Gravity : a very short introduction / Timothy Clifton.
Material type:
TextSeries: Very short introductions: 512.Publisher: Oxford, United Kingdom : Oxford University Press, 2017Copyright date: ©2017Edition: First editionDescription: 103 pages : illustrations ; 18 cmContent type: text Media type: unmediated Carrier type: volumeISBN: 0198729146; 9780198729143Subject(s): Gravity | Gravitation | General relativity (Physics) | General relativity (Physics) | Gravitation | Gravity | GravitationDDC classification: 530 LOC classification: QC178 | .C554 2017Summary: Timothy Clifton looks at the development of our understanding of gravity since the early observations of Kepler and Newtonian theory. He discusses Einstein's theory of gravity, which now supplants Newton's, showing how it allows us to understand why the frequency of light changes as it passes through a gravitational field, why GPS satellites need their clocks corrected as they orbit the Earth, and why the orbits of distant neutron stars speed up. Today, almost 100 years after Einstein published his theory of gravity, we have even detected the waves of gravitational radiation that he predicted. Clifton concludes by considering the testing and application of general relativity in astrophysics and cosmology, and looks at dark energy and efforts such as string theory to combine gravity with quantum mechanics.
| Item type | Current library | Call number | Copy number | Status | Notes | Date due | Barcode |
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Female Library | QC178 .C554 2017 (Browse shelf (Opens below)) | 1 | Available | STACKS | 51952000339137 | |
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Books
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Main Library | QC178 .C554 2017 (Browse shelf (Opens below)) | 1 | Available | STACKS | 51952000339120 |
Includes bibliographical references (pages 99-100) and index.
Timothy Clifton looks at the development of our understanding of gravity since the early observations of Kepler and Newtonian theory. He discusses Einstein's theory of gravity, which now supplants Newton's, showing how it allows us to understand why the frequency of light changes as it passes through a gravitational field, why GPS satellites need their clocks corrected as they orbit the Earth, and why the orbits of distant neutron stars speed up. Today, almost 100 years after Einstein published his theory of gravity, we have even detected the waves of gravitational radiation that he predicted. Clifton concludes by considering the testing and application of general relativity in astrophysics and cosmology, and looks at dark energy and efforts such as string theory to combine gravity with quantum mechanics.
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