Galileo’s Pendulum
From the Rhythm of Time to the Making of Matter
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- 27,99 €
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- 27,99 €
Publisher Description
Bored during Mass at the cathedral in Pisa, the seventeen-year-old Galileo regarded the chandelier swinging overhead—and remarked, to his great surprise, that the lamp took as many beats to complete an arc when hardly moving as when it was swinging widely. Galileo’s Pendulum tells the story of what this observation meant, and of its profound consequences for science and technology.
The principle of the pendulum’s swing—a property called isochronism—marks a simple yet fundamental system in nature, one that ties the rhythm of time to the very existence of matter in the universe. Roger Newton sets the stage for Galileo’s discovery with a look at biorhythms in living organisms and at early calendars and clocks—contrivances of nature and culture that, however adequate in their time, did not meet the precise requirements of seventeenth-century science and navigation. Galileo’s Pendulum recounts the history of the newly evolving time pieces—from marine chronometers to atomic clocks—based on the pendulum as well as other mechanisms employing the same physical principles, and explains the Newtonian science underlying their function.
The book ranges nimbly from the sciences of sound and light to the astonishing intersection of the pendulum’s oscillations and quantum theory, resulting in new insight into the make-up of the material universe. Covering topics from the invention of time zones to Isaac Newton’s equations of motion, from Pythagoras’s theory of musical harmony to Michael Faraday’s field theory and the development of quantum electrodynamics, Galileo’s Pendulum is an authoritative and engaging tour through time of the most basic all-pervading system in the world.
PUBLISHERS WEEKLY
Newton (What Makes Nature Tick) explains the premise of his slim volume in a single sentence in the introduction:"This book is about the rhythm of time, how that rhythm was finally regulated by Galileo's pendulum, the impact the oscillations of the pendulum had on our perception of that rhythm, and how these oscillations were later found to manifest themselves in many other natural phenomena." The book's eight chapters touch on a wealth of topics: circadian rhythms in living organisms; the conceptualization and design of calendars; the construction of clocks, from sundials and water clocks to those powered by pendula and cesium; and the development of physics from Isaac Newton to modern quantum electrodynamics. Indeed, the array is too broad for the disparate elements to come together and form a coherent whole. Additionally, the range of material here is unlikely to be fully satisfying to most readers; the basic history of science will be accessible to the nonspecialist but not compelling for the scientist science buff, while the highly technical mathematical sections will certainly cut off the general reader. Anyone wanting to understand how humans first defined time and how it became systematically measured might want to turn to the relatively recent Einstein's Clocks and Poincare's Maps, by Peter Galison. 34 photos and illus.