Table of Content
Contents: Introduction. Part I: Cognitive Science Views of Problem Solving. D. Jonassen, What Makes Scientific Problem Solving Complex. J. Funcke, P. Frensch, Complex Problem Solving--The European Perspective: 10 Years After. J. Price, R. Catrambone, R. Engle, When Capacity Matters: The Role of Working Memory in Problem Solving. F. Oswald, Z. Hambrick, On Keeping All the Plates Spinning: Understanding and Predicting Multi-Tasking Performance. P. Cheng, Representing Complex Problems: A Representational Epistemic Approach. M. Rosen, S.M. Fiore, E. Salas, Of Memes and Teams: Exploring the Memetics of Team Problem Solving. Part II: Scientific Views of Problem Solving. C. Ogilvie, Moving Students From Simple to Complex Problem Solving. S. Ryan, J. Jackman, P. Kumsaikaew, V. Dark, S. Olafsson, Use of Information in Collaborative Problem Solving. G. Gray, F. Costanzo, Making Dynamics Interactive. S. Rebello, L. Cui, A. Bennett, D.A. Zollman, D.J. Ozimek, Transfer of Learning in Problem Solving in the Context of Mathematics and Physics. S. Ryan, J. Jackman, S. Olafsson, V. Dark, Meta-Problem Spaces and Problem Structure. M. Ogot, G. Okudan, Educating for Complex Problem Solving Using a Theory of Inventive Problem Solving (TRIZ). A. Bhandari, L. Erickson, M. Steichen, W. Jacoby, Preparing Students to Work Effectively as Members of Interdisciplinary Design Teams. B. Bogue, R. Marra, Addressing Gender in Complex Problem Solving. D. Jonassen, R. Engle, P. Cheng, E. Salas, Pa rt III: Research Agenda for the Future: What We Need to Learn About Complex, Scientific Problem Solving.