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Probing physics students’ conceptual knowledge structures through term association
1.John R. Anderson, Rules of the Mind (Lawrence Erlbaum Associates, Hillsdale, NJ, 1993).
2.Jill H. Larkin, “Information processing models and science instruction,” in Cognitive Process Instruction, edited by Jack Lochhead and John Clement (The Franklin Institute Press, Philadelphia, PA, 1979), pp. 109–118.
3.Michelene T. H. Chi, Paul J. Feltovich, and Robert Glaser, “Categorization and representation of physics problems by experts and novices,” Cogn. Sci. 5, 121–152 (1981).
4.William J. Gerace, “Contributions from cognitive research to mathematics and science education,” presented at the Workshop on Research in Science and Mathematics Education, Cathedral Peak, South Africa, 1992.
5.Jose P. Mestre, Robert J. Dufresne, William J. Gerace et al., “Promoting skilled problem-solving behavior among beginning physics students,” J. Res. Sci. Teach. 30, 303–317 (1993).
6.William J. Gerace, William J. Leonard, Robert J. Dufresne et al., Report No. PERG-1997#05-AUG#2-26, pp. 1997.
7.Richard Zajchowski and Jack Martin, “Differences in the problem solving of stronger and weaker novices in physics: Knowledge, strategies, or knowledge structure?,” J. Res. Sci. Teach. 30, 459–470 (1993).
8.Edward F. Redish, “Implications of cognitive studies for teaching physics,” Am. J. Phys. 62, 796–803 (1994).
9.Jose Mestre and Jerold Touger, “Cognitive research what’s in it for physics teachers?,” Phys. Teach. 27, 447–456 (1989).
10.Pamela H. Hardiman, Robert J. Dufresne, and Jose P. Mestre, “The relation between problem categorization and problem solving among experts and novices,” Mem. Cognit. 17, 627–638 (1989).
11.J. D. Novak and D. B. Gowin, Learning How to Learn (Prentice-Hall, Englewood Cliffs, NJ, 1984).
12.Maria Araceli Ruiz-Primo and Richard J. Shavelson, “Problems and issues in the use of concept maps in science assessment,” J. Res. Sci. Teach. 33, 569–600 (1996).
13.Michael J. Young, “Quantitative measures for the assessment of declarative knowledge structure characteristics,” Ph.D. thesis, University of Pittsburgh, 1993.
14.Diana C. Rice, Joseph M. Ryan, and Sara M. Samson, “Using concept maps to assess student learning in the science classroom: Must different methods compete?,” J. Res. Sci. Teach. 35, 1103–1127 (1998).
15.Alberto Regis, Pier Giorgio Albertazzi, and Ezio Roletto, “Concept maps in chemistry education,” J. Chem. Educ. 73, 1084–1088 (1996).
16.Tsai-Ping Ju, “The development of a microcomputer-assisted measurement tool to display a person’s knowledge structure,” Ph.D. thesis, University of Pittsburgh, 1989.
17.Timothy E. Goldsmith, Peder J. Johnson, and William H. Acton, “Assessing structural knowledge,” J. Educ. Psychol. 83, 88–96 (1991).
18.Pilar Gonzalvo, José J. Cañas, and Marı́a-Teresa Bajo, “Structural representations in knowledge acquisition,” J. Educ. Psychol. 86, 601–616 (1994).
19.N. M. Cooke, F. T. Durso, and R. W. Schvaneveldt, “Recall and measures of memory organization,” J. Exp. Psychol. Learn Mem. Cogn 12, 538–549 (1986).
20.C. J. F. ter Braak, “Ordination,” in Data Analysis in Community and Landscape Ecology, edited by R. H. G. Jongman, C. J. F. Ter Braak, and O. F. R. Van Tongeren (Cambridge University Press, Cambridge, 1995).
21.Peder J. Johnson, Timothy E. Goldsmith, and Kathleen W. Teague, “Similarity, structure, and knowledge: A representational approach to assessment,” in Cognitively Diagnostic Assessment, edited by Paul D. Nichols, Susan F. Chipman, and Robert L. Brennan (Lawrence Erlbaum Associates, Hillsdale, NJ, 1995), pp. 221–250.
22.Ian Beatty, “ConMap: Investigating new computer-based approaches to assessing conceptual knowledge structure in physics,” Ph.D. thesis, University of Massachusetts, 2000.
23.N. C. Barford, Experimental Measurements: Precision, Error and Truth 2nd ed. (Wiley, New York, 1967).
24.Ian D. Beatty, William J. Gerace, and Robert J. Dufresne, “Measuring and modeling physics students’ conceptual knowledge structures through term association times,” Cognitive Science Quarterly (submitted).
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