museums, science centers and health museums over six years of travel (2002-2008). An estimated 1.5 million visitors will participate in the project by the end of the tour in 2008. In addition to these visitors, 1,000 families will participate in MHPE Family Learning Events, 9,000 teachers will be introduced to the My Health My World curriculum-360 of whom will participate in a day long MHMW workshop, 36 scientists will partner with host museums to enhance the learning and community impact of the project, and 180,000 children will visit the xhibit during a school field experience.
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.