The path traced out by a point 
on the edge of a circle of radius 
rolling on the outside of a circle
of radius 
. An epicycloid is therefore an epitrochoid
with 
. Epicycloids are given by the parametric
equations
A polar equation can be derived by computing
so
![r^2=x^2+y^2=(a+b)^2+b^2-2b(a+b){cos[(a/b+1)phi]cosphi+sin[(a/b+1)phi]sinphi}.](https://txtdot.deep-swarm.xyz/proxy/img?url=https%3A%2F%2Fmathworld.wolfram.com%2Fimages%2Fequations%2FEpicycloid%2FNumberedEquation1.svg) |
(5) |
But
 |
(6) |
so
Note that 
is the parameter here, not the polar angle. The polar angle from the center
is
 |
(9) |
To get 
cusps in the epicycloid, 
, because then 
rotations of 
bring the point on the edge back to its starting position.
so
An epicycloid with one cusp is called a cardioid, one with two cusps is called a nephroid, and one with five cusps is called a ranunculoid.
Epicycloids can also be constructed by beginning with the diameter of a circle and offsetting one end by a series of steps
of equal arc length along the circumference while
at the same time offsetting the other end along the circumference
by steps 
times as large. After traveling around the circle once,
the envelope of an 
-cusped epicycloid is produced, as illustrated above (Madachy
1979).
Epicycloids have torsion
 |
(16) |
and satisfy
 |
(17) |
where 
is the radius of curvature (
).
See also
Cardioid, Cyclide, Cycloid, Epicycloid Evolute, Epicycloid Involute, Epicycloid Pedal Curve, Epitrochoid, Hypocycloid, Nephroid, Ranunculoid
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References
Beyer, W. H. CRC Standard Mathematical Tables, 28th ed. Boca Raton, FL: CRC Press, p. 217, 1987.Bogomolny, A. "Cycloids." http://www.cut-the-knot.org/pythagoras/cycloids.shtml.Lawrence, J. D. A Catalog of Special Plane Curves. New York: Dover, pp. 160-164 and 169, 1972.Lemaire, J. Hypocycloïdes et epicycloïdes. Paris: Albert Blanchard, 1967.MacTutor History of Mathematics Archive. "Epicycloid." http://www-groups.dcs.st-and.ac.uk/~history/Curves/Epicycloid.html.Madachy, J. S. Madachy's Mathematical Recreations. New York: Dover, pp. 219-225, 1979.Smith, D. E. History of Mathematics, Vol. 2: Special Topics of Elementary Mathematics. New York: Dover, p. 328, 1958.Wagon, S. Mathematica in Action. New York: W. H. Freeman, pp. 50-52, 1991.Yates, R. C. "Epi- and Hypo-Cycloids." A Handbook on Curves and Their Properties. Ann Arbor, MI: J. W. Edwards, pp. 81-85, 1952.
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Cite this as:
Weisstein, Eric W. "Epicycloid." From MathWorld--A Wolfram Resource. https://mathworld.wolfram.com/Epicycloid.html