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El. knyga: Relativity and the Nature of Spacetime

4.60/5 (12 ratings by Goodreads)
  • Formatas: PDF+DRM
  • Serija: The Frontiers Collection
  • Išleidimo metai: 23-Jun-2009
  • Leidėjas: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Kalba: eng
  • ISBN-13: 9783642019623
Kitos knygos pagal šią temą:
Relativity and the Nature of SpacetimeDidesnis paveikslėlis
  • Formatas: PDF+DRM
  • Serija: The Frontiers Collection
  • Išleidimo metai: 23-Jun-2009
  • Leidėjas: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Kalba: eng
  • ISBN-13: 9783642019623
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This expanded second edition of Relativity and the Nature of Spacetime c- tains several major changes and a number of additions to different ch- ters. Two chapters (Chaps. 6 and 7), which discussed two speci c groups of arguments against the reality of spacetime, have been transformed into - pendices (A and B). Two new chapters (Chaps. 6 and 10) have been added. Chapter 6, entitled Why Is the Issue of the Nature of Spacetime So Imp- tant , elaborates on what was Sect. 5. 6 of the ?rst edition, and addresses some recent work on the nature of spacetime for example, the growing (or evolving) block universe model of the world, which has recently been - vived by several physicists as what appears to be the last remaining alter- tive to the Minkowski absolute four-dimensional world (after it had become an undeniable fact that three-dimensionalism, or presentism, contradicts the relativistic experimental evidence). Chapter 10, entitled Spacetime and the Nature of Quantum Objects and based on what used to be Sects. 6. 2 and 6. 3 in the ?rst edition, explores the implications of the issue of the nature of spacetime for quantum physics, in order to see whether it can provide some insight into the nature of quantum objects. Two new sections have been included, namely, Sect. 5. 6 entitled Re- tivization of Existence and Observers in General Relativity and Sect. 7. 6 - titled Probing the Anisotropic Velocity of Light by a Terrestrial Experiment.

Recenzijos

From the reviews of the second edition:

The book under review is mainly devoted to the physical consequences of special relativity and to the unveiling of the very nature of spacetime. The book is clear and well written and the bibliographic references are very good. It is recommended to physicists and to philosophers of science. (Francesco Sorge, Mathematical Reviews, Issue 2011 i)

1 Introduction 1
Part I From Galileo to Minkowski
2 On the Impossibility of Detecting Uniform Motion
15
2.1 Aristotle's View on Motion
16
2.2 Copernicus and Ptolemy's Arguments Against the Earth's Motion
18
2.3 Galileo's Disproof of Aristotle's View on Motion
19
2.4 Galileo's Principle of Relativity
26
3 Exploring the Internal Logic of Galileo's Principle of Relativity
29
3.1 On the Physical Meaning of Galileo's Principle of Relativity
30
3.2 On the Two Postulates of Special Relativity
49
3.3 A Lesson from a Delayed Discovery
51
3.4 Summary
52
4 Relativity in Euclidean Space and in Spacetime
55
4.1 Spacetime
56
4.2 Derivation of the Lorentz Transformations
70
4.3 Four-Dimensional Distance and Three Kinds of Length
77
4.4 Y 'Dilation' in Euclidean Space and Time Dilation in Spacetime
83
4.5 Length Contraction in Euclidean Space and in Spacetime
89
4.6 The Twin Paradox in Euclidean Space and in Spacetime
96
4.7 Addition of Velocities
103
4.8 The Metric of Spacetime
103
4.9 On Coordinate and Proper Time
104
4.10 Four-Velocity, Four-Momentum, and Relativistic Mass
111
4.11 Summary
116
Part II On the Nature of Spacetime: Conceptual and Philosophical Issues
5 Relativity and the Dimensionality of the World: Spacetime Is Real
121
5.1 Has Special Relativity Posed the Greatest Intellectual Challenge to Humankind?
122
5.2 Relativity and Dimensionality of the World
123
5.3 Length Contraction
133
5.4 Time Dilation
143
5.5 Relativization of Existence and the Twin Paradox
146
5.6 Relativization of Existence and Observers in General Relativity
150
5.7 Summary
152
6 Why Is the Issue of the Nature of Spacetime So Important?
153
6.1 One-Way Velocity of Light and Conventionality of Simultaneity
155
6.2 Temporal Becoming
162
6.3 Flow of Time and Consciousness
167
6.4 Free Will
172
6.5 Summary
174
Part III Implications of the Reality of Spacetime for Physics
7 Propagation of Light in Non-Inertial Reference Frames
183
7.1 Acceleration Is Absolute in Special and General Relativity
183
7.2 The Need for Two Average Velocities of Light in Non-Inertial Reference Frames
185
7.3 Average Coordinate Velocity of Light
189
7.4 Average Proper Velocity of Light
193
7.5 Shapiro Time Delay
201
7.6 Probing the Anisotropic Velocity of Light by a Terrestrial Experiment
204
7.7 On the Gravitational Redshift
207
7.8 The Sagnac Effect
216
7.9 Summary
219
8 Calculating the Electric Field of a Charge in a Non-Inertial Reference Frame
221
8.1 Calculating the Potential of a Charge in a Non-Inertial Reference Frame
221
8.2 Common Physical Origin of the Lienard–Wiechert Potentials and the Potentials of a Charge in a Non-Inertial Reference Frame
225
8.3 Calculating the Electric Field of a Charge in a Non-Inertial Reference Frame
232
8.4 Summary
236
9 Inertia as a Manifestation of the Reality of Spacetime
237
9.1 Are Inertial Forces Real?
238
9.2 Inertial Forces Originate from a Four-Dimensional Stress Arising in the Deformed Worldtubes of Non-Inertial Bodies
240
9.3 Electromagnetic Mass and Inertia of the Classical Electron
246
9.4 The Standard Model and Inertia
255
9.5 Summary
263
10 Spacetime and the Nature of Quantum Objects
265
10.1 Is Quantum Mechanical Probability Objective?
266
10.2 The Nature of the Quantum Object and the Nature of Spacetime
268
10.3 Summary
275
A Quantum Mechanical Arguments Against the Reality of Spacetime 277
B The Nature of Spacetime and Validity of Scientific Theories 281
B.1 Reliability of Knowledge: Induction as Hidden Deduction
282
B.2 Correspondence Principle and Growth of Scientific Knowledge
286
B.3 Can an Accepted Scientific Theory Be Refuted?
290
B.4 Is a Final Scientific Theory Possible?
291
B.5 Summary
291
C Classical Electromagnetic Mass Theory and the Arguments Against It 293
D Calculation of the Self-Force 297
References 301
Index 309
Presently: Assistant Professor, Science College, Concordia University (in fact, I am associated with three departments - Liberal Arts College, Philosophy Department, and Science College)

1984 -1989: Adjunct Professor, Philosophy Department, Sofia University

1986 -1989: Researcher, Institute of Philosophy, Bulgarian Academy of Sciences

Doctoral degrees in theoretical physics (1997, Concordia University) and philosophy of science (1988, Institute of Philosophy, Bulgarian Academy of Sciences).
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