The purposes of the STUDIO 3D evaluation were to collect information about the impact upon student learning as a result of participating in the STUDIO 3D Project, as well as to elicit information for program improvement. Areas of inquiry include recruiting and retention, impact on project participants, tracking student impacts, and the project as a whole.
Community learning of science and technology has undergone radical review in the past few years. This paper outlines changes that have taken place in research methods that have addressed the informal learning of science, particularly in the museum sector. We discuss the shift in perspective that has occurred over the past three decades in the public understanding movement, examine some current issues, and suggest future directions for research. The paper concludes with a personal vision for the future of community learning about science and technology.
In this article, researchers for the University of North Carolina at Asheville describe findings from their study that assessed the impact of two interactive, hands-on, informal science-learning programs on elementary and middle school children's (1) general interest in science learning and (2) short-term science learning. They used a separate-sample pretest-posttest research design to evaluate the impact of two informal science-learning programs--a robotics program and an electricity program at the Health Adventure at Pack Place. The appendix of this report includes the survey, observation
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Mark L. Harvey, Ph.D.Brandon HudsonBri Tureff
This collaborative project aims to establish a national computational resource to move the research community much closer to the realization of the goal of the Tree of Life initiative, namely, to reconstruct the evolutionary history of all organisms. This goal is the computational Grand Challenge of evolutionary biology. Current methods are limited to problems several orders of magnitude smaller, and they fail to provide sufficient accuracy at the high end of their range. The planned resource will be designed as an incubator to promote the development of new ideas for this enormously challenging computational task; it will create a forum for experimentalists, computational biologists, and computer scientists to share data, compare methods, and analyze results, thereby speeding up tool development while also sustaining current biological research projects. The resource will be composed of a large computational platform, a collection of interoperable high-performance software for phylogenetic analysis, and a large database of datasets, both real and simulated, and their analyses; it will be accessible through any Web browser by developers, researchers, and educators. The software, freely available in source form, will be usable on scales varying from laptops to high-performance, Grid-enabled, compute engines such as this project's platform, and will be packaged to be compatible with current popular tools. In order to build this resource, this collaborative project will support research programs in phyloinformatics (databases to store multilevel data with detailed annotations and to support complex, tree-oriented queries), in optimization algorithms, Bayesian inference, and symbolic manipulation for phylogeny reconstruction, and in simulation of branching evolution at the genomic level, all within the context of a virtual collaborative center. Biology, and phylogeny in particular, have been almost completely redefined by modern information technology, both in terms of data acquisition and in terms of analysis. Phylogeneticists have formulated specific models and questions that can now be addressed using recent advances in database technology and optimization algorithms. The time is thus exactly right for a close collaboration of biologists and computer scientists to address the IT issues in phylogenetics, many of which call for novel approaches, due to a combination of combinatorial difficulty and overall scale. The project research team includes computer scientists working in databases, algorithm design, algorithm engineering, and high-performance computing, evolutionary biologists and systematists, bioinformaticians, and biostatisticians, with a history of successful collaboration and a record of fundamental contributions, to provide the required breadth and depth. This project will bring together researchers from many areas and foster new types of collaborations and new styles of research in computational biology; moreover, the interaction of algorithms, databases, modeling, and biology will give new impetus and new directions in each area. It will help create the computational infrastructure that the research community will use over the next decades, as more whole genomes are sequenced and enough data are collected to attempt the inference of the Tree of Life. The project will help evolutionary biologists understand the mechanisms of evolution, the relationships among evolution, structure, and function of biomolecules, and a host of other research problems in biology, eventually leading to major progress in ecology, pharmaceutics, forensics, and security. The project will publicize evolution, genomics, and bioinformatics through informal education programs at museum partners of the collaborating institutions. It also will motivate high-school students and college undergraduates to pursue careers in bioinformatics. The project provides an extraordinary opportunity to train students, both undergraduate and graduate, as well as postdoctoral researchers, in one of the most exciting interdisciplinary areas in science. The collaborating institutions serve a large number of underrepresented groups and are committed to increasing their participation in research.
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Tandy WarnowDavid HillisLauren MeyersDaniel MirankerWarren Hunt, Jr.
Children's Discovery Museum of San Jose, CA, will develop a three-pronged project called "Round and Round" focused on the geometry, science and technology of circles and wheels. All three project products (one permanent and one traveling version of a 2000-sq. ft. exhibition; an array of complementary educational programs for children ages 3-10; and published research on patterns of interactions among families of diverse backgrounds in museum settings) will be developed in cooperation with developmental psychologists from the University of California at Santa Cruz and advisors from Latino and Vietnamese communities in San Jose. "Round and Round" exhibits and programs will offer a trans-cultural, gender-neutral, and multi-disciplinary look at the ingenuity and ubiquity of circles. Together they will provide a comprehensive array of interactive experiences that help children, ages 3-10, and adults explore the mathematics, physics, physical properties and engineering advantages of circles and wheels. The project is expected to serve three million visitors in science and children's museums across the nation within four years of implementation.
The New York Hall of Science will develop "Connections," a 3,500-sq. ft. interactive exhibition and related learning resources that will introduce visitors to the fundamental technology of networks. "Connections" will offer diverse audiences opportunities to explore networks, both natural and human-designed. The exhibition will highlight the fundamental characteristics of networks such as their structure, function and adaptability. The project will also produce supporting educational resources for families, after-school programs, community groups, students and teachers. Audio-tours will be produced for general visitors and for visitors with visual impairments. The Connections Discovery Lab, a 750-sq. ft. enclosed space adjacent to the exhibition, will offer scheduled workshops and drop-in programs.
The Tech Museum of Innovation is producing a 3,000 square-foot permanent exhibition, complementary online acitivities, and a Design Challenge curriculum to engage visitors in the exploration of Internet techologies. The goals of the project are to enhance the technological literacy of middle school students, provide the general public with tools, experience, and confidence to participate in shaping the future of the internet, and advance the informal science education community through applied research in networked exhibit technology. Two distinct features of the exhibit are: 1) The Smart Museum, a computer network linking gallery and online expereinces, and 2) "dynamic content," a set of strategies for rapid exhibit updates that will mirror the changing Internet for the life of the exhibition. The Design Challenge curriculum will be used at the museum, in outreach to classrooms and community centers, and in training sessions for science educators. The summative research will be shared with the science education community via The Tech's web site as well as professional seminars, publications and conferences.
The University of California, Berkeley is developing "Windows on Research," a two-year experimental exhibit project at the Lawrence Hall of Science focused on engaging and informing the public about current scientific research. The project will develop and evaluate different media to translate the leading edge of nanotechnology research for the science center audience by featuring live demonstrations and presentations, physical- and technology-based exhibits, and Internet-based exhibits. Formative evaluation of all products, including ongoing public focus groups and surveys, will be used to establish which of the several media, alone or combined, work best to communicate research content. The project team also is developing new assessment tools to test usability and effectiveness of the artificial intelligence and technology-based components in conveying content. The results of this prototype effort to present ongoing research in a museum setting will be disseminated to the informal science education field. The PI, Marco Molinaro, and the team from the Lawrence Hall of Science will work closely with scientists representing research in a number of nanotechnology fields. These scientists bring expertise in the areas of materials science, chemistry, education, bioengineering, mechanical engineering, molecular and cell biology, geochronology and isotope geochemistry, and psychology.
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Marco MolinaroUniversity of California-BerkeleyDarrell Porcello
Public Radio International (PRI) is developing and producing a three-year technology initiative in the internationally distributed news and information radio series, "The World." The series is co-produced by PRI, the BBC World Service, and WGBH/Boston. PRI will establish a Technology Desk and assign a reporter full-time to covering technology. In addition, "The World" will benefit from the full resources of the BBC Science Unit. Technology reports will be produced in several radio formats including: At least 26 direct news reports annually (approximately four minutes each); Technology updates in daily newscasts (approximately 52 minutes per year); A weekly Lab Report highlighting emerging technologies (approximately three minutes each); Three monthly in-depth features (Approximately five minutes each); Two major annual in-depth series of five installments each (approximately six minutes each). This emphasis on the latest technology developments will provide listeners with up-to-date information about important developments in such areas as nanotechnology and micro-electrical machines, quantum cryptography and genetic manipulation of agricultural products. In depth reports would cover topics such as the Human Genome Project and the influence of technology on archaeology. PRI will work with the Exploratorium in San Francisco to design and produce outreach components for the project. A web resource will be developed to extend and deepen technology covered in broadcasts over the radio. It will include further information about topics, directions for conducting experiments, transcripts of technology reports and bibliographies of additional resources. PRI and the Exploratorium also will implement a three-year pilot project to involve children from economically disadvantaged neighborhoods in the creation of online broadcasts (webcasts) on technology-related themes. This element of the project will determine whether programming derived from a news program and produced by children for children is an effective production model and whether the model is appropriate for replication.
The MIT Media Laboratory, in collaboration with six museums, will develop the "Playful Invention and Exploration (PIE) Network," with the goal of engaging a broader audience in science inquiry and engineering by enabling more people to create, invent and explore with new digital technologies. PIE museums will integrate the latest MIT technologies and educational research into their ongoing public programs. The museums will organize MindFest events, modeled after a two-day event at MIT in 1999, at which youth, educators, artists, engineers, hobbyists and researchers came together to collaborate on invention projects. The PIE Network will disseminate PIE ideas and activities to educators and families nationally.
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Mitchel ResnickNatalie RuskBakhtiar MikhakMike PetrichKaren Wilkinson
Building on an institution-wide strategic initiative to interpret the process of science for informal learners of all ages, the Museum of Science will work over four years to develop, evaluate and implement a project to communicate the processes of science through weather forecasting. The project is based on the idea that processes involved in short-term weather forecasting are basic to the process of science. MOS proposes to create a 1,800 square foot exhibit, programs for students and teachers, an interactive website, and one-minute television spots aimed at helping people understand weather forecasting. The project is grounded in MOS strategic commitment to engaging people in the activity of science and the use of new technologies. The major component of the project is an exhibition of weather in which visitors will learn how to forecast the weather over the next few hours using different levels of technology, including naked eye observations, data from weather maps, and real-time images from space satellites and ground radar stations. Ancillary programs include educational materials for over 100 WeatherNet schools in New England, an interactive website that will reach several hundred thousand users, and television spots on the process of weather forecasting to be aired on WBZ-TV Channel 4. Over the course of its life the project will engage several million children and adults in the process of science.
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TEAM MEMBERS:
Cary SneiderMishelle MichaelsDaniel Barstow