the möbiusgroup SO(3, ℂ)
 | this activity is a page of geogebra-book elliptic functions & bicircular quartics & . . .(27.04.2023) |
this activity is also a page of GeoGebrabook Moebiusebene (29.09.2020)
In the complex, 3-dimensional vector space with non-degenerate quadratic form
an oriented basis is selected with ,
for which the two product tables are to apply:
- by the uniquely determined linear form for all
Brief interpretation of the base vectors:
The -plane is projected stereographically onto the unit sphere.
is a tangent to the unit sphere in the direction of the -axis,
is a tangent in , also in -direction.
is the straight line connecting these two points, i.e. the -axis in space.
is a tangent to the sphere at the image point of the stereographic projection of .
is the connecting line of the stereographic images of and .
This representation of plane Möbius geometry has disadvantages, but also very many advantages:
The circles as individual objects are not easily accessible!
In contrast, there is the variety of possible interpretations of the POINTS and the vectors of .
- The - projectively to be seen - POINTS on - i.e. it is - are the points of Möbus geometry.
- The vectors with can be interpreted as tangential vectors: if is a differentiable curve, then is tangential to the curve. can be real or complex. In the 2nd case, complex-analytical functions are captured!
- The vectors can be interpreted as infinitesimal Möbius movements: the linear mappings , explained by for all , act on the Möbius points on . The trajectories of the motions are, depending on the type of vector for real parameters t hyperbolic (), or elliptic () or parabolic () pencils of circles; for one obtains loxodromic trajectory curves, these are the curves which intersect a hyperbolic ( - - or an elliptical - - ) pencil of circles at a constant angle.
- The movements are one-parameter subgroups of the Möbius group. Such movements of a group are called w-movements. Here, too, one obtains a real - - or a complex - - subgroup.
Ein lineares Vektorfeld
- The tangential vectors of the trajectories of a w-motion on the quadric generate a linear vector field: , with . See the book chapter Kreisbüschel oder lineare Vektorfelder
- The vectors with can be interpreted as straight line vectors in the sphere model of the Möbius plane. The STRAIGHT line with intersects the sphere at 2 points. The STRAIGHT line is the non-intersecting polar to it!
- The quadratic vector fields are also of interest: with . The calculation yields an elliptic differential equation , hose solution curves for special positions of the focal points are confokal bicircular quartics; this is the case, for example, if the focal points lie on a circle!
- If you let the "focal points" at the top or bottom of the applet run against each other, the pencil of circles and the trajectories approach the circles of a parabolic pencil of circles !
This vector field is constructed with the formulas of the transmission principle given above:
To are calculated .
The connecting line in the spherical model is .
The direction vector in the point is calculated using the linear vector field .
Thanks ge
gebra, all complex calculations are problem-free!
gebra, all complex calculations are problem-free!