Conchoid of de Sluze explained

In algebraic geometry, the conchoids of de Sluze are a family of plane curves studied in 1662 by Walloon mathematician René François Walter, baron de Sluze.^[1] ^[2]

The curves are defined by the polar equation

r=\sec\theta+a\cos\theta.

(x-1)(x^2+y^2)=ax²

except that for the implicit form has an acnode not present in polar form.

These expressions have an asymptote (for). The point most distant from the asymptote is . is a crunode for .

The area between the curve and the asymptote is, for,

|a|(1+a/4)\pi

while for, the area is

\left(1-

a2\right)\sqrt{-(a+1)}-a\left(2+

a2\right)\arcsin	1{\sqrt{-a}}.

If, the curve will have a loop. The area of the loop is

\left(2+

a2\right)a\arccos	1{\sqrt{-a}}
	+

\left(1-	a2\right)\sqrt{-(a+1)}.

Four of the family have names of their own:

Notes and References