In the field of scientific communication in Europe, science centres have gained increasing importance over the last ten years. Italy, beyond the City of Science in Naples, is also planning the set up of more science centres throughout the country. Their hands-on style makes them something between a museum and a fun fair and, beyond the issue of merit, no doubt the success of many science centres also depends on the fun offered. It is important then to be able to assess to what extent people can actually make use of the proposed themes. This report tries to point out the dialogue opportunities
This paper uses a possible selves theoretical framework to examine whether and how adolescent girls' images of themselves as future scientists change during their transition from high school to college. Forty-one female high school graduates from diverse ethnic and socioeconomic backgrounds, who had enrolled in an intensive math and science program while in high school, participated in interviews focused on their perceptions of factors that influenced their career plans over time. Participants suggested that career-related internships and intensive academic programs, especially those that
Summer science programs held in university research facilities provide ideal opportunities for pre-college students to master new skills and renew, refresh, and enrich their interest in science. These types of programs have a positive impact on a student's understanding of the nature of science and scientific inquiry and can open a youngster's eyes to the many possible career opportunities in science. This paper describes a study of high school students enrolled in the Summer Science Academy program at the University of Rochester that investigates the program's impact on students' knowledge of
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Kerry KnoxJan MoynihanDina Markowitz
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.
The National Center for Earth-surface Dynamics (NCED) is a Science and Technology Center focused on understanding the processes that shape the Earth's surface, and on communicating that understanding with a broad range of stakeholders. NCED's work will support a larger, community-based effort to develop a suite of quantitative models of the Earth's surface: a Community Sediment Model (CSM). Results of the NCED-CSM collaboration will be used for both short-term prediction of surface response to natural and anthropogenic change and long-term interpretation of how past conditions are recorded in landscapes and sedimentary strata. This will in turn help solve pressing societal problems such as estimation and mitigation of landscape-related risk; responsible management of landscape resources including forests, agricultural, and recreational areas; forecasting landscape response to possible climatic and other changes; and wise development of resources like groundwater and hydrocarbons that are hosted in buried sediments. NCED education and knowledge transfer programs include exhibits and educational programs at the Science Museum of Minnesota, internships and programs for students from tribal colleges and other underrepresented populations, and research opportunities for participants from outside core NCED institutions. The Earth's surface is the dynamic interface among the lithosphere, hydrosphere, biosphere, and atmosphere. It is intimately interwoven with the life that inhabits it. Surface processes span environments ranging from high mountains to the deep ocean and time scales from fractions of a second to millions of years. Because of this range in forms, processes, and scales, the study of surface dynamics has involved many disciplines and approaches. A major goal of NCED is to foster the development of a unified, quantitative science of Earth-surface dynamics that combines efforts in geomorphology, civil engineering, biology, sedimentary geology, oceanography, and geophysics. Our research program has four major themes: (1) landscape evolution, (2) basin evolution, (3) biological sediment dynamics, and (4) integration of morphodynamic processes across environments and scales. Each theme area provides opportunities for exchange of information and ideas with a wide range of stakeholders, including teachers and learners at all levels; researchers, managers, and policy makers in both the commercial and public sectors; and the general public.
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Efi Foufoula-GeorgiouChristopher PaolaGary Parker
ScienceQuest is an innovative program created by the Education Development Center that fosters an interest in science and technology among adolescents ages 10-14. This program builds on the successful "ThinkQuest" model, in which small teams of 2-3 students work with adult coaches to research subjects of interest and share their knowledge through the creation of websites. "ScienceQuest" teams focus on science topics and are housed in HUD Neighborhood Network technology centers, located in communities with HUD-assisted or insured housing residents. Participants include individuals with and without disabilities from low-income urban areas. Students select a science topic and research it using online resources, hands-on experiments and visits to museums and science centers. Coaches such as scientists, teachers, museum staff and other role models, as well as on-line scientists, provide assistance by setting goals, devising an action plan and identifying appropriate resources. The "I-Search" model, a four-step strategy used to direct student inquiry, is used to guide investigations and aid in content acquisition. Once completed, websites are mounted on the "ThinkQuest" server. Parental participation is encouraged throughout the process. "ScienceQuest" will be piloted in the greater Boston area in year one, and disseminated to 75 Neighborhood Network sites throughout the country in years two and three of the grant. Each site may have one or more teams. With more than 500 Neighborhood Networks in place, "ScienceQuest" has the potential for widespread dissemination.
WGBH is producing twelve quarterly television magazine-format programs devoted to the public understanding of current scientific research. The programs will consider the significant areas of on-going research, present the scientists who are conducting the research, portray research as an on-going endeavor and discuss the social impact and ethical implications of major areas of research. Each program will include segments such as the following: Research news update - (5 to 7 mins.) Feature stories about on-going research - 3 (8 to 12 min. each) In-studio discussions following many of the feature stories - ethical, policy and social implications Point/Counterpoint - 2 commentators presenting social, ethical, political and economic aspects of research "Then and Now" segments showing changing nature of scientific research In-studio demonstrations Interstitial moments -- Showcases of interesting and surprising aspects of research Close -- update stories from previous programs, read viewers' input or answer viewers' questions, preview upcoming story. In addition, WGBH will produce three one-hour "Year in Review" programs that report what major research has occurred over the past year and puts it in a context that will help viewers understand the role of current research in all aspects of life. Other major components of the project include on-going collaborations with other Public Understanding of Research Projects, an interactive web site, communication training for scientists to help them explain their work to the public, "Science Cafes" with on-going public programs about cutting-edge research in informal settings, a resource guide for teachers, "Leading Edge" articles in magazines targeted to teens, a "Leading Edge" science contest for students conducted through PBS stations and a station resource kit with information about how to establish local collaborations with researchers, science museums, schools and others.
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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TEAM MEMBERS:
Mitchel ResnickNatalie RuskBakhtiar MikhakMike PetrichKaren Wilkinson
The Ocean Institute will design, develop, evaluate and install "Sea Floor Science," a 5,200 sq. ft. site-wide exhibition designed in partnership with Scripps Institution of Oceanography, the Jet Propulsion Laboratory, and the Institute of Nautical Archaeology at Texas A&M University. "Sea Floor Science" will provide opportunities for families, students and the general public to use authentic oceanographic equipment, tools and technology to recreate a world of ocean research and discovery. Visitors will experience how oceanographers are exploring the largely unknown sea floor to permit better understanding of the origin of sediments and rocks, paleoclimate reconstruction as evidenced by marine microfossils, and the dynamics of oceanic lithospheres and margins. The project is a new approach to museum exhibits. It will test innovative convertibility solutions that enable public areas to serve as both teaching stations and effective exhibits. It will also implement cost-effective update strategies to keep visitors at the forefront of scientific research. "Sea Floor Science" will reach 4,000,000 people in 22 states including on-site and on-line visitors, multi-state teacher networks, videoconferencing participants, science professionals, and replication sites at science centers and aquaria nationally.
The Science Museum of Minnesota (SMM) requests a grant from the National Center for Research Resources through the SEPA program to develop and evaluate a model biomedical science education partnership program in collaboration with the University of Minnesota's Cancer Center, Medical School, School of Public Health, and College of Veterinary Medicine. The museum will work with 19 researchers at the University to develop a multifaceted exhibition and presentation program focusing on the importance of human tissues in biological development, function, and disease. The 1500-square-foot exhibition, to be located in SMM's new Human Body Gallery, will consist of an introduction to tissues and four topical exhibit clusters. Each topic was chosen because it tells a fascinating story of how the human body works and because it represents an important current NIH research focus in health and medicine. The exhibits will emphasize the importance of understanding how tissue function and viability leads to advances in detection, treatment, and curing different diseases. The exhibits closely support the National Science Education Standards Content Standards for Life Science for grades 5-9 (representing the majority of school field trip visitors to the museum.) A complimentary presentation/outreach program will involve NIH-supported researchers in three programs designed to increase public understanding of basic biomedical science, the causes and cures for disease, and the goals and achievements of biomedical research. A Visiting Scientists Program will feature scientists in the museum presenting programs and demonstrations related to their research interests. A Scientist Mentor Program will involve scientists closely with a diverse team of high-school aged youth to develop ongoing demonstrations and community outreach programs. A Dramatic Presentation will bring home to museum visitors the wider ethical and philosophical dimensions of tissue research.
This Phase I SEPA proposal supports a consortium of science and education partners that will develop System Dynamics (SD) computer models to illustrate basic health science concepts. The consortium includes Oregon Health Sciences University (OHSU), Portland Public Schools (PPS), Saturday Academy, and the Portland VA Medical Center. SD is a computer modeling technique in which diagrams illustrate system structure and simulations illustrate system behavior. Desktop computers and commercial software packages allow SD to be applied with considerable success in K-12 education. NSF grants to Portland Public Schools have trained over 225 high school teachers in Portland and surrounding areas. Two magnet programs have been established with an emphasis on systems and at least five other schools offer significant systems curriculum. Major components of this project include (1) Annual summer research internships at OHSU for high school teachers and high school students, (2) Development of SD models relevant to each research project, (3) Ongoing interactions between high school science programs and OHSU research laboratories, (4) Development of curriculum materials to augment the use of the SD model in the high school classroom or laboratory setting, and (5) Development of video materials to support the classroom teacher. Content will focus on four fundamental models: linear input/exponential output, bi-molecular binding (association/dissociation), population dynamics, and homeostasis. Each of these models is very rich and may be extended to a broad variety of research problems. In addition these models may be combined, for example to illustrate the effect of drugs (binding model) on blood pressure (homeostasis model). System Dynamics is an exemplary tool for the development of materials consistent with National Science Education Standards. SD was specifically developed to emphasize interactions among system structure, organization, and behavior. Students use these material as part of inquiry-based science programs in which the teacher serves as a guide and facilitator rather than the primary source of all content information; technical writing by students is also encouraged. Finally, these SD materials will provide a coherent body of work to guide the ongoing professional development of the classroom science teacher.
The New York Hall of Science, partnering with biomedical researchers, educators and the Association of Science-Technology Centers, is planning to develop, test, (Phase I) and nationally disseminate (Phase II) a new exhibition titled Molecules and Health. This exhibition will engage middle and high-school students and the general public in inquiry-based learning on the role of molecules in health illness and prevention. The proposed project will be a national model for conveying the molecular basis for health-related sciences, which will be increasing central to research and public understanding in the coming decades. The exhibition will be based upon Marvelous Molecules-the Secret of Life, a permanent exhibition at the Hall of Science, and will include an extensive array of biomedical and health-related exhibits. We will develop pre- and post-visit materials for teachers' use, a family guide through the exhibition, and two Explainer-run demonstrations, as well as a web site to support classroom learning. This exhibition will travel to science centers within the United States through the Association of Science and Technology Centers touring program. We anticipate that 1,000,000 science museum visitors throughout the country will see the Molecules and Health exhibition during the four year dissemination phase. We will share the results of our evaluation and the process of developing this exhibition to the science education field.