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Like a search engine for science teachers, How to'eave the Web into K - 8 Science is your custom-made guide to bringing the best of the Internet into your classroom. Author David Wetzel has done the work of locating online materials for you. The book offers resources for the Web-based science teaching and learning plus online technical help for both beginners and experienced computer users. You even get instructions for developing your own Web page. In three concise chapters, this book covers: the rationale behind using Web-based resources for science teaching, and tips for making the most of the Internet; practical strategies you can put to work immediately, including the topics of one-computer and multicomputer calssrooms, wireless and hand-held computers, Web-based learning centres and lessons, WebQuests, virtual tours, labs, field trips, and multimedia presentations; and a wealth of Internet resources including search engines, directories, and NSTA's own SciLinks and Webwatchers. There is an extensive section of Web-based resources listed by category and science-content area. Best of all, in a special companion Web site, you'll find updated Web addresses as well as new resources that came out after this book was printed.
This reader-friendly text is solidly grounded on the three legged stool of constructivist theory, science content standards and practical applications. In this book for both experienced and novice teachers of elementary and middle school science, the authors connect constructivist compatible theory with practical teaching strategies and activities. Special features include original activities, a rich resource list for the constructivist science teacher, as well as strategies for working with special education students and English language learners (ELLs) in science. Classic and new ideas for student activities include "Big Science" activities such as tissue paper hot air balloons, cardboard boats and catenary arch projects developed by Edward Ebert. Discussion questions for teacher study groups close each chapter.
Offers advice, strategies, and tips to help school library personnel evaluate, use, teach, and develop Internet resources more effectively.
Museum Informatics explores the sociotechnical issues that arise when people, information, and technology interact in museums. It is designed specifically to address the many challenges faced by museums, museum professionals, and museum visitors in the information society. It examines not only applications of new technologies in museums, but how advances in information science and technology have changed the very nature of museums, both what it is to work in one, and what it is to visit one. To explore these issues, Museum Informatics offers a selection of contributed chapters, written by leading museum researchers and practitioners, each covering significant themes or concepts fundamental to the study of museum informatics and providing practical examples and detailed case studies useful for museum researchers and professionals. In this way, Museum Informatics offers a fresh perspective on the sociotechnical interactions that occur between people, information, and technology in museums, presented in a format accessible to multiple audiences, including researchers, students, museum professionals, and museum visitors.
Intranets and Extranets are the fastest growing use of internet technology and are being adopted by a large number of organizations. `Web-Weaving' is a book for managers which illustrates the benefits and pitfalls of using technology to enhance internal and external connections. The book brings together a number of the hottest subjects in IT and Organizational Development using contributions from innovative thinkers and practitioners in both areas. The first section defines what web-weaving actual is, describing the huge range of communication technology available to organizations at the moment. The second section reviews web-weaving in practice using case studies of companies using intranet and extranet technology. The third section brings together commentaries from leading players in both the IT and Human Resources fields to predict the future of web-weaving and the huge impact it will have on the way organizations and the people within them will work together in the future.
Packed with ideas and instructional activities that cut across all content areas, this engaging book provides a comprehensive framework for promoting vital Web literacy skills in grades 3-8. Teacher-friendly special features include helpful graphics, sidebars, practical tips, and nearly 100 reproducibles. Using a research-based, classroom-tested model of Internet inquiry, the authors explain the "whats," "whys," and "how-tos" of helping diverse learners Locate useful information sources on the Web Navigate the contents of a website Critically evaluate what they read online Synthesize the results of an Internet inquiry Express new knowledge in their own words
Making a case for a research-based teaching rationale -- Elements of a research-based rationale -- Developing a research-based rationale -- Implementing your rationale and becoming a mentor
From the perspective of the philosophy of science, this book analyzes the Internet conceived in a broad sense. It includes three layers that require philosophical attention: (1) the technological infrastructure, (2) the Web, and (3) cloud computing, along with apps and mobile Internet. The study focuses on the network of networks from the viewpoint of complexity, both structural and dynamic. In addition to the scientific side, this volume considers the technological facet and the social dimension of the Internet as a novel design. There is a clear contribution of the Internet to science: first, the very development of the network of networks requires the creation of new science; second, the Internet empowers scientific disciplines, such as communication sciences; and third, the Internet has fostered a whole new emergent field of data and information. After the opening chapter, which offers a series of keys to the book, there are nine chapters, grouped into four parts: (I) Configuration of the Internet and Its Future, (II) Structural and Dynamic Complexity in the Design of the Internet, (III) Internal and External Contributions of the Internet, and (IV) The Internet and the Sciences. Following this framework, The Internet and Philosophy of Science will be of interest to scholars and advanced students working in philosophy of science, philosophy of technology as well as science and technology studies.