257-gon

Regular 257-gon
A regular 257-gon
Type	Regular polygon
Edges and vertices	257
Schläfli symbol	{257}
Coxeter diagram
Symmetry group	Dihedral (D₂₅₇), order 2×257
Internal angle (degrees)	≈178.60°
Dual polygon	self
Properties	convex, cyclic, equilateral, isogonal, isotoxal

In geometry, a 257-gon (diacosipentacontaheptagon, diacosipentecontaheptagon) is a polygon with 257 sides. The sum of the interior angles of any non-self-intersecting 257-gon is 91800°.

Regular 257-gon

The area of a regular 257-gon is (with t = edge length)

A = \frac{257}{4} t^2 \cot \frac{\pi}{257}\approx 5255.751t^2.

A whole regular 257-gon is not visually discernible from a circle, and its perimeter differs from that of the circumscribed circle by about 24 parts per million.

Construction

The regular 257-gon (one with all sides equal and all angles equal) is of interest for being a constructible polygon: that is, it can be constructed using a compass and an unmarked straightedge. This is because 257 is a Fermat prime, being of the form 2^2ⁿ + 1 (in this case n = 3). Thus, the values $\cos \frac{\pi}{257}$ and $\cos \frac{2\pi}{257}$ are 128-degree algebraic numbers, and like all constructible numbers they can be written using square roots and no higher-order roots.

Although it was known to Gauss by 1801 that the regular 257-gon was constructible, the first explicit constructions of a regular 257-gon were given by Magnus Georg Paucker (1822)^[1] and Friedrich Julius Richelot (1832).^[2] Another method involves the use of 150 circles, 24 being Carlyle circles: this method is pictured below. One of these Carlyle circles solves the quadratic equation x² + x − 64 = 0.^[3]

Symmetry

The regular 257-gon has Dih₂₅₇ symmetry, order 514. Since 257 is a prime number there is one subgroup with dihedral symmetry: Dih₁, and 2 cyclic group symmetries: Z₂₅₇, and Z₁.

257-gram

A 257-gram is a 257-sided star polygon. As 257 is prime, there are 127 regular forms generated by Schläfli symbols {257/n} for all integers 2 ≤ n ≤ 128 as $\left\lfloor \frac{257}{2} \right\rfloor = 128$ .

Below is a view of {257/128}, with 257 nearly radial edges, with its star vertex internal angles 180°/257 (~0.7°).

Approximate construction of the first side of the regular 257-gon

Since the exact construction of the 257-gon is very extensive and can not be clearly displayed, hereinafter the first side is shown as an approximate construction.

$\scriptstyle\angle{}$ BME₁ = 1.400778210117941...° ; 360° ÷ 257 = 1.400778210116731...° ; $\scriptstyle\angle{}$ BME₁ - 360° ÷ 257 = 1.209...E-12°

Example to illustrate the error: At a circumscribed circle R = 1 billion km (the light needed for this distance about 55 minutes), the absolute error of the 1st side would be approximately 21 mm.

For details, see:

References

↑ Magnus Georg Paucker (1822). "Das regelmäßige Zweyhundersiebenundfunfzig-Eck im Kreise.". Jahresverhandlungen der Kurländischen Gesellschaft für Literatur und Kunst (in German) 2: 188. Retrieved 8. December 2015.
↑ Friedrich Julius Richelot (1832). "De resolutione algebraica aequationis x²⁵⁷ = 1, ...". Source: Journal für die reine und angewandte Mathematik (in Latin) 9: 1–26, 146–161, 209–230, 337–358. Retrieved 8. December 2015.
↑ DeTemple, Duane W. (Feb 1991). "Carlyle circles and Lemoine simplicity of polygon constructions" (PDF). The American Mathematical Monthly 98 (2): 97–208. doi:10.2307/2323939. Archived from the original (PDF) on 2016-01-27. Retrieved 6 November 2011.

External links

Weisstein, Eric W., "257-gon", MathWorld.
Robert Dixon Mathographics. New York: Dover, p. 53, 1991.
Benjamin Bold, Famous Problems of Geometry and How to Solve Them. New York: Dover, p. 70, 1982. ISBN 978-0486242972
H. S. M. Coxeter Introduction to Geometry, 2nd ed. New York: Wiley, 1969. Chapter 2, Regular polygons
Leonard Eugene Dickson Constructions with Ruler and Compasses; Regular Polygons. Ch. 8 in Monographs on Topics of Modern Mathematics *Relevant to the Elementary Field (Ed. J. W. A. Young). New York: Dover, pp. 352–386, 1955.
Wikibooks 257-Eck (German) Approximate construction of the first side

Regular polygons

Listed by number of sides

1–10 sides	Monogon Digon Equilateral triangle Square Pentagon Hexagon Heptagon Octagon Nonagon (Enneagon) Decagon

11–20 sides	Hendecagon Dodecagon Tridecagon Tetradecagon Pentadecagon Hexadecagon Heptadecagon Octadecagon Enneadecagon Icosagon

21–100 sides (selected)	Icositetragon (24) Triacontagon (30) Triacontadigon (32) Tetracontagon (40) Tetracontadigon (42) Tetracontaoctagon (48) Pentacontagon (50) Hexacontagon (60) Hexacontatetragon (64) Heptacontagon (70) Octacontagon (80) Enneacontagon (90) Enneacontahexagon (96) Hectogon (100)

>100 sides	120-gon 257-gon 360-gon Chiliagon (1000) Myriagon (10 000) 65537-gon Megagon (1 000 000) Apeirogon (∞)

Star polygons (5–12 sides)	Pentagram Hexagram Heptagram Octagram Enneagram Decagram Hendecagram Dodecagram

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