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The Schwarzian Curvature

We start with introducing one of the most fundamental notions of differential geometry, Manifolds. We present some properties and constructions such as submanifolds, tangent spaces and the tangent map. Then we continue with introducing the real and complex projective space, and describe them from some different points of view. This part is finished by showing that CP^n is a Grassmannian manifold. At this stage we are ready to present the main subject of this thesis. The Schwarzian curvature, usually seems to be an accidental by-product of the calculations, can be seen as a geometric interpretation of the Schwarzian derivative. Flanders interpreted the Schwarzian derivative of a C''' function as a curvature for curves in the projective line by using the moving frame method of Cartan. The same argumentation was extended by Gao to obtain the Schwarzian curvatures for curves in higher dimensional projective spaces. I give detailed presentation of Gao's work, where he presented the general formulas for the Schwarzian curvatures for curves in CP^n and gives some properties for the behaviour of the formulas, for example the transformation rules under change of coordinates.