Einstein's Clocks, Poincare's Maps: Empires of Time

From Publishers Weekly
Harvard historian of science Galison approaches our understanding of time at the beginning of the 20th century through two related dimensions. The first, extremely practical perspective focuses on our ability to accept a common definition of time at various locations. Before our current system of time zones existed, time was a local construct, making it extremely difficult to coordinate events, have trains run smoothly or determine longitude. The second, far more theoretical perspective deals with the basic laws of physics and addresses the question: is time absolute or relative? Galison focuses his narrative through the eyes of the two scientists most responsible for crafting our present understanding of time, Albert Einstein and Henri Poincar‚. While Einstein needs no introduction, the less well-known Poincar‚ does. He was one of the world's most renowned mathematicians and president of the French Bureau of Longitude. Galison explains how, in the case of each of these scientists, the practical dimension helped shape their understanding of the theoretical dimension, and, in turn, how they helped transform the world. Although Galison's material is of great interest, his writing is often obtuse and overly technical, making the book's ideas less accessible to a general audience. 46 illus. Copyright 2003 Reed Business Information, Inc.


From Scientific American
Two scientists closed in on one groundbreaking theory. Poincaré posited something so close to Einstein's theory of relativity that it is surprising in retrospect he did not take the final step. The story is told in this new (paperbound) edition of a book that appeared in 2003. Described then as "absolutely brilliant," "a stroke of genius," "fresh, idiosyncratic," and "meticulously detailed ... perhaps the most sophisticated history of science ever attempted in a popular science book," it is all of the above, but it is not for the intellectually faint of heart.

Editors of Scientific American


From Booklist
*Starred Review* Many have taken it as proof of Einstein's transcendent genius that he published his epoch-making Theory of Relativity while employed as a clerk in the Bern patent office, a place usually judged more likely to extinguish scientific inspiration than to kindle it. But when Harvard historian Galison takes a close look at that patent office, he sees something quite different. He sees an institution flooded with patent applications for technologies to coordinate distant clocks, applications forcefully highlighting the problem of simultaneity that lies at the very heart of relativity. Perhaps for some few it will diminish Einstein's accomplishment to realize how much his circumstances helped to focus his thinking. But for most it will only clarify his intellectual feat. Galison helps readers to understand how Einstein--no reclusive hermit--both learned from and surpassed contemporary scientists, engineers, and philosophers struggling to redefine time in a world newly unified by railroads, telegraphs, and radio. And no contemporary more closely paralleled Einstein in his pioneering path than the gifted French mathematician and cartographer Henri Poincare. An admirer of Poincare's neglected brilliance, Galison shows how the French scholar independently unraveled most of the mysteries of relativity, even partially anticipating Einstein's key breakthrough in redefining "local time." Still, while Poincare tried to integrate his insights into the Newtonian framework, Einstein recognized that relativity demanded an entirely new conceptual structure. Few books have ever made Einstein's work more accessible--or more engrossing--for general readers. Bryce Christensen
Copyright © American Library Association. All rights reserved


From Book News, Inc.
At the beginning of the 20th century, just as industry and government were anticipating the immanent coordination of time around the globe, says Galison (history of science and of physics, Harvard U.), the notion of time and the ability to coordinate two clocks at a distance, were being demolished in the nexus of physics, technology, and philosophy.Copyright © 2004 Book News, Inc., Portland, OR


James Gleick
This is how twentieth-century science really began....Engaging, original, and absolutely brilliant.


American Scientist, Hasok Chang, November/December 2003
Signature blend of history and philosophy...lucid and accurate explanations of difficult concepts....a treat.


Booklist starred review, Bryce Christensen, 1 June 2003
Few books have ever made Einstein's work more accessible—or more engrossing—for general readers.


Boston Globe, Barbara Fisher, 7 September 2003
With ease and authority, Galison cuts through many layers of physics, technology and philosophy....brilliant


Columbus Dispatch, James Bradshaw, 14 September 2003
Those who aspire to great thought should study great thinkers, and Galison has chosen two excellent examples.


New York Times, Dennis Overbye, 24 June 2003
Part history, part science, part adventure, part biography, part meditation on the meaning of modernity..


New York Times Book Review cover review, William R. Everdell, 17 August 2003
More than a history of science; it is a tour de force in the genre.


Newsday, Corey S. Powell, 10 August 2003
A fresh, idiosyncratic take on the great man: Einstein the clock-watcher.


Watch Time Magazine, December 2003
This is a 389-page techie tour de force.


Library Journal
Galison writes with a cheery enthusiasm that enlivens a rather arcane subject. Strongly recommended.


Book Description
Clocks and trains, telegraphs and colonial conquest: the challenges of the late nineteenth century were an indispensable real-world background to the enormous theoretical breakthrough of relativity. And two giants at the foundations of modern science were converging, step-by-step, on the answer: Albert Einstein, an young, obscure German physicist experimenting with measuring time using telegraph networks and with the coordination of clocks at train stations; and the renowned mathematician Henri Poincaré, president of the French Bureau of Longitude, mapping time coordinates across continents. Each found that to understand the newly global world, he had to determine whether there existed a pure time in which simultaneity was absolute or whether time was relative. Esteemed historian of science Peter Galison has culled new information from rarely seen photographs, forgotten patents, and unexplored archives to tell the fascinating story of two scientists whose concrete, professional preoccupations engaged them in a silent race toward a theory that would conquer the empire of time. 46 b/w illustrations.


Book Info
Pocket size text provides an account of the revolution in our understanding of time that occurred at the beginning of the twentieth century. Discusses the problem of coordinating distant clocks and how it played a crucial role in new physics and technology. DLC: Time.


About the Author
Peter Galison is Mallinckrodt Professor for the History of Science and of Physics at Harvard University. He is a recipient of a MacArthur Fellowship and the Max Planck Prize, as well as the Pfizer Prize for the Best Book in the History of Science for Image and Logic.


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An argument that Einstein's theory of relativity was no stroke of genius but, rather, a logical development of ideas already in the air. The problem of synchronizing timepieces was a preoccupation of many turn-of-the-century scientists, writes Galison (History of Science/Harvard; Image and Logic, not reviewed), and notable among them was Henri Poincar￯﾿ﾽ, head of the French Bureau of Longitude. The growth of railroad networks and of the modern military made standardized time an issue of sweeping importance; the Franco-Prussian war had been decided largely by the German ability to mobilize its forces and deliver them to the front by rail. In addition, the creation of accurate maps depended critically on comparing the local time of astronomical events with the time at a standard location; accurate, synchronized clocks were essential. Poincar￯﾿ﾽ, a product of the French ￯﾿ﾽcole Polytechnique, was trained to consider a scientific subject for both its practical and theoretical implications, an orientation reinforced by his work on longitude. Several of Poincar￯﾿ﾽ's publications argue against the idea of absolute time, a point that would be a central issue in the relativity theory. Nor was Einstein a pure theoretician; his work at the Swiss patent office required evaluating inventions of all sorts, and a number of chronometers and techniques for electronic synchronization went through the office during his tenure there. In fact, the "crowning step" in Einstein's 1905 formulation of special relativity appears to have been an insight on the synchronization of clocks. Galison is careful to list the key differences between Einstein's and Poincar￯﾿ﾽ's descriptions of time and space, but his key point seemsclear: the theory of relativity was up for grabs, and Poincar￯﾿ﾽ came close to capturing it well before Einstein. A richly detailed account of the interplay of scientific and technical issues at the beginning of the modern era.


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