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A proof of Aronhold's theorem upon quartic curves
Published online by Cambridge University Press: 20 January 2009
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It is to be expected that a finite number of plane curves of order four should have seven given lines as bitangents, because the number of conditions imposed is equal to the number of effective free constants in the equation of such a curve, viz., 14. Aronhold made the interesting discovery that one curve could be determined in which no three of the given lines have their six points of contact on a conic. The method, due to Geiser, of obtaining the bitangents as projections of the lines of a cubic surface leads to a simple proof of the existence of this quartic.
- Type
- Research Article
- Information
- Proceedings of the Edinburgh Mathematical Society , Volume 6 , Issue 3 , August 1940 , pp. 190 - 191
- Copyright
- Copyright © Edinburgh Mathematical Society 1940
References
page 190 note 1 Salmon, , Higher Plane Curves, 3rd Edition (Dublin, 1879), 234–240.Google Scholar
page 190 note 2 Geiser, , Math. Annalen, 1 (1869), 129.CrossRefGoogle Scholar
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