Designs for Learning Environments of the Future [recurso electrónico] : International Perspectives from the Learning Sciences / edited by Michael J. Jacobson, Peter Reimann.

Por: Jacobson, Michael J [editor.]Colaborador(es): Reimann, Peter [editor.] | SpringerLink (Online service)Tipo de material: TextoTextoEditor: Boston, MA : Springer US, 2010Descripción: XI, 291 p. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9780387882796Tema(s): Education | Education | Educational Technology | Computers and Education | Learning & InstructionFormatos físicos adicionales: Printed edition:: Sin títuloClasificación CDD: 371.33 Clasificación LoC:LC8-6691Recursos en línea: Libro electrónicoTexto
Contenidos:
Invention and Innovation in Designing Future Learning Environments -- MaterialSim: A Constructionist Agent-Based Modeling Approach to Engineering Education -- Learning Genetics from Dragons: From Computer-Based Manipulatives to Hypermodels -- The Development of River City, a Multi-User Virtual Environment-Based Scientific Inquiry Curriculum: Historical and Design Evolutions -- Design Perspectives for Learning in Virtual Worlds -- Learning to Learn and Work in Net-Based Teams: Supporting Emergent Collaboration with Visualization Tools -- Learning Mathematics Through Inquiry: A Large-Scale Evaluation -- Scaffolding Knowledge Communities in the Classroom: New Opportunities in the Web 2.0 Era -- From New Technological Infrastructures to Curricular Activity Systems: Advanced Designs for Teaching and Learning -- Toward a Theory of Personalized Learning Communities -- Afterword: Opportunities for Transformational Learning.
En: Springer eBooksResumen: Few things are as certain as societal changes—and the pressing need for educators to prepare students with the knowledge and ways of thinking necessary for the challenges in a changing world. In the forward-thinking pages of Designs for Learning Environments of the Future, international teams of researchers present emerging developments and findings in learning sciences and technologies at the infrastructure, curricular, and classroom levels. Focusing on ideas about designing innovative environments for learning in areas such as biology, engineering, genetics, mathematics, and computer science, the book surveys a range of learning technologies being explored around the world—a spectrum as diverse as digital media, computer modeling, and 3D virtual worlds—and addresses challenges arising from their design and use. The editors’ holistic perspective frames these innovations as not only discrete technologies but as flexible learning environments that foster student engagement, participation, and collaboration. Contributors describe possibilities for teaching and learning in these and other cutting-edge areas: Working with hypermodels and model-based reasoning Using visual representations in teaching abstract concepts Designing strategies for learning in virtual worlds Supporting net-based collaborative teams Integrating innovative learning technologies into schools Developing personal learning communities Designs for Learning Environments of the Future will enhance the work of a wide range of professionals, including researchers and graduate students in the learning and cognitive sciences, and educators in the physical and social sciences.
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Tipo de ítem Biblioteca actual Colección Signatura Copia número Estado Fecha de vencimiento Código de barras
Libro Electrónico Biblioteca Electrónica
Colección de Libros Electrónicos LC8 -6691 (Browse shelf(Abre debajo)) 1 No para préstamo 370314-2001

Invention and Innovation in Designing Future Learning Environments -- MaterialSim: A Constructionist Agent-Based Modeling Approach to Engineering Education -- Learning Genetics from Dragons: From Computer-Based Manipulatives to Hypermodels -- The Development of River City, a Multi-User Virtual Environment-Based Scientific Inquiry Curriculum: Historical and Design Evolutions -- Design Perspectives for Learning in Virtual Worlds -- Learning to Learn and Work in Net-Based Teams: Supporting Emergent Collaboration with Visualization Tools -- Learning Mathematics Through Inquiry: A Large-Scale Evaluation -- Scaffolding Knowledge Communities in the Classroom: New Opportunities in the Web 2.0 Era -- From New Technological Infrastructures to Curricular Activity Systems: Advanced Designs for Teaching and Learning -- Toward a Theory of Personalized Learning Communities -- Afterword: Opportunities for Transformational Learning.

Few things are as certain as societal changes—and the pressing need for educators to prepare students with the knowledge and ways of thinking necessary for the challenges in a changing world. In the forward-thinking pages of Designs for Learning Environments of the Future, international teams of researchers present emerging developments and findings in learning sciences and technologies at the infrastructure, curricular, and classroom levels. Focusing on ideas about designing innovative environments for learning in areas such as biology, engineering, genetics, mathematics, and computer science, the book surveys a range of learning technologies being explored around the world—a spectrum as diverse as digital media, computer modeling, and 3D virtual worlds—and addresses challenges arising from their design and use. The editors’ holistic perspective frames these innovations as not only discrete technologies but as flexible learning environments that foster student engagement, participation, and collaboration. Contributors describe possibilities for teaching and learning in these and other cutting-edge areas: Working with hypermodels and model-based reasoning Using visual representations in teaching abstract concepts Designing strategies for learning in virtual worlds Supporting net-based collaborative teams Integrating innovative learning technologies into schools Developing personal learning communities Designs for Learning Environments of the Future will enhance the work of a wide range of professionals, including researchers and graduate students in the learning and cognitive sciences, and educators in the physical and social sciences.

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