The year 2010 marked the 100th anniversary of Mark Twain's death. In celebration of this important milestone and in honor of the cherished tradition of publishing Mark Twain's works, UC Press published Autobiography of Mark Twain, Volume 1, the first of a projected three-volume edition of the complete, uncensored autobiography. The book became an immediate bestseller and was hailed as the capstone of the life's work of America's favorite author. This Reader's Edition, a portable paperback in larger type, republishes the text of the hardcover Autobiography in a form that is convenient for the ge.
Mark Twain’s complete, uncensored Autobiography was an instant bestseller when the first volume was published in 2010, on the centennial of the author’s death, as he requested. Published to rave reviews, the Autobiography was hailed as the capstone of Twain’s career. It captures his authentic and unsuppressed voice, speaking clearly from the grave and brimming with humor, ideas, and opinions. The eagerly-awaited Volume 2 delves deeper into Mark Twain’s life, uncovering the many roles he played in his private and public worlds. Filled with his characteristic blend of humor and ire, the narrative ranges effortlessly across the contemporary scene. He shares his views on writing and speaking, his preoccupation with money, and his contempt for the politics and politicians of his day. Affectionate and scathing by turns, his intractable curiosity and candor are everywhere on view. Editors: Benjamin Griffin and Harriet E. Smith Associate Editors: Victor Fischer, Michael B. Frank, Sharon K. Goetz and Leslie Diane Myrick
This book reports on the development and application of a new uniaxial pressure apparatus that is currently generating considerable interest in the field of materials physics. The author provides practical guidelines for performing such experiments, backed up by finite element simulations. Subsequently, the book reports on two uses of the device. In the first, high pressures are used to tune to a Van Hove singularity in Sr2RuO4, while the effects on the unconventional superconductivity and the normal state properties are investigated. In the second experiment, precise and continuous strain control is used to probe symmetry breaking and novel phase formation in the vicinity of a quantum critical point in Sr3Ru2O7.
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