The Wild Center will partner with Adirondack Museum, Cornell’s Maple Program, and New York State/Northeastern New York Maple Producers Associations to build regional identity, revitalize a heritage industry, and connect people to nature through the art, story, history, and science of maple sugaring. The Northern New York Maple Project will create interpretative exhibits with ecological, historical, and economic information. The museum will develop an instructional maple sugaring video; a touch-screen story kiosk that lets visitors share stories through the exhibit and social media; a storytelling workshop for staff, project partners, and maple producers; community events and conferences; a school education program; community sugaring workshops; and educational materials, website, social media, and outreach to industry, food enthusiasts, and the business community. Regular planning meetings on goals and deliverables will track results and an outside consultant will evaluate the overall success of the project.
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.
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
This research follows on a previous study that investigated how digitally augmented devices and knowledge building could enhance learning in a science museum. In this study, we were interested in understanding which combination of scaffolds could be used in conjunction with the unique characteristics of informal participation to increase conceptual and cognitive outcomes. Three hundred seven students from nine middle schools participated in the study. Six scaffolds were used in various combinations. The first was the digital augmentation. The next five were adaptations of knowledge-building
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Susan YoonKaren ElinichJoyce WangJaqueline SchooneveldEmma Anderson
This article makes a case for providing multiple types of hands-on resources to support learner inquiry. More specifically, a computer simulation of an electric circuit complemented work with a real circuit to support learners’ conceptual development. When learners had the opportunity to use both simulated and real circuits, less structured guidance seemed to benefit the inquiry process.
This article describes how two inquiry games promoted student science skills in a museum setting while minimizing demands on teachers, fostering collaboration, and incorporating chaperones. Students who played these games engaged in more scientific inquiry behaviors than did students in control groups.
This is an overview of audience research and evaluation pertaining to the exhibition "Living With Hurricanes: Katrina and Beyond". The process of investigating the perceptions of audiences and visitors was mostly designed to inform the interpretive planning process. Then, after the exhibit opened to the public in late October 2010, the intent was to describe and assess the experiences of visitors. Ten audience/visitor studies were conducted over a seven-year period, five of which were designed to inform the planning process and five of which were conducted after the exhibition opened to
The research presented in this report was the tenth and final study in a multi-phase evaluation plan for “Living With Hurricanes: Katrina and Beyond,” an exhibition created by the Louisiana State Museum and installed at the Presbytere building. The exhibition opened in October 2010; a remedial evaluation was conducted in November 2010; the summative evaluation was conducted in the spring and summer of 2011; preparations for this longitudinal study began in the fall of 2011, the telephone interviews were conducted in the spring of 2013. Results from this analysis indicate that “Living With
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Louisiana State MuseumJeff HaywardJolene Hart
The Decapoda - shrimp, lobsters, and crabs - are an economically important, diverse group of animals whose geologic history extends back 400 million years. Living representatives, numbering over 15,000 species, are global in distribution and nearly ubiquitous in oceanic and non-oceanic environments. They exert a major impact on ecosystems; understanding the dynamics of their fossil record will illuminate their historical impact on ecosystems. We will test the hypothesis that decapods are arrayed in a series of discrete evolutionary faunas; remarkably, the vast array of living and fossil decapods in diverse interrelated groups have exploited four basic body plans repeatedly. Other hypotheses to be tested are that the Decapoda have repeatedly adopted a limited number of baupläne, or generalized architectures, throughout their history; that they have experienced explosive evolutionary radiations followed by periods of no determinable change; and that they are generally resistant to mass extinction events. These hypotheses will be tested using a unique dataset compiled and assessed by the Principle Investigators: a compilation of all fossil decapod species, arrayed in a classification scheme including fossil and living taxa, with geologic and geographic ranges of all species, including a phylogeny (i.e. "family tree") for many sub-groups within the Decapoda. The dataset will be expanded to include ecological data for each taxon and will be entered into the Paleobiology Database, an NSF-supported vehicle for analyzing the fossil record. Employing its methodology, patterns of diversity and macroevolution of the decapods will be generated at levels ranging from the entire Order to species level. This will result in a comprehensive analysis of macroevolutionary patterns of this major group for the first time. Available paleoecological data derived from field studies and published records will be used to determine the effects of various environmental factors such as seafloor conditions, reef development, water depth, and temperature on morphology, extinction survivorship, and diversity. Because decapods have a remarkable range of morphological variation preservable in the fossil record, the diversity of the groups of decapods can be assessed in relation to their morphological characteristics. Defining the history of taxa with specialized morphology will permit recognition of body plans that have been exploited by different decapod groups throughout the history of the clade.
Intellectual merit. This study will provide the most comprehensive analysis of macroevolution of the Decapoda yet conducted, all based upon a unique dataset that is internally consistent by virtue of its having been developed entirely by the investigators. It will document the significance of employing a high resolution, species-level database for interpretation of diversity. The hypotheses and conclusions derived here will provide a model and the foundation for future work on Decapoda, Arthropoda, and macroevolution of well-constrained groups. It will provide a test for the efficacy of PBDB data versus a constrained dataset assessed by specialist systematists.
Broader impacts. The work will introduce undergraduate students at Kent State at Stark, an undergraduate campus, and Kent State at Kent, to research that involves paleoecological, paleogeographical, and functional morphological elements which, in turn, will be communicated to other students. Because decapods are known to virtually everyone, they form an excellent group to use to inform the public about ancient patterns of diversity and the relationship between the morphology of organisms, variations in their environmental requirements, and their adaptability to different physical conditions. This will be conveyed in a professionally constructed display which has the potential to be exhibited in museums and universities around the country. Small kits designed for use in elementary and middle schools will be available to allow students to make their own observations about the adaptations of decapods to their environment and its effect on diversity. Published papers and presentations on results of research at meetings will be prepared throughout the course of the research. Because the study of modern biodiversity is a concern of the general public, presentations to broader audiences as well as geology classes will provide a broad historical context for understanding modern patterns of diversity. Data entered into Paleobiology Database and Ohio Data Resource Commons will be openly available to other researchers and the general public. Combined, the databases will assure archival storage and public access, following a proprietary period.
The Nature Research Center is a project through which the North Carolina Museum of Natural Sciences provides NASA with a permanent presence through the creation of NASA-themed exhibits in its new wing (the Nature Research Center), hosting special events, educator workshops and special programming, all of which serve the general population and seek to improve understanding of and engagement with science. The lead institution is the North Carolina Museum of Natural Sciences. Goals, expected and actual outcomes are as follows: Exhibits in the new wing were expected to reach 200,000 individuals in its inaugural year; in only 8 months, the Museum has welcomed over 1 million visitors. Astronomy Days’ goal was to reach 20,000 people per year and is on target for meeting this goal. Educator Workshops’ goal was to reach 32 educators per workshop and is on target for meeting this goal. The Museum’s visitor base has demonstrated an insatiable desire for NASA-themed programs. Attendance at Astronomy Days remains impressive and special space events (such as the transit of Venus, or live downlinks with the International Space Station) attract larger-than-expected audiences. The Museum appreciates NASA’s support and is eager to continue providing NASA with an ongoing presence in Raleigh, NC.
The Dynamic Earth: You Have To See it To Believe It is a public exhibition and suite of programming designed to educate and excite K-8 students, teachers, and families about weather and climate science, plate tectonics, erosion, and stream formation. The Dynamic Earth program draws attention to the importance of large-scale earth processes and the human impacts on these processes, utilizing real artifacts, hands-on models, and NASA earth imagery and data. The program includes the exhibition, student workshops, family workshops, annual professional development opportunities for classroom teachers, innovative theater shows, lectures for adults by visiting scientists, and interpretive activities. The Montshire Museum of Science has partnered with Chabot Space and Science Center (CA) and the US Army Corps of Engineers Cold Regions Research and Engineering Laboratory (NH) on various components. The project has broadened our internal capacity for providing quality earth science programming by greatly expanding our program titles and allowing us to create hands-on materials for use by our educators and to loan to schools in our Partnership Initiative. Programming developed during the grant period continues to reach thousands of students and teachers each year, both on-site and as part of our rural outreach efforts.
The Michigan Science Center (MiSci) Sunstruck! An Integrated Solar Education Experience project includes an interactive heliostat exhibit, Dassault Systemes Planetarium program for primarily middle school students and the general public emphasizing the sun and its effects on Earth and the solar system, a educational lobby kiosk, and educational materials for classroom use aimed at helping them understand the importance of understanding our nearest star and the ‘space weather’ that it creates. The Michigan Science Center is the lead institution, with the project led by PI Dr. Tonya Matthews, President/CEO and Co-PI Julie Johnson, Director of Education and Outreach, and science advisors representing University of Michigan College of Engineering Department of Atmospheric, Oceanic and Space Sciences, and in collaboration with the Ford Amateur Astronomy Club, the Detroit Public Schools Science Department and University Prep Science and Math faculty. The project Sunstruck! An Integrated Solar Education Experience will use the latest research and discoveries from IRIS (Interface Region Imaging Spectrograph) and SOD (Solar Dynamics Observatory ) missions to engage the general public in the dynamics of our star, the Sun. The project will help the audience understand the Sun’s importance, it’s direct impact on our lives and the potential hazards such as solar flares and coronal mass ejections that we refer to as ‘space weather’. This project is scheduled to be completed in 2015 with testing of materials and the planetarium show to begin late 2014.