Astroid

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Not to be confused with asteroid.

Astroid

The construction of the astroid.

In mathematics, an astroid is a particular type of curve: a hypocycloid with four cusps. It is also a super ellipse with n=2/3 and a=b. Its modern name comes from the Greek word for "star". The curve had a variety of names, including tetracuspid (still used), cubocycloid, and paracycle.

A circle of radius 1/4 rolls around inside a circle of radius 1 and a point on its circumference traces an astroid. A line segment of length 1 slides with one end on the x-axis and the other on the y-axis, so that it is tangent to the astroid (which is therefore an envelope). The parametric equations are

$x=\cos^3\theta,\qquad y=\sin^3\theta.$

The astroid is a plane algebraic curve of genus zero. It has the equation

(x 2 + y 2 - 1) 3 + 27 x 2 y 2 = 0.

The astroid is therefore of degree six, and has four cusp singularities in the real plane, the points on the star. It has two more complex cusp singularities at infinity, and four complex double points, for a total of ten singularities.

The dual curve to the astroid is the cruciform curve with equation $\textstyle x^2 y^2 = x^2 + y^2.$ The evolute of an astroid is an astroid twice as large.