|
|
|||
|
||||
OverviewThe design of educational technology has been driven mostly by technology and much too little by advances in instructional psychology and education. This book approaches educational technology from a psychological and educational point of view. Many of the chapters included draw the implications of cognitive theory for the construction of technology-based learning environments. Using specific examples, they show how technology could support the design of environments that are important to construct for educational and psychological reasons. Originating from a NATO Advanced Study Institute held in 1992, the book is part of the NATO Special Programme on Advanced Educational Technology. Full Product DetailsAuthor: Stella Vosniadou , Erik de Corte , Heinz MandlPublisher: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG Imprint: Springer-Verlag Berlin and Heidelberg GmbH & Co. K Volume: 137 Weight: 0.604kg ISBN: 9783540582533ISBN 10: 3540582533 Pages: 312 Publication Date: 28 December 1994 Audience: Professional and scholarly , General/trade , Professional & Vocational Format: Hardback Publisher's Status: Active Availability: Temporarily unavailable The supplier advises that this item is temporarily unavailable. It will be ordered for you and placed on backorder. Once it does come back in stock, we will ship it out to you. Table of ContentsEditors' Introduction.- I Design Principles for Learning Environments.- From cognitive theory to educational technology.- Toward the integration of computers in powerful learning environment.- Learning with computer-based exploratory environments in science and mathematics.- Modelling, a means for expressing thinking: ESRC Tools for exploratory learning research programme.- Knowledge application in complex systems.- Internalization and Learning Environments.- Learning: From interactivity to cooperation.- Peer interactions among adolescents using computer networks in an international role playing exercise.- Implementing a model of cognitive development in an intelligent learning environment.- Differences in patterns: Studying computer enhanced learning environments.- II Using Educational Technology to Promote Conceptual Change in the Physical Sciences.- Multimedia environments for enhancing science instruction.- The Mars Mission Challenge: A generative problem-solving school science environment.- Studying and teaching model-based reasoning in science.- Promoting studies on conceptual change.- Diagnosing students' physics knowledge and remediating learning difficulties: A computer-based approach.- Development of a learning environment for basic electricity.- Development of an information system to help conceptual change concerning the human nervous system.- Analysis of physics knowledge for learning environments.- Integrating computer software tools in learning environments for meaningful learning.- Ecoland: A hypermedia prototype for environmental education.- III Technology-Based Learning Environments for Knowledge Acquisition in Mathematics and in Language.- Multimedia environments for enhancing student learning in mathematics.- Tutoring mathematical text problems: From cognitive task analysis to didactic tools.- Less can be more: Unintelligent tutoring based on psychological theories and experimentation.- The use of an intermediate model for solving word problems.- Qualitative analysis of children's learning of programming in the context of a developing culture of open-ended project work in a primary school.- Computer-assisted learning to read and write: A three-year longitudinal study.- Computer facilitations of the writing process.- Flow driven English course.- IV Taking into Consideration the Needs of the Learner.- Investigating the use of knowledge profiles in a flexible learning environment: Analyzing students' prior knowledge states.- Knowledge and learning skill student model.- Semantic networks of action.- Representation systems in mathematics and science: The era of computers.- Use of graphics in computer aided learning in chemistry.- Effects of visible link-types on learning in hypertext systems.- Knowledge construction and acquisition in a hypermedia environment customized for learning purposes.- Hypertext learning environments and epistemic beliefs: A preliminary investigation.- Investigating motivation and cooperation in computer-assisted learning: A pilot study.ReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |