In inversive geometry, the circle of antisimilitude (also known as mid-circle) of two

circle A circle is a shape consisting of all points in a plane that are at a given distance from a given point, the centre. Equivalently, it is the curve traced out by a point that moves in a plane so that its distance from a given point is con ...

s, ''α'' and ''β'', is a reference circle for which ''α'' and ''β'' are inverses of each other. If ''α'' and ''β'' are non-intersecting or tangent, a single circle of antisimilitude exists; if ''α'' and ''β'' intersect at two points, there are two circles of antisimilitude. When ''α'' and ''β'' are

congruent Congruence may refer to: Mathematics * Congruence (geometry), being the same size and shape * Congruence or congruence relation, in abstract algebra, an equivalence relation on an algebraic structure that is compatible with the structure * In mod ...

, the circle of antisimilitude degenerates to a

line of symmetry In mathematics, reflection symmetry, line symmetry, mirror symmetry, or mirror-image symmetry is symmetry with respect to a reflection. That is, a figure which does not change upon undergoing a reflection has reflectional symmetry. In 2D ther ...

through which ''α'' and ''β'' are reflections of each other...

Properties

If the two circles ''α'' and ''β'' cross each other, another two circles ''γ'' and ''δ'' are each tangent to both ''α'' and ''β'', and in addition ''γ'' and ''δ'' are tangent to each other, then the point of tangency between ''γ'' and ''δ'' necessarily lies on one of the two circles of antisimilitude. If ''α'' and ''β'' are disjoint and non-concentric, then the locus of points of tangency of ''γ'' and ''δ'' again forms two circles, but only one of these is the (unique) circle of antisimilitude. If ''α'' and ''β'' are tangent or concentric, then the locus of points of tangency degenerates to a single circle, which again is the circle of antisimilitude.Tangencies: Circular Angle Bisectors
The Geometry Junkyard,

David Eppstein David Arthur Eppstein (born 1963) is an American computer scientist and mathematician. He is a Distinguished Professor of computer science at the University of California, Irvine. He is known for his work in computational geometry, graph algo ...

, 1999. If the two circles ''α'' and ''β'' cross each other, then their two circles of antisimilitude each pass through both crossing points, and bisect the angles formed by the arcs of ''α'' and ''β'' as they cross. If a circle ''γ'' crosses circles ''α'' and ''β'' at equal angles, then ''γ'' is crossed orthogonally by one of the circles of antisimilitude of ''α'' and ''β''; if ''γ'' crosses ''α'' and ''β'' in

supplementary angles In Euclidean geometry, an angle is the figure formed by two rays, called the '' sides'' of the angle, sharing a common endpoint, called the ''vertex'' of the angle. Angles formed by two rays lie in the plane that contains the rays. Angles a ...

, it is crossed orthogonally by the other circle of antisimilitude, and if ''γ'' is orthogonal to both ''α'' and ''β'' then it is also orthogonal to both circles of antisimilitude.

For three circles

Suppose that, for three circles ''α'', ''β'', and ''γ'', there is a circle of antisimilitude for the pair (''α'',''β'') that crosses a second circle of antisimilitude for the pair (''β'',''γ''). Then there is a third circle of antisimiltude for the third pair (''α'',''γ'') such that the three circles of antisimilitude cross each other in two triple intersection points. Altogether, at most eight triple crossing points may be generated in this way, for there are two ways of choosing each of the first two circles and two points where the two chosen circles cross. These eight or fewer triple crossing points are the centers of inversions that take all three circles ''α'', ''β'', and ''γ'' to become equal circles. For three circles that are mutually externally tangent, the (unique) circles of antisimilitude for each pair again cross each other at 120° angles in two triple intersection points that are the

isodynamic point In Euclidean geometry, the isodynamic points of a triangle are points associated with the triangle, with the properties that an inversion centered at one of these points transforms the given triangle into an equilateral triangle, and that the dis ...

s of the triangle formed by the three points of tangency.

References

External links

*{{mathworld, title=Midcircle, id=Midcircle Circles Inversive geometry

Properties

For three circles

See also

References

External links