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H. Simon, J. Hayes (1976)
The understanding process: Problem isomorphsCognitive Psychology, 8
(1980)
Development of processes for understanding problems
A. Newell (1973)
Production Systems: Models of Control Structures
J. Kleer (1977)
Multiple Representations of Knowledge in a Mechanics Problem-Solver
(1980)
problem representations and skill in physics (Tech. Rep. Applied Cognitive Psychology No. 2)
(1977)
Process of understanding in problem solving
J. Larkin, J. McDermott, Dorothea Simon, H. Simon (1980)
Expert and Novice Performance in Solving Physics ProblemsScience, 208
P. Wortman (1972)
Medical diagnosis: an information-processing approach.Computers and biomedical research, an international journal, 5 4
D. Bobrow, D. Norman (1975)
SOME PRINCIPLES OF MEMORY SCHEMATA
Dorothea Simon, H. Simon (1978)
Individual Differences in Solving Physics Problems (1978)
W. Chase, M. Chi (1979)
Cognitive Skill: Implications for Spatial Skill in Large-Scale Environments.
D. Dandaneau (1970)
Fundamentals of PhysicsNature, 228
D. Bobrow, A. Collins (1975)
Representation and Understanding: Studies in Cognitive Science
G. Novak, A. Araya (1980)
Research on Expert Problem Solving in Physics
W. Chase, H. Simon (1973)
Perception in chessCognitive Psychology, 4
J. Harvey (1981)
Cognition, social behavior, and the environment
(1979)
Information processing analyses of mathematical problem solving Testing, teaching, and learning: Report of a conference on research on testing
(1978)
Progresses through 4 stages of representations(p134): 1. Literal representation of the problem statement
G. Novak (1977)
Representations of Knowledge in a Program for Solving Physics Problems
A. Newell (1973)
Human Problem Solving
(1978)
Re-representing textbook physics problems
(1977)
Cognitive mechanisms facilitating human problem solving in a realistic domain : The example of physics
H. Pople (1977)
The Formation of Composite Hypotheses in Diagnostic Problem Solving: An Exercise in Synthetic Reasoning
(1980)
Understanding, problem representations and skill in physics
The representation of physics problems in relation to the organization of physics knowledge is investigated in experts and novices. Four experiments examine (a) the existence of problem categories as a basis for representation; (b) differences in the categories used by experts and novices; (c) differences in the knowledge associated with the categories; and (d) features in the problems that contribute to problem categorization and representation. Results from sorting tasks and protocols reveal that experts and novices begin their problem representations with specifiably different problem categories, and completion of the representations depends on the knowledge associated with the categories. For, the experts initially abstract physics principles to approach and solve a problem representation, whereas novices base their representation and approaches on the problem's literal features.
Cognitive Science - A Multidisciplinary Journal – Wiley
Published: Apr 1, 1981
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