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The Large Scale Structure of Space–Time

From Wikipedia, the free encyclopedia

The Large Scale Structure of Space–Time
Cover of the first edition
AuthorsStephen Hawking
George Ellis
CountryUnited Kingdom
LanguageEnglish
SubjectGeneral relativity
GenreNon-fiction
PublisherCambridge University Press
Publication date
1973
Media typePrint (Hardcover and Paperback)
Pages384
ISBN978-0521200165

The Large Scale Structure of Space–Time is a 1973 treatise on the theoretical physics of spacetime by the physicist Stephen Hawking and the mathematician George Ellis.[1] It is intended for specialists in general relativity rather than newcomers.

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Transcription

Background

In the mid-1970s, advances in the technologies of astronomical observations – radio, infrared, and X-ray astronomy – opened up the Universe of exploration. New tools became necessary. In this book, Hawking and Ellis attempt to establish the axiomatic foundation for the geometry of four-dimensional spacetime as described by Albert Einstein's general theory of relativity and to derive its physical consequences for singularities, horizons, and causality. Whereas the tools for studying Euclidean geometry were a straightedge and a compass, those needed to investigate curved spacetime are test particles and light rays.[2] According to the mathematical physicist John Baez from the University of California, Riverside, The Large Scale Structure of Space–Time was "the first book to provide a detailed description of the revolutionary topological methods introduced by Penrose and Hawking in the early seventies."[3]

Hawking co-wrote the book with Ellis, while he was postdoctoral fellow at the University of Cambridge. In his 1988 book A Brief History of Time, he describes The Large Scale Structure of Space–Time as "highly technical" and unreadable for the layperson.

The book, now considered a classic, has also appeared in paperback format and has been reprinted many times.a A fiftieth anniversary edition was published by Cambridge University Press in February 2023.[4]

Table of contents

Assessment

Mathematician Nicholas Michael John Woodhouse at Oxford University considered this book to be an authoritative treatise that could become a classic. He observed that the authors begin with axioms of geometry and physics then derive the consequences in a rigorous fashion. Various well-known exact solutions to Einstein's field equations and their physical meaning are explored. In particular, Hawking and Ellis show that singularities and black holes arise in a large class of plausible solutions. He warned that although this book is self-contained, it is more suitable for specialists rather than new students as it is heavy-going and contains no exercises. He noted that despite the authors' attempt at a rigorous treatment, certain technical terms, such as Lie groups, are used but never explained, and that modern coordinate-free methods are introduced, but not used effectively.[5]

Theoretical physicist Rainer Sachs from the University of California, Berkeley, observed that The Large-Scale Structure of Space–Time was published within just a few years as Gravitation and Cosmology by Steven Weinberg and Gravitation by Charles Misner, Kip Thorne, and John Archibald Wheeler. He believed these three books can supplement each other and lead students to the forefront of research. Whereas Hawking and Ellis employ global analysis extensively but say relatively little about perturbative methods, the other two books neglect global analysis and cover in great detail perturbations. He believed Hawking and Ellis did a great job summarizing recent developments in the field (as of 1974) and that the intended audience is a doctoral student (or higher) with a strong mathematical background and prior exposure to general relativity. He argued that the core of the books consists of two chapters, Chapter 4 on the significance of spacetime curvature and Chapter 6 on causal structure, and that the most interesting application is the penultimate chapter on black holes. He noted that mathematical arguments are at times difficult to follow and suggested Techniques of Differential Topology in Relativity by Roger Penrose for reference. He also noticed a small number of errors, though none affect the general conclusions drawn by the authors. He thought that this book is a "model" presentation on the interplay between mathematics and physics that could become highly influential in the future.[6]

Theoretical physicist John Archibald Wheeler of Princeton University recommended this book to anyone interested in the implications of general relativity for cosmology, the singularity theorems, and the physics of black holes, presented in an almost Euclidean fashion, though he acknowledged that this is not a textbook due to its lack of examples and exercises. He praised its 62 illustrative diagrams.[2]

See also

Notes

  1. ^ Hawking, S. W.; Ellis, G. F. R. (1973). The Large Scale Structure of Space–Time. Cambridge University Press. ISBN 0-521-09906-4.

References

  1. ^ Gibbons, G. W.; Shellard, E. P. S.; Rankin, S. J. (23 October 2003). The Future of Theoretical Physics and Cosmology: Celebrating Stephen Hawking's Contributions to Physics. Cambridge University Press. p. 177. ISBN 978-0-521-82081-3.
  2. ^ a b Wheeler, John A. (March–April 1975). "The Large Scale Structure of Space–Time by S. W. Hawking and G. F. R.Ellis". Review. American Scientist. Sigma Xi, The Scientific Research Honor Society. 62 (2): 218. JSTOR 27845370.
  3. ^ Baez, John; Hillman, Chris (October 1998). "Guide to Relativity Books". Department of Physics, University of California, Riverside. Retrieved August 25, 2019.
  4. ^ Hawking, Stephen (2023). The large scale structure of space-time. George F. R. Ellis, Abhay Ashtekar (50th anniversary ed.). Cambridge, United Kingdom. ISBN 978-1-009-25316-1. OCLC 1347434162.{{cite book}}: CS1 maint: location missing publisher (link)
  5. ^ Woodhouse, Nicholas (1974). "The Large Scale Structure of Space–Time". Physical Bulletin. 25 (6): 238. doi:10.1088/0031-9112/25/6/029.
  6. ^ Sachs, Rainer (April 1974). "The Large Scale Structure of Space–Time". Physics Today. American Institute of Physics. 27 (4): 91–3. Bibcode:1974PhT....27d..91H. doi:10.1063/1.3128542. S2CID 121949888.
This page was last edited on 27 December 2023, at 03:02
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