Initiation to Global Finslerian Geometry (e-bog) af Akbar-Zadeh, Hassan
Akbar-Zadeh, Hassan (forfatter)

Initiation to Global Finslerian Geometry e-bog

1021,49 DKK (inkl. moms 1276,86 DKK)
After a brief description of the evolution of thinking on Finslerian geometry starting from Riemann, Finsler, Berwald and Elie Cartan, the book gives a clear and precise treatment of this geometry. The first three chapters develop the basic notions and methods, introduced by the author, to reach the global problems in Finslerian Geometry. The next five chapters are independent of each other,...
E-bog 1021,49 DKK
Forfattere Akbar-Zadeh, Hassan (forfatter)
Udgivet 18 januar 2006
Længde 264 sider
Genrer PBMP
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9780080461700
After a brief description of the evolution of thinking on Finslerian geometry starting from Riemann, Finsler, Berwald and Elie Cartan, the book gives a clear and precise treatment of this geometry. The first three chapters develop the basic notions and methods, introduced by the author, to reach the global problems in Finslerian Geometry. The next five chapters are independent of each other, and deal with among others the geometry of generalized Einstein manifolds, the classification of Finslerian manifolds of constant sectional curvatures. They also give a treatment of isometric, affine, projective and conformal vector fields on the unitary tangent fibre bundle.Key features- Theory of connections of vectors and directions on the unitary tangent fibre bundle.- Complete list of Bianchi identities for a regular conection of directions.- Geometry of generalized Einstein manifolds.- Classification of Finslerian manifolds.- Affine, isometric, conformal and projective vector fields on the unitary tangent fibre bundle. Theory of connections of vectors and directions on the unitary tangent fibre bundle. Complete list of Bianchi identities for a regular conection of directions. Geometry of generalized Einstein manifolds. Classification of Finslerian manifolds. Affine, isometric, conformal and projective vector fields on the unitary tangent fibre bundle.