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Anglický jazyk
Differential Geometry Of Complex Manifold
Autor: Sushil Shukla
Development of Mathematics is under process since last many centuries and in last few centuries, new branches of Mathematics have been developed by Mathematicians. Gauss laid down the foundation of Differential Geometry of surface in three-dimensional Euclidean... Viac o knihe
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O knihe
Development of Mathematics is under process since last many centuries and in last few centuries, new branches of Mathematics have been developed by Mathematicians. Gauss laid down the foundation of Differential Geometry of surface in three-dimensional Euclidean space in early nineteenth century. Riemann (1854) introduced the concept of differential Geometry for a space of dimension more than 3. New concepts like Beltrami parameter, Cristoffel symbol and Covariant differentiation were introduced by mathematicians like Beltrami (1868), Christoffel (1869) and Lipschitz (1869).Schouten and Dantzing (1930, 1931) transferred the results of differential geometry of Riemannian spaces with affine connections to the case of space with complex structure. This opened an era of Complex Manifolds. Ehresmann (1947) defined an almost complex structure manifold carring a tensor field f of type (1, 1) whose square is - In. Weyl (1947) pointed that in a complex manifold, there exists a tensor of type (1, 1) whose square is - In, i.e. f2 = - In. f is called an almost complex structure to Mn.
- Vydavateľstvo: LAP LAMBERT Academic Publishing
- Rok vydania: 2020
- Formát: Paperback
- Rozmer: 220 x 150 mm
- Jazyk: Anglický jazyk
- ISBN: 9786200562432
