Ohio's Center of Science and Industry (COSI) in Columbus, Ohio, in association with the Pacific Science Center in Seattle, WA. and the Battelle Memorial Institute will create and circulate a 4,000 square foot traveling exhibition, "Mission to Mars." Interactive exhibit units will be organized into a spacecraft mission simulator. Visitors in teams will run a scientific mission to the planet Mars. Exhibits and simulation activities will cover basic and applied science and mathematics topics appropriate for middle to high school students and family audiences. Educational materials for school use will accompany the exhibition. COSI has a strong reputation for interactive science exhibitions. Their widely acclaimed "Science of Sports" exhibition will be seen in more than 15 cities. The Pacific Science Center has a similar reputation for educational exhibitions and related materials development. Their educational materials on dinosaurs have been widely used by other museums. The Battelle Memorial Institute is a world- renowned research and applied science organization. "Mission to Mars" is supported by commitments from thirteen of America's leading science museums and a major award from Apple Computer Company. The project team will deliver a timely exhibition that will be both engaging and challenging, rich with scientific detail while still appealing to family audiences. "Mission to Mars" will travel to 13 cities on a three year tour, reaching an estimated three to five million people. NSF's 43% of the project cost will be leveraged by more than $878,000 in contributions from the originating institutions, from the displaying museums and from Apple.
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TEAM MEMBERS:
Charles O'ConnorJoseph WisneMichael Stanley
This award provides critical support to continue operating the Public Observatory at the National Air and Space Museum (NASM) beyond the initial two-year period of construction, opening, and initial operation, and to keep it viable until it can become a permanent fully endowed education and public outreach feature on the National Mall.
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.
"Atmospheric Explorations: Participatory, Computer-Based Simulations of the Weather" is a collaborative project of Augsburg College and the Science Museum of Minnesota. The purpose of the project is to enhance the interest and skills of museum visitors and students in science by providing a highly interactive exhibit environmental that allows the users considerable freedom in exploring topics in meteorology relevant to their everydays lives. The exhibits will be designed to accommodate a gender- and racially-diverse audience of national scope.
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TEAM MEMBERS:
William JaspersonDavid VenneJ. Newlin
A Museum-based After-School Program Examining Amphibian Ecology is a partnership between Dr. David Skelly's research lab and the Peabody Museum at Yale University in New Haven, Connecticut. The program will engage 20 middle and 20 high school students from under-represented groups in the New Haven Public Schools in an experiential program focused on science literacy, STEM career awareness and college preparation. The program is based on Dr. Skelly's work on the meta-community dynamics of amphibians and their predators and the scale up from local dynamics to larger spatial scales. This program combines an environment-based research program with an established youth program called "Evolutions." Participants conduct hands-on research activities at Dr. Skelly's Connecticut research site, develop a traveling museum exhibition, host an ecology seminar series, present their work at local schools and produce their own science pod casts. The work of the young people will reach a wider local audience numbering in the thousands with the museum exhibits pod casts and elementary school outreach programs. The project will result in a program tool kit including strategies for setting up these types of partnerships, how to engage families and how to administer the program.
The Seeing Scientifically project will research a new way of supporting museum visitor experiences so they can have authentic scientific observation of live microscopic specimens. By adapting existing computational imaging techniques from current biological research, the project aims to encourage and support visitors in observing scientifically, that is, in asking productive questions, interpreting image-rich information, and making inferences from visual evidence that increasingly characterizes current biological research. The scaffolding (e.g., visual cues or information supporting learning) will consist of a system of virtual guides and prompts that are responsive to what visitors see. The scaffolding prompts will be overlaid on a real time, high-density image of a live sample that the visitor is investigating with a research grade microscope. Project research will contribute early knowledge on ways to scaffold informal learners in the practice of authentic scientific observation with the complex, dynamic visual evidence that scientists themselves see using the equipment and techniques they use. Project research and resources will be widely disseminated to learning science researchers, informal science practitioners, and other interested audiences through publications, conference presentations and sharing of resources via the NSF-supported informalscience.org website and other relevant websites. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. The project will prototype an innovative microscope exhibit that scaffolds visitors in scientific observation of live specimens and their biological processes. The overarching hypothesis is that scientific observation of real-time visual phenomena can deeply engage learners with the content, tools and practices of modern science, which increasingly rely on image-based data. Through three rounds of iterative prototype development and evaluation, the project will generate early findings for the following related questions: (1) what are promising ways of scaffolding observation of live specimens at an unmediated exhibit; (2) How can computational imaging techniques be integrated into a microscope exhibit to engage and scaffold learners to ask productive questions, interpret what they see, and make evidence-based inferences from complex, dynamic images. Data will be collected and analyzed by coding think-aloud interviews with visitors concerning their interest in and description of the biological phenomenon observed; coding of think aloud transcripts of visitor questions types and answers, relevant features noted, inferences and scaffold use; and statistical comparison of holding time, questions asked, answers, inferences, and scaffold use. Project findings will seed more rigorous research on the combination of scaffolding and computational imaging techniques effective for supporting scientific observation in image-rich areas of science.
This project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. This study will contribute to these goals by providing empirical evidence about how and under what circumstances science museums, science centers, and other designed settings for informal science education (ISE) can change so that they will reach more diverse audiences with the full range of their educational activities. This study will deepen understanding of equity norms and practices at ISE organizations, as well as the internal and contextual factors that shape them. The project builds on a unique opportunity provided by the widely known and critically acclaimed exhibition "RACE: Are We So Different?" After traveling to dozens of museums and science centers, and being seen by over three million people, RACE is returning home to the Science Museum of Minnesota (SMM) where it was created. Strand 1 of this study will examine the processes underlying organizational change at SMM as it attempts to use RACE to leverage organization-wide change. In Strand 2, the project team will compare the experiences of ISE organizations around the country that hosted RACE, focusing on the conditions that influence reflection and lead to (or prevent) lasting impact. These two studies will inform the design of Strand 3: a national survey on equity norms and practices, and the potential for equity-related change, in designed settings for ISE. Four research questions guide all project activities: 1)How can such Informal Science Education organizations leverage an unusual event, such as a traveling exhibition, to catalyze and sustain change in their equity-related norms and practices? 2) How and when does the deep reflection required to change entrenched norms and practices manifest itself in ISE organizations that attempt to change their equity norms and practices? 3) What contextual factors support or oppose the achievement and maintenance of organization-wide changes in equity norms and practices? 4) How common are these supportive and opposing conditions in the institutional field of museums and science centers, and how prevalent are different norms and practices related to equity?
Advances in genomics are rapidly increasing our understanding of not only the human body, disease and health-related issues but how humans and other species interact and respond to changing environments. Genomics represents a scientific frontier that connects with individuals and families at the most personal level, with the potential to shape the future of human healthcare. However, advances in genomics and their implications for personalized medicine are far out-pacing public awareness and knowledge. The Connecticut Science Center and the University of Connecticut partnered under a National Science Foundation funded collaboration between Dr. Rachel O'Neill, UCONN, and Dr. Hank Gruner, Connecticut Science Center, and the National Center for Science & Civic Engagement to engage the public in developing a conceptual understanding of genomics.
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TEAM MEMBERS:
Connecticut Science CenterRachel O'NeillHank Gruner
Health care in the United States is expensive and complex, and there are many competing interests that make it an increasing necessity for health care consumers to take an active role to better advocate for themselves and those who are impacted by the decisions that are made. Making effective health care choices requires both science literacy and critical thinking skills to understand and evaluate options. The Weighing the Evidence (tentative title) project team will work with medical experts, researchers, health and medicine journalists, and community partners to improve visitors’ critical analysis skills and ability to review evidence so that they can make informed health care decisions. To meet this goal a traveling exhibition will be developed utilizing a unique collection of historical and contemporary quack medical devices donated to the Science Museum of Minnesota when the Museum of Questionable Medical Devises closed in 2002. While the collection is rich in fun and entertainment, it also offers a multitude of opportunities to reflect on science, society and ethics, skepticism, and objectivity. This collection, along with interactive experiences, theater programs, outreach programming and a companion web site will provide visitors with the tools needed to become more knowledgeable health care consumers.