Technology in the Garden


Book Description

More than half of the 116 research parks now operating in the United States were established during the 1980s, with the aim of boosting regional economic growth. But until now no one has systematically analyzed whether research parks do in fact generate new businesses and jobs. Using their own surveys of all existing parks and case studies of three of the most successful--Research Triangle Park in North Carolina, Stanford Research Park in California, and the University of Utah Research Park--Michael Luger and Harvey Goldstein examine the economic impact of such facilities. As the name suggests, a research park is typically meant to provide a spacious setting where basic and applied technological research can be quietly pursued. Because of the experience of a few older and prominent research parks, new parks are expected to generate economic growth for their regions. New or old, most parks have close ties to universities, which join in such ventures to enhance their capabilities as centers of research, provide outlets for entrepreneurial faculty members, and increase job opportunities for graduate students. Too often, the authors say, the vision of "incubating" economic growth in a gardenlike preserve of research and development has failed because of poor planning, lack of firm leadership, and bad luck. Although the longest-lasting parks have met their original goals, the newer ones have enjoyed at best only slight success. Luger and Goldstein conclude that the older facilities have captured much of the market for concentrations of research and development firms, and they discuss alternative strategies that could achieve some of the same goals as research parks, but in a less costly way. Many of these alternatives continue to include a role for universities, and Luger and Goldstein shed fresh light on the linkage between higher education and the use of knowledge for profit.




Federal Register


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Resources for Teaching Elementary School Science


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What activities might a teacher use to help children explore the life cycle of butterflies? What does a science teacher need to conduct a "leaf safari" for students? Where can children safely enjoy hands-on experience with life in an estuary? Selecting resources to teach elementary school science can be confusing and difficult, but few decisions have greater impact on the effectiveness of science teaching. Educators will find a wealth of information and expert guidance to meet this need in Resources for Teaching Elementary School Science. A completely revised edition of the best-selling resource guide Science for Children: Resources for Teachers, this new book is an annotated guide to hands-on, inquiry-centered curriculum materials and sources of help in teaching science from kindergarten through sixth grade. (Companion volumes for middle and high school are planned.) The guide annotates about 350 curriculum packages, describing the activities involved and what students learn. Each annotation lists recommended grade levels, accompanying materials and kits or suggested equipment, and ordering information. These 400 entries were reviewed by both educators and scientists to ensure that they are accurate and current and offer students the opportunity to: Ask questions and find their own answers. Experiment productively. Develop patience, persistence, and confidence in their own ability to solve real problems. The entries in the curriculum section are grouped by scientific areaâ€"Life Science, Earth Science, Physical Science, and Multidisciplinary and Applied Scienceâ€"and by typeâ€"core materials, supplementary materials, and science activity books. Additionally, a section of references for teachers provides annotated listings of books about science and teaching, directories and guides to science trade books, and magazines that will help teachers enhance their students' science education. Resources for Teaching Elementary School Science also lists by region and state about 600 science centers, museums, and zoos where teachers can take students for interactive science experiences. Annotations highlight almost 300 facilities that make significant efforts to help teachers. Another section describes more than 100 organizations from which teachers can obtain more resources. And a section on publishers and suppliers give names and addresses of sources for materials. The guide will be invaluable to teachers, principals, administrators, teacher trainers, science curriculum specialists, and advocates of hands-on science teaching, and it will be of interest to parent-teacher organizations and parents.










Economic Development Partnership Act


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National Technology Innovation Act


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Studying Students


Book Description

In particular, we were interested in how students write their research papers and what services, resources, and facilities would be most useful to them. The information collected in this study would guide the libraries' efforts to improve library facilities, reference outreach, and the libraries' Web presence. - Introduction.