Donald D. Clayton's Principles of Stellar Evolution and Nucleosynthesis remains the standard work on the subject, a popular textbook for students in astronomy and astrophysics and a rich sourcebook for researchers. The basic principles of physics as they apply to the origin and evolution of stars and physical processes of the stellar interior are thoroughly and systematically set out. Clayton's new preface, which includes commentary and selected references to the recent literature, reviews the most important research carried out since the book's original publication in 1968.
Catch a Falling Star, the life story of Donald Clayton, follows the struggle of one human being to find love and to create scientific understanding of the origin of the atoms of chemical elements. Born on an Iowa farm, son of an aviation pioneer, he became the first among his family to attend college, then graduate school in physics at Caltech. His three marriages reveal his battle with sexual anxiety and a sense of loss. At the same time he struggled to discover new knowledge about the creation of the atoms of our bodies and our earth. His close friendship with two great pioneers of the origin of matter enlivened his scientific life in the United States and Europe. His discoveries created two new fields of astronomy whose beginnings are featured in the book. Claytons autobiography chronicles the exciting life that he lived on the frontier of the scientific discovery of the origin of the chemical elements within stars. His adventures centered on academic institutions: California Institute of Technology, Rice University, University of Cambridge, Max Planck Institute in Heidelberg, and Clemson University. Catch a Falling Star tells how science and his love of it endowed his life with meaning.
Donald D. Clayton's Principles of Stellar Evolution and Nucleosynthesis remains the standard work on the subject, a popular textbook for students in astronomy and astrophysics and a rich sourcebook for researchers. The basic principles of physics as they apply to the origin and evolution of stars and physical processes of the stellar interior are thoroughly and systematically set out. Clayton's new preface, which includes commentary and selected references to the recent literature, reviews the most important research carried out since the book's original publication in 1968.
Catch a Falling Star, the life story of Donald Clayton, follows the struggle of one human being to find love and to create scientific understanding of the origin of the atoms of chemical elements. Born on an Iowa farm, son of an aviation pioneer, he became the first among his family to attend college, then graduate school in physics at Caltech. His three marriages reveal his battle with sexual anxiety and a sense of loss. At the same time he struggled to discover new knowledge about the creation of the atoms of our bodies and our earth. His close friendship with two great pioneers of the origin of matter enlivened his scientific life in the United States and Europe. His discoveries created two new fields of astronomy whose beginnings are featured in the book. Clayton's autobiography chronicles the exciting life that he lived on the frontier of the scientific discovery of the origin of the chemical elements within stars. His adventures centered on academic institutions: California Institute of Technology, Rice University, University of Cambridge, Max Planck Institute in Heidelberg, and Clemson University. Catch a Falling Star tells how science and his love of it endowed his life with meaning.
Donald D. Clayton's Principles of Stellar Evolution and Nucleosynthesis remains the standard work on the subject, a popular textbook for students in astronomy and astrophysics and a rich sourcebook for researchers. The basic principles of physics as they apply to the origin and evolution of stars and physical processes of the stellar interior are thoroughly and systematically set out. Clayton's new preface, which includes commentary and selected references to the recent literature, reviews the most important research carried out since the book's original publication in 1968.
Although most people associate the term D-Day with the Normandy invasion on June 6, 1944, it is military code for the beginning of any offensive operation. In the Pacific theater during World War II there were more than one hundred D-Days. The largest—and last—was the invasion of Okinawa on April 1, 1945, which brought together the biggest invasion fleet ever assembled, far larger than that engaged in the Normandy invasion. D-Days in the Pacific tells the epic story of the campaign waged by American forces to win back the Pacific islands from Japan. Based on eyewitness accounts by the combatants, it covers the entire Pacific struggle from the attack on Pearl Harbor to the dropping of atomic bombs on Hiroshima and Nagasaki. The Pacific war was largely a seaborne offensive fought over immense distances. Many of the amphibious assaults on Japanese-held islands were among the most savagely fought battles in American history: Guadalcanal, Tarawa, Saipan, New Guinea, Peleliu, Leyte Gulf, Iwo Jima, Okinawa. Generously illustrated with photographs and maps, D-Days in the Pacific is the finest one-volume account of this titanic struggle.
First published in 2004. This text examines the politics of Islam and the state of Indonesia over recent decades, during which time there has been a notable resurgence of Islamic political movements. It argues that after the state had consistently worked to restrict and exclude political Islam from power, in the late 1980s and 1990s there was a change whereby Suharto courted the support, and began to incorporate, Muslim interests within the political system.
Polymer Blends, Volume 1 highlights the importance of polymer blends as a major new branch of macromolecular science. Topics range from polymer-polymer compatibility and the statistical thermodynamics of polymer blends to the phase separation behavior of polymer-polymer mixtures, transport phenomena in polymer blends, and mechanical properties of multiphase polymer blends. The optical behavior, solid state transition behavior, and rheology of polymer blends are also discussed. This book is organized into 10 chapters and begins with an overview of polymer blends, with emphasis on terminology and the effect of molecular weight on the thermodynamics of polymer blends as well as phase equilibria and transitions. The discussion then turns to the miscibility of homopolymers and copolymers, in bulk and in solution, from the experimental and theoretical viewpoints. The chapters that follow explore the statistical thermodynamics of polymer blends, paying particular attention to the Flory and lattice fluid theories, along with the phase relationship in polymer mixtures. The interfacial energy, structure, and adhesion between polymers in relation to the properties of polymer blends are considered. The final chapter examines the phenomena of low molecular weight penetrant transport. Currently accepted models for unsteady-state and steady-state permeation of polymeric materials are presented. A discussion of unsteady-state absorption and desorption behavior observed in a variety of polymer blends complements the treatment of permeation behavior. This book is intended to provide academic and industrial research scientists and technologists with a broad background in current principles and practice concerning mixed polymer systems.
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