Introduction to Lorentz geometry : curves and surfaces
著者
書誌事項
Introduction to Lorentz geometry : curves and surfaces
CRC Press, 2021
- : hardback
- タイトル別名
-
Introdução à geometria Lorentziana
大学図書館所蔵 全7件
注記
Includes bibliographical references (p. 331-334) and index
内容説明・目次
内容説明
Lorentz Geometry is a very important intersection between Mathematics and Physics, being the mathematical language of General Relativity.
Learning this type of geometry is the first step in properly understanding questions regarding the structure of the universe, such as: What is the shape of the universe? What is a spacetime? What is the relation between gravity and curvature? Why exactly is time treated in a different manner than other spatial dimensions?
Introduction to Lorentz Geometry: Curves and Surfaces intends to provide the reader with the minimum mathematical background needed to pursue these very interesting questions, by presenting the classical theory of curves and surfaces in both Euclidean and Lorentzian ambient spaces simultaneously.
Features:
Over 300 exercises
Suitable for senior undergraduates and graduates studying Mathematics and Physics
Written in an accessible style without loss of precision or mathematical rigor
Solution manual available on www.routledge.com/9780367468644
目次
1. Welcome to Lorentz-Minkowski Space. 1.1. Pseudo-Euclidean Spaces. 1.2. Subspaces of R v. 1.3. Contextualization in Special Relativity. 1.4. Isometries in R v. 1.5. Investigating O1(2, R) And O1(3, R). 1.6 Cross Product in R v. 2. Local Theory of Curves. 2.1. Parametrized Curves in R v. 2.2. Curves in the Plane. 2.3. Curves in Space. 3. Surfaces in Space. 3.1. Basic Topology of Surfaces. 3.2. Casual type of Surfaces, First Fundamental Form. 3.3. Second Fundamental Form and Curvatures. 3.4. The Diagonalization Problem. 3.5. Curves in Surface. 3.6. Geodesics, Variational Methods and Energy. 3.7. The Fundamental Theorem of Surfaces. 4. Abstract Surfaces and Further Topics. 4.1. Pseudo-Riemannian Metrics. 4.2. Riemann's Classification Theorem. 4.3. Split-Complex Numbers and Critical Surfaces. 4.4 Digression: Completeness and Causality
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