Magnolia Consulting, LLC conducted a formative and summative evaluation to examine public perceptions of the utility and quality of two labs/exhibits within the North Carolina Museum of Natural Sciences Natural World Investigate Lab, Biofuels and Science of Scent. Appendix includes survey.
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North Carolina State Museum of Natural ScienceMary Styers
This report contains findings from a summative evaluation study of a set of four featured elements that comprise the new Nature Research Center of the North Carolina Museum of Natural Sciences. The elements were: 1) an exhibit, Ancient Fossils, New Discoveries; 2) Investigate Labs; 3) Daily Planet Scientist Talks; 4) Science Cafes. Evaluation was conducted as four distinct, multi-method studies to provide targeted understanding of visitor outcomes and experiences at each element. Findings across the four elements indicate that the features of the NRC are enjoyed by visitors and each supports
This is an evaluation study of a new installation of interpretive signage and eight interactives in the Jungle Trails exhibition area of the Cincinnati Zoo and Botanical Garden. The summative evaluation is framed by the overall evaluation question: Does the Jungle Trails area facilitate learning through family interactions? To address this question, four broad sub-questions were determined as indicators of success of the project: 1. Do families engage with the interactives? 2. Do families perceive a difference in the way they interact in Jungle Trails? 3. Does the ‘family approach’ to signage
This is an evaluation study of a new installation of seven interactives in the Jungle Trails exhibition area of the Cincinnati Zoo & Botanical Garden. The formative evaluation is framed by the overall evaluation question: Does the Jungle Trails area facilitate learning through family interactions? To address this question, three broad sub-questions will guide the study: (1) With what interactives did family groups choose to engage and why did they choose to engage? (2) In what ways do participants engage with the interactives and why? (3) What might enhance the interpretations in ways that
Research shows that the main motivation of people who come to zoos is to have quality time with their families. At the Cincinnati Zoo, we have placed a strategic focus on becoming more visitor-focused, with a commitment to better understanding their needs in a free-choice learning environment. This includes tailoring interpretive exhibits to engage families, our primary audience. Made possible with funding from a Museums for America grant from the Institute of Museum and Library Services, we underwent a two-year process of research, development and design, and evaluation to re-interpret the award-winning Jungle Trails exhibit with a focus on active family engagement. In Jungle Trails, guests journey along a path that winds through nearly two acres of jungle-type landscape, featuring African and Asian primates, including Sumatran orangutans, gibbons, and bonobos. The exhibit appeals to visitors' emotions and motivations through an innate connection we all have with our closest animal relatives. As they learn how primates survive in the jungle, new interpretive signage and family interactives encourage guests to wonder what it would be like if their family lived in the forest. Interactives present group challenges that our non-human primate relatives face every day. Together with their troop, guests use sticks to push a stone through a maze, test their memories to find fruit in a matching game, bang out a troop rhythm on a buttress root, and compete to see who is best at tying shoes without using their thumbs. They also try out more physical skills such as swinging across bars like a gibbon and balancing like a lemur on a mini-ropes course. Colorful and playful signage introduces guests to the animals from the first-person perspective of the animal and includes questions to prompt discussion of how the animal's life compares to their own. Interactive iPad kiosks at the orangutan, gibbon and bonobo exhibits allow them to engage deeper. Guests may choose to watch videos on taking care of the animals, read about the individual animals' personalities, learn how they can help save the species or build a super primate of their own. By the time families reach the end of the trail, they have participated in activities together that have brought them closer to their primate relatives, human and non-human. Evaluation found that families engage with the interactives as intended. When asked how they would describe Jungle Trails to a friend, the word most commonly used by guests was "fun", followed by those that indicate it was "interactive" and "educational". Once overlooked and often missed by guests, Jungle Trails is now a destination exhibit as summed up by a regular Zoo guest who noted: "I got bored with Jungle Trails. Now looking forward to coming again!" Jungle Trails received an Excellence in Exhibition Special Distinction, Exemplary Model of Creating Experiences for Social Engagement, from the American Association of Museums in 2014.
This project entails the creation of a coordinated colony of robotic bees, RoboBees. Research topics are split between the body, brain, and colony. Each of these research areas is drawn together by the challenges of recreating various functionalities of natural bees. One such example is pollination: Bees coordinate to interact with complex natural systems by using a diversity of sensors, a hierarchy of task delegation, unique communication, and an effective flapping-wing propulsion system. Pollination and other agricultural tasks will serve as challenge thrusts throughout the life of this project. Such tasks require expertise across a broad spectrum of scientific topics. The research team includes experts in biology, computer science, electrical and mechanical engineering, and materials science, assembled to address fundamental challenges in developing RoboBees. An integral part of this program is the development of a museum exhibit, in partnership with the Museum of Science, Boston, which will explore the life of a bee and the technologies required to create RoboBees.
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Robert WoodRadhika NagpalJ. Gregory MorrisettGu-Yeon WeiJoseph Ayers
This design case explores the affordances of gigapixel image technology for science communication and learning in museum settings through the iterative development of an explorable image viewer to engage visitors in an archaeological exhibit. We reflect on the series of user studies, prototype iterations, and design decisions taken to optimize navigation, annotation and exploration in this zoomable user interface. We highlight a set of design precedents, interaction frameworks, and content structuring approaches, while detailing the development of a media rich digital annotation strategy to
The National Science Foundation (NSF) awarded funding to the Oregon Museum of Science and Industry (OMSI) and Portland State University (PSU) in Portland, Oregon to support a “Connecting Researchers and Public Audiences” (CRPA) project titled ResearchLink: Spotlight on Solar Technologies. The primary goals of CRPA projects are to communicate to the public about specific NSF research projects. This ResearchLink project promoted public awareness of two NSF-funded projects led by Dr. Carl Wamser at PSU, Integrating Green Roofs and Photovoltaic Arrays for Energy Management and Optimization of
Research in experimental and developmental psychology, cognitive science, and neuroscience, suggests that tool fluency depends on the merging of perceptual and motor aspects of its use, an achievement we call perceptuomotor integration. We investigate the development of perceptuomotor integration and its role in mathematical thinking and learning. Just as expertise in playing a piano relies on the interanimation of finger movements and perceived sounds, we argue that mathematical expertise involves the systematic interpenetration of perceptual and motor aspects of playing mathematical
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Ricardo NemirovskyMolly KeltonBohdan Rhodehamel
The Ross Sea Project was a Broader Impact projects for an NSF sponsored research mission to the Ross Sea in Antarctica. The project, which began in the summer of 2010 and ended in May 2011, consisted of several components: (1) A multidisciplinary teacher-education team that included educators, scientists, Web 2.0 technology experts and storytellers, and a photographer/writer blogging team; (2) Twenty-five middle-school and high-school earth science teachers, mostly from New Jersey but also New York and California; (3) Weeklong summer teacher institute at Liberty Science Center (LSC) where teachers and scientists met, and teachers learned about questions to be investigated and technologies to be used during the mission, and how to do the science to be conducted in Antarctica; (4) COSEE NOW interactive community website where teachers, LSC staff and other COSEE NOW members shared lesson plans or activities and discussed issues related to implementing the mission-based science in their classrooms; (5) Technological support and consultations for teachers, plus online practice sessions on the use of Web 2.0 technologies (webinars, blogs, digital storytelling, etc.); (6)Daily shipboard blog from the Ross Sea created by Chris Linder and Hugh Powell (a professional photographer/writer team) and posted on the COSEE NOW website to keep teachers and students up-to-date in real-time on science experiments, discoveries and frustrations, as well as shipboard life; (7) Live webinar calls from the Ross Sea, facilitated by Rutgers and LSC staff, where students posed questions and interacted directly with shipboard researchers and staff; and (8) A follow-up gathering of teachers and scientists near the end of the school year to debrief on the mission and preliminary findings. What resulted from this project was not only the professional development of teachers, which extended into the classroom and to students, but also the development of a relationship that teachers and students felt they had with the scientists and the science. Via personal and virtual interactions, teachers and students connected to scientists personally, while engaged in the science process in the classroom and in the field.
This project examines the design principles by which computer-based science learning experiences for students designed for classroom use can be integrated into virtual worlds that leverage students' learning of science in an informal and collaborative online environment. GeniVille, developed and studied by the Concord Consortium, is the integration of Geniverse, a education based game that develops middle school students' understanding of genetics with Whyville, developed and studied by Numedeon, Inc., an educational virtual word in which students can engage in a wide variety of science activities and games. Genivers has been extensively researched in its implementation in the middle school science classroom. Research on Whyville has focused on how the learning environment supports the voluntary participation of students anywhere and anytime. This project seeks to develop an understanding of how these two interventions can be merged together and to explore mechanisms to create engagement and persistence through incentive structures that are interwoven with the game activities. The project examines the evidence that students in middle schools in Boston learn the genetics content that is the learning objective of GeniVille. The project uses an iterative approach to the modification of Geniverse activites and the Whyville context so that the structured learning environment is accessible to students working collaboratively within the less structured context. The modification and expansion of the genetics activities of the project by which various inheritance patterns of imaginary dragons are studied continues over the course of the first year with pilot data collected from students who voluntarily engage in the game. In the second year of the project, teachers from middle schools in Boston who volunteer to be part of the project will be introduced to the integrated learning environment and will either use the virtual learning environment to teach genetics or will agree to engage their students in their regular instruction. Student outcomes in terms of engagement, persistence and understanding of genetics are measured within the virtual learning environment. Interviews with students are built into the GeniVille environment to gauge student interest. Observations of teachers engaging in GeniVille with their students are conducted as well as interviews with participating teachers. This research and development project provides a resource that blends together students learning in a computer simulation with their working in a collaborative social networking virtual system. The integration of the software system is designed to engage students in learning about genetics in a simulation that has inherent interest to students with a learning environment that is also engaging to them. The project leverages the sorts of learning environments that make the best use of online opportunities for students, bringing rich disciplinary knowledge to educational games. Knowing more about how students collaboratively engage in learning about science in a social networking environment provides information about design principles that have a wide application in the development of new resources for the science classroom.
The Rutgers Film Bureau in collaboration with the scientists of the LTER (Long Term Ecological Research) project at Palmer will produce a multi-platform documentary project, Antarctic Quest: Racing to Understand a Changing Ocean. This Connecting Researchers to Public Audiences proposal will focus on the scientists who are studying ocean physics, chemistry, biology, and ecology in the West Antarctic Peninsula (WAP), which is the fastest winter warming location on earth. The aim of the project is to promote scientific knowledge about the world's oceans and climate change, inspire interest in scientific careers, as well as train a cadre of next generation film students in the craft of science documentary filmmaking. The project will articulate the research of the Palmer LTER's quest to understand the impact of climate change on the marine ecosystems of the WAP, while involving university students in the filmmaking process. Deliverables include an hour television documentary intended for PBS television broadcast, an online "Antarctic Quest community" created through interactive and interconnected social media, three five-minute educational videos produced for the PBS Learning Media website, and a Digital Media Library to assist Earth science educators. The production team will employ a diverse group of twenty film students from Rutgers University to be involved in the many phases and components of the project. The project is designed to advance the public's environmental literacy. The project will raise awareness of the changes being observed in the world's oceans by illustrating how small changes in the physical conditions in the WAP can have profound impact on marine ecosystems and potentially the entire ocean system. The project will also highlight the significance of innovative new technologies that are revolutionizing research methods as well document the importance of scientific collaboration to understand a complex interdisciplinary problem and the challenges of working in extreme environments. The summative evaluation of the project will assess the effectiveness of the project in meeting its educational goals. By communicating significant scientific research to the public while training a cohort of next generation of science documentary filmmakers, the project will also contribute to capacity-building in the Informal Science Education field.