The evaluation examined the overall visitor experience (time spent, main message comprehension, response to exhibition look and feel) in the 1,100-square-foot Animal Attraction as well as the exhibition's multimedia content delivered via 18 iPads. Specifically, researchers explored iPad usability and visitors’ reactions to the iPad content, especially compared to static labels found in other areas of Animal Attraction. Findings indicate that the iPads appealed to all visitors segments and that iPad users spent more time in the exhibition than visitors who did not use the iPads. However, many
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California Academy of SciencesJon DeuelJessica Brainard
As we turn more and more to high-end computing to understand the Universe at cosmological scales, dynamic visualizations of simulations will take on a vital role as perceptual and cognitive tools. In collaboration with the Adler Planetarium and University of California High-Performance AstroComputing Center (UC-HiPACC), I am interested in better understanding the use of visualizations to mediate astronomy learning across formal and informal settings. In this research, I use quantitative methods to investigate how 122 post-secondary learners are relying on color to interpret dark matter in a
Digital media and technology are revolutionizing how, where and when children learn, compelling many educators to completely re-imagine what a learning experience looks like. At the core of effective digital media and learning is the principle that instructional strategies should be personalized and that technology is a tool that supports effective teaching and learning practices. Afterschool programs are an ideal setting for digital learning--excelling at providing interest-driven learning opportunities can learn at their own pace, participate in hands-on learning experiences, and engage in
Afterschool programs have long partnered with other youth-serving and community organizations to better meet the needs of their students. As interest and momentum grows around STEM programming in afterschool , partnerships become increasingly important in offering high-quality, hands-on STEM experiences for youth. This issue brief demonstrates several models of how afterschool programs are partnering with STEM-rich institutions like science centers and museums, universities and colleges, business and industry, and government agencies. The brief highlights the strengths of each type of STEM
The number of jobs requiring proficiency in the science, technology, engineering and math (STEM) fields is projected to grow by 17 percent between 2008 and 2018, which is almost double the growth of non-STEM occupations. Computing and engineering represent a majority of these STEM jobs, and it is important that students are prepared to take advantage of these opportunities. Afterschool programs represent an avenue to provide robust learning experiences in computing and engineering, especially as schools are under many constraints and pressures that might prevent them from offering these topics
WaterBotics is the underwater robotics curriculum and program that is being disseminated to four regions through a National Science Foundation grant, in collaboration with national and state partners. Its goal is to provide hands-on experiences for middle and high school age youth to engineering design, information technology tools, and science concepts, and to increase awareness and interest in engineering and IT careers. The curriculum, which can be used either in traditional classroom settings or in after-school and summer-camp situations, is problem-based, requiring teams of students to work together to design, build, test, and redesign underwater robots, or “bots” made of LEGO® and other components. Students use the NXT and LEGO Mindstorms® software to program their robots to maneuver in the water, thereby gaining valuable experience with computer programming. Teams must complete a series of increasingly sophisticated challenges which culminates with a final challenge that integrates learning from the prior challenges.
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Stevens Institute of TechnologyMercedes McKayPatricia Holahan
Children's museums represent one of the fastest growing segments of the museum community; however, the evidence base to demonstrate the learning value of these institutions has not kept pace. With funding from the Institute of Museums and Library Services (IMLS), the Association of Children’s Museums (ACM) and the University of Washington’s Museology Graduate Program (UW Museology) are partnering to generate a field-wide research agenda for children’s museums, an agenda that will identify and prioritize the most pressing evidence needed by the field to articulate and demonstrate the distinct
The Coalition for Science After School (CSAS) was established in 2004 in response to the growing need for more STEM (science, technology, engineering, and mathematics) learning opportunities in out-of-school time. CSAS sought to build this field by uniting STEM education goals with out-of-school time opportunities and a focus on youth development. Over a decade of work, CSAS Steering Committee members, staff and partners advocated for STEM in out-of-school-time settings, convened leaders, and created resources to support this work. CSAS leadership decided to conclude CSAS operations in 2014, as the STEM in out-of-school time movement had experienced tremendous growth of programming and attention to science-related out-of-school time opportunities on a national level. In its ten-year strategic plan, CSAS took as its vision the full integration of the STEM education and out-of-school time communities to ensure that quality out-of-school time STEM opportunities became prevalent and available to learners nationwide. Key CSAS activities included: (1) Setting and advancing a collective agenda by working with members to identify gaps in the field, organizing others to create solutions that meet the needs, identifying policy needs in the field and supporting advocates to advance them; (2) Developing and linking committed communities by providing opportunities for focused networking and learning through conferences, webinars, and other outreach activities; and (3) Identifying, collecting, capturing, and sharing information and available research and resources in the field. The leadership of the Coalition for Science After School is deeply grateful to the funders, partners, supporters, and constituents that worked together to advance STEM in out-of-school time during the last decade, and that make up today's rich and varied STEM in out-of-school time landscape. We have much to be proud of, but as a movement there is much more work to be done. As this work continues to expand and deepen, it is appropriate for the Coalition for Science After School to step down as the many other organizations that have emerged over the last decade take on leadership for the critical work that remains to be done. A timeline and summary of CSAS activities, products, and accomplishments is available for download on this page. All resources noted in the narrative are also available for download below.
The "Setting the Agenda for Giant Screen Research" workshop was conducted at the 2013 Association of Science-Technology Centers (ASTC) conference held in Albequerque, NM. This document outlines the workshop agenda and background reading. The purpose of this workshop is to create a working document that details key questions and proposals for giant screen research.
An IMLS (Institute of Museum and Library Services) National Leadership project with University of California Museum of Paleontology (lead), Yale Peabody Museum of Natural History, Museum of the Earth and University of Kansas Natural History Museum to create a tree portal website with learning research, curriculum material and guides on how to effectively use and teach about the tree of life for teachers and museum professionals.
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University of California-BerkeleyTeresa MacDonaldRoy CaldwellAnna ThanukosLisa WhiteDavid HeiserRobert Ross
The Maker Program Blueprint offers a template for afterschool or summer programs and addresses the types of spaces that can be used, ideas about schedules and format, and the materials and personnel needed to create and sustain a program.
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.