My Sky is a joint project between Boston Children’s Museum (BCM) and the Smithsonian Astrophysical Observatory (SAO). This three-year project was supported by NASA’s NRA/ROSES 2011 (NNX12AB91G) program, and resulted in the creation of My Sky, a 1,500 sq. ft. traveling astronomy exhibit designed for adults and children, ages 5 – 10. My Sky emphasizes authentic experiences that encourage the development of skills and content foundational to later appreciation and understanding of astronomical science. My Sky includes interactive explorations of objects and phenomena visible in the sky, encouraging families to “look up” not only when they visit the exhibit, but as a practice they might adopt in their everyday lives. This is all punctuated by real NASA data and assets, including a 5’ diameter model Moon created using the latest Lunar Reconnaissance Orbiter measurements; and high-resolution images from NASA’s Solar Dynamics Observatory satellite. This project also developed a series of public programs, museum staff training programs, and family workshops, all utilizing NASA resources and existing curriculum.
In this article, Michael John Gorman, founding director of Science Gallery at Trinity College Dublin, Ireland, examines the recent emergence of many museum exhibits that meld art and science together to foster creative exploration of science rather than instruction. As an exemplar, Gorman discusses the design of Science Gallery, their "INFECTIOUS" project, and lessons learned.
In this article, science center and museum professionals from around the world share ways that they are engaging visitors in hands-on innovation. Work from the following organizations are discussed: Exploratorium, Discovery Center of Idaho, Lawrence Hall of Science, Iridescent, Conner Prairie Interactive History Park, Ideum, Discovery Place, Ontario Science Centre, Bootheel Youth Museum, Science Centre Singapore, Children's Museum of Phoenix, Discovery Museums (Acton, MA), Discovery Center of Springfield, Missouri, Museum of Science, Boston, Questacon--The National Science and Technology
This pathways project will study how audiences in public spaces, in this case those in a museum setting, relate to and make sense of large data displays. The project is preliminary to development of a traveling, hands-on exhibition enabling users to create and utilize representations of big data displays such as maps and charts. As the test case, the project will use science maps that provide an overview of science generally and specific areas of STEM, charting and exploring the history and future of science and technology. The data collection portion of the project will take place at the New York Hall of Science, the Marian Koshland Science Museum, COSI in Columbus, Ohio, and WonderLab Museum in Bloomington, Indiana. The project will create a foundation for the design of museum exhibits and educational programs that teach museum visitors how to explore, engage and make better sense of big data. The project is potentially transformative because big data is becoming ubiquitous and making sense out of large data displays is necessary in order to understand big data sets.
Living Liquid will identify strategies for creating visualization tools that can actively engage the public with emerging research about the ocean's microbes and their impact on our planet. It addresses a critical issue for the ISE field: creating ways for visitors to ask and answer their own questions about emerging areas of science with visualizations. This Pathway project will provide important lessons learned for a future full-scale development project at the Exploratorium's new location over San Francisco Bay, and for informal science educators and other professionals working to create interactive visualization tools using the vast data sets now available. Living Liquid is a collaboration between developers, educators and learning researchers at the Exploratorium, computer scientists at the Visualization Interface and Design Innovation Group at UC Davis, and marine scientists at the Center for Microbial Oceanography Research and Education. The project's research and development process includes a front-end study of visitors' interests and prior knowledge related to ocean microbes, interviews with scientists to identify potential datasets and activities, a survey of candidate visualizations, and a series of prototypes to identify promising strategies to engage visitors with and allow visitors to explore large scientific datasets through visualization tools.
The Oregon Museum of Science and Industry is implementing a Pathways project that will test and refine a model to promote an appreciation that science is everywhere and personally relevant by engaging transit riders in Portland, OR with location-relevant STEM content through unfacilitated, interactive science exhibits in everyday places. The study will employ a "design-based research" approach that both iteratively tests exhibit effectiveness and develops and refines an underlyting theoretical model that can contribute knowledge to the field. The "Science on the Move" model will be developed and tested using an exhibit prototype that includes 1) an easily transportable prototype core with a familiar touch-screen interface, 2) multiple sets of interactive digital content, and 3) a variety of accompanying outer skins designed to attract the public. The exhibit prototype will be placed at bus transit nodes to reach adults, specifically targeting those without college degrees who are underrepresented in science centers. A range of possible STEM content domains will be selected and tested based on topics of interest to the public. If successful, given the several challenges involved, the feasibility study will be applied more fully around Portland and be a model for other cities to consider.
The University of California, Davis Tahoe Environmental Research Center (TERC), UC Davis W.M. Keck Center for Active Visualization in the Earth Sciences (KeckCAVES), ECHO Lake Aquarium and Science Center (ECHO), UC Berkeley Lawrence Hall of Science (LHS), and the Institute for Learning Innovation (ILI) will study how 3-D visualizations can most effectively be used to improve general public understanding of freshwater lake ecosystems and Earth science processes through the use of immersive three-dimensional (3-D) visualizations of lake and watershed processes, supplemented by tabletop science activity stations. Two iconic lakes will be the focus of this study: Lake Tahoe in California and Nevada, and Lake Champlain in Vermont and New York, with products readily transferable to other freshwater systems and education venues. The PI will aggregate and share knowledge about how to effectively utilize 3-D technologies and scientific data to support learning from immersive 3-D visualizations, and how other hands-on materials can be combined to most effectively support visitor learning about physical, biological and geochemical processes and systems. The project will be structured to iteratively test, design, and implement 3-D visualizations in both concurrent and staggered development. The public will be engaged in the science behind water quality and ecosystem health; lake formation; lake foodwebs; weather and climate; and the role and impact of people on the ecosystem. A suite of publicly available learning resources will be designed and developed on freshwater ecosystems, including immersive 3-D visualizations; portable science stations with multimedia; a facilitator's guide for docent training; and a Developer's Manual to allow future informal science education venues. Project partners are organized into five teams: 1) Content Preparation and Review: prepare and author content including writing of storyboards, narratives, and activities; 2) 3-D Scientific Visualizations: create visualization products using spatial data; 3) Science Station: plan, design, and produce hands-on materials; 4) Website and Multimedia: produce a dissemination strategy for professional and public audiences; 4) Evaluation: conduct front-end, formative, and summative evaluation of both the 3-D visualizations and science activity stations. The summative evaluation will utilize a mixed methods approach, using both qualitative and quantitative methods, and will include focus groups, semi-structured interviews, web surveys, and in-depth interviews. Leveraging 3-D tools, high-quality visual displays, hands-on activities, and multimedia resources, university-based scientists will work collaboratively with informal science education professionals to extend the project's reach and impact to an audience of 400,000 visitors, including families, youth, school field trip groups, and tourists. The project will implement, evaluate, and disseminate knowledge of how 3-D visualizations and technologies can be designed and configured to effectively support visitor engagement and learning about physical, biological and geochemical processes and systems, and will evaluate how these technologies can be transferred more broadly to other informal science venues and schools for future career and workforce development in these critical STEM areas.
Researchers at the American Association of Variable Star Observers, the Living Laboratory at the Boston Museum of Science, and the Adler Planetarium are studying stereoscopic (three-dimensional or 3D) visualizations so that this emerging viewing technology has an empirical basis upon which educators can build more effective informal learning experiences that promote learning and interest in science by the public. The project's research questions are: How do viewers perceive 3D visualizations compared to 2D visualizations? What do viewers learn about highly spatial scientific concepts embedded in 3D compared to 2D visualizations? How are viewers\' perceptions and learning associated with individual characteristics such as age, gender, and spatial cognition ability? Project personnel are conducting randomized, experimental mixed-methods research studies on 400 children and 1,000 adults in museum settings to compare their cognitive processing and learning after viewing two-dimensional and three-dimensional static and dynamic images of astronomical objects such as colliding galaxies. An independent evaluator is (1) collecting data on museum workers' and visitors' perceived value of 3D viewing technology within museums and planetariums and (2) establishing a preliminary collection of best practices for using 3D viewing technology based on input from museum staff and visitors, and technology creators. Spatial thinking is important for learning many domains of science. The findings produced by the Two Eyes, 3D project will researchers' understanding about the advantages and disadvantages of using stereoscopic technology to promote learning of highly spatial science concepts. The findings will help educators teach science in stereoscopic ways that mitigate problems associated with using traditional 2D materials for teaching spatial concepts and processes in a variety of educational settings and science content areas, including astronomy.
This presentation outlines the front-end and formative evaluation of the redesigned Ancient Worlds Gallery at the Milwaukee Public Museum (MPM), set to open in the spring of 2015. The gallery will contain artifacts, props, and interactives pertaining to ancient Near Eastern, Egyptian, Greek, and Roman cultures. The previous MPM exhibition featuring these civilizations was presented chronologically; for this new gallery, six themes have been selected to guide the visitor experience: construction, communion, community, communication, commerce, and conflict. When affiliated with the Institute for
Creating Museum Media for Everyone (CMME) is a proof-of-concept collaborative project between the Museum of Science (MOS) in Boston, WGBH's National Center for Accessible Media (NCAM) and Ideum (Funded by NSF-DRL, award number 1114549). The project aims to show how digital interactive museum exhibit devices can be designed and developed for visitors who have a wide range of disabilities. Current deliverables include two exemplar exhibition components in which museum visitors will learn STEM concepts by manipulating and analyzing real data. To create these deliverables, CMME utilized an
This multiplatform media and science center project is designed to engage audiences in humanity's deepest questions like the nature of love, reality, time and death in both scientific and humanistic terms. Project deliverables include 5 hour-long radio programs for broadcast on NPR stations, public events/museum exhibits at the Exploratorium in San Francisco, kiosks in venues throughout the city, and a social media engagement campaign. The audience of the project is large and diverse using mass media and the internet. But the project will specifically target young, online, and minority audiences using various strategies. The project is designed to help a diverse audience understand the impact of new scientific developments as well as the basic science, technology, engineering and math needed to be responsible, informed citizens. Innovative elements of the project include the unique format of the radio programs that explore complex topics in an engaging and compelling way, the visitor engagement strategy at the Exploratorium, and the social media strategy that reaches niche audiences who might never listen to the radio broadcasts, but find the podcasts and blogs engaging. The Exploratorium will be opening a new building in 2013 and will include exhibits and programs that are testing grounds for this project. This is a new model that aligns the radio content with exhibitions, social media, and in person events at the Exploratorium, providing a unique holistic approach. The project is designed to inspire people to think and talk about science and want to find out more. The evaluation will measure the impacts on the targeted audiences reached by each of the key delivery methods. Data will be collected using focus groups; intercept interviews with people in public places, and longitudinal panels. The focus will be on 5 targeted audiences (young adults, families with children, non-NPR listeners, underrepresented minorities, and adults without college experience). This comprehensive evaluation will likely contribute important knowledge to the field based on this multiple-platform collaborative model.
This Pathways project focuses on research that explores diverse family visitors' engagement with and thinking about science as they experience exhibits at the Museum of Science, Boston. The research team will work closely with museum staff on the implementation of three studies during which they will systematically investigate the arc of visitors' engagement (cognitive, emotional, and physical) as the visitors experience a range of exhibits. The team will also describe how visitors' engagement relates to their thinking about science concepts. The project team uses a mix of data collection and analysis methods, including self-report measures and physiological data along with the tracking of visitor behavior to understand and articulate engagement, along with information on learners' thinking about scientific concepts and demographic information. This project will advance the ISE field by offering findings about engagement that account for the applied and complex nature of the museum setting. The research team will be able to help the ISE field move forward in terms of building theoretical understanding about engagement and offering potential lines of inquiry for future research. The results can also be used to inform exhibit and programmatic design as well as how family learning in museums is evaluated.
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TEAM MEMBERS:
Gabrielle Rappolt-SchlictmannChristine ReichSamantha Daley