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  3. An Introduction to General Relativity and Cosmology
  • Cited by 6
      • 2nd edition
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    • Publisher:
      Cambridge University Press
      Publication date:
      May 2024
      June 2024
      ISBN:
      9781009415651
      9781009415620
      DOI:
      https://doi.org/10.1017/9781009415651
      Dimensions:
      (244 x 170 mm)
      Weight & Pages:
      1.15kg, 578 Pages
      Dimensions:
      Weight & Pages:
      • Subjects:
      Physics and Astronomy, Cosmology, Relativity and Gravitation, Theoretical Physics and Mathematical Physics
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    Subjects:
    Physics and Astronomy, Cosmology, Relativity and Gravitation, Theoretical Physics and Mathematical Physics
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    Book description

    Experts Plebański and Krasiński provide a thorough introduction to the tools of general relativity and relativistic cosmology. Assuming familiarity with advanced calculus, classical mechanics, electrodynamics and special relativity, the text begins with a short course on differential geometry, taking a unique top-down approach. Starting with general manifolds on which only tensors are defined, the covariant derivative and affine connection are introduced before moving on to geodesics and curvature. Only then is the metric tensor and the (pseudo)-Riemannian geometry introduced, specialising the general results to this case. The main text describes relativity as a physical theory, with applications to astrophysics and cosmology. It takes the reader beyond traditional courses on relativity through in-depth descriptions of inhomogeneous cosmological models and the Kerr metric. Emphasis is given to complete and clear derivations of the results, enabling readers to access research articles published in relativity journals.

    Reviews

    ‘Both authors are well known for their highly mathematical approach to General Relativity (GR) … no prior knowledge of GR or differential geometry is assumed, though knowledge of calculus, Special Relativity, classical mechanics, and electrodynamics is assumed … it is a good book if one wants to learn GR in some detail with applications to many fields presented in a uniform notation … apart from worked examples in the main text, there are exercises at the end of most chapters … it is very well written … I also enjoyed the footnotes, which are often comments on the history of the topic.’

    Phillip Helbig Source: The Observatory

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    Contents

    Page 1 of 2

    Contents
    • 1 - How the theory of relativity came into being (a brief historical sketch)
      pp 1-6
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