Buch, Englisch, 308 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 471 g
Buch, Englisch, 308 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 471 g
Reihe: Routledge Research in Education
ISBN: 978-1-032-08454-1
Verlag: Routledge
How can knowledge developed in one context be put to use in other contexts? How can students learn to do so? How can educators design for learning this? These are fundamental challenges to many forms of education. The challenges are amplified in contemporary society where people traverse many different contexts and where contexts themselves are continuously changing.
Designing for Situated Knowledge Transformation provides a structured answer to these questions, through an investigation of the theoretical, empirical, methodological and pedagogical design aspects which they involve. Raising profound questions about the nature of knowledge, of situativity, and of transfer, transformation and resituation, it calls for and provides extended empirical studies of the forms of transformation that knowledge undergoes when people find themselves in new contexts while relying on existing knowledge.
Considering many avenues of practical application and insight, Designing for Situated Knowledge Transformation develops a coherent framework for developing learning designs for knowledge transformation that is crucial in today’s educational settings.
Zielgruppe
Postgraduate
Autoren/Hrsg.
Weitere Infos & Material
Preface; Author biographies; Chapter 1. Introduction. Designing for situated knowledge transformation; Part 1. Situated knowledge transformation – theoretical framework; Chapter 2. Situativity of different forms of knowledge; Chapter 3. Conceptions of transfer, transformation and resituation; Chapter 4. Context framework for analysing situated knowledge transformation; Chapter 5. Implicit and explicit metaphysics in conceptualizing transfer and transformation; Part 2. Situated knowledge transformation – empirical processes; Chapter 6. Transfer and transformation of ethics knowledge in continuing professional development; Chapter 7. Micro-transformational processes across sub-domains in science learning; Chapter 8. Knowledge forms in students' collaborative work - PBL as a design for transfer; Part 3. Developing pragmatically useful design principles; Chapter 9. Practice-based design research to advance teaching and learning practices through situated partnerships; Chapter 10. Basic design principles for learning designs to support knowledge transformation; Chapter 11. Designing for technology supportive of learning designs: The methodology of learner centered value sensitive design; Chapter 12. Design for transfer of computational literacy skills; Chapter 13. Design principles for transfer and transformation of academic literacy; Part 4. Case studies of designing for learning to transform knowledge; Chapter 14. A comparative study of learning designs for transformation of knowledge in undergraduate laboratory physics; Chapter 15. Knowledge transformation across changes in situational demands between education and professional practice; Chapter 16. Designing for mediational transition and learning through simulation – a task analysis of knowledge transformation; Index