Wittgenstein's rod

Summary

Wittgenstein's rod is a problem in geometry discussed by 20th-century philosopher Ludwig Wittgenstein.

An asymmetric case produced by a long rod

Description edit

A ray is drawn with its origin A on a circle, through an external point S and a point B is chosen at some constant distance from the starting end of the ray; what figure does B describe when all the initial points on the circle are considered? The answer depends on three parameters: the radius of the circle, the distance from the center to S, and the length of the segment AB. The shape described by B can be seen as a 'figure-eight' which in some cases degenerates to a single lobe looking like an inverted cardioid.

If B remains on the same side of S with respect to the center of the circle, instead of a ray one can consider just a segment or the rod AB.

Wittgenstein sketched a mechanism and wrote:

While the point A describes a circle, B describes a figure eight. Now we write this down as a proposition of kinematics.

When I work the mechanism its movement proves the proposition to me; as would a construction on paper.

The proposition corresponds e.g. to a picture of the mechanism with the paths of the points A and B drawn in. Thus it is in a certain respect a picture of that movement. It holds fast what the proof shows me. Or – what it persuades me of.

This text has been included among the notes selected for publication in Remarks on the Foundations of Mathematics and the editors have dated in the as spring of 1944.[1]

Related mechanism edit

Wittgenstein's rod is a generalization of Hoeckens linkage.

Animations edit

 
Teardrop-shaped
 
Fixed point close to the circle
 
Fixed point very close to the circle
 
Fixed point inside the circle, bean-shaped curve
Wittgenstein's rod: four cases

See also edit

References edit

  1. ^ Wittgenstein L., Remarks on the Foundations of Mathematics, edited by G. H. von Wright and Rush Rhees, Oxford: Blackwell 1998, ISBN 0-631-12505-1, sect V, §72, p.434

External links edit

  • Geometer's Sketchpad applet