The art/science nexus has historically been approached through a challenge of aesthetics versus mathematics, and processes of knowledge production. Notably absent in this debate are the social sciences that explore human experience and perception. In particular, what has not been addressed clearly in the literature is how reasoning about the human experience can be provoked when people encounter content that does not assert itself as neatly defined in either an art or science discourse. By reflecting on one case study of a public art/science installation, we explore new fields of knowledge
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TEAM MEMBERS:
John FraserFiona MacDonaldNezam Ardalan
Since its completion in 1937, the Golden Gate Bridge has become one of the world’s most recognized landmarks as both an iconic public works accomplishment and a popular tourist destination. In 2008, the National Science Foundation (NSF) awarded a $3 million grant to the Golden Gate Bridge Highway & Transportation District to leverage this status in developing informal education resources to interpret the science, engineering and history of the bridge. Through this initiative the Golden Gate Bridge would become a model for other public works venues for providing informal science education and
The Arboretum at Flagstaff will design build and evaluate three outdoor kiosks for the "Interactive STEM Learning Center" (I-STEM), which will engage students and general audiences in the science, technology, engineering, and mathematics of real-time climate change research, interpretation, and mitigation. The kiosks will help the arboretum raise awareness about climate change, connect people to on-the-ground scientific investigation, teach students and teachers, and de-mythologize a politicized issue. The project will create a local resource for learning about climate change impacts and mitigation practices that are place-based and more readily accepted.
The New York Botanical Garden (NYBG) will plan, implement, and evaluate educational programming for its upcoming garden-wide exhibition, "Frida Kahlo's Garden." The programming and interpretation will create an immersive, compelling, interdisciplinary learning experience that merges arts, humanities, and science themes. Programming will celebrate Mexican culture, immersing visitors in the music, dance, food, and fashion that influenced Kahlo and continues to inspire people today. Through the exhibit and programming, visitors will gain insight into the impact of Kahlo's interest in the natural world on her artwork; understand the continuing impact of Mexican nature, nationalism, and intellectual history on arts and culture; and make personal connections between art, nature, and their own lives. The project will also provide a model for other botanical gardens to use to create interdisciplinary exhibitions.
The Wild Center will design and implement an innovative learning experience through new installations on Wild Walk, an elevated walkway that runs through the Adirondack forest. The museum will also design and lead interpretive training for staff, interns and volunteers, and draft and test interpretive programs. Exhibits will include a thirty-foot-high rope net "Spiders Web" suspended above the ground; "Squirrel Run," a series of suspended bridges that lead from the main walk; a two-story Tree House which will house multiple exhibits on wildlife and people-nature relationships; and a model Tree Snag that is 40 feet high and 12 feet in diameter. The museum aims to enhance audiences' understanding of STEM (Science, Technology, Engineering and Math) concepts through dynamic learning experiences and interactive exhibits offered through an elevated view of the forest. The learning experiences and resources will foster an appreciation of being active in nature and promote the philosophy that spending time outdoors is a valuable part of our lives.
John J. Tyler Arboretum will develop visitor programming that will provide educational opportunities in its Edible Garden Center focused on the benefits of growing and eating fresh fruits and vegetables. The center will include a food gardening exhibit that addresses urban gardening issues such as raised beds, container gardens, rooftop gardening, holistic sustainable gardening practices and technologies, and traditional vegetable gardening techniques. Cooking demonstrations, healthy eating programs, and dedicated gardening activities will allow for hands-on learning about health and sustainability. The garden will also include a play space for children, art performances and art installations to create a visitor experience that is dynamic, educational and forward-thinking.
The Strybing Arboretum and Botanical Gardens will link and integrate its digital geographic information system (GIS) to its plant collections database, making possible the creation of GIS-derived applications that will ultimately impact all areas of the museum's operations. Following the system integration, the institution will develop applications and train staff members on how to develop GIS-derived applications tailored to enhance the learning experiences of visitors and program participants. The integrated database will serve as a resource that will positively impact learning experiences for the gardeners who maintain the plant collections, visitors to the garden, participants in education programs, and people accessing information online. The project will also help demonstrate the potential of spatial data to benefit collections-management activities and public programming.
The United States Botanic Garden (USBG) contracted RK&A to explore visitors’ interest in and understanding of the design and interpretation presented in four conservatory rooms—Rare and Endangered Species, Plant Adaptations, Medicinal Plants, and Garden Primeval. Two rooms were quite small and the other two rooms were larger. Each room was designed to support a theme and included a variety of signage to support the theme (e.g., plant ID signs, ephemeral signs, thematic signs). Findings from this study will be used in part to inform a new interpretive strategy for the Garden. How did we
The United States Botanic Garden (USBG) contracted RK&A to explore visitors’ interest in and understanding of proposed “Context Clues.” A Context Clue is an interpretive strategy that uses images, product samples or other objects, and interpretive text to assist visitors in connecting to the big idea: plants are important to people. How did we approach this study? The overall purpose of the evaluation was to determine how to best use Context Clues to communicate the relationship between plants and people. Therefore, RK&A interviewed 40 walk-in visitors who experienced three Context Clues in
From May 16 through October 26, 2015, The New York Botanical Garden will present the first solo exhibition on Frida Kahlo to be mounted in New York City in more than 25 years. This institution-wide exhibition aims to uncover new motivations for Kahlo’s work by focusing attention on the importance of plants and nature in both her painting and her life. As one of the world’s premier botanical gardens, NYBG is uniquely qualified to present the first exhibition to focus on Kahlo’s engagement with nature, revealing her intense interest, aesthetic appreciation, and deep knowledge of the natural world, especially Mexico’s plant life.
This Partnerships for Innovation: Building Innovation Capacity (PFI:BIC) project from the University of New Hampshire focuses on a "living bridge", which exemplifies the future of smart, sustainable, user-centered transportation infrastructure. Bridges deliver such a fundamental service to society that they are often taken for granted. Typically, bridges only stir the public's interest when they must unexpectedly be replaced at great cost, or, worse, fail. The Living Bridge project will create a self-diagnosing, self-reporting "smart bridge" powered by a local renewable energy source, tidal energy, by transforming the landmark Memorial Bridge--a vertical lift bridge over the tidal Piscataqua River, with pedestrian access connecting Portsmouth, New Hampshire to Kittery, Maine--into a living laboratory for researchers, engineers, scientists, and the community at large. The Living Bridge will engage innovators in sensor and renewable energy technology by creating an incubator platform on a working bridge, from which researchers can field test and evaluate the impact and effectiveness of emerging technologies. The Living Bridge will also serve as a community platform to educate citizens about innovations occurring at the site and in the region, and about how incorporating renewable energy into bridge design can lead to a sustainable transportation infrastructure with impact far beyond the region. Sustainable, smart bridges are key elements in developing a successful infrastructure system. To advance the state of smart service systems and clean energy conversion, this project team will design and deploy a structural and environmental monitoring system that provides information for bridge condition assessment, traffic management, and environmental stewardship; advances renewable energy technology application; and excites the general public about bridge innovations. This PFI:BIC project is enabled through partnerships between academic researchers with expertise in structural, mechanical and ocean engineering, sensing technology and social science; small businesses with expertise in instrumentation, data acquisition, tidal energy conversion; and state agencies with bridge design expertise. The Living Bridge technical areas are structural health monitoring, tidal energy conversion with fluid-structure interaction measurements, estuarine environmental monitoring, and outreach communication. Sensors will be used to calibrate a three-dimensional analytical structural finite element model of the bridge. The predicted structural response from this model will assess the measured structural response of the bridge as acceptable or not. Instruments installed on the turbine deployment platform will measure the spatio-temporal structure of the turbulent inflow and modified wake flow downstream of the turbine. Resulting data will include turbine performance and loads for use in fluid-structure interaction models. Deployed environmental sensors will measure estuarine water quality; wildlife deterrent sensors will deter fish from the turbine. Hydrophones and video cameras will be used before and during turbine deployment to monitor environmental changes due to turbine presence. Outreach efforts will make bridge data, history, and information about new systems accessible and understandable to the public and K-12 educators, facilitated by an information kiosk installed at the bridge. Public awareness will be assessed with survey methods used in the N.H. Granite State Poll. The lead institution is the University of New Hampshire (UNH) with its departments of Civil Engineering, Mechanical Engineering, and Sociology, and the Center for Ocean Engineering. Primary industrial partners are a large business, MacArtney Underwater Technology Group, Inc. (Houston, TX) and two small businesses Lite Enterprises, Inc. (Nashua, NH) and Eccosolutions, LLC (New Paltz, NY.) Broader context partners are New Hampshire Department of Transportation, NH Fish & Game Department, NH Port Authority, NH Coastal Program, City of Portsmouth (NH), Sustainable Portsmouth (nonprofit), Maine Department of Transportation; U.S. Coast Guard, Archer/Western (Canton, MA, large business), Parsons-Brinkerhoff (Manchester, NH, large business), UNH Tech Camp, UNH Infrastructure and Climate Network, UNH Leitzel Center for Mathematics, Science and Engineering Education, and Massachusetts Institute of Technology's Changing Places (a joint Architecture and Media Laboratory Consortium, in Cambridge, MA).
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TEAM MEMBERS:
Erin BellTat FuMartin WosnikKenneth BaldwinLawrence Hamilton
This project will bring STEM content knowledge to visitors to Cuyahoga Valley National Park via mobile device applications. Visitors will be able to use their mobile phones to access details about Park features (such as where they are in the park, what they are looking at, and where are related features), supporting just-in-time STEM learning. Cuyahoga Valley National Park receives around 2.5 million visitors every year and experiences multitudes of inquiries. Until this project, visitors were subjected to less than optimum signage for information and background about a given feature that may or may not be of interest to them. In this project, knowledge building information will be selected by the visitors and delivered to them with convenience and speed. The data base supporting this effort will provide the visitor with identification and the history of park features as well as more in depth knowledge building information while they are in the park and after the leave, providing a more holistic experience than is currently available. The investigators will build the system in parts, testing the feasibility at each stage and evaluating affective and cognitive outcomes of each portion. Research questions that will be addressed in the course of this project include: (1) What outcomes associated with use of this GPS-base system could inform future development and implementation? and (2) What contributions do these GPS-based mobile learning applications have on informal science learning as understood within the Six Strands of Informal Science Learning? It is expected knowledge generated in this project will stimulate additional programing for increasing efficacy and use in other widely ranging venues. If successful, it is easy to imagine how this STEM knowledge-building application could be extended for use in other venues across the country.
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TEAM MEMBERS:
Richard FerdigRuoming JinPatrick LorchAnnette Kratcoski