Difference between revisions of "Descartes' Circle Formula"

Revision as of 22:44, 11 March 2011

(based on wording of ARML 2010 Power)

Descartes' Circle Formula is a relation held between four mutually tangent circles.

Some notation: when discussing mutually tangent circles (or arcs), it is convenient to refer to the curvature of a circle rather than its radius. We define curvature as follows. Suppose that circle A of radius $r_a$ is externally tangent to circle B of radius $r_b$ . Then the curvatures of the circles are simply the reciprocals of their radii, $\frac{1}{r_1}$ and $\frac{1}{r_2}$ .

If circle A is internally tangent to circle B, however, a the curvature of circle A is still $\frac{1}{r_1}$ , while the curvature of circle B is $-\frac{1}{r_2}$ , the opposite of the reciprocal of its radius.

$[asy] size(200); defaultpen(linewidth(0.7)); draw(Circle(origin,0.5)); draw(Circle((1.5,0),1)); dot(origin^^(1.5,0)^^(0.5,0)); draw(origin--(1.5,0)); label("$1/2$", (0.25,0), N); label("$1$", (1,0), N); label("$A$", origin, SW); label("$B$", (1.5,0), SE); [/asy]$

In the above diagram, the curvature of circle A is 2 while the curvature of circle B is 1.

$[asy] size(100); defaultpen(linewidth(0.7)); draw(Circle((1.25,0),0.25)); draw(Circle((1.5,0),0.5)); dot((1,0)^^(1.5,0)^^(1.25,0)^^(2,0)); draw((1,0)--(2,0)); label("$1/2$", (1.125,0), N); label("$1$", (1.75,0), N); label("$A$", (1.25,0), SW); label("$B$", (1.5,0), SE); [/asy]$

In the above diagram, the curvature of circle A is still 2 while the curvature of circle B is -1.

When four circles A, B, C, and D are pairwise tangent, with respective curvatures a, b, c, and d, then:

$(a+b+c+d)^2 = 2(a^2+b^2+c^2+d^2)$ .

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Difference between revisions of "Descartes' Circle Formula"

Revision as of 22:44, 11 March 2011

@@ Line 23: / Line 23: @@
 <asy>
-size(200);
+size(100);
 defaultpen(linewidth(0.7));
 draw(Circle((1.25,0),0.25));