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Test - FloridaMAO
Test - FloridaMAO

Non-Euclidean Geometry
Non-Euclidean Geometry

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... Given: X is the midpoint of AB & CD Prove: AXC  BXD ...
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similar polygons
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... Warm Up 1. If ∆QRS ≅ ∆ZYX, identify the pairs of congruent angles and the pairs of congruent sides. ∠Q ≅ ∠Z; ∠R ≅ ∠Y; ∠S ≅ ∠X; QR ≅ ZY; RS ≅ YX; QS ≅ ZX Solve each proportion. ...
Geometry - Lorain City Schools
Geometry - Lorain City Schools

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7-2 - Plainfield Public Schools

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Toolbox - Ephrata School
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Cartan connection

In the mathematical field of differential geometry, a Cartan connection is a flexible generalization of the notion of an affine connection. It may also be regarded as a specialization of the general concept of a principal connection, in which the geometry of the principal bundle is tied to the geometry of the base manifold using a solder form. Cartan connections describe the geometry of manifolds modelled on homogeneous spaces.The theory of Cartan connections was developed by Élie Cartan, as part of (and a way of formulating) his method of moving frames (repère mobile). The main idea is to develop a suitable notion of the connection forms and curvature using moving frames adapted to the particular geometrical problem at hand. For instance, in relativity or Riemannian geometry, orthonormal frames are used to obtain a description of the Levi-Civita connection as a Cartan connection. For Lie groups, Maurer–Cartan frames are used to view the Maurer–Cartan form of the group as a Cartan connection.Cartan reformulated the differential geometry of (pseudo) Riemannian geometry, as well as the differential geometry of manifolds equipped with some non-metric structure, including Lie groups and homogeneous spaces. The term Cartan connection most often refers to Cartan's formulation of a (pseudo-)Riemannian, affine, projective, or conformal connection. Although these are the most commonly used Cartan connections, they are special cases of a more general concept.Cartan's approach seems at first to be coordinate dependent because of the choice of frames it involves. However, it is not, and the notion can be described precisely using the language of principal bundles. Cartan connections induce covariant derivatives and other differential operators on certain associated bundles, hence a notion of parallel transport. They have many applications in geometry and physics: see the method of moving frames, Cartan connection applications and Einstein–Cartan theory for some examples.
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