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Hypocycloid

From Encyclopedia of Mathematics
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A plane curve which is the trajectory of a point on a circle rolling along a second circle while osculating it from inside. The parametric equations are

$$x(\theta)=(R-r)\cos\theta+r\cos\left[(R-r)\frac\theta r\right],$$

$$y(\theta)=(R-r)\sin\theta-r\sin\left[(R-r)\frac\theta r\right],$$

where $r$ is the radius of the moving circle, $R$ is the radius of the fixed circle and $\theta$ is the angle between the radius vector of the centre of the moving circle with the $x$-axis (assuming the trajectory passes through $(0,R)$). Depending on the size of the modulus $m=R/r$, hypocycloids of different forms are obtained. If $m$ is an integer, the curve consists of $m$ non-intersecting branches (Fig. a). The points of return $A_1,\ldots,A_m$ have polar coordinates $\rho=R$, $\phi=2k\pi/m$, $k=0,\ldots,m-1$. If $m$ is irrational, the number of branches is infinite, and the point $M$ does not return to its initial location; if $m$ is rational, the hypocycloid is a closed algebraic curve. The arc length from the point $\theta=0$ is

$$l=\frac{8R(m-1)}{m^2}\sin^2\frac\theta4.$$

The radius of the curvature is

$$r_k=\frac{4R(m-1)}{m^2(m-2)}\sin\frac\theta2.$$

$m=3$.

Figure: h048530a

If the point is not located on the rolling circle, but outside (or inside) it, the curve is said to be a lengthened (shortened) hypocycloid, or hypotrochoid. If $m=2$ the hypocycloid is a segment of a straight line; if $m=3$, it is a Steiner curve; if $m=4$, it is an astroid. Hypocycloids belong to the so-called cycloidal curves.


Comments

Every hypocycloid which is generated by circles with radii $R$ and $r$ can also be generated by circles with radii $R$ and $R-r$ ([a2], [a3]). Hypocycloids, and more generally trochoids, play an important role in plane kinematics.

References

[1] A.A. Savelov, "Planar curves" , Moscow (1960) (In Russian)
[a1] M. Berger, "Geometry" , I , Springer (1987) pp. 273–276
[a2] K. Fladt, "Analytische Geometrie spezieller ebener Kurven" , Akad. Verlagsgesell. (1962)
[a3] H.R. Müller, "Kinematik" , de Gruyter (1963)
How to Cite This Entry:
Hypocycloid. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Hypocycloid&oldid=53709
This article was adapted from an original article by D.D. Sokolov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article