The Revolution of ’28 explores the career of New York governor and 1928 Democratic presidential nominee Alfred E. Smith. Robert Chiles peers into Smith’s work and uncovers a distinctive strain of American progressivism that resonated among urban, ethnic, working-class Americans in the early twentieth century. The book charts the rise of that idiomatic progressivism during Smith’s early years as a state legislator through his time as governor of the Empire State in the 1920s, before proceeding to a revisionist narrative of the 1928 presidential campaign, exploring the ways in which Smith’s gubernatorial progressivism was presented to a national audience. As Chiles points out, new-stock voters responded enthusiastically to Smith's candidacy on both economic and cultural levels. Chiles offers a historical argument that describes the impact of this coalition on the new liberal formation that was to come with Franklin Delano Roosevelt’s New Deal, demonstrating the broad practical consequences of Smith’s political career. In particular, Chiles notes how Smith’s progressive agenda became Democratic partisan dogma and a rallying point for policy formation and electoral success at the state and national levels. Chiles sets the record straight in The Revolution of ’28 by paying close attention to how Smith identified and activated his emergent coalition and put it to use in his campaign of 1928, before quickly losing control over it after his failed presidential bid.
This book brings together the essential ideas and methods behind applications of variational theory in theoretical physics and chemistry. The emphasis is on understanding physical and computational applications of variational methodology rather than on rigorous mathematical formalism. The text begins with an historical survey of familiar variational principles in classical mechanics and optimization theory, then proceeds to develop the variational principles and formalism behind current computational methodology for bound and continuum quantum states of interacting electrons in atoms, molecules, and condensed matter. It covers multiple-scattering theory, including a detailed presentation of contemporary methodology for electron-impact rotational and vibrational excitation of molecules. The book ends with an introduction to the variational theory of relativistic fields. Ideal for graduate students and researchers in any field that uses variational methodology, this book is particularly suitable as a backup reference for lecture courses in mathematical methods in physics and theoretical chemistry.
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