Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-23T07:46:15.988Z Has data issue: false hasContentIssue false

On the Contacts of Circles

Published online by Cambridge University Press:  24 October 2008

Extract

There is a theorem for three circles in a plane, that if three tangents, each of two of these circles, either all transverse or one transverse and two direct, can be drawn to meet in a point, then the three tangents, each of two of the circles, respectively conjugate to those first taken, likewise meet in a point. The theorem was stated by Quidde, with a proof for the necessity of the condition as to the tangents to be taken, in a paper designed to establish Steiner's solution of Malfatti's problem. Casey gives the theorem with omission of the condition for the character of the tangents, as does Salmon, who, however, gives a proof depending on the right choice of certain square roots which enter. Quidde's theorem is stated, accurately, in the Nouvelles Annales, and a simple metrical proof, from the diagram drawn (essentially Quidde's, see 6 below) is given later in the same Journal by Mannheim; this is practically repeated by Hart. Recently, Prof. Neville, emphasizing the necessity of the condition for the character of the tangents, has called attention to Quidde's paper.

Type
Research Article
Copyright
Copyright © Cambridge Philosophical Society 1936

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

* Quidde, A., Archiv der Math. u. Phys. 15 (1850), 197204.Google Scholar

Steiner, J., Journal f. Math. 1 (1826), 161–84Google Scholar (183, Aufgabe 18); Gesammelte Werke, 1, 39.

Casey, J., Sequel to Euclid, 5th edition (1888), p. 521Google Scholar, Ex. 48.

§ Salmon, G., Treatise on conic sections, 6th edition (1879), p. 263Google Scholar, Ex. 2.

Quidde, A., Nouv. Ann. de Math. 11 (1852), 313Google Scholar (No. 255).

A. Mannheim, ibid. 13 (1854), 210.

** Hart, A. S., Quart. J. of Math. 1 (1857), 219.Google Scholar

†† Neville, E. H., Math. Gazette, 15 (1930), 134 and 257.CrossRefGoogle Scholar

‡‡ J. Steiner, loc. cit.

§§ Baker, H. F., Principles of Geometry, 4 (1925), 67Google Scholar, Ex. 7.

Poncelet, J. V., Propriétés projectives (1822), p. 389Google Scholar, or, in the edition of 1865, 1, 378, § 606.

* Mannheim, A., Nouv. Ann. 13 (1854), 211.Google Scholar

* Coll. Papers, 2, 77.

Ges. Werke, 1, 39Google Scholar, Aufg. 18.

Proc. Land. Math. Soc. (2), 30 (1930), 287.Google Scholar