In geometry, Cayley's sextic (sextic of Cayley, Cayley's sextet) is a plane curve, a member of the sinusoidal spiral family, first discussed by Colin Maclaurin in 1718. Arthur Cayley was the first to study the curve in detail and it was named after him in 1900 by Raymond Clare Archibald.

The curve is symmetric about the x-axis (y = 0) and self-intersects at y = 0, x = a/8. Other intercepts are at the origin, at (a, 0) and with the y-axis at ±383a

The curve is the pedal curve (or roulette) of a cardioid with respect to its cusp.[1]

Equations of the curve

The equation of the curve in polar coordinates is[1][2]

r = 4a cos3(θ/3)

In Cartesian coordinates the equation is[1][3]

4(x2 + y2  (a/4)x)3 = 27(a/4)2(x2 + y2)2 .

Cayley's sextic may be parametrised (as a periodic function, period π, ℝ→ℝ2) by the equations

  • x = cos3t cos3t
  • y = cos3t sin3t.

The node is at t = ±π/3.[4]

References

  1. 1 2 3 Lawrence, J. Dennis (1972). A catalog of special plane curves. Dover Publications. p. 178. ISBN 0-486-60288-5.
  2. Christopher G. Morris. Academic Press Dictionary of Science and Technology. p. 381.
  3. David Darling (28 October 2004). The Universal Book of Mathematics: From Abracadabra to Zeno's Paradoxes. John Wiley and Sons. p. 62. ISBN 9780471667001.
  4. C. G. Gibson (2001). Elementary Geometry of Differentiable Curves: An Undergraduate Introduction. Cambridge University Press. ISBN 9780521011075.
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