Physics and mathematics have always been closely intertwined, with developments in one field frequently inspiring the other. Currently, there are many unsolved problems in physics which will likely require new innovations in mathematical physics. Mathematical physics is concerned with problems in statistical mechanics, atomic and molecular physics, quantum field theory, and, in general, with the mathematical foundations of theoretical physics. This includes such subjects as scattering theory for n bodies, quantum mechanics (both non-relativistic and relativistic), atomic and molecular physics, the existence and properties of the phases of model ferromagnets, the stability of matter, the theory of symmetry and symmetry breaking in quantum field theory (both in general and in concrete models), and mathematical developments in functional analysis and algebra to which such subjects lead. This book presents leading-edge research in this fast-moving field.
Cosmology deals with the nature of the universe. It can be broadly divided into three great ages. The first began in the 6th century BC with the Pythagorean concept of a spherical Earth that is part of a universe in which the motions of the planets are governed by the harmonious relations of natural laws. The second began in the 16th century with the Copernican revolution. This in turn led into Newton's infinite universe. The third began in the early 20th century with Albert Einstein's theory of general relativity and developed into the expanding universe we know today. Einstein's general theory of relativity extended the new space and time concepts of the special theory of relativity from the domain of electric and magnetic phenomena to all of physics and, particularly, to the theory of gravitation. By building on Einstein's previous work on special relativity, general relativity sought to deal with accelerating frames of reference. This in turn led to the principle of equivalence. By dealing with accelerating frames of reference, general relativity provides astronomers with the best theory to predict the effects of gravity. This book examines in detail new and important work in this field.
The Last Word" on the law of trusts and trustees. Originally published: Boston: Little, Brown and Co., 1929. 2 vols. clxxxi, 804; xviii, 805-1729 pages. Star-paged. (Total 1, 934 pp.) Reprint of the seventh and final edition of a classic treatise first published by Jairus Ware Perry [1821-1877] in 1872. "This treatise ... is the last word on this all important subject; the publishers have well selected Mr. Raymond C. Baldes of the Boston Bar to revise and enlarge [it]. For years it has been regarded as an authority upon the subject matter; here was one writer whose statements unsupported by judicial decisions made the law. The original text has been preserved as far as possible. (...) If there are defects in the execution of this work the writer of this review has failed to find them. (...) It may be that in years to come there will be found a later work upon the subject. If so, it will embody all that there is in the present volumes as revised and published; the basic principle will be the same and only as there are new inventions or later decisions, will it be found that the law has changed. [This] is a work which we cannot too highly compliment ... These two volumes should be upon the desk, or in the library of every lawyer who handles trusts of any kind and who has anything to do with trustees." --Lawyer and Banker and Central Law Journal 22 (1929) 258
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