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Quaternions: The hypercomplex number system

Published online by Cambridge University Press:  01 August 2016

Sandra Pulver*
Affiliation:
Pace University, Mathematics Dept., 1 Pace Plaza, New York, NY 10002, USA

Extract

Are there solutions of the equation x2 + 1 = 0 ? Carl Fredrich Gauss (1777–1855) conjectured that there was a solution and that it was the square root of - 1 . But since the squares of all real numbers, positive or negative, are positive, Gauss introduced a fanciful idea. His solution to this equation was , which he named i. He integrated i with the real numbers to form a set known as , the complex numbers, where each element in that set was of the form a + bi, where a, . Gauss illustrated this on a graph, the horizontal axis became the real axis and represented the real coefficient, while the vertical axis became the imaginary axis and represented the imaginary coefficient.

Type
Articles
Copyright
Copyright © The Mathematical Association 2008

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References

Further reading

1. Du Val, Patrick Homographies, quaternions and rotations, Oxford, Clarendon Press (1964).Google Scholar
2. Fraleigh, John B. A first course in abstract algebra, Addison Wesley, Reading, Mass. (1976).Google Scholar
3. Julstrom, B. A. Using real quaternions to represent rotations in three dimensions: Modules in undergraduate mathematics and its applications, pp. 143154 (1992).Google Scholar
4. Koecher, M. and Remmert, R. Hamilton’s quaternions, New York: Springer-Verlag Publishers, pp. 189220 (1991).Google Scholar
5. Herman, Meyer Complex numbers and quaternions as matrices, Enrichment Mathematics, Washington D.C., The National Council of Teachers of Mathematics (1963).Google Scholar