Switch to: Citations

Add references

You must login to add references.
  1. Dual Space Search During Scientific Reasoning.David Klahr & Kevin Dunbar - 1988 - Cognitive Science 12 (1):1-48.
    The purpose of the two studies reported here was to develop an integrated model of the scientific reasoning process. Subjects were placed in a simulated scientific discovery context by first teaching them how to use an electronic device and then asking them to discover how a hitherto unencountered function worked. To do this task, subjects had to formulate hypotheses based on their prior knowledge, conduct experiments, and evaluate the results of their experiments. In the first study, using 20 adult subjects, (...)
    Download  
     
    Export citation  
     
    Bookmark   141 citations  
  • What is the shape of developmental change?Karen E. Adolph, Scott R. Robinson, Jesse W. Young & Felix Gill-Alvarez - 2008 - Psychological Review 115 (3):527-543.
    Download  
     
    Export citation  
     
    Bookmark   8 citations  
  • The role of deliberate practice in the acquisition of expert performance.K. Anders Ericsson, Ralf T. Krampe & Clemens Tesch-Römer - 1993 - Psychological Review 100 (3):363-406.
    Download  
     
    Export citation  
     
    Bookmark   221 citations  
  • How scientists think: On-line creativity and conceptual change in science.Kevin Dunbar - 1997 - In T. B. Ward, S. M. Smith & J. Vaid (eds.), Creative Thought: An Investigation of Conceptual Structures and Processes. American Psychological Association. pp. 461--493.
    Download  
     
    Export citation  
     
    Bookmark   35 citations  
  • Self‐Explanations: How Students Study and Use Examples in Learning to Solve Problems.Michelene T. H. Chi, Miriam Bassok, Matthew W. Lewis, Peter Reimann & Robert Glaser - 1989 - Cognitive Science 13 (2):145-182.
    The present paper analyzes the self‐generated explanations (from talk‐aloud protocols) that “Good” and “Poor” students produce while studying worked‐out examples of mechanics problems, and their subsequent reliance on examples during problem solving. We find that “Good” students learn with understanding: They generate many explanations which refine and expand the conditions for the action parts of the example solutions, and relate these actions to principles in the text. These self‐explanations are guided by accurate monitoring of their own understanding and misunderstanding. Such (...)
    Download  
     
    Export citation  
     
    Bookmark   86 citations  
  • (1 other version)Behaviorism.John B. Watson - 1927 - Mind 36 (141):77-83.
    Download  
     
    Export citation  
     
    Bookmark   167 citations  
  • (1 other version)Behaviorism.John B. Watson - 1926 - Journal of Philosophy 23 (12):331-334.
    Download  
     
    Export citation  
     
    Bookmark   236 citations  
  • Collaborative Discovery in a Scientific Domain.Takeshi Okada & Herbert A. Simon - 1997 - Cognitive Science 21 (2):109-146.
    This study compares Pairs of subjects with Single subjects in a task of discovering scientific laws with the aid of experiments. Subjects solved a molecular genetics task in a computer micro‐world (Dunbar, 1993). Pairs were more successful in discovery than Singles and participated more actively in explanatory activities (i.e., entertaining hypotheses and considering alternative ideas and justifications). Explanatory activities were effective for discovery only when the subjects also conducted crucial experiments. Explanatory activities were facilitated when paired subjects made requests of (...)
    Download  
     
    Export citation  
     
    Bookmark   28 citations  
  • The Creative Vision: A Longitudinal Study of Problem Finding in Art.Vera John-Steiner - 1979 - Journal of Aesthetic Education 13 (4):121.
    Download  
     
    Export citation  
     
    Bookmark   46 citations  
  • Concept Discovery in a Scientific Domain.Kevin Dunbar - 1993 - Cognitive Science 17 (3):397-434.
    Download  
     
    Export citation  
     
    Bookmark   47 citations