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by Roberto Torretti
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ISBN: 0486690466 Dover Publications Price: $18.95 |
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High-level study discusses Newtonian principles and 19th-century views on electrodynamics and the aether and covers Einstein's electrodynamics of moving bodies, Minkowski geometry, and other topics, including a rich exposition of the elements of the special and general theories of relativity.
Table of Contents for Relativity and Geometry
| Introduction | |||||||
| 1. Newtonian Principles | |||||||
| 1.1 The Task of Natural Philosophy | |||||||
| 1.2 Absolute Space | |||||||
| 1.3 Absolute Time | |||||||
| 1.4 Rigid Frames and Coordinates | |||||||
| 1.5 Inertial Frames and Newtonian Relativity | |||||||
| 1.6 Newtonian Spacetime | |||||||
| 1.7 Gravitation | |||||||
| 2. Electrodynamics and the Aether | |||||||
| 2.1 Nineteenth-Century Views on Electromagnetic Action | |||||||
| 2.2 The Relative Motion of the Earth and the Aether | |||||||
| 3. Einstein's 'Electrodynamics of Moving Bodies' | |||||||
| 3.1 Motivation | |||||||
| 3.2 The Definition of Time in an Inertial Frame | |||||||
| 3.3 The Principles of Special Relativity | |||||||
| 3.4 The Lorentz Transformation. Einstein's Derivation of 1905 | |||||||
| 3.5 The Lorentz Transformation. Some Corollaries and Applications | |||||||
| 3.6 The Lorentz Transformation. Linearity | |||||||
| 3.7 The Lorentz Transformation. Ignatowsky's Approach | |||||||
| 3.8 "The "Relativity Theory of Poincaré and Lorentz" | |||||||
| 4. Minkowski Spacetime | |||||||
| 4.1 The Geometry of the Lorentz Group | |||||||
| 4.2 Minkowski Spacetime as an Affine Metric Space and as a Riemannian Manifold | |||||||
| 4.3 Geometrical Objects | |||||||
| 4.4 Concept Mutation at the Birth of Relativistic Dynamics | |||||||
| 4.5 A Glance at Spacetime Physics | |||||||
| 4.6 The Causal Structure of Minkowski Spacetime | |||||||
| 5. Einstein's Quest for a Theory of Gravity | |||||||
| 5.1 Gravitation and Relativity | |||||||
| 5.2 The Principle of Equivalence | |||||||
| 5.3 Gravitation and Geometry circa 1912 | |||||||
| 5.4 Departure from Flatness | |||||||
| 5.5 General Covariance and the Einstein-Grossmann Theory | |||||||
| 5.6 Einstein's Arguments against Genral Covariance: 1913-14 | |||||||
| 5.7 Einstein's Papers of November 1915 | |||||||
| 5.8 Einstein's Field Equations and the Geodesic Law of Motion | |||||||
| 6. Gravitational Geometry | |||||||
| 6.1 Structures of Spacetime | |||||||
| 6.2 Mach's Principle and the Advent of Relativistic Cosmology | |||||||
| 6.3 The Friedmann Worlds | |||||||
| 6.4 Sigularities. | |||||||
| 7 Disputed Questions | |||||||
| 7.1 The Concept of Simultaneity | |||||||
| 7.2 Geometric Conventionalism | |||||||
| 7.3 Remarks on Time and Causality | |||||||
| Appendix | |||||||
| A. Differentiable Manifolds. | |||||||
| B. Fibre Bundles | |||||||
| C. Linear Connections | |||||||
| 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. | |||||||
| Notes | |||||||
| References | |||||||
| Index |