What question did this study set out to answer?

To determine the upper bound of the volume for the convex hull of a closed Frenet curve with four vertices.

March 12, 2026Open Access

The convex hull of a convex space curve with four vertices

Puntos clave

To determine the upper bound of the volume for the convex hull of a closed Frenet curve with four vertices.
Analyzed properties of simple closed Frenet curves with specific vertex conditions.
Examined intersections of the curve with planes, focusing on limits of four intersection points.
Employed an elementary parameterization of the convex hull based on line segments.
Established an upper bound for the volume of the convex hull.
Demonstrated that the upper bound is reached under the condition of plane intersections.
Related findings to historical work by Scherk and Segre and a question from Newson.

Resumen

Abstract We obtain an upper bound for the volume of the convex hull of a simple closed Frenet curve with exactly four vertices, that is, four points of vanishing torsion, and lying on the boundary of its convex hull. Moreover, we show that the upper bound is attained when the curve intersects every plane in at most four points, a condition studied by Scherk and Segre in the 1930s. The proof relies on the fact that, under the four‐vertex assumption, the convex hull is a union of line segments and therefore admits an elementary parameterization. We also comment on a question posed by Newson in 1899.

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