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Derivation and Visualization of the Binomial Theorem

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Abstract

The binomial theorem presents us with the opportunity to weave many different mathematical strands into one lesson. It has a fascinating history — the study of which leads to a better understanding of how mathematics evolved. In this paper, we have involved computer graphics, geometry, algebra and combinatorics in the derivation of the binomial theorem. The study of functions with finite domains and ranges helps students understand some of the more subtle properties of functions which have the set of real numbers for their domain and range. These are the functions which they study to the exclusion of all others in high school and in their first two years in college. We believe that the lesson presented in this paper encourages students to express mathematical ideas in the vernacular, one of the major standards recommended by the National Council of Teachers of Mathematics (NCTM).

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Authors and Affiliations

  1. Mathematics Department, Kansas Wesleyan University, 100 East Claflin Rd, Salina, KS, 67401, USA

    Peter Flusser

  2. Mathematics, Computer, and Information Sciences Department, Jacksonville State University, 700 Pelham Rd North, Jacksonville, AL, 36265, USA

    Guillermo A. Francia III

Authors
  1. Peter Flusser
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  2. Guillermo A. Francia III
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Flusser, P., Francia, G.A. Derivation and Visualization of the Binomial Theorem. International Journal of Computers for Mathematical Learning 5, 3–24 (2000). https://doi.org/10.1023/A:1009873212702

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  • DOI: https://doi.org/10.1023/A:1009873212702

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