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Squares in triangles*

Published online by Cambridge University Press:  01 August 2016

John E. Wetzel
John E. Wetzel*
Affiliation:
University of Illinois at Urbana-Champaign, Urbana, Illinois, U.S.A.
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Extract

When can a triangle cover a square? More precisely, when can a square of side s fit into a triangle with sides a, b, c?

Questions about when, and whether, one shape can fit into another are fundamental to the elementary study of shapes in geometry, and yet such questions have only rarely been considered in the literature. In 1872 Cayley thought the question of determining precisely when a given triangle fits into a given circle sufficiently interesting that he posed it as a problem in the Educational Times. In 1956 Ford asked when one given rectangle fits in another given rectangle. A necessary and sufficient condition on the sides was soon supplied by Carver (see also Wetzel). The corresponding question for two triangles, asked in 1964 by Steinhaus, went unanswered for thirty years until Post supplied a set of 18 inequalities on the six sides whose disjunction is both necessary and sufficient.

Type
Articles
Information
The Mathematical Gazette , Volume 86 , Issue 505 , March 2002 , pp. 28 - 34
Copyright
Copyright © The Mathematical Association 2002

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Footnotes

*

Some of these results were presented at the Millennial Galactic Trianglism Congress at the Center for Research on Concepts and Cognition at Indiana University, Bloomington, Indiana, in March of 1999.

References

1. Cayley, A. Problem 3564, Mathematical questions with their solutions from the Educational Times’, Vol. XVII, C. F. Hodgson & Sons, London (1872) p. 72.Google Scholar
2. Ford, L. R. Problem E1225, Amer. Math. Monthly 63 (1956) p. 421.Google Scholar
3. Carver, W. B. Solution to Problem E1225, Amer. Math. Monthly 64 (1957) pp. 114116.Google Scholar
4. Wetzel, John E. Rectangles in rectangles, Math. Mag. 73 (2000) pp. 204211.Google Scholar
5. Steinhaus, Hugo One hundred problems in elementary mathematics, Basic Books, New York (1964).Google Scholar
6. Post, K. A. Triangle in a triangle: on a problem of Steinhaus, Geom. Dedicata 45 (1993) pp. 115–20.Google Scholar
7. Sullivan, J. M. Polygon in triangle: generalising a theorem of Post (in preparation).Google Scholar
8. Heath, T. L. The thirteen books of Euclid’s elements, Dover, New York (1956).Google Scholar
9. Polya, G. How to solve it, Princeton Univ. Press, Princeton, New Jersey (1945).Google Scholar
10. McDowell, J. L. Exercises on Euclid and in modern geometry for the use of schools, private students, and junior university students, Deighton, Bell, Cambridge (1863).Google Scholar
11. Casey, J. A sequel to the first six books of the elements of Euclid, 5th edn., Hodges, Figgis & Co., Dublin (1888).Google Scholar
12. Brune, [E. W.] Gröfstes Quadrat im Dreiecke, Crelle’s Journal (= J. reine angew. Math.) 15 (1836) pp. 365366.Google Scholar
13. Sard, E. Quickie Q845, Math. Mag. 69 (1996) p. 304. (The answer is on p. 310.)Google Scholar
14. Bailey, H. and DeTemple, D. Squares inscribed in angles and triangles, Math. Mag. 71 (1998) pp. 278284.Google Scholar
15. Klamkin, M. Problem 4160, School Sci. Math. 87 (1987) p. 626.Google Scholar
16. Wayne, A. Solution of Problem 4160, School Sci. Math. 88 (1988) p. 677.Google Scholar
17. Reich, S. Squares in a triangle, Math. Gaz. 54 (1970) p. 145.Google Scholar
18. Conway, J. H. and Guy, R. K. The book of numbers, Springer-Verlag New York (1996).Google Scholar