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Julian Barbour is a theoretical physicist who has worked on foundational issues in physics and astronomy for 35 years. His first book, the widely praised The Discovery of Dynamics, has recently been republished in paperback. In 2000 the Association of American Publishers awarded The End of Time its prestigious award for excellence in the Physics & Astronomy section. Julian Barbour, a theoretical physicist, has worked on foundational issues in physics for 35 years. He is the author of the widely praised Absolute or Relative Motion?: Volume I, and is working on the second volume.
Where does the time go? Independent physicist Barbour presents an unusual alternate to the standard way of viewing the four-dimensional universe (three spatial dimensions and time), beginning with how our perception of time is formed. Time, he says, does not exist apart from events: the motions of the sun and the stars, the mechanical movement of a clock. Rather than truly feeling the passing of time, we merely note changes in our surroundings, described by the author as a series of "Nows," like frames of a motion picture. Not only do Nows exist for the events that actually occur, but a large number of Nows represent alternate possibilities, inhabiting a land called Platonia. Which Nows become our perceived reality? The rule of thumb Barbour gives is, "only the probable is experienced." In the "macro" world, the author addresses determinism, Newtonian mechanics and the second law of thermodynamics as they relate to his theory of Nows. In the quantum mechanical realm, he ties his theory of time to the Schrodinger Equation in its various forms. Throughout, the author accompanies his theories not with complex equations but rather with elegant (if sometimes convoluted) diagrams. If these theories sound intriguing, readers already familiar with the Wheeler-DeWitt and Schrodinger equations, eigenstates and wave functions may appreciate this unique perspective. Ultimately, however, Barbour's attempts to "simplify" physics, in particular quantum mechanics, will confuse as many readers as they enlighten. 20 illustrations. (Feb.) Copyright 2000 Cahners Business Information.
Barbour is a research physicist who works without formal ties to the academy. Here, he presents his thesis that time and motion do not exist; they are illusions. The first portion of the book is rather philosophical in tone, but most of the work is concerned with the struggle to resolve the disparities among classical physics, quantum mechanics, and general relativity. Barbour argues that the omission of time from the foundations of physics will enable scientists to achieve a unified theory of physics. At the moment many physicists have not accepted this remarkable viewpoint; it seems to be a desperate expedient to resolve a set of problems that may yet be solved by other means. Even so, this is a book that deserves serious study and consideration. Recommended for academic and large public libraries.ÄJack W. Weigel, formerly with Univ. of Michigan Lib., Ann Arbor Copyright 1999 Cahners Business Information.
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