Description

Book Synopsis
This textbook provides students with a sound mathematical introduction coupled to an understanding of the physical insights needed to explore the subject

Table of Contents
1: The Organisation of the Book A: Special Relativity 2: The k-Calculus 3: The Key Attributes of Special Relativity 4: The Elements of Relativistic Mechanics B: The Formalism of Tensors 5: Tensor Algebra 6: Tensor Calculus 7: Integration, Variation, and Symmetry C: General Relativity 8: Special Relativity Revisited 9: The Principles of General Relativity 10: The Field equations of General Relativity 11: General Relativity from a Variational Principle 12: The Energy-Momentum Tensor 13: The Structure of the Field Equations 14: The 3+1 and 2+2 Formalisms 15: The Schwarzschild sSlution 16: Classical Experimental Tests of General Relativity D: Black Holes 17: Non-Rotating Black Holes 18: Maximal Extension and Conformal Compactification 19: Charged Black Holes 20: Rotating Black Holes E: Gravitational Waves 21: Linearized Gravitational Waves and their Detection 22: Exact Gravitational Waves 23: Radiation from an Isolated Source F: Cosmology 24: Relativistic Cosmology 25: The Classical Cosmological Models 26: Modern Cosmology Answers to Exercises Selected Bibliography Index

Introducing Einsteins Relativity A Deeper

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A Hardback by Ray d'Inverno, James Vickers

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    Publisher: Oxford University Press
    Publication Date: 07/06/2022
    ISBN13: 9780198862024, 978-0198862024
    ISBN10: 0198862024
    Also in:
    Gravity Relativity physics

    Description

    Book Synopsis
    This textbook provides students with a sound mathematical introduction coupled to an understanding of the physical insights needed to explore the subject

    Table of Contents
    1: The Organisation of the Book A: Special Relativity 2: The k-Calculus 3: The Key Attributes of Special Relativity 4: The Elements of Relativistic Mechanics B: The Formalism of Tensors 5: Tensor Algebra 6: Tensor Calculus 7: Integration, Variation, and Symmetry C: General Relativity 8: Special Relativity Revisited 9: The Principles of General Relativity 10: The Field equations of General Relativity 11: General Relativity from a Variational Principle 12: The Energy-Momentum Tensor 13: The Structure of the Field Equations 14: The 3+1 and 2+2 Formalisms 15: The Schwarzschild sSlution 16: Classical Experimental Tests of General Relativity D: Black Holes 17: Non-Rotating Black Holes 18: Maximal Extension and Conformal Compactification 19: Charged Black Holes 20: Rotating Black Holes E: Gravitational Waves 21: Linearized Gravitational Waves and their Detection 22: Exact Gravitational Waves 23: Radiation from an Isolated Source F: Cosmology 24: Relativistic Cosmology 25: The Classical Cosmological Models 26: Modern Cosmology Answers to Exercises Selected Bibliography Index

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