Generalised circle

Generalised circle

A generalized circle, also referred to as a "cline" or "circline", is a straight line or a circle. The concept is mainly used in inversive geometry, because straight lines and circles have very similar properties in that geometry and are best treated together.

Inversive plane geometry is formulated on the plane extended by one point at infinity. A straight line is then thought of as a circle that passes through the point at infinity. The fundamental transformations in inversive geometry, the inversions, have the property that they map generalized circles to generalized circles. Möbius transformations, which are compositions of inversions, inherit that property. These transformations do not necessarily map lines to lines and circles to circles: they can mix the two.

Inversions come in two kinds: inversions at circles and reflections at lines. Since the two have very similar properties, we combine them and talk about inversions at generalized circles.

Given any three distinct points in the extended plane, there exists precisely one generalized circle that passes through the three points.

The extended plane can be identified with the sphere using a stereographic projection. The point at infinity then becomes an ordinary point on the sphere, and all generalized circles become circles on the sphere.

Contents

Equation in the extended complex plane

The extended plane of inversive geometry can be identified with the extended complex plane, so that equations of complex numbers can be used to describe lines, circles and inversions.

A circle Γ is the set of points z in a plane that lie at radius r from a center point γ.

\Gamma(\gamma, r) = \{ z : \mathrm {\ the\ distance\ between\ } z \mathrm {\ and\ } \gamma \mathrm {\ is\ } r \}

Using the complex plane, we can treat γ as a complex number and circle Γ as a set of complex numbers.

Using the property that a complex number multiplied by its conjugate gives us the square of the modulus of the number, and that its modulus is its Euclidean distance from the origin, we can we can express the equation for Γ as follows:

{\left | z-\gamma \right |} = r
{\left | z-\gamma \right |} ^2 = r^2
(z-\gamma)\overline{(z-\gamma)} = r^2
z \bar z - z \bar \gamma - \bar z \gamma + \gamma \bar \gamma = r^2
z \bar z - z \bar \gamma - \bar z \gamma + \gamma \bar \gamma - r^2 = 0.

We can multiply this by a real constant A to get an equation of the form

A z \bar z + B z + C \bar z + D = 0

where A and D are real, and B and C are complex conjugates. Note that when A is zero, this equation defines a straight line.

The transformation w = 1/z

It is now easy to see that the transformation w = 1/z maps generalized circles to generalized circles:

\begin{align} A z \bar z + B z + C \bar z + D & = 0 \\[6pt] A \frac{1}{w} \frac{1}{\bar w} + B \frac{1}{w} + C \frac{1}{\bar w} + D & = 0 \\[6pt] A + B \bar w + C w + D w \bar w & = 0 \\[6pt] D \bar w w + C w + B \bar w + A & = 0. \end{align}

We see that straight lines through the origin (A = D = 0) are mapped to straight lines through the origin, straight lines not containing the origin (A = 0; D ≠ 0) to circles containing the origin, circles containing the origin (A ≠ 0; D = 0) to straight lines not containing the origin, and circles not containing the origin (A ≠ 0; D ≠ 0) to circles not containing the origin.

Representation by Hermitian matrices

The data defining the equation of a generalized circle

A z \bar z + B z + C \bar z + D = 0

can be usefully put into the form of an invertible hermitian matrix

\mathfrak C = \begin{pmatrix}A & B \\ C & D \end{pmatrix} = \mathfrak C ^\dagger.

Two such invertible hermitian matrices specify the same generalized circle if and only if they differ by a real multiple.

To transform a generalized circle described by \mathfrak C by the Möbius transformation \mathfrak H, you simply do

\mathfrak C \mapsto ({\mathfrak H}^{-1})^\dagger {\mathfrak C} {\mathfrak H}^{-1}.

References

  • Hans Schwerdtfeger, Geometry of Complex Numbers, Courier Dover Publications, 1979
  • Michael Henle, "Modern Geometry: Non-Euclidean, Projective, and Discrete", 2nd edition, Prentice Hall, 2001

Wikimedia Foundation. 2010.

Игры ⚽ Нужно сделать НИР?

Look at other dictionaries:

  • Circle — This article is about the shape and mathematical concept. For other uses, see Circle (disambiguation). Circle illustration showing a radius, a diameter, the centre and the circumference …   Wikipedia

  • Generalised Hough transform — The Generalised Hough Transform, introduced by D.H. Ballard in 1981, was the modification of the Hough Transform using the principle of template matching [D.H. Ballard, Generalizing the Hough Transform to Detect Arbitrary Shapes , Pattern… …   Wikipedia

  • Generalised Hough Transform — The Generalized Hough Transform, introduced by D.H. Ballard in 1981, was a modification of the Hough Transform using the principle of template matching [D.H. Ballard, Generalizing the Hough Transform to Detect Arbitrary Shapes , Pattern… …   Wikipedia

  • List of circle topics — This list of circle topics includes things related to the geometric shape, either abstractly, as in idealizations studied by geometers, or concretely in physical space. It does not include metaphors like inner circle or circular reasoning in… …   Wikipedia

  • List of mathematics articles (G) — NOTOC G G₂ G delta space G networks Gδ set G structure G test G127 G2 manifold G2 structure Gabor atom Gabor filter Gabor transform Gabor Wigner transform Gabow s algorithm Gabriel graph Gabriel s Horn Gain graph Gain group Galerkin method… …   Wikipedia

  • Möbius transformation — Not to be confused with Möbius transform or Möbius function. In geometry, a Möbius transformation of the plane is a rational function of the form of one complex variable z; here the coefficients a, b, c, d are complex numbers satisfying ad − …   Wikipedia

  • Cline — may refer to: Scientific concepts related to change Cline (biology) Cline (hydrology) Cline (linguistics) Cline (mathematics) Clinal, in alkane stereochemistry, a torsion angle between 30° and 150° or between –30° and –150° Other Cline,… …   Wikipedia

  • Differential geometry of surfaces — Carl Friedrich Gauss in 1828 In mathematics, the differential geometry of surfaces deals with smooth surfaces with various additional structures, most often, a Riemannian metric. Surfaces have been extensively studied from various perspectives:… …   Wikipedia

  • Alliance theory — The Alliance Theory (or General Theory of Exchanges) is the name given to the structural method of studying kinship relations. It finds its origins in Claude Lévi Strauss s Elementary Structures of Kinship (1949), and is opposed to the… …   Wikipedia

  • Structural anthropology — is based on Claude Levi Strauss s idea that people think about the world in terms of binary opposites such as high and low, inside and outside, person and animal, life and death and that every culture can be understood in terms of these opposites …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”