Description

Book Synopsis

This book provides an accessible, yet thorough, introduction to special and general relativity, crafted and class-tested over many years of teaching. Suitable for advanced undergraduate and graduate students, this book provides clear descriptions of how to approach the mathematics and physics involved. It is also contains the latest exciting developments in the field, including dark energy, gravitational waves, and frame dragging.

The table of contents has been carefully developed in consultation with a large number of instructors teaching courses worldwide, to ensure its wide applicability to modules on relativity and gravitation.

Features:



  • A clear, accessible writing style, presenting a sophisticated approach to the subject, that remains suitable for advanced undergraduate students and above


  • Class-tested over many years


  • To be accompanied by a partner volume on âAdvanced Topicsâ

    Trade Review

    "In my view, this is a very readable text and very student-friendly. The presentation of the content is clear and there are lots of detailed illustrative examples (which are absent in many other GR texts). You might be aware that there is a strong interest on General Relativity course nowadays due to recent detection of gravitational wave and black imaging. This particular text will have potential to be well-like by students."

    Prof. Kenneth Hong Chong Ming, National University of Singapore



    Table of Contents

    1. Relativity: A theory of space, time, and gravity 2. Basic special relativity 3. Lorentz transformation, I 4. Geometry of Lorentz invariance 5. Tensors on flat spaces 6. Lorentz transformation, II 7. Particle dynamics 8. Covariant electrodynamics 9. Energy-momentum of fields 10. Relativistic hydrodynamics 11. Equivalence of local gravity and acceleration 12. Acceleration in special relativity 13. Tensors on manifolds 14. Differential geometry 15. General relativity 16. The Schwarzschild metric 17. Physical effects of Schwarzschild spacetime 18. Linearized gravity 19. Relativistic cosmology. Appendix A: Invariance of the wave equation Appendix B: The Doppler effect Appendix C: Topics in linear algebra Appendix D: Topics in classical mechanics Appendix E: Photon and particle orbits

Core Principles of Special and General Relativity

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£45.99

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Order before 4pm tomorrow for delivery by Tue 16 Dec 2025.

A Paperback by James Luscombe

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    View other formats and editions of Core Principles of Special and General Relativity by James Luscombe

    Publisher: CRC Press
    Publication Date: 3/31/2021 12:00:00 AM
    ISBN13: 9780367780678, 978-0367780678
    ISBN10: 0367780674
    Also in:
    Astrophysics Physics

    Description

    Book Synopsis

    This book provides an accessible, yet thorough, introduction to special and general relativity, crafted and class-tested over many years of teaching. Suitable for advanced undergraduate and graduate students, this book provides clear descriptions of how to approach the mathematics and physics involved. It is also contains the latest exciting developments in the field, including dark energy, gravitational waves, and frame dragging.

    The table of contents has been carefully developed in consultation with a large number of instructors teaching courses worldwide, to ensure its wide applicability to modules on relativity and gravitation.

    Features:



    • A clear, accessible writing style, presenting a sophisticated approach to the subject, that remains suitable for advanced undergraduate students and above


    • Class-tested over many years


    • To be accompanied by a partner volume on âAdvanced Topicsâ

      Trade Review

      "In my view, this is a very readable text and very student-friendly. The presentation of the content is clear and there are lots of detailed illustrative examples (which are absent in many other GR texts). You might be aware that there is a strong interest on General Relativity course nowadays due to recent detection of gravitational wave and black imaging. This particular text will have potential to be well-like by students."

      Prof. Kenneth Hong Chong Ming, National University of Singapore



      Table of Contents

      1. Relativity: A theory of space, time, and gravity 2. Basic special relativity 3. Lorentz transformation, I 4. Geometry of Lorentz invariance 5. Tensors on flat spaces 6. Lorentz transformation, II 7. Particle dynamics 8. Covariant electrodynamics 9. Energy-momentum of fields 10. Relativistic hydrodynamics 11. Equivalence of local gravity and acceleration 12. Acceleration in special relativity 13. Tensors on manifolds 14. Differential geometry 15. General relativity 16. The Schwarzschild metric 17. Physical effects of Schwarzschild spacetime 18. Linearized gravity 19. Relativistic cosmology. Appendix A: Invariance of the wave equation Appendix B: The Doppler effect Appendix C: Topics in linear algebra Appendix D: Topics in classical mechanics Appendix E: Photon and particle orbits

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