Difference between revisions of "Trisection of an angle"

The problem of dividing an angle $\phi$ into three equal parts; one of the classical problems of Antiquity on ruler-and-compass construction. The solution of the problem of trisecting an angle reduces to finding rational roots of a cubic equation $4x^3-3x-\cos\phi=0$, where $x=\cos(\phi/3)$, which, in general, is not solvable by quadratic radicals. Thus, the problem of trisecting an angle cannot be solved by means of ruler and compass, as was proved in 1837 by P. Wantzel. However, such a construction is possible for angles $m90^\circ/2^n$, where $n,m$ are integers, as well as by using other means and instruments of construction (for example, the Dinostratus quadratrix or the conchoid).

References

 [1] Yu.I. Manin, "Ueber die Lösbarkeit von Konstruktionsaufgaben mit Zirkel und Lineal" , Enzyklopaedie der Elementarmathematik , 4. Geometrie , Deutsch. Verlag Wissenschaft. (1969) pp. 205–230 (Translated from Russian)