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Relativity and Geometry New edition [Minkštas viršelis]

  • Formatas: Paperback / softback, 416 pages, aukštis x plotis x storis: 236x157x20 mm, weight: 532 g, Illustrations
  • Serija: Dover Books on Physics
  • Išleidimo metai: 02-Apr-1996
  • Leidėjas: Dover Publications Inc.
  • ISBN-10: 0486690466
  • ISBN-13: 9780486690469
Kitos knygos pagal šią temą:
Relativity and Geometry New editionDidesnis paveikslėlis
  • Formatas: Paperback / softback, 416 pages, aukštis x plotis x storis: 236x157x20 mm, weight: 532 g, Illustrations
  • Serija: Dover Books on Physics
  • Išleidimo metai: 02-Apr-1996
  • Leidėjas: Dover Publications Inc.
  • ISBN-10: 0486690466
  • ISBN-13: 9780486690469
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780486690469.html
Raktažodžiai:

Early in this century, it was shown that the new non-Newtonian physics — known as Einstein's Special Theory of Relativity — rested on a new, non-Euclidean geometry, which incorporated time and space into a unified "chronogeometric" structure. This high-level study elucidates the motivation and significance of the changes in physical geometry brought about by Einstein, in both the first and the second phase of Relativity.
After a discussion of Newtonian principles and 19th-century views on electrodynamics and the aether, the author offers illuminating expositions of Einstein's electrodynamics of moving bodies, Minkowski spacetime, Einstein's quest for a theory of gravity, gravitational geometry, the concept of simultaneity, time and causality and other topics. An important Appendix — designed to define spacetime curvature — considers differentiable manifolds, fiber bundles, linear connections and useful formulae.
Relativity continues to be a major focus of interest for physicists, mathematicians and philosophers of science. This highly regarded work offers them a rich, "historico-critical" exposition — emphasizing geometrical ideas — of the elements of the Special and General Theory of Relativity.



High-level study discusses Newtonian principles and 19th-century views on electrodynamics and the aether, plus Einstein's electrodynamics of moving bodies, Minkowski spacetime, gravitational geometry, time and causality, and other topics. 1983 edition.
Introduction 1(7)
Newtonian Principles
8(27)
The Task of Natural Philosophy
8(1)
Absolute Space
9(2)
Absolute Time
11(3)
Rigid Frames and Coordinates
14(1)
Inertial Frames and Newtonian Relativity
15(5)
Newtonian Spacetime
20(11)
Gravitation
31(4)
Electrodynamics and the Aether
35(13)
Nineteenth-Century Views on Electromagnetic Action
35(3)
The Relative Motion of the Earth and the Aether
38(10)
Einstein's `Electrodynamics of Moving Bodies'
48(40)
Motivation
48(2)
The Definition of Time in an Inertial Frame
50(4)
The Principles of Special Relativity
54(2)
The Lorentz Transformation. Einstein's Derivation of 1905
56(10)
The Lorentz Transformation. Some Corollaries and Applications
66(5)
The Lorentz Transformation. Linearity
71(5)
The Lorentz Transformation. Ignatowsky's Approach
76(7)
The ``Relativity Theory of Poincare and Lorentz''
83(5)
Minkowski Spacetime
88(42)
The Geometry of the Lorentz Group
88(3)
Minkowski Spacetime as an Affine Metric Space and as a Riemannian Manifold
91(7)
Geometrical Objects
98(9)
Concept Mutation at the Birth of Relativistic Dynamics
107(7)
A Glance at Spacetime Physics
114(7)
The Causal Structure of Minkowski Spacetime
121(9)
Einstein's Quest for a Theory of Gravity
130(56)
Gravitation and Relativity
130(3)
The Principle of Equivalence
133(4)
Gravitation and Geometry circa 1912
137(6)
Departure from Flatness
143(9)
General Covariance and the Einstein-Grossmann Theory
152(10)
Einstein's Arguments against General Covariance: 1913-14
162(6)
Einstein s Papers of November 1915
168(8)
Einstein's Field Equations and the Geodesic Law of Motion
176(10)
Gravitational Geometry
186(34)
Structures of Spacetime
186(8)
Mach's Principle and the Advent of Relativistic Cosmology
194(8)
The Friedmann Worlds
202(8)
Singularities
210(10)
Disputed Questions
220(37)
The Concept of Simultaneity
220(10)
Geometric Conventionalism
230(17)
Remarks on Time and Causality
247(10)
Appendix 257(26)
A. Differentiable Manifolds
257(6)
B. Fibre Bundles
263(2)
C. Linear Connections
265(16)
1. Vector-valued Differential Forms
2. The Lie Algebra of a Lie Group
3. Connections in a Principal Fibre Bundle
4. Linear Connections
5. Covariant Differentiation
6. The Torsion and Curvature of a Linear Connection
7. Geodesics
8. Metric Connections in Riemannian Manifolds
D. Useful Formulae
281(2)
Notes 283(68)
References 351(30)
Index 381