Edition |
First edition. |
Description |
x, 121 pages : illustrations, charts ; 26 cm |
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text txt rdacontent |
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unmediated n rdamedia |
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volume nc rdacarrier |
Bibliography |
Includes bibliographical references and index. |
Summary |
Working physicists, and especially astrophysicists, value a good 'back-of-the-envelope' calculation, meaning a short, elegant computation or argument that starts from general principles and leads to an interesting result. This book guides students on how to understand astrophysics using general principles and concise calculations, endeavoring to be elegant where possible and using short computer programs where necessary. The material proceeds in approximate historical order. The book begins with the Enlightenment-era insight that the orbits of the planets is easy, but the orbit of the Moon is a real headache, and continues to deterministic chaos. This is followed by a chapter on spacetime and black holes. Four chapters reveal how microphysics, especially quantum mechanics, allow us to understand how stars work. The last two chapters are about cosmology, bringing us to 21st-century developments on the microwave background and gravitational waves. |
Contents |
Orbits -- Celestial mechanics -- Schwarzschild's spacetime -- Interlude: quantum ideal gases -- Gravity versus pressure -- Nuclear fusion in stars -- The main sequence of stars -- The expanding universe -- The cosmic microwave background -- Appendix A. Rotations in three dimensions -- Appendix B. Hamiltonians -- Appendix C. Moving from Newtonian to relativistic frameworks -- Appendix D. Working with Planckian units. |
Subject |
Astrophysics.
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Astrophysics. (OCoLC)fst00819797
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Added Author |
Taylor, Paul A., author.
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ISBN |
9780198816461 hardcover |
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0198816464 hardcover |
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0198816472 paperback |
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9780198816478 paperback |
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