This three volume compendium begins with a review of our past dependence on fossil fuels as our primary energy source and our future needs to change how our energy is produced and utilized due to diminishing resources and environmental impact. The first volume presents the major options for carbon-free energy including hydroelectric and solar energy for both thermal applications and the production of electricity, wind energy, and biofuels as a replacement in the transportation industry. Yet, all of these options will not work on a large scale without proper energy storage, which is the topic of the second and third volumes. The second volume reviews the possible methods of storing energy in the form of mechanical or thermal energy. Mechanical methods include those that make use of gravitational potential energy and the storage of energy by compressing air or by storing as rotational energy in a flywheel. Sensible heat storage is discussed in terms of its applications to residential heating, community-based storage, solar ponds, and thermal storage for grid-integrated energy systems. The third volume considers various methods of energy storage that make use of electrochemical reactions, electric and magnetic fields, and chemical reactions. It outlines multiple types of batteries as well as supercapacitors, pseudo-capacitors, and hybrid capacitors. It ends with techniques in chemical energy storage and the use of hydrogen, methane, methanol, and ammonia as energy carriers.
The effect which now bears his name, was discovered in 1958 by Rudolf Mössbauer at the Technical University of Munich. At first, this appeared to be a phenomenon related to nuclear energy levels that provided some information about excited state lifetimes and quantum properties. However, it soon became apparent that Mössbauer spectroscopy had applications in such diverse fields as general relativity, solid state physics, chemistry, materials science, biology, medical physics, archeology and art. It is the extreme sensitivity of the effect to the atomic environment around the probe atom as well as the ability to apply the technique to some interesting and important elements, most notably iron, that is responsible for the Mössbauer effect's extensive use. The present volume reviews the historical development of the Mössbauer effect, the experimental details, the basic physics of hyperfine interactions and some of the numerous applications of Mössbauer effect spectroscopy.
The first full-length book heralding the achievements of internationally renowned artist William Dunlap; this is the limited, signed, numbered edition to be in a clamshell box with a limited, signed print by the artist
The transport of electric charge through most materials is well described in terms of their electronic band structure. The present book deals with two cases where the charge transport in a solid is not described by the simple band structure picture of the solid. These cases are related to the phenomena of the quantum Hall effect and superconductivity. Part I of this book deals with the quantum Hall effect, which is a consequence of the behavior of electrons in solids when they are constrained to move in two dimensions. Part II of the present volume describes the behavior of superconductors, where electrons are bound together in Cooper pairs and travel through a material without resistance.
The first part of this book overviews the physics of lasers and describes some of the more common types of lasers and their applications. Applications of lasers include CD/DVD players, laser printers and fiber optic communication devices. Part II of this book describes the phenomenon of Bose-Einstein condensation. The experimental techniques used to create a Bose-Einstein condensate provide an interesting and unconventional application of lasers; that is, the cooling and confinement of a dilute gas at very low temperature.
For many years, evidence suggested that all solid materials either possessed a periodic crystal structure as proposed by the Braggs or they were amorphous glasses with no long-range order. In the 1970s, Roger Penrose hypothesized structures (Penrose tilings) with long-range order which were not periodic. The existence of a solid phase, known as a quasicrystal, that possessed the structure of a three dimensional Penrose tiling, was demonstrated experimentally in 1984 by Dan Shechtman and colleagues. Shechtman received the 2011 Nobel Prize in Chemistry for his discovery. The discovery and description of quasicrystalline materials provided the first concrete evidence that traditional crystals could be viewed as a subset of a more general category of ordered materials. This book introduces the diversity of structures that are now known to exist in solids through a consideration of quasicrystals (Part I) and the various structures of elemental carbon (Part II) and through an analysis of their relationship to conventional crystal structures. Both quasicrystals and the various allotropes of carbon are excellent examples of how our understanding of the microstructure of solids has progressed over the years beyond the concepts of traditional crystallography.
This volume considers various methods of energy storage that make use of electrochemical reactions, electric and magnetic fields, and chemical reactions. This book begins with a consideration of the use of batteries as a means of storing electrical energy. Various common battery chemistries are presented along with a summary of common battery sizes. The electrochemistry of a lithium-ion (Li-ion) cell is discussed in detail. Sodium-based batteries are discussed, as are vanadium flow batteries. The applications of batteries for energy storage are overviewed, concentrating on transportation technologies and grid-scale storage. Methods for storing energy in the form of electric fields include the use of supercapacitors and superconducting coils. The design of capacitors, including supercapacitors, pseudocapacitors, and hybrid capacitors is presented. The applications of supercapacitors for high-power, short-term energy storage are discussed. The use of superconducting magnets to store large amounts of electrical energy without resistive loss is presented. The application of superconducting electrical storage for grid stability is considered. Final chemical energy storage techniques are considered. The use of hydrogen as an energy carrier is discussed in detail. The concept of a future hydrogen economy has been popular in recent years. This volume considers the efficiency of such an approach. Other chemical energy carriers, such as methane, methanol, and ammonia, are discussed.
On September 11, 1857, a band of Mormon militia, under a flag of truce, lured unarmed members of a party of emigrants from their fortified encampment and, with their Paiute allies, killed them. More than 120 men, women, and children perished in the slaughter. Massacre at Mountain Meadows offers the most thoroughly researched account of the massacre ever written. Drawn from documents previously not available to scholars and a careful re-reading of traditional sources, this gripping narrative offers fascinating new insight into why Mormons settlers in isolated southern Utah deceived the emigrant party with a promise of safety and then killed the adults and all but seventeen of the youngest children. The book sheds light on factors contributing to the tragic event, including the war hysteria that overcame the Mormons after President James Buchanan dispatched federal troops to Utah Territory to put down a supposed rebellion, the suspicion and conflicts that polarized the perpetrators and victims, and the reminders of attacks on Mormons in earlier settlements in Missouri and Illinois. It also analyzes the influence of Brigham Young's rhetoric and military strategy during the infamous "Utah War" and the role of local Mormon militia leaders in enticing Paiute Indians to join in the attack. Throughout the book, the authors paint finely drawn portraits of the key players in the drama, their backgrounds, personalities, and roles in the unfolding story of misunderstanding, misinformation, indecision, and personal vendettas. The Mountain Meadows Massacre stands as one of the darkest events in Mormon history. Neither a whitewash nor an exposé, Massacre at Mountain Meadows provides the clearest and most accurate account of a key event in American religious history.
This volume, the third in a series of biographical sketches of students at the College of New Jersey (now Princeton University), is an account of the College and its alumni during the troubled years of the Revolution. Originally published in 1981. The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
On May 12, 1960, as John F. Kennedy campaigned for the presidency, Chester Burge—slumlord, liquor runner, and the black sheep of the proud (and wealthy) Dunlap family of Macon, Georgia—lay in a hospital bed, recovering from surgery. He listened to the radio as the news reported that his wife had just been murdered. Police soon ruled out robbery as a motive, and suspicion centered upon the Ku Klux Klan, which two weeks earlier had descended upon his house to protest his renting of homes in white neighborhoods to black families. Then, on June 1, Chester was charged with the murder, and when the trial finally began, the sweet Southern town of Macon witnessed a story of epic proportions—a tale of white-columned mansions, an insane asylum, real people as “Southern grotesque” as the characters of Flannery O’Connor, and a volatile mix of taboo interracial relationships and homosexuality. This was a story as fantastical as a Greek tragedy, complete with a stunning conclusion. It is told in riveting detail in Richard Jay Hutto’s A Peculiar Tribe of People. Chester Burge was a walking streak of deception and sex. After weaseling his way to be the caretaker of the last Dunlap sister and forcing his way into her will, Burge and his family inherited a fortune as well as one of the family mansions. Then came his numerous assignations with men—including his black chauffeur—and, either single-handedly or with help from a lover, the murder of his wife. The trial would spawn the first testimony in Georgia history of a black man disclosing that he had been a white man’s sexual partner. Burge would be acquitted of murder, but convicted of sodomy. And yet, this Southern grotesque tale would take even more twists and turns before coming to an explosive conclusion.
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