The airplane ranks as one of history's most ingenious and phenomenal inventions--and surely one of the most world-shaking. How ideas about its aerodynamics first came together and how the science and technology evolved to forge the airplane into the revolutionary machine it became is the epic story James R. Hansen tells in The Bird Is on the Wing. Just as the airplane is a defining technology of the twentieth century, aerodynamics has been the defining element of the airplane. Hansen provides an engaging, easily understandable introduction to the role of aerodynamics in the design of such historic American aircraft as the DC-3, X-1, and 747. Recognizing the impact individuals have had on the development of the field, he conveys not only a history of aircraft technology, but also a collective biography of the scientists, engineers, and designers who created the airplanes. From da Vinci, whose understanding of what it took to fly was three centuries too early for practical use, to the invention of the airplane by the Wright brothers, Hansen explores the technological matrix from which aeronautical engineering emerged. He skillfully guides the reader through the development of such critical aerodynamic concepts as streamlining, flutter, laminar-flow airfoils, the mythical "sound barrier," variable-sweep wing, supersonic cruise, blended body, and much more. Hansen's explanation of how vocabulary and specifications were developed to fill the gap between the perceptions of pilots and the system of engineers will fascinate all those interested in how human beings have used aerodynamics to move among, and even beyond, birds on the wing.
Foundations of Russian Military Flight focuses on the early use of balloons and aircraft by the Russian military. The best early Russian aircraft included flying boats designed by Dimitrii Grigorovich and large reconnaissance-bombers created by Igor Sikorsky. As World War I began, the Imperial Russian Navy made use of aircraft more quickly than the army. Indeed, the navy established a precursor to the aircraft carrier. The Imperial Russian Army came to respect over time the work of aircraft that evolved from reconnaissance and bomber to fighter planes. Over 250 army pilots during the war received awards of high distinction for their wartime flights. After the 1917 revolution, both the new Bolshevik government and the reactionary White forces created air arms to combat each other. In the 1920s, the Soviet Union and Germany negotiated agreements that allowed Germany to violate the Treaty of Versailles by building military aircraft and training German military pilots in the USSR. This provided the Soviet Union access to the latest aviation technology and prevented them from falling too far behind the West in this crucial sphere.
Autophagy and Cardiometabolic Diseases: From Moleculer Mechanisms to Translational Medicine covers the science of autophagy in relation to cardiometabolic diseases and the future therapeutic potentials of autophagy regulation in these processes. Processes are not described in isolation, but in concert with other cellular and/or metabolic processes, such as lipogenesis, glucose, energy metabolism and apoptosis. This approach recognizes the multifactorial nature of cardiometabolic diseases, including obesity, diabetes, insulin resistance, hypertension and dyslipidemia. The book provides explanations, while also distinguishing the delicate role for autophagy in pathogenesis and exploring complications for cardiometabolic diseases. By targeting autophagy, it offers new avenues for drug discovery and treatment for cardiometabolic anomalies. It is a perfect resource for cardiology researchers, scientists and medical practitioners. Explains the processes inherent in the protein quality control for pathogenesis and complications of cardiometabolic diseases Provides knowledge from internationally recognized contributors in the field Incorporates a translational approach, covering the basic cellular biology of autophagy and presenting the role of autophagy regulation for both pathogenesis and complication in cardiometabolic diseases Contains access to a companion website with additional illustrations
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