
Albert Einstein is often viewed as the icon of genius, and his theories are admired for their beauty and correctness. Yet the final judge of any theory is the rigorous test of experiment, not the fame of its inventor or the allure of its mathematics. For decades, general relativity has passed test after test with flying colors, including some remarkable new tests using the recently detected gravitational waves. Still, there are reasons for doubt. Einstein's theory of gravity, as beautiful as it is, seems to be in direct contradiction with another theory he helped create: quantum mechanics. Until recently, this was considered to be a purely academic affair. But as more and more data pour in from the most distant corners of the universe, hinting at bizarre stuff called "dark energy" and "dark matter," some scientists have begun to explore the possibility that Einstein's theory may not provide a complete picture of the cosmos. This book chronicles the latest adventures of scientists as they put Einstein's theory to the test in ever more precise and astonishing ways, and in ever more extreme situations, when gravity is unfathomably intense and rapidly churning. From the explosions of neutron stars and the collisions of black holes to the modern scientific process as a means to seek truth and understanding in the cosmos, this book takes the reader on a journey of learning and discovery that has been 100 years in the making.
This book investigates whether Albert Einstein’s theory of general relativity remains the definitive explanation for gravity when subjected to the extreme conditions of the modern universe. Authors Clifford M. Will and Nicolás Yunes, both prominent physicists, utilize historical context and contemporary astrophysical data to evaluate the robustness of Einstein’s framework. They argue that while general relativity has withstood a century of rigorous testing, the emergence of dark matter, dark energy, and quantum mechanical contradictions necessitates ongoing experimental scrutiny.
What You Will Find
Scope Limits
Experts recognize this work as a clear, accessible synthesis of modern gravitational physics for the interested public. Readers frequently note that the authors successfully balance historical narrative with the technical complexities of current astrophysical research.
Page Count:
304
Publication Date:
2020-01-01
Publisher:
OUP Oxford
ISBN-10:
0192579436
ISBN-13:
9780192579430
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