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Creating the Components for Teaching Concepts

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Abstract

An important dimension of Direct Instruction (DI) programs involves teaching conceptual behavior related to broadly applicable generalizations of a content domain. The current article outlines the necessary components for teaching a concept in any domain. The first step (1) is to conduct a concept analysis of the critical features that define the concept, as well as the features that vary from instance to instance of the concept. From this prescription we must (2) develop a range of typical and far-out examples of the concept that illustrate both the critical and variable features, (3) develop a minimum rational set of close-in nonexamples of the concept, each of which is missing only one critical feature, (4) develop matched example/nonexample pairs to highlight the critical feature missing in each example, and (5) develop additional examples and nonexamples that may be needed to produce the desired discriminations. Multiple exemplar teaching is not enough. Teaching a concept this way produces generative responding to examples as well as nonexamples not presented during instruction. To assess learners’ generative responding, we must (6) create another set of far-out examples and close-in nonexamples from the concept-analysis prescription. Finally, after initially acquiring conceptual behavior, learners must (7) practice with additional far-out examples and close-in nonexamples. Once these components are created, a teacher is ready to develop an instructional sequence featuring tasks that include context-setting descriptions, rules, examples, and nonexamples.

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Notes

  1. Tiemann and Markle (1990) consider naming nonexamples as examples instances of “overgeneralization,” and naming examples as nonexamples instances of “undergeneralization,” although we do not prefer these terms.

References

  • Becker, W. (1986). Applied psychology for teachers: A behavioral cognitive approach. Science Research Associates.

  • Engelmann, S. (1969). Conceptual learning. Dimensions..

  • Engelmann, S., & Carnine, D. (1991). Theory of instruction (rev. ed.). National Institute for Direct Instruction.

  • Herrnstein, R. J., Loveland, D. H., & Cable, C. (1976). Natural concepts in pigeons. Journal of Experimental Psychology: Animal Behavior Processes, 2(4), 285–302. https://doi.org/10.1037/0097-7403.2.4.285.

    Article  Google Scholar 

  • Johnson, D. A. (2014). The need for an integration of technology, behavior-based instructional design, and contingency management: An opportunity for behavior analysis. Revista Mexicana de Analisis de la Conducta [Mexican Journal of Behavior Analysis], 40, 58–72.

    Article  Google Scholar 

  • Johnson, K., Street, E., Kieta, A., & Robbins, J. (2020). The Morningside Model of Generative Instruction. Sloan.

  • Layng, T. (2018). Tutorial: Understanding concepts: Implications for behavior analysts and educators. Perspectives on Behavior Science, 42, 345–353. https://doi.org/10.1007/s40614-018-00188-6.

    Article  PubMed  PubMed Central  Google Scholar 

  • Markle, S. M. (1967). Empirical testing of programs. In P . C. Lange (Ed.), Programmed instruction: Sixty–sixth yearbook of the National Society for the Study of Education: 2 (pp. 104–138). Chicago: University of Chicago Press.

  • Markle, S. (1990). Designs for instructional designers. Morningside Press.

  • Markle, S., & Tiemann, P. (1969). Really understanding concepts, or, in fruminous pursuit of the Jabberwock. Stipes.

  • Markle, S., & Tiemann, P. (1974). Some principles of instructional design at higher cognitive levels. In R. Ulrich, T. Stachnik, & J. Mabry (Eds.), Control of human behavior (Vol. III) (pp. 312–323). Scott, Foresman.

  • Merrill, D., & Tennyson, R. (1992). Teaching concepts: An instructional design guide. Educational Technology Publications.

  • Stokes, T. F., & Baer, D. M. (1977). An implicit technology of generalization. Journal of Applied Behavior Analysis, 10, 349–367.

    Article  Google Scholar 

  • Tennyson, R., Woolley, F., & Merrill, D. (1972). Exemplar and nonexemplar variables which produce correct concept classification behavior and specified classification errors. Journal of Educational Psychology, 63, 144–152.

    Article  Google Scholar 

  • Tiemann, P., & Markle, S. (1990). Analyzing instructional content: A guide to instruction and evaluation. Morningside Press.

  • Watanabe, S., Sakamoto, J., & Wakita, M. (1995). Pigeons' discrimination of painting by Monet and Picasso. Journal of the Experimental Analysis of Behavior, 63(2), 165–174. https://doi.org/10.1901/jeab.1995.63-165.

    Article  PubMed  PubMed Central  Google Scholar 

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Correspondence to Kent Johnson.

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Johnson, K., Bulla, A.J. Creating the Components for Teaching Concepts. Behav Analysis Practice 14, 785–792 (2021). https://doi.org/10.1007/s40617-021-00626-z

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