Innovations in Science and Mathematics Education

Innovations in Science and Mathematics Education : Advanced Designs for Technologies of Learning

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Description

The uses of technology in education have kindled great interest in recent years. Currently, considerable resources are being expended to connect schools to the Internet, to purchase powerful (and increasingly affordable) computers, and on other implementations of educational technologies. However, the mere availability of powerful, globally-connected computers is not sufficient to insure that students will learn--particularly in subjects that pose considerable conceptual difficulties, such as in science and mathematics. The true challenge is not just to put the newest technologies in our schools, but to identify advanced ways to design and use these new technologies to advance learning. This book offers a "snapshot" of current work that is attempting to address this challenge. It provides valuable and timely information to science and mathematics educators, educational and cognitive researchers, instructional technologists and educational software developers, educational policymakers, and to scholars and students in these fields.show more

Product details

  • Paperback | 448 pages
  • 152 x 229 x 25.4mm | 830g
  • Taylor & Francis Ltd
  • ROUTLEDGE
  • London, United Kingdom
  • English
  • Reprint
  • 1138972797
  • 9781138972797

Table of contents

Contents: M.J. Jacobson, A.J. Angulo, R.B. Kozma, Introduction: New Perspectives on Designing the Technologies of Learning. R.B. Kozma, The Use of Multiple Representations and the Social Construction of Understanding in Chemistry. J. Roschelle, J.J. Kaput, W. Stroup, SIMCALC: Accelerating Students' Engagement With the Mathematics of Change. S.J. Metcalf, J. Krajcik, E. Soloway, Model-It: A Design Retrospective. M.J. Jacobson, A. Archodidou, The Knowledge Mediator Framework: Toward the Design of Hypermedia Tools for Learning. P. Horwitz, M.A. Christie, Computer-Based Manipulatives for Teaching Scientific Reasoning: An Example. J.D. Slotta, M.C. Linn, The Knowledge Integration Environment: Helping Students Use the Internet Effectively. M. Guzdial, J. Turns, Computer-Supported Collaborative Learning in Engineering: The Challenge of Scaling-Up Assessment. P.M. Sadler, R. Gould, K. Brecher, B. Hoffman, Asstronomical Experiences Using Internet-Accessible Remote Instumentation. B. Means, E. Coleman, Technology Supports for Student Participation in Science Investigations. B.Y. White, J.R. Frederiksen, Technological Tools and Instructional Approaches for Making Scientific Inquiry Accessible to All. C. Dede, M. Salzman, R.B. Loftin, K. Ash, The Design of Immersive Virtual Learning Environments: Fostering Deep Understandings of Complex Scientific Knowledge.show more