This book has been long awaited in the "interacting particle systems" community. Begun by Claude Kipnis before his untimely death, it was completed by Claudio Landim, his most brilliant student and collaborator. It presents the techniques used in the proof of the hydrodynamic behavior of interacting particle systems.
This third volume of The Journal Of Claude Fredericks is his journal for the year 1943, a Wanderjahr that begins with a spring in Cambridge, where Volume Two ended, but with Fredericks, having left studies at Harvard, living now in a room at Maud Bemiss house on Nutting Road near the Cowley Fathers, seeing various friends from earlier, Brie Taylor, John Simon, Anthony Clark, Paul Doguereau, the George Sartons, and making new friends as well. The summer is spent in a cabin on the shore near Belfast Maine, writing and studying still and coming to know the family that lives on the hill. In September, after spending ten days with Paul Doguereau and Fanny Mason in Walpole New Hampshire on the beautiful Mason estate overlooking the Connecticut and a month in New York living in an apartment on University Place and seeing his friend May Sarton and coming to know Muriel Rukeyser and Julian Beck, he heads with his friend William Quinn to Iowa to live with several friends of theirs who also have left Harvard, in particular Michael Millen and Paul Rail, all of them proclaiming in different ways, as Quinn and Fredericks do in theirs, their objections to Americas part in the war that had begun in December 1941. After two weeks Fredericks leaves to stay with a friend in Chicago, Martha Johnson, and to settle in and write about the troubling events of the previous days and then go on to Missouri, to pay filial pieties to members of his family there and after that go south with his mother to Mexico City for a week and then with her to Acapulco for ten days at Christmas, a spot at that time still undiscovered and with only two small hotels. Finally at the years end he heads back east to New York, where he has plans to settle down and live forever, in the city he had always loved the most of any he knew.
The largely unknown oeuvre of the Philippine architect Leandro V. Locsin (1928-1994) embodies the search for identity in the built environment. Having completed his studies, Locsin opened his practice in 1953 in the capital Manila which, after the aerial attacks by the Allied forces for the liberation of the Philippines from Japanese occupation, had been almost completely destroyed. The reconstruction, as well as technical innovations and favorable political and economic conditions, made it possible for him to design a wide range and large number of projects, including hotels, commercial buildings, churches, cultural venues, and public buildings. His work combines inspiration from modernism with local traditions and comprises a total of 245 projects, of which more than half were completed. The book presents a selection of the most important buildings and projects.
Molecular Aspects of Exercise Biology and Exercise Genomics, the latest volume in the Progress in Molecular Biology and Translational Science series includes a comprehensive summary of the evidence accumulated thus far on the molecular and cellular regulation of the various adaptations taking place in response to exercise. Changes in the cellular machinery are described for multiple tissues and organs in terms of signaling pathways, gene expression, and protein abundance. Adaptations to acute exercise as well as exposure to regular exercise are also discussed and considered. Includes a comprehensive summary of the evidence accumulated thus far on the molecular and cellular regulation of the various adaptations taking place in response to exercise Contains contributions from leading authorities Informs and updates on all the latest developments in the field of exercise biology and exercise genomics
The marine environment, in addition to a not insignificant background of “natural” radioactivity, has continued to receive inputs of radionuclides directly or indirectly through atomic fallout, discharges from the nuclear industry or from nuclear accidents. After their introduction, the fate of these radionuclides is complex with modifications of physicochemical forms, dispersion in marine water masses and adsorption onto sedimentary particles. Marine organisms then bioaccumulate these radionuclides to a greater or lesser extent, dispersing them via their burrowing activities, horizontal and vertical migrations or through food webs. All of these phenomena lead to very variable radioactive contamination, depending on location and the nature of the marine environments concerned, and consequently, to very different doses of irradiation to marine organisms. The harmful effects of ionizing radiation on living marine organisms are felt at varying levels of biological organization from the molecule to the ecosystem, passing through the cell, the organ, the individual and the population. In the end, the radioactive risk for marine organisms can decline according to several situations, which can be normal, programmed or accidental.
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