Visualization : theory and practice in science education

Introduction (John Gilbert, Miriam Reiner, Mary Nakhleh) Chapter 1. Visualization: An emergent interdisciplinary field of practice and enquiry in science education John Gilbert Section A: The nature and development of visualization: a review of what is known Preface (Miriam Reiner) Chapter 2. The 'ins' and 'outs' of learning: Internal representations and external visualizations David Rapp and Christopher Kurby Chapter 3. Understanding visualizations: A developmental approach with implications for science education David Uttal Chapter 4. See through touch: The role of haptic information in visualization Miriam Reiner Section B: The design of units and courses focused on visualization Preface (Mary Nakhleh) Chapter 5. Using external visualizations to extend and integrate learning in mobile and classroom settings Yvonne Rogers Chapter 6. Visualizing the molecular world: The design, evaluation and use of animations Roy Tasker and Rebecca Dalton Chapter 7. Moon pie in the sky?: Engineering instructional metaphors within virtual environments Debbie Reese Chapter 8. Teaching chemistry with and without external representations in a professional environment with limited resources Liliana Mammino Section C: Learning with external representations Preface. (John Gilbert) Chapter 9. The educational value of multi-representations when learning complex scientific concepts Shaaron Ainsworth Chapter 10. Learning chemistry using multiple external representations Mary Nakhleh and Brian Postek Chapter 11. Representational resources for constructing shared understandings in the high school chemistryclassroom Vera Michalchik, Anders Rosenquist, Robert Kozma, Patty Kreikemeier, Patricia Schank, Brian Coppola Chapter 12. Visualization without vision: Students with visual impairment M. Gail Jones and Bethany Broadwell Chapter 13. When an image turns into knowledge: The role of visualization in thought experimentation Miriam Reiner and John Gilbert