Some of the most intriguing science museum exhibits start with a counter-intuitive outcome, a result that runs counter to visitors' expectations. Although counter-intuitive events often succeed in captivating visitors, they rarely lead to visitor-driven inquiry. The author argues that this is primarily due to two factors: first, for the counter-intuitive effect to be presented reliably and repeatedly, the visitor's interaction must be limited to a narrow set of options. Without multiple options for visitors to explore, extended inquiry is nearly impossible. Second, counter-intuitive outcomes
The New York Hall of Science (NYHOS), in partnership with the University of Michigan (UM), the Miami Museum of Science (MMOS), the National Evolutionary Synthesis Center (NESCent), and a broad group of Science and Museum Advisors, requests $1,349,349 over five years for a combined Phase I and Phase II NIH SEPA grant to develop, test and travel a new hands-on science exhibition on the subjects of natural selection and human health. With the working title "Evolution and Health," the 1000-square-foot interactive traveling exhibition will engage middle and high-school students, educators and the general public in inquiry-based learning on the role of evolution and natural selection in explanations of health, illness, prevention, and treatment. In addition, teacher development programs and online activities focusing on health issues seen from an evolutionary perspective will be developed by the NYHOS Education staff and disseminated along with the exhibition on its national tour. The project will address the relationship between health and natural selection; while there are many museum exhibitions on health, this will be only one of two to take an evolutionary perspective, and the only one to explore the relationship between health and natural selection. Ultimately, "Evolution and Health" will become a national model for conveying an evolutionary understanding of health, which will be increasingly central to research and public understanding in the coming years. "Evolution and Health" will increase visitors' comprehension of their own health issues by fostering a better understanding of evolution and natural selection. The project will seek to determine whether employing the perspective of natural selection can lead to a deeper understanding of human health.
With NCRR SEPA Phase I funding, the Exploratorium developed a microscope imaging station (MIS) for public use in the museum. At this facility, visitors explore living things using research-grade equipment. For visitors, microscopes and images are engagement points for learning more about basic biology, biomedical research, and human health. With SEPA Phase II funding, the Exploratorium proposes to use the infrastructure and educational approach developed in Phase I to: (1) Create a wider, more comprehensive array of biomedically relevant, image-based materials-including still and time-lapse images, movies, and teaching activities; and (2) Disseminate these to students, teachers, museum visitors, the broader public, and other science centers. The Exploratorium will collaborate with biomedical researchers to generate high-resolution images and plan public programs. Material from these collaborations will be on current biomedical topics. Planned dissemination activities include eight "Meet the Scientist and Learn about Their Research" public programs; Saturday teacher workshops; development of multimedia exhibit content for museum display; development of web content for the MIS site; creation of image-based teacher activities; inclusion of images, movies, and activities in established web-based teacher resources (as well as new resources for high-bandwidth Internet2 application). Materials will be free to other educational institutions. Using these dissemination strategies, the Exploratorium expects to attract and engage well over 1 million visitors annually.
The Marian Koshland Science Museum will produce a 1,500-square-foot exhibit on infectious disease aimed at a teen and adult audience. The exhibit will focus on three concepts: (1) How infectious disease affects individuals, society, and the environment; (2) What actions can be taken to modify the impact of infectious disease; and (3) What benefits and consequences there are to both action and inaction. These concepts will be explained using interactive displays, with emphasis on the use of current science and science-based decision support tools. The Koshland will develop public programs, educational materials aimed at grades 7-12, hands-on science activities, and audio and video guides to support the exhibit. An exhibit on infectious disease is relevant because of the continuing burden and increasing threat of disease worldwide. A greater understanding of recent scientific advances will help the public make decisions about their health and the health of their community.
Working in collaboration with biomedical researchers from universities in the San Francisco area, across the nation, and abroad, the Exploratorium proposes to develop a high-quality microscopic imaging station for use by museum visitors, students, teachers and Internet visitors. This facility will utilize the highest quality optics and state-of-the-art microscopic techniques including biological staining and sophisticated digital recording. A variety of living specimens fundamental to basic biology, human development, the human genome and health-related research will be displayed. The station will be the lively center of the life sciences' area at the Exploratorium, providing educational content, dramatic imagery and regular demonstrations to reach an audience which ranges from the mildly curious to research scientists. In addition, the Exploratorium will be the first public institution, outside of a few research laboratories, to present live microscopic specimens via video and the Internet in real time. (To date, remote microscopes have generally presented inanimate objects or fixed tissue.) In order to increase student accessibility, subject matter for the imaging station will be integrated into the ongoing middle and high school teacher professional development at the museum. Teachers will be able to use the imaging station to conduct their own experiments, develop classroom explorations, take away images, access the website in their classrooms, or share materials with other teachers.
The Maryland Science Center, in cooperation with the Johns Hopkins Medical Institutions (JHMI) and the University of Maryland, Baltimore, developed and produced BodyLink, a unique health sciences update center. The group did so with support from the National Institutes of Health SEPA (Science Education Partnership Award) Program, BodyLink, which is modeled after the Maryland Science Center's praised SpaceLink space science update center, will make today's medical and health news clear and relevant for visitors, young and old. Science and technology centers have long struggled with ways to acquaint visitors with the latest and greatest discoveries in health and biomedical science, and to interpret the significance of these findings for all ages. Museums can no longer be content with presenting only basic science, and need to expand their role as public communicators of science by presenting cutting-edge research, and by interpreting and explaining this information for visitors. BodyLink is a 1,500-square foot multimedia center where visitors can discover and appreciate the wonders of cutting-edge medical research (basic research, as well as clinical research) through interactive exhibits, stunning imagery, and facilitated demonstrations in a multimedia driven programmable space. BodyLink also includes WetLab, an open-access microbiology laboratory facility that allows visitors to conduct scientific investigations using state-of-the art research technology. Visitors can extract DNA from wheat germ, test common anti-microbial products on live bacteria, and learn Gram staining techniques, among other activities. Bodying will further serve school groups, general museum visitors, and remote-learning participants through the interactive website. BodyLink also incorporates an internship program for graduate students from the Maryland Science Center's collaborating universities. These internships give the graduate students an opportunity to interact with the general public to enhance their scientific communication skills and give them first-hand experience with investigating public understanding of scientific research.
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TEAM MEMBERS:
Roberta CooksTonya Matthews
resourceevaluationMuseum and Science Center Programs
This annual report presents an overview of Saint Louis Science Center audience data gathered through a variety of evaluation studies conducted during 2014. This report includes information on the Science Center's general public audience demographics and visitation patterns, gives an overview of visitors' comments about their Science Center experience, summarizes major trends observed in the Science Center's tool for tracking educational programs, and presents highlights from front-end evaluations of a new exhibit about the Mars rovers.
Life on Earth is interactive software installed as a museum touchtable exhibit that uses data about over seventy thousand (70,000) species from several databases to help visitors explore and deepen their understanding of biodiversity, evolution and common ancestry, and the history of life on earth (DeepTree/ FloTree). Some installations also include a smaller exhibit that poses puzzle challenges about evolutionary relationships among species (Build-a-Tree (BAT)). The exhibit was installed at four natural history museums across the U.S. – the Harvard Museum of Natural History (Cambridge, MA)
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TEAM MEMBERS:
Harvard UnivesityJim HammermanAmy SpiegelJonathan Christiansen
Interactive surfaces are increasingly common in museums and other informal learning environments where they are seen as a medium for promoting social engagement. However, despite their increasing prevalence, we know very little about factors that contribute to collaboration and learning around interactive surfaces. In this paper we present analyses of visitor engagement around several multi-touch tabletop science exhibits. Observations of 629 visitors were collected through two widely used techniques: video study and shadowing. We make four contributions: 1) we present an algorithm for
In 2010 the Royal Society journal Biology Letters published an article, ‘Blackawton bees’, which caused something of a sensation: the findings, on bees’ foraging patterns, were original, but the true originality lay in the fact the experiments were in part devised, and the paper written, by a group of 8- to 10-year-old children at Blackawton Primary School in Devon (Blackawton et al., 2011).[1] The article attracted considerable media attention, troubling, as it did, the boundaries of professional science, and distinctions between scientific practice and education, not to mention the
This paper examines the approach of a major new gallery on information and communication technologies in the Science Museum, situating it in the context of current ideas around the history of technology and exploring the way the curatorial team addressed the challenges of display and interpretation. As a short discussion piece it looks at four broad questions: How has the concept of information, and more importantly an ‘Information Age’ been conceived across differing disciplines? What opportunities can user focused histories present to a gallery on information and communication technologies
When exchange telephony was first marketed to the British public by the early telephone companies in the late nineteenth century it was as an intuitive technology requiring no specialist knowledge or training. This has gone unquestioned in subsequent telephone historiography but, as this article demonstrates, telephone instruments and systems were not always unproblematic or easy to use. Whilst other scholars have discussed important factors in the development and uptake of telephony, such as business economics and intellectual property, this article focuses on usage, and argues that